مناهج الدراسات العليا باللغة الانكليزية
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Transcript of مناهج الدراسات العليا باللغة الانكليزية
High Diploma,M.SC. & Ph.D.CURRICULUM
COURSES2012/2013
MINISTERY OFHIGHER EDUCATION AND RESEARCH
MOSUL UNIVERSITYCOLLEGE OF ENGAINEERING
Arrangement byPlanning & Information
CIVIL ENGINEERING DEPT.2012-2013
High Diploma Civil EngineeringM.Sc. Civil Engineering
CIVIL ENGINEERING DEPT.2012/2013
High Diploma STRUCTURESHigh Diploma SOIL MECHANICHigh Diploma ENVIRONMENTAL
CIVIL ENGINEERING DEPT.2012/2013
High Diploma STRUCTURES
H. Diploma STUDY-STRUCTURAL ENGINEERINGFirst Semester/ general
Code SubjectHours
UnitsP T
Eng.Civil 500 Mathematics & Statistics 1 2 2.5Eng.Civil 501 Surveying and Projects Management 1 2 2.5Eng.Civil 502 Structural Engineering -- 2 2Eng.Civil 503 Geotechnical Engineering -- 2 2Eng.Civil 504 Environmental Engineering -- 2 2
TOTAL 2 10 11
SECOND SEMESTER/specific
Code SubjectHours
UnitsP T
Eng.Civil 505 Software Applications 2 1 2Eng.Civil 506 Design of Bridges -- 2 2Eng.Civil 507 Concrete Technology -- 2 2Eng.Civil 508 Design of Special Structures -- 3 3Eng.Civil 509 Retrofitting of Buildings -- 1 1
TOTAL 2 9 10
Third semesterA thesis in the specialty for three months (4 unit)
Total units ( 25 unit)
First Semester / STRUCTURAL ENGINEERING/general
MATHEMATICS AND STATISTICS (500)
1. Mathematics:a. Matrices and determinates Basic concepts Systems of linear equations Rank of matrix Eigen values, Eigen vectors Properties of Eigen vectors System of differential equations
b. Series solution of differential equations Power series method Legendres equation Bessel's equation
2. Statistics: Introduction, Definitions Normal, Z, T -Distributions Chi-Square test, ANOVA Simple Regression Multiple Regression Non-linear Regression
SURVEYING AND PROJECT MANAGEMENTS (501)
1. Surveying
Traditional Surveying Advanced Instruments Photogrammetry GPS-Surveying GIS- Concepts
2. project managements: project planning and control project planning approaches
Operation research Work breakdown structure Value engineering Decision making
STRUCTURAL ENGINEERING (502)
1. Structural Concrete
Limit State analysis and design Introduction Inelastic behaviour of reinforced concrete Moment curvature relation Concept of plastic hinge and collapse mechanisms Allowable rotation for collapse load design
2. Structural Steel
Overhead crane Composite construction Plastic design
GEOTECHNICAL ENGINEERING (503)Soil investigation and classification1. Soil condition in the field2. Stresses in soils3. Flow through porous media4. Shallow foundations5. Engineering properties of rocks
ENVIRONMENTAL ENGINEERING (504)
1. Introduction: What's the environmental engineering.2. Application of mass transfer concept in environmental engineering.3. Water quality in rivers4. Water quality in lakes5. Water treatment6. Wastewater treatment7. Air pollution8. Solid Waste management9. Noise pollution
SECOND SEMESTER/ STRUCTURAL ENGINEERING/specific
SOFTWARE APPLICATION (505)
Introduction to structural software STAAD PRO package Applications of STAADPRO ETAB package Applications of ETAB
DESIGN OF BRIDGES (506)
Introduction Solid slab bridges Girder bridges Balanced cantilever bridges Continuous bridges Arch bridges Substructure of bridges
CONCRETE TECHNOLOGY (507)
1. Grading of aggregates (New concepts)2. Shrinkage and creep- Methods and factors affecting3. Durability of concrete- Aggressive waters and sulphate contents – degrees ofexposure4. Strength of concrete – maturity of concrete, compressive, tensile, & how they arerelated. Lab work experiments5. Admixtures – types - classification6. Mix design – lab work application7. Special concretes – ( SCC ) self compacting preplaced aggregate concrete – highstrength concrete ( According to ACI 211 – 1998 )
DESIGN OF SPECIAL REINFORCED CONCRETE STRUCTURES (508)
Introduction Design of water tanks Design of shear walls Design of portal frames Design of domes and shells Design of silos
RETROFITTING OF STRUCTURES (509)
Introduction Retrofitting materials Types of damages in the structures Retrofitting of bearing walls structures Retrofitting of portal frame structures Retrofitting of other types of structures
H. Diploma-STUDIES SOIL MECHANIC ENGINEERING
CIVIL ENGINEERING DEPT.2012/2013
High Diploma SOIL MECHANICS
First Semester/ general
Code SubjectHours
UnitsP T
Eng.Civil 500 Mathematics & Statistics 1 2 2.5Eng.Civil 501 Surveying and Projects Management 1 2 2.5Eng.Civil 502 Structural Design -- 2 2Eng.Civil 503 Geotechnical Engineering -- 2 2Eng.Civil 504 Environmental Engineering -- 2 2
TOTAL 2 10 11
Second Semester/specific
Code SubjectHours
UnitsP T
Eng.Civil 515 Advanced Soil Mechanics -- 3 3Eng.Civil 516 Advanced Foundation Engineering -- 3 3Eng.Civil 517 Software Applications 2 1 2Eng.Civil 518 Ground Improvement -- 2 2
TOTAL 2 9 10
Third semesterA thesis in the specialty for three months (4 unit)
Total units ( 25 unit)
First Semester/ Soil Mechanic Engineering/ general
MATHEMATICS AND STATISTICS (500)
1. Mathematics:b. Matrices and determinates Basic concepts Systems of linear equations Rank of matrix Eigen values, Eigen vectors Properties of Eigen vectors System of differential equations
c. Series solution of differential equations Power series method Legendres equation Bessel's equation
2. Statistics: Introduction, Definitions ٠Normal, Z, T -Distributions Chi-Square test, ANOVA Simple Regression Multiple Regression Non-linear Regression
SURVEYING AND PROJECT MANAGEMENTS (501)
Surveying
Traditional Surveying Advanced Instruments Photogrammetry GPS-Surveying GIS- Concepts
project managements: project planning and control project planning approaches
Operation research Work breakdown structure Value engineering Decision making
STRUCTURAL ENGINEERING (502)
1. Structural Concrete
Limit State analysis and design Introduction Inelastic behaviour of reinforced concrete Moment curvature relation Concept of plastic hinge and collapse mechanisms Allowable rotation for collapse load design
2. Structural Steel
Overhead crane Composite construction Plastic design
GEOTECHNICAL ENGINEERING (503)
6. Soil investigation and classification7. Soil condition in the field8. Stresses in soils9. Flow through porous media10. Shallow foundations11. Engineering properties of rocks
ENVIRONMENTAL ENGINEERING (504)
10. Introduction: What's the environmental engineering.11. Application of mass transfer concept in environmental engineering.12. Water quality in rivers13. Water quality in lakes14. Water treatment15. Wastewater treatment16. Air pollution
17. Solid Waste management18. Noise pollution
Second Semester/ Soil Mechanic Engineering/ SpecificADVANCED SOIL MECHANICS (515)
1. Geotechnical assessment of soil layers and site investigation techniques.2. Geotechnical problems in Mosul city. Collapsibility Expansive soils Gypsies soils3. Settlement analysis4. Earth embankments and rating structures5. Lab. tests
ADVANCED FOUNDATION ENGINEERING (516)
1. Bearing capacity2. Structural design of foundation3. Structural design of retaining walls4. Special types of footings
SOFTWARE APPLICATIONS (517)
1. Design and analysis using computer programs2. Foundation design3. Slope stability4. Seepage5. Stress distribution
GROUND IMPROVEMENT (518)
1. Soil stabilization Lime Cement Asphalt Special types2. Grouting3. Geotextiles and earth reinforcement
CIVIL ENGINEERING DEPT.2012/2013H. Diploma
ENVIRONMENTAL
H. Diploma-STUDIES-ENVIRONMENTAL ENGINEERING
First Semester/ general
Code SubjectHours
UnitsP T
Eng.Civil 500 Mathematics & Statistics 1 2 2.5Eng.Civil 501 Surveying and Projects Management 1 2 2.5Eng.Civil 502 Structural Design -- 2 2Eng.Civil 503 Geotechnical Engineering -- 2 2Eng.Civil 504 Environmental Engineering -- 2 2
TOTAL 2 10 11
Second Semester/specific
Code SubjectHours
UnitsP T
Eng.Civil 510 Wastewater Treatment 1 2 2.5Eng.Civil 511 Water Treatment -- 2 2Eng.Civil 512 Networks Design 2 2 2Eng.Civil 513 Solid Waste Treatment -- 2 2Eng.Civil 514 Air Pollution 1 2 1.5
TOTAL 4 8 10
Third semesterA thesis in the specialty for three months (4 unit)
Total units ( 25 unit)
First Semester/ Environmental Engineering / General
MATHEMATICS AND STATISTICS (500)
1. Mathematics:d. Matrices and determinates Basic concepts Systems of linear equations Rank of matrix Eigen values, Eigen vectors Properties of Eigen vectors System of differential equations
e. Series solution of differential equations Power series method Legendres equation Bessel's equation
2. Statistics: ٠Introduction, Definitions Normal, Z, T -Distributions Chi-Square test, ANOVA Simple Regression Multiple Regression Non-linear Regression
SURVEYING AND PROJECT MANAGEMENTS (501)
Surveying
Traditional Surveying Advanced Instruments Photogrammetry GPS-Surveying GIS- Concepts
project managements: project planning and control project planning approaches
Operation research Work breakdown structure Value engineering Decision making
STRUCTURAL ENGINEERING (502)
1. Structural Concrete
Limit State analysis and design Introduction Inelastic behaviour of reinforced concrete Moment curvature relation Concept of plastic hinge and collapse mechanisms Allowable rotation for collapse load design
2. Structural Steel
Overhead crane Composite construction Plastic design
GEOTECHNICAL ENGINEERING (503)
12. Soil investigation and classification13. Soil condition in the field14. Stresses in soils15. Flow through porous media16. Shallow foundations17. Engineering properties of rocks
ENVIRONMENTAL ENGINEERING (504)
19. Introduction: What's the environmental engineering.20. Application of mass transfer concept in environmental engineering.21. Water quality in rivers22. Water quality in lakes23. Water treatment24. Wastewater treatment25. Air pollution
26. Solid Waste management27. Noise pollution
Second Semester/ Environmental Engineering/ Specific
WASTEWATER TREATMENT (510)
1. Wastewater flowrate; characteristics2. Wastewater treatment objectives3. Physical unit operation Screening; Grit chambers; Flow equalization; Sedimentation4. Biological Unit Operation Suspended growth units; Activated sludge processes and modifications5. Aerated lagoons6. Stabilization ponds7. Attached growth units8. Operational difficulties9. Design of wastewater treatment systems
WATER TREATMENT (511)
1. Physical, chemical, and biological characteristics of water .2. Drinking water standards .3. Sedimentation and clarification ( kinds and types of tanks and designprocedure)4. Coagulation ( theory and design application )5. Filtration ( types and design consideration with applications)6. Membrane separation technologies .7. Ion exchange and carbon adsorption .8. Water sterilization technologies .
NETWORKS DESIGN (512)
1. Water resources .2. Water consumption .3. Water pumping.4. Types of distribution systems .5. Desig٠n of pipe lines by hardy cross method , circular method andequivalent pipe method .6. Epanet program
7. Wastewater quantities and variations .8. Types of sewerage systems .
- sanitary sewers- storm sewers- combined sewers
9. Computer application of sewerage systems by Sewer Card Program.
SOLID WASTE TREATMENT (513)
1. Introduction2. Solid waste generation3. Characteristics of solid waste4. Collection and routing of solid waste5. Solid wastes recycle and reuse6. Miscellaneous methods of solid waste treatment7. Solid waste disposal by sanitary landfill
AIR POLLUTION (514)
1. Introduction; Overview of Emission; clean air standards2. Types of pollution sources3. Air pollution and meteorology Atmospheric stability and mixing depth Smock plumes4. Indoor air quality5. Mathematical Models The point source Gaussian plume model A line-source dispersion model6. Design and operation of air treatment units
CIVIL ENGINEERING DEPT.2012/2013
M.Sc.-STRUCTURESPh.D. STRUCTURESM.Sc.- SOIL MECHANICM.Sc.- ENVIRONMENTALM.Sc.- TRANSPORTION
CIVIL ENGINEERING DEPT.2012/2013
M.Sc.- STRUCTURES
M.Sc. STUDY-STRUCTURAL ENGINEERINGFIRST SEMESTER
Item code Subjects UnitsHOURST P
1 Eng.Civil 501 MATHEMATICS AND NUMERICAL ANALYSIS 3 3 --2 Eng.Civil 502 THEORY OF ELASTICITY AND PLASTICITY 3 3 --
3 Eng.Civil 503 ADVANCED STRUCTURAL ANALYSIS 3 3 --
4 Eng.Civil 504 CONCRETE TECHNOLOGY 1.5 1 1
5 Eng. Civil 505 ENGLISH LANGUAGE 1 -- 2
TOTAL 11.5 10 3
SECOND SEMESTER
Item code Subjects UnitsHOURS
T P1. Eng.Civil 506 DYNAMICS OF STRUCTURES 2 2 --2. Eng.Civil 507 EXPERIMENTAL STRESS ANALYSIS 1.5 1 13. Eng.Civil 508 ADVANCED REINFORCED CONCRETE 2.5 2 14. Eng.Civil 509 THEORY OF PLATES 3 3 --5. Eng.Civil 510 FINITE ELEMENT METHOD 2.5 2 16. Eng.Civil 511 ENGLISH LANGUAGE 1 -- 2
TOTAL 12.5 10 5
Advanced Engineering Mathematics And Numirecal Analysis (3-1)\Eng.Civil (501)ADVANCED ENGINEERING MATHEMATICS
1. Singularity Function
a. Unit step, delta and double function.
b. Integration of singularity function.
c. Application
2. Laplace Transformation
a. Laplace transforms Inverse transform.
b. Laplace transform of derivative.
c. Shifting on the s & t axis
d. Laplace transform of singularity function.
e. Differentiation and integration of transform.
f. Convolution, Integral equation
g. Periodic function
h. Application
3. Laplace transformation applied to partial differential equation
NUMERCAL ANALYSISa. Active column solver and solution of tridiagonal system.
b. Eigen values and eigenvectors.
c. Solution of ordinary differential equation by weight residualmethod.
d. Numerical integration.
e. Solution of nonlinear system of equation.
Theory of Elasticity and Plasticity (3-0) \ Eng.Civil (502)Theory of ElasticityIntroduction and definitions1- Stress-Strain, Hooke's low ,Index relation, stress-strain Tensors, plane
Stress and plane strain, strain measurement, Mohr's circle, quilibriumEquations, Boundary conditions and compatibility Equations, stressfunction.
2- Two-dimensional problems in rectangular coordinates (cantileverBeam, uniform loaded beam).
3- Two-dimensional problems in polar coordinates Stress and straintransformation at points.
4- Axi-symmetry problems5- Torsion of straight bars, solution of torsional problems by strain energy.Theory of Plasticity1-Stress-strain in simple tension,2-Stress analysis in elasticity and Plasticity, Theory of Plasticity,
Equations to stress and strain curve, Max load in tension, strain rate intension and compression.
3-Yield criteria (Tresca criteria, vone Mises, Parandtl - Reuss, Levy-Mises,Work hardening, Elastic –plastic bending of beam, rings and plates.
Advanced Structural Analysis (3-0)/ Eng. Civil (503)1. Introduction.2. Actions and displacements.3. Work and Energy.4. Strain Energy.5. Flexibility Method;
(i) Plane Truss.(ii) Beams.(iii) Plane Frames.
6. Stiffness Method;(i) Springs.
(ii) Plane Trusses.(iii) Space Trusses.(iv) Beams.(v) Plane Frames.(vi) Grillages.(vii) Space Frames.
Concrete Technology (2-1) \ Eng.Civil (504)
1. Grading of aggregates as related to:
Particles size distribution
Standard deviation.
Average sieve size.
Water demand of the mix.
New and revised specifications.
New concepts and applications.
Related research published works.
2. Properties and strength of concrete
Factors affecting quality of concrete.
w/c rations and modes of failure.
Maturity of concrete.
3. Creep and shrinkage – application of F.I.P method – European code –Theory of linear creep – other approaches.
4. Durability of concrete.
Aggressive waters.
Sulphate treatments
5. Special concretes
Light weight concretes- No fines concrete.
Self compacting concrete.
Sawdust concrete.
Intrusion concrete.
6. Mix Design
Philosophy and principles of mix design
Methods.
Applications and comparison.
7. Introduction to Rheology (Flow of materials) treatment of workabilityof fresh concrete.
8. Quality control
Dynamics of Structure (2-0) \ Eng.Civil (506)1 Basic Concept
1-1 Introduction to Structural Dynamic1-2 Types of Dynamic Loads1-3 Sources of Dynamic Loads1-4 Distinguishing Features of a Dynamic Problem1-5 Methodology for Dynamic Analysis1-6 Types of Structural Vibration1-7 Organization of the Text1-8 System of Units
Single-Dgree-of- Freedom (SDOF) System2 Equation of Motion and Natural Frequency
2-1 Fundamental Components of a Vibrating System2-2 D Alembert s Principle of dynamic Equilibrium2-3 The Energy Method2-4 The Principle of Virtual Displacements
3 Undamped Free Vibration3-1 Simple Harmonic Motion3-2 Interpretation of the Solution3-3 Equivalent Stiffness3-4 Rayleigh Method
4 Damped Free Vibration4-1 Free Vibration with Viscous Damping4-2 Logarithmic Decrement4-3 Hysteresis Damping4-4 Coulomb Damping
5 Response to Harmonic Excitation5-1 Forced Harmonic Response of Undamped System5-2 Beating and Resonance5-3 Forced Harmonic Vibration with Viscous Damping5-4 Effect of Damping Factor on Steady-state Response and Phase
Angle
5-5 Harmonic Excitation Caused by Rotating Unbalance5-6 Base Excitation5-7 Vibration Isolation and Transmissility
6 Response to Periodic and Arbitrary Dynamic Excitation6-1 Response to Periodic Excitation6-2 Response to Unit Impulse6-3 Duhamel Integral6-4 ResponsetoArbitraryDynamicExcitation6-5 Response Spectrum
7 Numerical Evaluation of Dynamic Response7-1 Interpolation of the Excitation7-2 Direct Integration of the Excitation of Motion7-3 Central Difference of the Equation of Motion7-4 Runge-kutta Methods7-5 Average Acceleration Method7-6 Linear Acceleration Method7-7 Response to Base Excitation7-8 Response Spectra by Numerical Integration
Experimental Stress Analysis (1-1) \ Eng.Civil (507)Type of Models , Material used in build up models, Dimensional analysis.Loads (generation, application and measurements), Deflectionsmeasurement (mechanical , Optical ) Elastic strain measurement(Mechanical , Optical and electrical)Types of strain gauge (dial gauge, Demic gauge , Extensometer , Electricalstrain gauge ) Moire Method
Advanced Reinforced Concrete (3-0) /Eng. Civil (508)1. Shear-Friction.2. Shear Strength of Corbels and Brackets.3. Strut-and-Tie Model for the Design of Deep Beams and Brackets.4. Design of R. C. Shear Walls for Shear and Moments.5. Moment-Curvature Relationships for Beams and Columns.6. Limit-Design Method for Beams.7. Some aspects of Yield line theory.8. Affinity Theory9. Strip method for the design of slabs.
10. Serviceability of beams and one-way slabs.11. Effect of creep and shrinkage on beams and columns.
Theory of Plates (3-0) /Eng. Civil (509)1- Introduction, Type of plates (Thick and thin plate, linear and nonlinear
plate , Isotropic and Anisotropic plate ),Cylindrical Bending of pate,pure bending of plate, moment curvature relation in Rectangular plate,moments and curvature transformation, strainEnergy in pure bending
2- Small deflection of laterally load plates and boundary conditionsMembrane active of plates
3- Exact theory of plates
4- Simply supported of plates (method of solution)(Nauier solution, le'vy'ssolution )
5- Plate with different boundary conditions, plate on elastic foundation
6- Effect of transverse shear deformations on bending of plate
7- Plate of various shapes
8- Application of finite difference method
9- Bending of Anisotropic plate
10- Combined action of lateral load and in plane forces, large deflection ofplates
FINITE ELEMENT METHOD (2-1)/ Eng.Civil (510)1. Basic concept of finite element method.2. Convergence criteria.3. Triangular element for plain stress-plain strain and axisymmetrical
stress analysis.4. Isoparametric element formulations for plain stress, plain strain,
plates and shells.
CIVIL ENGINEERING DEPT.2012/2013
Ph.D.- STRUCTURES
COLLEGE OF ENGINEERINGCIVIL ENGINEERING DEPARTMENT
Ph.D STUDY-STRUCTURAL ENGINEERINGFIRST SEMESTER
Itemcode
Subjects Units HOURST P
1Eng.Civil 601 ADVANCED ENGINEERING
MATHEMATICS (II)2 2 --
2 Eng.Civil 602 PLASTICITY APPLICATIONS 2 2 --3 Eng.Civil 603 STABILITY OF STRUCTURES 2 2 --4 Eng.Civil 604 PRESTRESSED CONCRETE 2 2 --5 Eng.Civil 605 THEORY OF SHELLS 2 2 --6 Eng.Civil 606 ENGLISH LANGUAGE 1 -- 2
TOTAL 11 10 2
SECOND SEMESTERItem code Subjects Units HOURS
T P1. Eng.Civil 607 DYNAMICS OF STRUCTURES 2 2 --2. Eng.Civil 608 RELIABILITY OF STRUCTURES 2 2 --3. Eng.Civil 609 ADVANCED STEEL STRUCTURES 2 2 --4. Eng.Civil 610 SPECIAL TOPICS 2 2 --5. Eng.Civil 611 NONLINEAR FINITE ELEMENT 3 3 --6. Eng.Civil 612 ENGLISH LANGUAGE 1 -- 2
TOTAL 12 11 2
ADVANCE ENGINEERING MATHEMATICS (II)\ Eng.Civil 601
Two dimensional partial differnetial equations1. Vibreating strings and Membranes
a. The Transversely vibreting string.
b. The Transversely vibreting membranes.
c. Steady state string and membranes.
2. Two dimensional consolidation equation.
3. Two dimensional laplace equation.
4. Application in civil engineering.
5. Solutions of plate equations / Navier solution
- Introduction to optimization
- Objective of optimization
- Generalized optimization problem
- Single variable optimization without and with constraints.
- Multivariable optimization with out and with constraints.
- Optimization using numerical search techniques.
PLASTICITY APPLICATIONS \ Eng.Civil (602)
1. General Theory1.1 Analysis of Stress and strain in plasticity1.2 Matrices of stress and strain and rate of change of strain.1.3 Rate of change in tension and compression.1.4 Two and Three dimension system in tension and compression.1.5 Three dimension mohr circular1.6 Strain – Deformation relationship
2. Yield criteria ( yield surface)2.1 criteria of Tresca2.2 criteria of Von- Mises2.3 Equation of Brandel – Russe2.4 Equation of Levi – Mises2.5 Work Harding
3. Perfecting plastic body3.1 Combined Tension Torsion in circular rode.3.2 Elasto plastic flexural in beam3.3 Axisymmetric axis strain3.4 Louder band Theory3.5 Plane stress : line of discontinues3.6 Thick wall cylinder3.7 Cylindrical tube and compression3.8 Plastic stress in the layer under Tension –compression
4. Plastic analysis structure4.1 Plane frame4.1.1. Lower and upper theory in plastic analysis4.1.2. Combined mechanism theory4.1.3. Minimum weight design theory4.1.4. Estimation of Deformation4.2 Space structure three dimension4.3 Grillage4.4 Complex frame4.5 Arches
5. Plastic bending in circular plate5.1 Plastic bending in rectangular5.2 Steel plate5.3 Reinforced concrete plate
STABILITY OF STRUCTURES\ Eng. Civil (603)1. General principle-Bifurcation and Energy approaches.2. Stability of simple structures.3. Beam-Columns, bending and axial thrust4. Material and geometric nonlinearatiy.5. Beam column under lateral loadings.
6. Stability function7. Torsional bukling of beam.8. Stability of rigid frames.9. Bukling of plates and shells.
Prestressed Concrete /Eng. Civil (604)
2. Materials and Prestressing systems.
4. Design of sections for flexure;(i) Service load design.
(ii) Strength design.(iii) Cable Profile.(iv) End Block design of Pre-Tensioned and Post-Tensioned
members.5. Design of Prestressed tension members.6. Design of Prestressed Compression Members.7. Design of Prestressed concrete slabs.
THEORY OF SHELLS\ Eng.Civil 605
1. Cylindrical Shells1.1 Membrane theory of Cylindrical Shells1.1.1 Cylindrical shells with circular Directrix1.1.2 Cylindrical shells with Cycloidal Directrix1.1.3 Cylindrical shells with Catenary Directrix1.1.4 Cylindrical shells with Parabolic Directrix
1.2. Bending Theory of Cylindrical Shells.1.2.1 The Finster walder Theory.1.2.2 The D-k-j Theory.
2. Shells of Double Curvature.
2.1.1 Membrane Theory
2.1.2 The Spherical Shell
3. General Membrane Theory of shell with DoubleCurvature .
4. Bending Theory of Shallow Shells of Double Curvature
Dynamics of Structure (607)
freedom (MDOF) system-of-dgree-Multi
General Properties Matrices for Vibrating System1. Flexibility Matrix
Equations of motion and undamped free vibrationon
4. Orthogonality of Natural Modes-Body Modes
8. Approximate Method for Estimating the Fundamental Frequency
Numerical Solution Methods for Natural Frequencies and Mode Shapes
4. Generalized Jacobi Methodon Methods for Large Eigenproblems
Analysis of Dynamic Response by Mode Superpotion1. Mode Displacement Method for Undamped System
of Model Response
6. Response Spectrum Analysis
Analysis of Dynamic Response by Direct Interation
2. The Central Difference Method3. The Wilson-0 Method4. The Newmark Method
Continuous systemVibrations of Continuous system1. Longitudinal Vibration of a Uniform Rod
4. Orthogonality of Normal Modes
6. Approximate Methodctical ApplicationsPra
Earthquakes and Earthquake Ground Motion1. Causes of Earthquakes2. Faults3. Seismic Waves
4. Earthquake Intensity
5. Earthquake Magnitude6. Seismicity
8. Earthquake Damage MechanismsEarthquake Response Structures1. Time-History Analysis: Basic Concepts2. Earthquake Response Spectra3. Earthquake Design spectra4. Response of MDOF system5. Generalized SDOF system6. In-Bulding Response spectrum
8. Sesmic design CodesBlast Loads on Structures
1. Sources of Blast Loads2. Shock Waves
4. Strain-Rate Effects
Reliability Theory of Structures (608)
1. The Safety problem2. Limit states, safety margin and Safety factor
4. Measures of structural reliability5. Reliability of structural system
7. codes and structural reliability
Advanced steel Structural (609)
2. Tension and Compression members3. Laterally supported members
4. Laterally torsional buckling5. Frames-Braced and Unbraced6. Welding7. Composite Steel-concrete; beams, slabs, columns, and frames
Special Topics, Eng. Civil (610)
1. Design of Beam-Column joints for gravity and lateral loads.2. Strut-and Tie method for the design of Joints.
4. Assigned Limit method for the design of R. C. Frames.. Introduction and general description and objective٥
-fracture-fatigue-crack-fracture-crack crush
-bond-steel behavior.-formulation of different problems and simple
soluation.
NON LINEAR FINITE ELEMENT civil eng (611)
-types: nonlinear elasticity,plasticity, ect…
n-types-formulation-simple cases solution
CIVIL ENGINEERING DEPT.2012/2013
M.Sc.- SOIL MECHANIC
M.Sc-STUDIES SOIL MECHANIC ENGINEERING
First Course
Item code Subjects UnitsHr.
Theoretical
Practical
1. Eng. Civil 512ADVANCE ENGINEERINGMATHEMATICS
2 2 ــ
2. Eng. Civil 513 NUMERCAL ANALYSIS 2 1 23. Eng.Civil 520 SPECIAL TOPICS 2 2 --
4.Eng. Civil 515 ADVANCED SHEAR
STRENGTH ANDAPPLICATION
3 2 2
5. Eng.Civil 516 GROUND IMPROVEMENT 3 3 ــ6 Eng.Civil 505 ENGLISH LANGUAGE 1 ــ 2
TOTAL 13 10 6
Second Course
Item code Subjects UnitsHr.
Theoretical
Practical
1.Eng. Civil 514 ADVANCED MECHANICS
of MATERIAL3 2 2
2. Eng. Civil 517ADVANCED STRESSESAND SETTLEMENTANALYSIS
2 2 --
3. Eng. Civil 518 FINIT ELEMENT 2.5 2 1
4. Eng. Civil 519FOUNDATIONENGINEERING
2.5 2 1
5. Eng.Civil 521 EARTH STRUCTURES 2 2 --6. Eng.Civil 511 ENGLISH LANGUAGE 1 ــ 2
TOTAL 13 10 6
ADVANCE ENGINEERING MATHEMATICS\ Eng. Civil 5121. Series Solution of Differential Equations:
a. Power series method.
b. Theory of Power series method.
c. Legender equation.
d. Legender polynomials Pn (x0).
e. Extended Power series method.
2. Singularity Functions:a. Unit step, Delta and doublet function.
b. Integration of singularity functions.
c. Applications.
3. Lap lace Transformation:a. Lap lace transform, Inverse transform.
b. Lap lace transform of derivatives.
c. Shifting on the s & t axis.
d. Lap lace transform of singularity functions.
e. Differentiation and Integration of transform.
f. Convolution, Integral equation.
g. Periodic functions.
h. Applications.
4. Partial Differential equations:a. Basic concepts.
b. One - Dimensional wave equation.
c. Free longitudinal vibration of beams.
d. Free transverse vibration of beams.
e. One - Dimensional heat equation.
f. One - Dimensional consolidation equation.
g. Two - Dimensional Lap lace equation.
h. Lap lace transformation applied to partial differential equations
NUMERCAL ANALYSIS\ Eng. Civil 5131. Solution of linear system of equations.
2. Eigenvalues and eigenvectors.
3. Roots of non-linear equations.
4. Solution of ordinary differential equations.
5. Solution of partial differential equations.
6. Finite difference method.
7. Interpolation.
8. Numerical integration.
ADVANCED MECHANICS of MATERIAL\ Eng. Civil 5141. Introduction and basics of elasticity.
2. Stress Strain Relationship.
3. Direct, shear and torsion stresses.
4. The kinetic equation.
5. The equilibrium equations.
6. Experimental strain analysis.
7. Viscoelasticty .
ADVANCED SHEAR STRENGTH APPLICATION\Eng. Civil 5151- Shear strength (Saturated and unsaturated soil, Effective stresses, Pore
water pressure parameters, stress path),
2- Slope stability.
3- Experimental tests (Index tests, Triaxial test for soil and rock,
Rowe cell, Collapse and swelling tests, etc)
GROUND IMPROVEMENT \ Eng. Civil5161. Problematic soils.
2. Expansive soils and introduction to clay mineralogy.
3. Mechanical stabilization.
4. Soil Stabilization (Cement stabilization, Lime stabilization, Asphalt
stabilization).
5. Combined stabilization.
6. Deep compaction methods.
7. Introduction to grouting.
8. Introduction to reinforced earth and geotextiles.
ADVANCED STRESSES AND SETTLEMENT ANALYSIS\Eng. Civil5171. Stresses distribution in soils.
2. Compressibility and volume change.
3. Settlement analysis.
FINIT ELEMENT\ Eng. Civil 5181 - Introduction.
Variational methods numerical solution, general concept of the finite
element method.
2- Programming review, computer methods for problems solving.
3- Finite element formulation - physical types of problems element type ,
interpolation shape functions.
4- Elements assembling - solution methods, with simple examples using
Fortran language .
5- Introduction in using finite element software instead of programming in
Fortran Using ANSYS preprocessing
6- Problem modeling - solution - postprocessing using ANSYS
7- Applications on soil problems, seepage & soil structure Interaction.
FOUNDATION ENGINEERING\ Eng. Civil 5191- Introduction.
2- Sub-grade reaction.
3- Field test and their usage in bearing capacity.
4- Bearing capacity of shallow and deep foundation.
Pile foundation.
SPECIAL TOPICS IN SOIL MECHANICS\ Eng. Civil 5201- Rock mechanics (6 weeks)
2- Introduction to soil dynamics (3 weeks)
3- Geotechnical site investigation (3 weeks)
4- Drilled caissons (3 weeks)
EARTH STRUCTURES\ Eng. Civil 5211- Seepage flow and application2- Lateral earth pressure (Coulomb and Rankine earth pressure theories3- Retaining walls4- Sheet piles5- Anchored bulkheads6- Bracing of excavation)
7- Flexible retainin
CIVIL ENGINEERING DEPT.2012/2013
M.Sc.- ENVIRONMENTAL
M.Sc-STUDIES-ENVIRONMENTAL ENGINEERING
First Course
Item code Subjects Units
Hr.Theoretica
l
Practical
1. Eng. Civil 522 Advanced Engineering Statistics (software) 1.5 1 1
2. Eng .Civil 523 Advanced Water Supply Engineering 2.5 2 13. Eng. Civil 524 Advanced Wastewater Treatment and Reuse 4 3 24. Eng. Civil 525 Numerical Analyses 2 1 2
5. Eng. Civil 526Chemistry and Microbiology forEnvironmental Engineering
2.5 2 1
6. Eng. Civil 505 English Language 1 1 ---TOTAL 13.5 10 7
Second Course
Item Code Subjects UnitsHr.
Theoretical
Practical
1. Eng. Civil ٥٢٧ Water Quality Engineering 2 2 --
2.Eng. Civil ٥٢٨
Industrial Wastewater Treatmen2.5 2 1
3. Eng. Civil ٥٢٩ Advanced Fluid Mechanics 1.5 1 14. Eng. Civil 530 Air Pollution 1.5 1 15. Eng. Civil ٥٣١ Finite Element 1.5 1 16. Eng. Civil ٥٣٢ Special topics 2.5 2 17. Eng. Civil 511 English Language 1 1 --
TOTAL 12.5 10 5
ADVANCED ENGINEERING STATISTICS (SOFWARE) \ Eng. Civil522
1. Test of hypothesis
Z and t – testUnpaired t – testPaired t- test
2. Experimental design and analysis
Analysis of variance ANOVACompletely randomized design CRDTurkey test
3. Randomized complete block design RCBD
4. Duncan multiple range test
5. Factorial experiments
6. Simple linear regression
7. Multiple regression
8. Chi square test
ADVANCED WATER SUPPLY ENGINEERING \ Eng. Civil 5231. Water systems: source of supply, transmission works, distribution
works and design analysis (computer programming)2. Water volumes and rate concepts, population growth and population
density, capacity requirements for constituents structure.
3. Improving reservoirs and service storage capacity pumping and
pumps characteristics.
4. Purification works: clarification, coagulation and flocculation,
Filtration, design criteria and plant units capacity.
5. Miscellaneous water treatment methods, water softening, cation
exchange, lime – soda method, disinfection, solar disinfection,
chlorinating, ozonation, water desalination and method used.
ADVANCED WASTEWATER TREATMENT AND REUSE \ Eng.Civil 524
10. Wastewater flowrate; characteristics11. Wastewater treatment objectives, methods and design
12. Physical unit operation
-Screening Grit chambers Flow equalization Sedimentation
Flotation
13. Biological Unit Operation
14. Suspended growth units
-Activated sludge processes and modifications Processes for
biological nitrogen removal
15. Operational difficulties
16. Aerated lagoons
17. Stabilization ponds
18. Categories of wastewater reuse and its applications
19. Mass balance applications in water reuse
20. Mathematical models used for risk assessment
21. Water reclamation technologies
22. Types and calculations of reclaimed water storage
NUMERICAL ANALYSES \ Eng. Civil 5251. Solution of linear system of equations.2. Eigenvalues and eigenvectors.
3. Roots of non-linear equations.
4. Solution of ordinary differential equations.
5. Solution of partial differential equations.
6. Finite difference method.
7. Interpolation.
8. Numerical integration
CHEMISTRY AND MICROBIOLOGY FOR ENVIRONMENTAL
ENGINEERING \ Eng. Civil 526
1. Physical and chemical properties of water ( Physical properties,
inorganic chemical properties , organic chemical properties of water,
solubility , oxidation and reduction .
2. Atmospheric chemistry ( structure of earth's atmosphere, chemical
composition of earth's atmosphere
3. ٍ◌Soil chemistry
4. Chemical and biological reactions (kinetics)
5. Materials balance and reaction configuration
6. Microbiology (classification of microbial world, bacterial growth,
aspects of bacteria of special interest to environmental engineering)
WATER QUALITY ENGINEERING \ Eng. Civil 5271. Characteristics of waters and wastewaters, engineer's role.
2. Quality of water supplies, rivers pollution, self purification, toxic
material, overall effects of pollution, control river pollution.
3. Water reuse and land disposal, water quality management, water
reclamation, wastewater and sludge disposal, land disposal, spray
irrigation, rapid infiltration and overland runoff.
4. Characteristics of water, physical, chemical, and biological method of
analysis and sampling, criteria and standards of domestics, industrial
and agricultural.
5. Miscelleous treatment plant control, quality control in distribution
systems, corrosion phenomenon, causes and cures.
INDUSTRIAL WASTEWATER TREATMENT\Eng. Civil 528
1. Introduction ; Industrial wastewater characteristics
2. Effect of industrial wastewater on municipal wastewater treatment
plants and on environment
3. Management strategies for pollution preventation and waste
minimization
4. In-plant survey; Identifying wastewater generating operations;
Preparing mass balance calculations for industrial operations; In-
plant control; Industrial water conserving and recycling
5. Industrial wastewater treatment technologies
6. Physical units; Chemical units; Biological units: Attached growth
systems(Rotating biological contactors; Trickling filters)
7. Studying of selected wastewater industries
8. Dairy industry; Textile industry; Drugs industry; Soft drinking
industry; Slaughterhouses; Tannery industry;
ADVANCED FLUID MECHANICS \ Eng. Civil 529
General description of fluid mechanics. Fluid statistics and relative motion
of liquids Kinematics. General theory of Stress and rate of strain
fundamental equations of flow, one dimensional, two and three dimensional
laminar and turbulent flow . Compressible and incompressible.
AIR POLLUTION \ Eng. Civil 530
7. Introduction; Overview of Emission
8. Criteria Pollutant and clean air standards
9. Types of pollution sources
10.Air pollution and meteorology
Adiabatic lapse rate
Atmospheric stability
Radiation inversion
Subsidence inversion
Atmospheric stability and mixing depth
Saturated adiabatic lapse rate and cloud formation
Smock plumes
11.Indoor air quality
12.Mathematical Models
The point source Gaussian plume model
A line-source dispersion model
Area-source models
In door air quality model
FINITE ELEMENT \ Eng. Civil 531
1. Concept of an element
2. Variations element shape – one, two and three dimensional elements
3. Finite element procedure, variational principle and method of
weighted residual principle of minimum potentional energy.
4. Convergence and compatibility requirements
5. Finite element formulation for diffusion problems
SPECIAL TOPICS \ Eng. Civil 532
1. Radiation :-Sources of radiation-Nature of radiation-Environmental impact-Methods of disposal
2. Noise pollution:-Introduction,-Physical properties of sound,- Noise criteria and standards- Noise measurement,- Environmental impact-Noise control ( sound insulation)
3. Solid Waste:-Sources of solid waste-Classification and composition- Municipal solid waste treatment-Biological treatment-Thermal treatment-Reuse and recycle
CIVIL ENGINEERING DEPT.2012/2013
M.Sc.- TRANSPORTIONENGINEERING
First Course :
No. SubjectHours
UnitsTheory Lab.
1. Advanced Traffic Engineering 3 ـــــــــ 3
2. Pavement Analysis and Design 3 ـــــــــ 3
3. Soil Stabilization 2 ـــــــــ 2
4. Advanced EngineeringStatistics
2 ـــــــــ 2
5. Urban Transportation Planning 2 ـــــــــ 2
6. English Language 1 ـــــــــ 1
Total 13 ١٣
Second Course :
No. SubjectHours
UnitsTheory Lab.
1. Advanced Geometric Design 2 ـــــــــ 2
2. Highway Material 2 2 3
3.Highway traffic andenvironmental safety 2 ـــــــــ 2
4. Railway and AirportEngineering
3 ـــــــــ 3
5. Finite Element Method 2 ـــــــــ 2
6. English Language 1 ـــــــــ 1
Total 13 1 ١٣
Syllabus of the Highway and Transportation Courses:-
-Advanced Traffic Engineering:Week No. Syllabus
1 Introduction
2 Capacity and Level of Service
3,4 Basic Freeway System
5 Wearing Areas
6,7 Multi-lane Highways
8,9 Two-lane highways
10 Intersection Control
11 Unsignalized Intersection
12 Traffic Signal
13,14,15 Signalized Intersection (Analysis, Designed and Planning)
-Pavement Analysis and Designed:Week No. Syllabus
1 Introduction
2,3 Stress and Strain in Flexible Pavements
4,5 Stress and Deflection in Rigid Pavements
6,7 Traffic loading and Volume
8 Pavement Performance
9,10,11 Flexible Pavement Design
12,13 Rigid Pavement Design
14,15 Design of Overlays
-Soil Stabilization:Week No. Syllabus
1 Introduction
2 Principles of Soil Stabilization
3 Problematic Soil
4,5 Mechanical and Stabilization Densification
6,7 Cement Stabilization
8,9 Lime Stabilization
10,11 Asphalt Stabilization
12,13 Special Methods of Stabilization
14,15 Methods and Machinory
-ngineering Statistics:Advanced EWeek No. Syllabus
1 Introduction and Data Presentation
2 Measures of Central Tendency and Dispersion
3 Probability Distribution
4 Sampling and Estimation Theory
5 Test of Hypothesis
6 Normal Distribution
7 t-Distribution
8 f-Distribution
9 Chi-Square Distribution
10,11,12 Analysis of Variance
13 Simple Linear Regression
14 Multiple Linear Regression
15 Simple Non-Linear Regression
-Advanced Geometric Design:Week No. Syllabus
1 Highway Functional Classification
2,3 Design Control and Criteria
4 Elements of Design
5 Cross Section Elements
6,7 Sight Distance
8,9,10 Design of the Alignment
11 Geometric design of Highway Facilities
12 At Grade Intersection
13 Grade Separation and Interchanges
14,15 Highway drainage
-Highway Material:Week No. Syllabus
1 Introduction
2 Soil Characteristics
3 Basic Engineering Properties of Soil
4 Classification of Soil for highway Uses
5 Soil Survey for highway Construction
6,7 Properties of Asphaltic Materials
8,9 Tests for Asphaltic Materials
10,11,12 Asphaltic Concrete Mixtures
13,14,15 Superior Performing Asphalt Pavements(Superpave)
-Urban Transportation Planning:Week No. Syllabus
1 Introduction
2 Transportation Plan
3 Overview of Information Needs
4 Travel forecasting
5,6 Trip generation(Technique and Analysis)
7,8 Trip Distribution(Method and Analysis)
9,10 Mode Split(Method and Analysis)
11,12 Trip Assignment(Method and Analysis)
13 Calibration and Validation
14 Load Use Plan
15 Travel Data
-Railway and Airport Engineering:Week No. Syllabus
1 Introduction to Railway Engineering
2 Rail Track Element
3 Clearance Gauges
4 Ballast and Subgrade System
5 Design of Concrete Sleepers
6 Train Rolling Dynamic
7 Geometric design of Railroad
8 Introduction to Airport Engineering
9 Characteristics of Aircraft
10 Airport Master Planning
11 Airport Capacity and Configuration
12,13 Geometric design of of Airside
14 Requirement for Vertical Takeoff and Landing
15 Airport Drainage
Finite Element MethodWeek No. Syllabus
1-2
Introduction-Fundamental requirements-Method process-Finite element technique-Force –deflection relation-Type of elements-Procedures
3-4
The Concept of Stiffness Analysis-General-Stiffness matrix for single elastic spring-Stiffness matrix for assembly of springs
5 Formation of the Element Stiffness Matrix [Ke]6 Principle of Virtual Work7 Convergence Requirements
8-9Two-Dimensional Analysis-Triangular Finite element for Plane Elasticity- Rectangular element (Isoparamatric element)
10 Three-Dimensional Analysis11 Numerical Integration12 Axisymmetric Stress Analysis13 Analysis of Beams
14-15 Review on Finite Element Applications
Traffic Simulation Syllabus:WeekNo.
Syllabus
1 Introduction to computer simulation.
2 System simulation.
3 Probability concepts and statistical distributions.
4 Arrival patterns and service times.
5 The role of random numbers.
6-7 Model built
8-9 Simulation programming.
10-11 Calibration and validation of simulation models.
12-13 Implementations in traffic engineering.
14-15 Applications in simulation Models.
Highway traffic and environmental safety1. Introduction and essential concepts of traffic safety
2. Fundumental characteristics of highway accidents
3. Factors which affecling highway accdents
4. Cuses of traffic accidents
5. Accident reposhing sustems and analysis
6. Engineeering and traffic considerations for highway traffic safety
7. Conceptof highway environmental safety
8. Air pollution safety on highways
9. Traffic noise study
10.Engineering and traffic consider htions for highway environmentalsafety
11.Highway tools and implements
12.Traffic signs,markings and signals.
ELICTRICAL ENGINEERING DEPT.
2012-2013
High Diploma Electrical Engineering
M.Sc. Electrical Engineering
Ph.D. Electrical Engineering
ELECTRICAL ENGINEERING DEPT.2012-2013
MSc- Electronics and Communication / Electronic
M. Sc. Electronics and Communication / ElectronicNo. ofUnits
SubjectSymbol
2Engineering AnalysisEEE 6402Microprocessor and MicrocomputersEEE 6412Digital CommunicationEEE 6422Digital Signal ProcessingEEE 6522Microelectronics IEEE 6532Advance CMOS IEEE 6542Digital ElectronicEEE 6502Compute InterfaceEEE 6552Electronic MeasurementsEEE 6562Analog ElectronicsEEE 6572Programmable Logic CircuitEEE 6582Infrared Analysis and Applications.2Advanced PLL Theory and Applications.2High frequency Amplifier Applications.2English LanguageEEE 638
(EEE640) Engineering Analysis:Solution of differential equations, types of D.E. Z-transform, discrete and
fast Fourier transform matrices techniques, optimal conditions partial
differential equations.
(EEE641) Microprocessor & Microcomputers:Introduction to the 8086-80386 including Pentium processors, Architecture
of 80386 microprocessor and interfacing with memory & I/O Real mode of
80386 microprocessor instruction set , assembly programming and
debugging. Protected mode of 80386 microprocessor, Registers ,memory
management , Virtual mode of 80386 microprocessor , Interrupts and
exceptions of 80386 microprocessor.
(EEE642) Digital Communication:Satellite communication ,Error detection and correction , random systems ,
mobile communication.
(EEE652) Digital Signal Processing:1- Review of discrete-time signals and systems, difference equation
(D.E) representation.
2- Time-domain representation and impulse response h(n).
3- Frequency-domain representation and frequency response H(ejw).
4- Z-transform, properties, applications and inverse Z-transform.
5- IIR and FIR digital filter designs.
6- Digital filter realizations, (IIR filter structures; direct form I, direct
form II, direct form II transpose, cascade structure, parallel form
structure, Poly-phase and lattice structure).
7- FIR filter structures; direct, poly-phase and lattice structures.
8- Discrete Fourier transform (DFT) and fast Fourier transform (FFT)
algorithms with radix-2 and radix-4.
9- Wavelet transform (WT), continuous WT.
10- 1-D and 2-D discrete WT, applications.
11- DSP chips, TMS32C6x architecture, functional units, pipelining,
registers, linear and circular addressing modes, TMS3220C6x
instruction set.
12- Implementation examples.
(EEE653) Microelectronics I:1- Biasing in MOS amplifiers circuits.
2- Basic configurations of single stage IC MOS amplifiers.
3- The MOSFET as an analog switch.
4- The MOSFET unity-gain frequency (Fu).
5- Small signal operation of the BJT differential amplifier.
6- The non-ideal characteristics of the differential amplifiers.
7- Biasing in BJT integrated circuits.
8- The BJT differential amplifier with active load.
9- The MOS differential amplifiers.
10- BICMOS amplifiers.
11- Sense amplifiers and address decoders.
(EEE654) Advance CMOS I:1- Pseudo-NMOS logic.
2- Pseudo-NMOS inverter and gates.
3- Realizing complex NMOS gates.
4- CMOS logic.
5- CMOS inverter and transient response.
6- Advanced CMOS gate design.
7- Differential CMOS circuits.
8- CMOS timing.
9- Bonding pads and wires.
10- CMOS clocked latches.
11- Dynamic CMOS latches.
12- CMOS flip-flop.
(EEE650) Digital Electronic:1- Moore, Mealy and nixed type synchronous state machines.
2- Synchronous sequential circuit design procedure.
3- State reduction by implication table.
4- A synchronous design fundamental mode.
5- A synchronous sequential design of pulse-mode.
6- Traditional digital MOS design.
7- Pseudo-NMOS digital design.
8- Gain at gate threshold voltage.
9- Evaluating of logic function of NMOS gate.
10- Threshold voltage of CMOS gates.
11- The effect of transistor size.
12- Full swing n-channel x-gate logic.
13- Input and output stages in CMOS digital circuits.
14- CMOS clocked latches.
15- CMOS flip-flops.
16- CMOS synchronous system design techniques.
(EEE655) Computer Interface:Introduction, microprocessor memory interface, MPU input output interface,
memory design, input/output handshaking and parallel printer interface, PPI,
PIT, programmable DMA controller, URT and VSART, programmable
keyboard/display interface, programmable interrupt controller,
microcontroller, digital signal processors, PLC, practical project.
(EEE656) Electrical Measurements :
System of units and measurement standardization (Volt, Ampere, watt, …
etc.) (IEE, IEEE, IEC, … etc.), traditional measuring instruments
(voltmeters, amperes, ammeters, wattmeters, frequency meters … etc.),
signal and systems (type of signals, classifications of signal RMS value,
mean value … etc.), sensors and transducers (classifications of sensors and
transducers, voltage transducers, current transducers, temperature
transducers, fabrication transducers, speed transducers … etc.), signal
conditioning and transmission (Instrument amplifiers, zero and span circuits,
voltage to current converted, voltage frequency conversion, insulation circuit
and cabling, data acquisition system and digital control, (Sampling, digital to
analog converters, analogue to digital converters and errors).
(EEE657) Analog Electronics:
1- Introduction to OP amplifier circuit.
2- The advanced PLL digital circuit.
3- The design of series and parallel voltage regulator.
4- The design of high frequency power amplifier.
5- The operation of A/D and D/A converter circuits.
(EEE658) Programmable Logic Circuits:
- Introduction to multiple output networks: multiplexers and decoders.
- Review: Read-only memories (PROMS, EPROMS), programmable
logic arrays, and programmable array-design examples.
- DSP processors: General-purpose programmable DSP processor
application specific integrated circuit (ASIC) design, reconfigurable
architecture for DSP, applications, examples.
- Programmable logic devices and logic gate arrays.
(EEE638)English Language:The syllables for the M.Sc. course in English covers the following activities:
1- Reading, silent and loud, which requires trainers the students to
comprehend what they read, in addition to . attention to their oral
performance in terms of pronunciation and intonation which together
express what is being read. This may be achieved through reading
scientific and engineering text, and dealing with the language aspect,
in then.
2- Training the students to write in English taking into consideration the
. language structures with all their details.
3- Training the students to correctly use English structures and grammar
topics such as verb . prepositions, types of sentences (statement /
question /negative and simple/complex/compound).
4- Training the student, listen attentively in order to understand what
their professors say and . write down the important points ..
5- Training the students in the general principles of translation which
my.
M. Sc. Electronics and Communication / CommunicationNo. ofUnits
SubjectSymbol
2Engineering AnalysisEEE 6402Microprocessor and MicrocomputersEEE 6412Digital CommunicationEEE 6422Error Correction and DetectionEEE 6432Wave PropagationEEE 6442Satellite CommunicationEEE 6452Mobile CommunicationEEE 6462Modern Control TheoryEEE 6472Microwave Technique UseEEE 6482Communication SystemEEE 6492Digital ElectronicEEE 6502Global Positioning System2Optical Communication2Communication Circuits2English LanguageEEE 638
ELECTRICAL ENGINEERING DEPT.2012-2013
MSc- Electronics and Communication / Communication
(EEE640) Engineering Analysis:Solution of differential equations, types of D.E. Z-transform, discrete and
fast Fourier transform matrices techniques, optimal conditions partial
differential equations.
(EEE641) Microprocessor & Microcomputers:Introduction to the 8086-80386 including Pentium processors, Architecture
of 80386 microprocessor and interfacing with memory & I/O Real mode of
80386 microprocessor instruction set , assembly programming and
debugging. Protected mode of 80386 microprocessor, Registers ,memory
management, Virtual mode of 80386 microprocessor , Interrupts and
exceptions of 80386 microprocessor.
(EEE642) Digital Communication:Random of analog communication , signal to noise ratio in analog systems ,
digital communication, signal to noise in digital communication ,random
process, decision theory , spread spectrum, MIMO systems.
(EEE643) Error Correction and Detection:Introduction, repetition code, parity check code , Hamming distance
Hamming code , Galois fields, BCH code , read solemn code , can catenated
code , Error detection code, cyclic readdancy check (crc) nonlinear codes,
convolution code , application , exampling.
(EEE644) Wave Propagation:Basic characteristic of antennas, Linear wire antennas, Ground effects on
Radiation from linear antennas, loop antennas, Arrays (linear, planar),
Broadband antennas, Aperture antennas (Microstrip antennas, Horns),
Principles of propagation (Ground wave propagation, Troposphere
propagation and Ionosphere propagation).
(EEE645) Satellite Communication:Frequency band designation, Domestic satellite, Radio wave propagation,
Ionosphere effects, Type of satellite systems, Satellite communication, Earth
segment, Space segment, Satellite orbits, Satellite construction, Antennas
subsystems, Beam shaping, Polarization transponder subsystem,
Transmission losses, Link loss, Atmosphere observation, Noise sources, Up
link and down link budget calculation, Multiplication, Demand a signal
multiply access.
(EEE646) Mobile Communication:Introduction , Transmission moad , simplex , half duplex, full duplex,
classification of mobile comunication system , radio phases dispatch system,
paging system, …etc. cellular telephones ,the cellular concept, system
design fandom, concept of cellular system , cell shape cell patters, frequency
reuse , kind of channels in cellular system, cellular telephone system
interference , channel assignment fixed , dynamic, and hybrid, multiple
access schemes for cellular system FDMA, TDMA, CDMA, Wireless
system and standards , AMPS , GSM , CDMA , UMTS .Mobile satellite
system , Anmars sate A,B,C Aero , M, Non geostationary orbits satellite
systems, ICO, Iridium.
(EEE647) Modern Control Theory:1- Introduction.
2- Intelligent control system specifications and properties.
3- Neural network based control system design introduction to neural
network, back propagation, learning rules.
4- Fuzzy control system. Member ship fuzzy set, fuzzification, rule
base-deffuzzification fuzzy logic, fuzzy controller.
5- Genetic algorithm.
6- State space representation of CS.
7- Solution of state equation, lyapunov and equations.
8- Stability.
9- Controllability and observability.
10- Control system design: Pole assignment synthesis.
- Observer design.
- Optimal control design.
(EEE648) Microwave Technique Use:Microwave waveguides, S-parameters, N-port networks, Microwave passive
device, Ferrite devices, Microwave active device (Linear beam tubes),
Microwave active device (Cross fields tubes), transferred electron devices,
Microwave semiconductors diodes, Microstrip lines, Optical fibers.
(EEE649)Communication System:Random signals and noise, signal to noise in analog system, Digital of
communication, signal to noise ratio in digital communication, Satellite
communication, Error detection and correction, Radar system, Mobile
system.
(EEE650) Digital Electronic:1- Moore, Mealy and nixed type synchronous state machines.
2- Synchronous sequential circuit design procedure.
3- State reduction by implication table.
4- A synchronous design fundamental mode.
5- A synchronous sequential design of pulse-mode.
6- Traditional digital MOS design.
7- Pseudo-NMOS digital design.
8- Gain at gate threshold voltage.
9- Evaluating of logic function of NMOS gate.
10- Threshold voltage of CMOS gates.
11- The effect of transistor size.
12- Full swing n-channel x-gate logic.
13- Input and output stages in CMOS digital circuits.
14- CMOS clocked latches.
15- CMOS flip-flops.
16- CMOS synchronous system design techniques.
(EEE638)English Language:The syllables for the M.Sc. course in English covers the following activities:
1- Reading, silent and loud, which requires trainers the students to
comprehend what they read, in addition to . attention to their oral
performance in terms of pronunciation and intonation which together
express what is being read. This may be achieved through reading
scientific and engineering text, and dealing with the language aspect,
in then.
2- Training the students to write in English taking into consideration the
. language structures with all their details.
3- Training the students to correctly use English structures and grammar
topics such as verb. prepositions, types of sentences (statement/
question/negative and simple/complex/compound).
4- Training the student, listen attentively in order to understand what
their professors say and . write down the important points ..
5- Training the students in the general principles of translation which
my.
ELECTRICAL ENGINEERING DEPT.2012-2013
MSc- Electronics and Communication / Solid State
M. Sc. Electronics and Communication / Solid StateNo. ofUnits
SubjectSymbol
2Engineering AnalysisEEE 6402Microprocessor and MicrocomputersEEE 6412Digital CommunicationEEE 6422Digital Signal ProcessingEEE 6522Microelectronics IEEE 6532Advance CMOS IEEE 6542Mobile CommunicationEEE 6462Electrical MeasurementsEEE 6562Microwave DevicesEEE 6622Advance CMOS IIEEE 6632Microelectronics IIEEE 6642Solar Cell Engineering.2Electronic Laser Technology.2Infrared Analysis.2Infrared Filter Fabrication.2English LanguageEEE 638
(EEE640) Engineering Analysis:Solution of differential equations, types of D.E. Z-transform, discrete and
fast Fourier transform matrices techniques, optimal conditions partial
differential equations.
(EEE641) Microprocessor & Microcomputers:Introduction to the 8086-80386 including Pentium processors, Architecture
of 80386 microprocessor and interfacing with memory & I/O Real mode of
80386 microprocessor instruction set , assembly programming and
debugging. Protected mode of 80386 microprocessor, Registers ,memory
management , Virtual mode of 80386 microprocessor , Interrupts and
exceptions of 80386 microprocessor.
(EEE642) Digital Communication:Random of analog communication , signal to noise ratio in analog systems,
digital communication, signal to noise in digital communication, random
process, decision theory, spread spectrum, MIMO systems.
(EEE652) Digital Signal Processing:1- Review of discrete-time signals and systems, difference equation
(D.E) representation.
2- Time-domain representation and impulse response h(n).
3- Frequency-domain representation and frequency response H(ejw).
4- Z-transform, properties, applications and inverse Z-transform.
5- IIR and FIR digital filter designs.
6- Digital filter realizations, (IIR filter structures; direct form I, direct
form II, direct form II transpose, cascade structure, parallel form
structure, Poly-phase and lattice structure).
7- FIR filter structures; direct, poly-phase and lattice structures.
8- Discrete Fourier transform (DFT) and fast Fourier transform (FFT)
algorithms with radix-2 and radix-4.
9- Wavelet transform (WT), continuous WT.
10- 1-D and 2-D discrete WT, applications.
11- DSP chips, TMS32C6x architecture, functional units, pipelining,
registers, linear and circular addressing modes, TMS3220C6x
instruction set.
12- Implementation examples.
(EEE653) Microelectronics I:1- Biasing in MOS amplifiers circuits.
2- Basic configurations of single stage IC MOS amplifiers.
3- The MOSFET as an analog switch.
4- The MOSFET unity-gain frequency (Fu).
5- Small signal operation of the BJT differential amplifier.
6- The non-ideal characteristics of the differential amplifiers.
7- Biasing in BJT integrated circuits.
8- The BJT differential amplifier with active load.
9- The MOS differential amplifiers.
10- BICMOS amplifiers.
11- Sense amplifiers and address decoders.
(EEE654) Advance CMOS I:1- Pseudo-NMOS logic.
2- Pseudo-NMOS inverter and gates.
3- Realizing complex NMOS gates.
4- CMOS logic.
5- CMOS inverter and transient response.
6- Advanced CMOS gate design.
7- Differential CMOS circuits.
8- CMOS timing.
9- Bonding pads and wires.
10- CMOS clocked latches.
11- Dynamic CMOS latches.
12- CMOS flip-flop.
(EEE646) Mobile Communication:Introduction , Transmission moad , simplex , half duplex, full duplex,
classification of mobile communication system , radio phases dispatch
system, paging system, …etc. cellular telephones ,the cellular concept,
system design fandom, concept of cellular system , cell shape cell patters,
frequency reuse, kind of channels in cellular system, cellular telephone
system interference, channel assignment fixed , dynamic, and hybrid,
multiple access schemes for cellular system FDMA, TDMA, CDMA,
Wireless system and standards, AMPS, GSM, CDMA, UMTS. Mobile
satellite system, Anmars sate A, B, C Aero, M, Non geostationary orbits
satellite systems, ICO, Iridium.
(EEE656) Electrical Measurements :System of units and measurement standardization (Volt, Ampere, watt, …
etc.) (IEE, IEEE, IEC, … etc.), traditional measuring instruments
(voltmeters, amperes, ammeters, wattmeters, frequency meters … etc.),
signal and systems (type of signals, classifications of signal RMS value,
mean value … etc.), sensors and transducers (classifications of sensors and
transducers, voltage transducers, current transducers, temperature
transducers, fabrication transducers, speed transducers … etc.), signal
conditioning and transmission (Instrument amplifiers, zero and span circuits,
voltage to current converted, voltage frequency conversion, insulation circuit
and cabling, data acquisition system and digital control, (Sampling, digital to
analog converters, analogue to digital converters and errors).
(EEE662) Microwave Devices :1- Microwave waveguides.
2- S-Parameters and N-port networks.
3- Microwave passive devices.
4- Ferrite devices.
5- Microwave active devices (Linear beam tubes).
6- Microwave active devices (crossed field tubes).
7- Microwave semiconductor devices.
8- Quantum electronic solid state devices.
9- Infrared devices and systems.
(EEE663) Advance CMOS II:1- The operation of Domain logic gates.
2- Principles of BICMOS digital circuits.
3- Advanced BICMOS circuits application.
4- Emitter coupled logic gates.
5- Current-Mode logic circuits.
(EEE664) Microelectronics II:1- S-Domain Analysis: Poles, zeros and Bode Plots.
2- Low frequency response of the common-source and common-emitter
amplifiers.
3- High frequency response of the common-source and common-emitter
amplifiers.
4- The common-Gate, Common-Base and cascade configurations.
5- Frequency response of the emitter and source followers.
6- Frequency response of different-ampere.
7- Classification of output stages.
8- IC power amplifiers.
9- MOS power amplifiers.
10- 741 OP-Amp. Circuit.
11- Small signal analysis of the 741-first, second and output stages.
12- Gain and frequency response of 741.
13- CMOS and BICMOS OP-Amps.
(EEE638)English Language:The syllables for the M.Sc. course in English covers the following activities:
1- Reading, silent and loud, which requires trainers the students to
comprehend what they read, in addition to . attention to their oral
performance in terms of pronunciation and intonation which together
express what is being read. This may be achieved through reading
scientific and engineering text, and dealing with the language aspect,
in then.
2- Training the students to write in English taking into consideration the
. language structures with all their details.
3- Training the students to correctly use English structures and grammar
topics such as verb . prepositions, types of sentences
(statement/question/negative and simple/complex/compound).
4- Training the student, listen attentively in order to understand what
their professors say and . write down the important points ..
5- Training the students in the general principles of translation which
my.
ELECTRICAL ENGINEERING DEPT.2012-2013
MSc- Electronics and Communication / Computer Network
M. Sc. Electronics and Communication / Computer NetworkNo. ofUnits
SubjectSymbol
2Engineering AnalysisEEE 6402Microprocessor and MicrocomputersEEE 6412Digital CommunicationEEE 6422Error Correction and DetectionEEE 6432Wave PropagationEEE 6442Wireless NetworkEEE 6592Mobile CommunicationEEE 6462Modern Control TheoryEEE 6472Digital ElectronicEEE 6502Security in Computer NetworkEEE 6602Inter-NetworkEEE 6612Network System Design2Queuing Theory2Protocols Design2Network System Design2English LanguageEEE 638
(EEE640)Engineering Analysis:Solution of differential equations, types of D.E. Z-transform, discrete and
fast Fourier transform matrices techniques, optimal conditions partial
differential equations.
(EEE641) Microprocessor & Microcomputers:Introduction to the 8086-80386 including Pentium processors, Architecture
of 80386 microprocessor and intrfacing with memory & I/O Real mode of
80386 microprocessor instruction set, assembly programming and
debugging. Protected mode of 80386 microprocessor, Registers ,memory
management, Virtual mode of 80386 microprocessor, Interrupts and
exceptions of 80386 microprocessor.
(EEE642) Digital Communication:Random of analog communication, signal to noise ratio in analog systems ,
digital communication, signal to noise in digital communication, random
process, decision theory , spread spectrum, MIMO systems.
(EEE643) Error Correction and Detection:Introduction, repetition code, parity check code , Hamming distance
Hamming code , Galois fields, BCH code , read solomn code , can catenated
code , Error detection code, cyclic readdancy check (crc) nonlinear codes,
convolution code , application , exampling.
(EEE644)Wave Propagation:Basic characteristic of antennas, Linear wire antennas, Ground effects on
Radiation from linear antennas, loop antennas, Arrays (linear, planar),
Broadband antennas, Aperture antennas (Microstrip antennas, Horns),
Principles of propagation (Ground wave propagation, Troposphere
propagation and Ionosphere propagation).
(EEE659) Wireless Network:
Introduction, standards, 802.11 architecture, physical and Mac layers 802.11
standard WLAN topologies, 802.11b architecture, sub-layers in the physical
layer of 802.11b. 802.11 z architecture Mac layer services, CSMA/CA
protocol and accers methods. 802.11 security. Wi-fi system wimax (802.16),
802.16 protocol stand physical layer wimax. Qos and Mac management
functions. Wimax power, modulation and coding control, wimax security,
802.16e architectures, Bluetooth fundamentals.
(EEE646) Mobile Communication:Introduction, Transmission moad, simplex, half duplex, full duplex,
classification of mobile communication system, radio phases dispatch
system, paging system, …etc. cellular telephones, the cellular concept,
system design fandom, concept of cellular system, cell shape cell patters,
frequency reuse, kind of channels in cellular system, cellular telephone
system interference, channel assignment fixed, dynamic, and hybrid,
multiple access schemes for cellular system FDMA, TDMA, CDMA,
Wireless system and standards , AMPS , GSM , CDMA , UMTS .Mobile
satellite system , Anmars sate A,B,C Aero , M, Non geostationary orbits
satellite systems, ICO, Iridium.
(EEE647) Modern Control Theory:1- Introduction.
2- Intelligent control system specifications and properties.
3- Neural network based control system design introduction to neural
network, back propagation, learning rules.
4- Fuzzy control system. Member ship fuzzy set, fuzzification, rule base-
deffuzzification fuzzy logic, fuzzy controller.
5- Genetic algorithm.
6- State space representation of CS.
7- Solution of state equation, lyapunov and equations.
8- Stability.
9- Controllability and observability.
10- Control system design:
- Pole assignment synthesis.- Observer design.- Optimal control design.
(EEE650) Digital Electronic:1- Moore, Mealy and nixed type synchronous state machines.
2- Synchronous sequential circuit design procedure.
3- State reduction by implication table.
4- A synchronous design fundamental mode.
5- A synchronous sequential design of pulse-mode.
6- Traditional digital MOS design.
7- Pseudo-NMOS digital design.
8- Gain at gate threshold voltage.
9- Evaluating of logic function of NMOS gate.
10- Threshold voltage of CMOS gates.
11- The effect of transistor size.
12- Full swing n-channel x-gate logic.
13- Input and output stages in CMOS digital circuits.
14- CMOS clocked latches.
15- CMOS flip-flops.
16- CMOS synchronous system design techniques.
(EEE660) Security in Computer Network
1- WLAN Security:(SSID.MAC.WEP.802.IX.)
2- VPN (Virtual privant network).
3- PPTP (Protocol).
4- Network Security:(Message confidentiality – Message integrity –Message
authentication – Digital signature – Entity authentication – Encryption
key management.)
5- Protocol Security:(I- IP sec. II- SSL. III- PGP)(Internet protocol)
(Source socket layer) (Prity good privacy).
6- Firewall:(I- Proxy (Application layer).II- Packet filter (Network +
Transports layers).
7- Principle Hayzenbuk (sensor of power).
(EEE661) Inter-Network:
A brief history of the internet , Protocol layers and their service model.
Application Layre : the web and HTTP, FTP, SMTP, DNS.
Transport Layer: connection less protocols connection oriented protocols,
congestion control.
Network Layer: virtual circuit networks , Router Design, Internet Protocol ,
Routring algorithms.
Link Layer and Local area networks: Multiple Access protocols, Link layer
addressing.
Switches and Hubs: Bridges, Transport, learning, minimal spanning, tree
algorithm.
Network Processors: A brief history of Network Processors comparison
between ASIC and network processor , parallel architecture of network
processor ,Intel network prospectors, I & A, programming I&P 2800.
(EEE638)English Language:
The syllables for the M.Sc. course in English covers the following activities:
1- Reading, silent and loud, which requires trainers the students to
comprehend what they read, in addition to . attention to their oral
performance in terms of pronunciation and intonation which together
express what is being read. This may be achieved through reading
scientific and engineering text, and dealing with the language aspect,
in then.
2- Training the students to write in English taking into consideration the
. language structures with all their details.
3- Training the students to correctly use English structures and grammar
topics such as verb. prepositions, types of sentences (statement/
question/negative and simple/complex/compound).
4- Training the student, listen attentively in order to understand what
their professors say and . write down the important points ..
5- Training the students in the general principles of translation which
my.
ELECTRICAL ENGINEERING DEPT.2012-2013
MSc- Power and Machines / Machines
M. Sc. Power and Machines / MachinesNo. ofUnits
SubjectSymbol
4Network Analysis and Synthesis - Non Linear SystemEEP 6652Instruments and MeasurementsEEP 6662Power Electronics IEEP 6672Engineering AnalysisEEP 6402Power TransformerEEP 6682A.C. MachinesEEP 6692Modeling and SimulationEEP 6702High Voltage EngineeringEEP 6712Electronic DrivesEEP 6722Electrical Power GenerationEEP 6732English LanguageEEP 638
(EEP665) Network Analysis and Synthesis& Non LinearSystem:Steady state and transient analysis of electric circuits using Fourier and
Laplace transformers. Incidence matrices nonlinear network. Basic
properties of network function passive synthesis of driving point impedance,
transfer function and transfer impedance. Active network synthesis,
computer analysis and synthesis of electric network. Introduction and basic
distribution. Describing function of non-linear elements. Describing function
analysis of non-linear control systems. Phase plane analysis distribution and
plotting of trajectories analytical methods, isolation method, delta method.
Phase plane analysis of linear control system. Phase plane analysis of
nonlinear control system. Stability analysis of nonlinear control systems
(lyapunov method, krasorshis method … etc.). Non-linear control system
design.
(EEP666) Instrument and Measurements:Behavior and application of dialing devices in transient and steady state,
magnetic measurements, analog / electronic devices, digital measurement
devices, digital programmable devices, transducers and sensors, theoretical
and practical measurement for non-sinusoidal applications (voltage current,
power, power factor, spectrum analyzing), instrumentation.
(EEP667) Power Electronic I:Switching regulators.
D.C. D.C converters.
Switched mode power supplies phase controlled converters.
HVDC transmission system voltage source converters.
Pulse width modulation strategies.
Applications of power electronics on power systems.
(EEP640) Engineering Analysis:Solution of differential equations, types of D.E. Z-transform, discrete and
fast Fourier transform matrices techniques, optimal conditions partial
differential equations.
(EEP668) Power transformer:- Introduction and general review.
- Equivalent circuit, winding arrangements.
- Short-circuit withstand, temperature rises and saturation characteristic.
- Inrush current and internal fault current.
- Protection of power transformer.
- Design of power transformer.
- Vectors group of power transformer.
(EEP669) A.C. Machines:Generalized theory of electrical machines, Dynamic of D.C machines
Transients& dynamics of induction machines, Transients & dynamics of
synchronous machines, time &space in A.C machines, the effects of these
harmonics on the machine methods of reducing the harmonic Behavior of
A.C machine under variable frequency operation, Brush less excitation
system of synchronous machines, two phase control motor, the speedometer
& the accelerometer, super conduction machines.
(EEP670) Modeling and Simulation:Introduction, simulation techniques, modeling concepts, modeling power
switching devices, computer techniques for modeling and simulation.
Modeling and simulation of intelligent systems:
- Intelligent system: Definitions and examples.
- Modeling of biological neural node and network.
- Simulation of artificial neural networks using matlab software.
Continuous-time system (CTS) and discrete-time system (DTS):
- Modeling of DTS.
- Simulation of DTS using matlab software.
(EEP671) High Voltage Engineering:H.V. insulators, solids, liquids, gasses, P.D. problems, advanced power
cables, H.V. D.C transmission systems, control of H.V. D.C., voltages, CEA
control, CC control, H.V. D.C power cables.
(EEP672) Electrical Drives:Principles of adjustable speed drives. Drive system consideration.
D.C. drives, converters for D.C. drives. A.C. drives-induction motor drives-
methods of control. Synchronous motor drives-current source inverter. D.C
motor characteristic, operating modes, types of single-phase converter
drives. Types of single-phase converter drives, types of three-phase
converter drives, three-phase dual-converter drives, chopper drives,
regenerative brake control closed-loop control of D.C drives.
(EEP673) Electrical Power Generation:1- Primary energy sources.
2- Types of electrical stations.
3- Electrical equipment's of power stations.
- Power system stabilizers (PPS).
- Excitation systems.
- Turbine and governor.
4- Power station and transmission line laboratory.
5- Economic operation.
6- Earthing of power station.
(EEP638) English Language:The syllables for the M.Sc. course in English covers the following activities:
1- Reading, silent and loud, which requires trainers the students to
comprehend what they read, in addition to . attention to their oral
performance in terms of pronunciation and intonation which together
express what is being read. This may be achieved through reading
scientific and engineering text, and dealing with the language aspect,
in then.
2- Training the students to write in English taking into consideration the
. language structures with all their details.
3- Training the students to correctly use English structures and grammar
topics such as verb. prepositions, types of sentences (statement/
question/negative and simple/complex/compound).
4- Training the student, listen attentively in order to understand what
their professors say and . write down the important points ..
Training the students in the general principles of translation whichmy.
ELECTRICAL ENGINEERING DEPT.2012-2013
MSc- Power and Machines / Power Electronic
M. Sc. Power and Machines / Power Electronic
No. ofUnits
SubjectSymbol
4Network Analysis and Synthesis& Non Linear SystemEEP 6652Instruments and MeasurementsEEP 6662Power Electronics IEEP 6672Engineering AnalysisEEP 6402Power Electronic DevicesEEP 6742A.C. MachinesEEP 6692Modeling and SimulationEEP 6702Electronic DrivesEEP 6722Microprocessor and MicrocomputerEEP 6752Power Electronics IIEEP 6672Digital Control & Intelligent Control2Digital Signal Processing2Power System Control2Programmable Electronic Circuits2English LanguageEEP 638
(EEP665) Network Analysis and Synthesis& Non LinearSystem:Steady state and transient analysis of electric circuits using Fourier and
Laplace transformers. Incidence matrices nonlinear network. Basic
properties of network function passive synthesis of driving point impedance,
transfer function and transfer impedance. Active network synthesis,
computer analysis and synthesis of electric network. Introduction and basic
distribution. Describing function of non-linear elements. Describing function
analysis of non-linear control systems. Phase plane analysis distribution and
plotting of trajectories analytical methods, isolation method, delta method.
Phase plane analysis of linear control system. Phase plane analysis of
nonlinear control system. Stability analysis of nonlinear control systems
(lyapunov method, krasorshis method … etc.). Non-linear control system
design.
(EEP666) Instrument and Measurements:
Behavior and application of dialing devices in transient and steady state,
magnetic measurements, analog / electronic devices, digital measurement
devices, digital programmable devices, transducers and sensors, theoretical
and practical measurement for non-sinusoidal applications (voltage current,
power, power factor, spectrum analyzing), instrumentation.
(EEP667) Power Electronic I:Switching regulators.
D.C. D.C converters.
Switched mode power supplies phase controlled converters.
HVDC transmission system voltage source converters.
Pulse width modulation strategies.
Applications of power electronics on power systems.
(EEP640) Engineering Analysis:Solution of differential equations, types of D.E. Z-transform, discrete and
fast Fourier transform matrices techniques, optimal conditions partial
differential equations.
(EEP674) Power Electronics Devices:Types, characteristic, ratings of power switching power devices, as a switch,
properties characteristics, and ratings, power diode, thyristors, GTO, power
bipolar transistors, Darlington, power MOSFET, intelligent power switching
devices, insulated gate bipolar transistor types of Snubber circuits, switching
losses, protection methods, trigger circuit and based drives requirements.
(EEP669) A.C. Machines:Generalized theory of electrical machines, Dynamic of D.C machines
Transients& dynamics of induction machines, Transients & dynamics of
synchronous machines, time &space in A.C machines, the effects of these
harmonics on the machine methods of reducing the harmonic Behavior of
A.C machine under variable frequency operation, Brush less excitation
system of synchronous machines, two phase control motor, the speedometer
& the accelerometer, super conduction machines.
(EEP670) Modeling and Simulation:Introduction, simulation techniques, modeling concepts, modeling power
switching devices, computer techniques for modeling and simulation.
Modeling and simulation of intelligent systems:
- Intelligent system: Definitions and examples.
- Modeling of biological neural node and network.
- Simulation of artificial neural networks using matlab software.
Continuous-time system (CTS) and discrete-time system (DTS):
- Modeling of DTS.
- Simulation of DTS using matlab software.
(EEP672) Electrical Drives:Principles of adjustable speed drives. Drive system consideration.D.C. drives, converters for D.C. drives. A.C. drives-induction motor drives-methods of control. Synchronous motor drives-current source inverter. D.Cmotor characteristic, operating modes, types of single-phase converterdrives. Types of single-phase converter drives, types of three-phaseconverter drives, three-phase dual-converter drives, chopper drives,regenerative brake control closed-loop control of D.C drives.(EEP675) Microprocessor and Interfacing:Introduction to microprocessors, a brief history of Intel microprocessors
80x86 family of microprocessors, software model of 8086/8088, instruction
set of 8086/8088, memory management of 8086/8088, introduction to
advanced microprocessors. Introduction to computer interfacing, 8088/8086
MPV memory interface, MPV input/output interface, programmable
peripheral interface unit PPI, PIT unit, DMA unit, microcontroller
(architecture, programming), introduction to DSP processors, programming,
applications, theoretical project, practical project.
(EEP667) Power Electronics II:Review of power electronic applications, types of power switch devices, P-
pulse converters-rectification and inversion operation modes, AC-DC link,
single phase and three phase voltage source inverters-multi step inverters-
current source inverter, types of PWM strategies, AC single and three phase
ac voltage controller, step up and step down choppers, three phase to single
phase and three phase to three phase cyclo-converters-DC to DC choppers,
switched mode power supply, drives applications.
(EEP638) English Language:The syllables for the M.Sc. course in English covers the following activities:
1- Reading, silent and loud, which requires trainers the students to
comprehend what they read, in addition to . attention to their oral
performance in terms of pronunciation and intonation which together
express what is being read. This may be achieved through reading
scientific and engineering text, and dealing with the language aspect,
in then.
2- Training the students to write in English taking into consideration the
. language structures with all their details.
3- Training the students to correctly use English structures and grammar
topics such as verb. prepositions, types of sentences (statement/
question/negative and simple/complex/compound).
4- Training the student, listen attentively in order to understand what
their professors say and . write down the important points ..
5- Training the students in the general principles of translation which
my.
ELECTRICAL ENGINEERING DEPT.2012-2013
MSc- Power and Machines / Power
M. Sc. Power and Machines / PowerNo. ofUnits
SubjectSymbol
4Network Analysis and Synthesis& Non LinearSystem
EEP 665
2Instruments and MeasurementsEEP 6662Engineering AnalysisEEP 6402Power TransformerEEP 6682High Voltage EngineeringEEP 6712Modeling and SimulationEEP 6702Microprocessor and Computer InterfacingEEP 6752Power System ProtectionEEP 6822Power System AnalysisEEP 6832Electrical Power GenerationEEP 6812Electrical Insulations and SemiconductorsEEP6882Underground Transmission SystemsEEP6892Modern Control System2Non Linear and Modern Control2Smart Grid2Intelligent System2English LanguageEEP 638
(EEP665) Network Analysis and Synthesis& Non Linear System:
Steady state and transient analysis of electric circuits using Fourier and
Laplace transformers. Incidence matrices nonlinear network. Basic
properties of network function passive synthesis of driving point impedance,
transfer function and transfer impedance. Active network synthesis,
computer analysis and synthesis of electric network. Introduction and basic
distribution. Describing function of non-linear elements. Describing function
analysis of non-linear control systems. Phase plane analysis distribution and
plotting of trajectories analytical methods, isolation method, delta method.
Phase plane analysis of linear control system. Phase plane analysis of
nonlinear control system. Stability analysis of nonlinear control systems
(lyapunov method, krasorshis method … etc.).Non-linear control system
design.
(EEP666)Instrument and Measurements:
Behavior and application of dialing devices in transient and steady state,
magnetic measurements, analog / electronic devices, digital measurement
devices, digital programmable devices, transducers and sensors, theoretical
and practical measurement for non-sinusoidal applications (voltage current,
power, power factor, spectrum analyzing), instrumentation.
(EEP640)Engineering Analysis:
Solution of differential equations, types of D.E. Z-transform, discrete and
fast Fourier transform matrices techniques, optimal conditions partial
differential equations.
(EEP668)Power transformer:
- Introduction and general review.
- Equivalent circuit, winding arrangements.
- Short-circuit withstand, temperature rises and saturation characteristic.
- Inrush current and internal fault current.
- Protection of power transformer.
- Design of power transformer.
- Vectors group of power transformer.
(EEP671) High Voltage Engineering:
H.V. insulators, solids, liquids, gasses, P.D. problems, advanced power
cables, H.V. D.C transmission systems, control of H.V. D.C., voltages, CEA
control, CC control, H.V. D.C power cables.
(EEP670) Modeling and Simulation:
Introduction, simulation techniques, modeling concepts, modeling power
switching devices, computer techniques for modeling and simulation.
Modeling and simulation of intelligent systems:
- Intelligent system: Definitions and examples.
- Modeling of biological neural node and network.
- Simulation of artificial neural networks using matlab software.
Continuous-time system (CTS) and discrete-time system (DTS):
- Modeling of DTS.
- Simulation of DTS using matlab software.
(EEP675) Microprocessor and Computer Interfacing:
Introduction to microprocessors, a brief history of Intel microprocessors
80x86 family of microprocessors, software model of 8086/8088, instruction
set of 8086/8088, memory management of 8086/8088, introduction to
advanced microprocessors. Introduction to computer interfacing, 8088/8086
MPV memory interface, MPV input/output interface, programmable
peripheral interface unit PPI, PIT unit, DMA unit, microcontroller
(architecture, programming), introduction to DSP processors, programming,
applications, theoretical project, practical project.
(EEP682) Power System Protection:
Over current directional relays, differential relays, distance protection,
factories affecting distance protection ANN application in distance
protection, adaption of distance protection, auto-reclosing.
(EEP683) Power System Analysis:
Matrix formulation, load flow study, short circuit analysis, economic
operation of power system, stability of power system application in
computer. Matrix formulation, load flow study, short-circuit study, steady
state and transient stability, optimum planning and economic operation of
electric systems. V/Q operation and control, f/p operation and control,
flexible AC transmission systems operation and control, power quality
principle and monitoring, reliability of power system.
(EEP681) Electrical Power Generation:
1- Primary energy sources.
2- Types of electrical stations.
3- Electrical equipments of power stations.
- Power system stabilizers (PPS).
- Excitation systems.
- Turbine and governor.
4- Power station and transmission line laboratory.
5- Economic operation.
6- Earthing of power station.
(EEP688) Electrical Insulations and Semiconductors: Electricalinsulation used in high voltage cables. Solid types, liquid types and Gastypes. Solid-liquid insulation. Paper oil. Extruded thermoplastics.Polyethylene, polypropylene, Ethylene polypropylene rubber, cross-linkedpolyethylene. Oil insulation used in H.V apparatus. (N2) gas sulpher-hexafluoride (5F6).(EEP689) Underground Transmission Systems: High voltage threecore cables. H-type and P-type. Single-core cables. Oil-impregnated cables.Extruded solid type cables. Direct buried cables in soil. Internally cooledcables. Externally oil and water cooled cables. Cryogenic cables. Superconductor cables. Cryo resistance cables. High temperature super conductorcables H.V.D.C cables.(EEP638) English Language:
The syllables for the M.Sc. course in English covers the following activities:
1- Reading, silent and loud, which requires trainers the students to
comprehend what they read, in addition to . attention to their oral
performance in terms of pronunciation and intonation which together
express what is being read. This may be achieved through reading
scientific and engineering text, and dealing with the language aspect,
in then.
2- Training the students to write in English taking into consideration the
. language structures with all their details.
3- Training the students to correctly use English structures and grammar
topics such as verb. prepositions, types of sentences (statement/
question/negative and simple/complex/compound).
4- Training the student, listen attentively in order to understand what
their professors say and . write down the important points ..
5- Training the students in the general principles of translation which
my.
ELECTRICAL ENGINEERING DEPT.2012-2013
MSc- Power and Machines / Control
M. Sc. Power and Machines / ControlNo. ofUnits
SubjectSymbol
4Network Analysis and Synthesis& Non Linear SystemEEP 6652Power Electronics IEEP 6672Engineering AnalysisEEP 6402Digital ControlEEP 6762Control System DesignEEP 6772Electronic DrivesEEP 6722Microprocessor and Computer InterfacingEEP 6752Modern Control TheoryEEP 6782Control System ElectronicsEEP 6792Power System controlEEP 6802Intelligent Systems.2Systems Identification.2Special Machines.2Robotics & CNC Machines.2Adaptive Control.2English LanguageEEP 638
(EEP665) Network Analysis and Synthesis& Non LinearSystem:Steady state and transient analysis of electric circuits using Fourier and
Laplace transformers. Incidence matrices nonlinear network. Basic
properties of network function passive synthesis of driving point impedance,
transfer function and transfer impedance. Active network synthesis,
computer analysis and synthesis of electric network. Introduction and basic
distribution. Describing function of non-linear elements. Describing function
analysis of non-linear control systems. Phase plane analysis distribution and
plotting of trajectories analytical methods, isolation method, delta method.
Phase plane analysis of linear control system. Phase plane analysis of
nonlinear control system. Stability analysis of nonlinear control systems
(lyapunov method, krasorshis method … etc.).Non-linear control system
design.
(EEP667) Power Electronic I:Switching regulators.
D.C. D.C converters.
Switched mode power supplies phase controlled converters.
HVDC transmission system voltage source converters.
Pulse width modulation strategies.
Applications of power electronics on power systems.
(EEP640) Engineering Analysis:Solution of differential equations, types of D.E. Z-transform, discrete and
fast Fourier transform matrices techniques, optimal conditions partial
differential equations.
(EEP676) Digital Control Theory:Discrete time system representation, z- transformer different equation
discrete state equation and it solution. Sampled data system , open loop
,closed loop , z- transformer function , mapping of s- to – z transformer
samples frequency, bilinear transformer, W- plan, Frequency domain design,
Digital PID controller, digital compensators, state feedback design,
Ackerman formula , digital observer design.
(EEP677) Control System Design:1- Design specifications.
2- Fundamental principles of design.
3- Design with PD control (time and frequency domain).
4- Design with PI control (time and frequency domain).
5- Design with PID controller (time and frequency domain).
6- Design with phase-lead controller (time and frequency domain).
7- Design with phase-lag controller (time and frequency domain).
8- Design with lag-lead controller.
9- Pole placement design through state feedback.
10- Design of Robust control systems.
(EEP672) Electrical Drives:Principles of adjustable speed drives. Drive system consideration.
D.C. drives, converters for D.C. drives. A.C. drives-induction motor drives-
methods of control. Synchronous motor drives-current source inverter. D.C
motor characteristic, operating modes, types of single-phase converter
drives. Types of single-phase converter drives, types of three-phase
converter drives, three-phase dual-converter drives, chopper drives,
regenerative brake control closed-loop control of D.C drives.
(EEP675) Microprocessor and Computer Interfacing:Introduction to microprocessors, a brief history of Intel microprocessors
80x86 family of microprocessors, software model of 8086/8088, instruction
set of 8086/8088, memory management of 8086/8088, introduction to
advanced microprocessors. Introduction to computer interfacing, 8088/8086
MPV memory interface, MPV input/output interface, programmable
peripheral interface unit PPI, PIT unit, DMA unit, microcontroller
(architecture, programming), introduction to DSP processors, programming,
applications, theoretical project, practical project.
(EEP678) Modern Control Theory:1- Introduction.
2- Intelligent control system specifications and properties.
3- Neural network based control system design introduction to neural
network, back propagation, learning rules.
4- Fuzzy control system. Member ship fuzzy set, fuzzification, rule base-
deffuzzification fuzzy logic, fuzzy controller.
5- Genetic algorithm.
6- State space representation of CS.
7- Solution of state equation, lyapunov and equations.
8- Stability.
9- Controllability and observability.
10- Control system design:
- Pole assignment synthesis.
- Observer design.
- Optimal control design.
(EEP679) Control System Electronics:1- Waveform generation and conversion.
2- Overview of operational amplifier and its application.
3- Comparator circuits.
4- A/D conversion circuits.
5- D/A conversion circuits.
6- Sample and holds circuits.
7- Power supply electronic circuits.
8- Smoothing circuits.
9- Voltage regulators.
(EEP680) Power System control:Matrix formulation, load flow study, short-circuit study, steady-state and
transient stability, optimum planning and economic operation of electric
systems, V/Q operation and control, f/p operation and control, flexible AC
transmission system operation and control, power quality principle and
monitoring, reliability of power system.
(EEP638) English Language:The syllables for the M.Sc. course in English covers the following activities:
1- Reading, silent and loud, which requires trainers the students tocomprehend what they read, in addition to . attention to their oralperformance in terms of pronunciation and intonation which togetherexpress what is being read. This may be achieved through readingscientific and engineering text, and dealing with the language aspect,in then.
2- Training the students to write in English taking into consideration the. language structures with all their details.
3- Training the students to correctly use English structures and grammartopics such as verb. prepositions, types of sentences (statement/question/negative and simple/complex/compound).
4- Training the student, listen attentively in order to understand whattheir professors say and . write down the important points ..
5- Training the students in the general principles of translation whichmy.
ELECTRICAL ENGINEERING DEPT.2012-2013
PhD- Power and Machines / Power
Ph.D. Power and Machines / Power2011-2012
No. ofUnits
SubjectSymbol
2Advance Underground Transmission SystemsEEP 7612Stability and Complex NetworkEEP 7622Microprocessor and MicrocomputerEEP 7632Advance Control SystemEEP 7642Advance Electrical DrivesEEP 7652Advance H. V. D.C. SystemsEEP 7702Flexible A.C. Transmission SystemsEEP 7722Modern Protection SystemsEEP 7732Advance Electric Power StationsEEP 7742Electrical Insulator and Partial DischargesEEP 775
2Thermal Performance of Under GroundTransmission System
EEP760
2Numerical Analysis Using Matlab2Enhancement of Power Transmission Line
With a New Renewable Sources2Power System Reability2Advanced Modeling & Simulation1English LanguageEEP 740
EEP (761) Advance Underground Transmission Systems:
Conventional H.V power cables.Oil impregnated power cables, solid type extruded cables, internally cooledcables, externally cooled cables. Cryogenic cables, super conductor cables,cryo resistance cables, HTC cables, high temperature super conductingcables.EEP (762) Stability and Complex Network:
Steady state stability, small signal stability, small disturbance, large
disturbance, equal area criteria, load shearing, voltage stability, frequency
variation stability, stability enhancement, advance power system modeling,
power system modeling reduction, steady state stability of multi machines
systems, power system dynamic simulation.
EEP (763) Microprocessor and Microcomputer:
1- Architecture of 86 microprocessor.
2- Instruction sets of 86 microprocessor.
3- Status flag and control flag of 86 microprocessor.
4- Addressing mode.
5- Introduction to 386 microprocessor.
6- Protected mode in 386 microprocessor.
7- PPI unit.
8- PIT unit.
9- Overview of USB input output port.
10- Overview of 232 input output port.
EEP (764) Advance Control System:
1- Introduction, mathematical background.
2- Vectors and matrices norm.
3- Controllability and pole assignment synthesis.
4- Observability and state observer-controller design.
5- Optimal control design.
6- Linear Quadratic Gaussian (LQG) control.
7- H state feedback control.
8- H output feedback control.
9- Feedback control of uncertain system.
10- Fuzzy logic control.
EEP (765) Advance Electrical Drives:
D.C Drives, regenerative systems.
A.C Drives, vector control.
Synchronous motor drives, permanent magnet SM drive, PM brushless D.C
drive switched reluctance motor drives stepper motor drives.
EEP (770) Advance H. V. D.C. Systems:
General aspects of D.C transmission, advantages, economic factors,
converter, 6-pulse and 12-pulse, rectification and inversion, control
characteristics, constant current control, power reversal, harmonics and
filters.
EEP (772) Flexible A.C. Transmission Systems:
Principle of operation, power electronic devices, FACTS components, power
quality, principles and monitoring, smart network, reliability of power
system.
EEP (773) Modern Protection Systems:
Study and setting of parameters for network, under or over frequency
protection, protection against revisal's in reactive power, different selectivity
systems, protection of network elements, negative sequence current backup
protection, application of auxiliaries for current balancing, paralling CT's in
differential circuits, differential protection far three-phase banks, ground
(zero sequence) differential protection, stability reclosing & load shedding
and trip circuit design, microprocessor application and sale station
automation.
EEP (774) Advance Electric Power Stations:
1- Economic calculation.
2- Calculation of short-circuits.
3- Choice of electrical equipments and devices.
4- Design of sub-stations.
5- Design of lightning arrestors.
6- Earthing.
EEP (775) Electrical Insulator and Partial Discharges :
Electrical insulators used in H.V and E.H.V application. Problems of microvoids in solid insulators, problems of solid particles, water drops and gasbubbles in liquid insulators. Problems of water drops and solid particles ingas insulator. Effect of pressure and other gasses. Detection of particledischarges location of partial discharges. Harmful and non-harmful partialdischarges.EEP(760) Thermal Performance of Under Ground TransmissionSystem:The thermal circuit of power cable, thermal resistance, thermal capacitance,steady state thermal circuit, transient thermal circuit. Heat flow, temperaturedistribution in power cable, thermal resistivity of the insulation and soil.Thermal stability of H.V power cables. Internally cooled cables. Externallycooled cables.EEP (740) English Language:
The syllables for the Ph.D. course in English covers the following activities:
1- Reading, silent and loud, which requires trainers the students to
comprehend what they read, in addition to . attention to their oral
performance in terms of pronunciation and intonation which together
express what is being read. This may be achieved through reading
scientific and engineering text, and dealing with the language aspect, in
then.
2- Training the students to write in English taking into consideration the .
language structures with all their details.
3- Training the students to correctly use English structures and grammar
topics such as verb. prepositions, types of sentences (statement/
question/negative and simple/complex/compound).
4- Training the student, listen attentively in order to understand what their
professors say and. write down the important points ..
5- Training the students in the general principles of translation which my.
ELECTRICAL ENGINEERING DEPT.2012-2013
PhD- Power and Machines / Power Electronic
Ph.D. Power and Machines / Power ElectronicNo. ofUnits
SubjectSymbol
2Microprocessor and MicrocomputerEEP 7632Advance Control SystemEEP 7642Advance Electrical DrivesEEP 7652Advance Power Electronic DeviceEEP 7662Advance Power Electronic Converter IEEP 7672Flexible A.C. Transmission SystemsEEP 7722Advance Modeling and SimulationEEP 7762Advance Power Electronic Converter IIEEP 7672Digital Signal ProcessingEEP 7772Artificial Neural NetworkEEP 7782Advanced Engineering Analysis2Advanced Measurements and Instrument2Advanced HVDC Systems2Digital Control1English LanguageEEP 740
EEP (763) Microprocessor and Microcomputer:1- Architecture of 86 microprocessor.
2- Instruction sets of 86 microprocessor.
3- Status flag and control flag of 86 microprocessor.
4- Addressing mode.
5- Introduction to 386 microprocessor.
6- Protected mode in 386 microprocessor.
7- PPI unit.
8- PIT unit.
9- Overview of USB input output port.
10- Overview of 232 input output port.
EEP (764) Advance Control System:1- Introduction, mathematical background.
2- Vectors and matrices norm.
3- Controllability and pole assignment synthesis.
4- Observability and state observer-controller design.
5- Optimal control design.
6- Linear Quadratic Gaussian (LQG) control.
7- H state feedback control.
8- H output feedback control.
9- Feedback control of uncertain system.
10- Fuzzy logic control.
EEP (76٥) Advance Electrical Drives:D.C Drives, regenerative systems.
A.C Drives, vector control.
Synchronous motor drives, permanent magnet SM drive, PM brushless
D.C drive switched reluctance motor drives stepper motor drives.
EEP (76٦) Advance Power Electronic Device:Diode: Structure, VI characteristic, types, diode model, operation, ratings.
Thyristors: Structure, Model, VI characteristic, turn on, turn off, rating,
protection, thermal considerations, series and parallel connections.
GTD: Structure, VI characteristic, turn on and off, ratings.
Triac: Structure, Model, turn on and off, ratings.
EEP (76٧) Advance Power Electronic Converter I:Types of converter systems:
A.C. D.C. Converter systems (simple and: dual converters).
D.C. D.C. Converters (soft switching and hard switching).
Cuk converter:
PWM. Techniques and PWM inverters.
A.C-to-D.C. Converters:
Converter performance parameters, single phase bridge converters, three-
phase semi and full converters, single-phase and three-phase dual converters,
single-phase series converters, 12-pulse converters.
EEP (7٧٢) Flexible A.C. Transmission Systems:Principle of operation, power electronic devices, FACTS components, power
quality, principles and monitoring, smart network, reliability of power
system.
EEP (776) Advance Modeling and Simulation:Modeling concepts and simulation techniques, tensor techniques for power
electronic systems simulation, modeling and simulation of a.c. machine
drives. Fuzzy control systems: Theory and applications.
- Modeling of fuzzy control system.
- Simulation of fuzzy control using MATLAB software.
- Fuzzy control in power engineering.
- Modeling and simulation in electrical power engineering including:
Electric machines, power electronic converters, and power systems.
EEP (7٦٧) Advance Power Electronic Converter II:Multiple rectifier circuits. Cyclo convertors. Multi-level invertors.Resonant convertors.EEP (7٧٧) Digital Signal Processing:
1- Review of discrete-time signals and systems, difference equation
(D.E) representation.
2- Time-Domain representations and impulse response h(n).
3- Frequency-Domain representation and frequency response H(ejw).
4- Z-transform, properties, applications and inverse Z-transform.
5- IIR and FIR digital filter designs.
6- Digital filter realizations, (IIR filter structures; Direct form 1, direct
form 2, direct form 2 transpose, cascade structure, parallel form
structure, poly-phase and lattice structures).
7- FIR filter structures; Direct, poly-phase and lattice structures.
8- Discrete Fourier Transform (DFT) and Fast Fourier transform (FFT)
algorithms, development of the FFT algorithm with radix-2,
decimation-in-time and decimation-in-frequency FFT algorithms
with radix-2, development of the FFT algorithm with radix-4,
inverse.
9- Wavelet transform (WT), continuous WT.
10- 1-D and 2-D discrete WT, applications.
11- DSP chips, TMS320C6x architecture and instruction set.
12- Implementation examples.
EEP (7٧٨) Artificial Neural Network:Introduction, Architectures, McCulloch and Pitts neuron, Data
representation, Heb algorithm, Perceptron architecture, Adeline algorithm,
Multilayer perceptron network, and Madeline network, Networks and
algorithm of Back-propagation, Hopfield network, Associative network,
Recurrent neural networks, RBF network, SOFM network, Algorithm of
adaptive neural networks and applications,
Project: Simulation of Neural Network and Application in Electrical
Engineering Field.
EEP (740) English Language:The syllables for the Ph.D. course in English covers the following activities:
2- Reading, silent and loud, which requires trainers the students to
comprehend what they read, in addition to . attention to their oral
performance in terms of pronunciation and intonation which together
express what is being read. This may be achieved through reading
scientific and engineering text, and dealing with the language aspect,
in then.
3- Training the students to write in English taking into consideration the
. language structures with all their details.
4- Training the students to correctly use English structures and grammar
topics such as verb. prepositions, types of sentences (statement
question/negative and simple/complex/compound).
5- Training the student, listen attentively in order to understand what
their professors say and . write down the important points ...
6- Training the students in the general principles of translation which
my.
ELECTRICAL ENGINEERING DEPT.2012-2013
PhD- Power and Machines / Machines
Ph.D. Power and Machines / MachinesNo. ofUnits
SubjectSymbol
2Stability and Complex NetworkEEP 7622Advance Control SystemEEP 7642Advance Electrical DrivesEEP 7652Advance Power Electronic Converter IEEP 7672Advance Alternating MachinesEEP 7682Extra H.V. TransformersEEP 7712Modern Protection SystemsEEP 7732Advance Modeling and SimulationEEP 7762Dynamic of Rotating MachinesEEP 7792Advance Magnetic FieldEEP 7801English LanguageEEP 740
EEP (762) Stability and Complex Network:Steady state stability, small signal stability, small disturbance, large
disturbance, equal area criteria, load shearing, voltage stability, frequency
variation stability, stability enhancement, advance power system modeling,
power system modeling reduction, steady state stability of multi machines
systems, power system dynamic simulation.
EEP (764) Advance Control System:1- Introduction, mathematical background.
2- Vectors and matrices norm.
3- Controllability and pole assignment synthesis.
4- Observability and state observer-controller design.
5- Optimal control design.
6- Linear Quadratic Gaussian (LQG) control.
7- H state feedback control.
8- H output feedback control.
9- Feedback control of uncertain system.
10- Fuzzy logic control.
EEP (765) Advance Electrical Drives:D.C Drives, regenerative systems.
A.C Drives, vector control.
Synchronous motor drives, permanent magnet SM drive, PM brushless D.C
drive switched reluctance motor drives stepper motor drives.
EEP (767) Advance Power Electronic Converter I:Types of converter systems:
A.C. D.C. Converter systems (simple and: dual converters).
D.C. D.C. Converters (soft switching and hard switching).
Cuk converter:
PWM. Techniques and PWM inverters.
A.C-to-D.C. Converters:
Converter performance parameters, single phase bridge converters, three-
phase semi and full converters, single-phase and three-phase dual converters,
single-phase series converters, 12-pulse converters.
EEP (768) Advance of Alternating Machines:Three-Phase Induction Machines: Constructional details, power circle
diagram, machine impedance, coupled circuit equations, steady state and
transient analysis, torque-slip characteristic, effect of machine parameters,
different modes of operations, braking, improving of starting torque motors,
self-excited induction generators, unbalanced operation, effect of space and
time harmonics, testing induction regulators.
Single-Phase Induction Motors: Types and construction, production of
starting torque, double revolving field theory, equivalent circuit,
performance, analysis, maximization of starting torque, testing.
Synchronous Machines: Constructional details, principle of operations as
generator: m.m.f. and flux-distribution pattern, excitation systems,
impedance and m.m.f. approaches to analysis, O.C., S.C., and Z.P.F.
characteristics, voltage regulation, steady state operation, phasor diagram,
salient-pole machines, two-reaction theory, phasor diagram, transient
reactance's and time constants, parallel operation, operation as a motor:
starting characteristics, power circle diagram, V and inverted V curves,
power angle characteristics, synchronous condensers.
Commutator Machines: Characteristics and applications.
EEP (771) Extra H.V Transformers:Construction of E H.V transformer. P.D problems, detection, location, effect
of bushing design of coil insulators. Types of coil construction. Oil
transformers problems. Taps problems.
EEP (773) Modern Protection Systems:Study and setting of parameters for network, under or over frequency
protection, protection against revisal's in reactive power, different selectivity
systems, protection of network elements, negative sequence current backup
protection, application of auxiliaries for current balancing, paralling CT's in
differential circuits, differential protection far three-phase banks, ground
(zero sequence) differential protection, stability reclosing & load shedding
and trip circuit design, microprocessor application and sale station
automation.
EEP (776) Advance Modeling and Simulation:Modeling concepts and simulation techniques, tensor techniques for power
electronic systems simulation, modeling and simulation of a.c. machine
drives. Fuzzy control systems: Theory and applications.
- Modeling of fuzzy control system.
- Simulation of fuzzy control using MATLAB software.
- Fuzzy control in power engineering.
- Modeling and simulation in electrical power engineering including:
Electric machines, power electronic converters, and power systems.
EEP (779) Dynamic of Rotating Machines:Simulation of electrical machines, functioning of Synchronous Machines at
transients, starting of induction motors. Dynamic braking of induction
motors and synchronous motor self-dynamic braking electrical braking of
induction motor by additional resistance, capacitance and motor controller
circuits.
EEP (780) Advance Magnetic Field:Maxwell's equations and Laplician equations, Mathematical formulation of
electromagnetic problems, Numerical analysis of electromagnetic fields
finite difference and finite element ,eddy current generate and properties in
the electrical machine.
EEP (740) English Language:The syllables for the Ph.D. course in English covers the following activities:
1- Reading, silent and loud, which requires trainers the students to
comprehend what they read, in addition to . attention to their oral
performance in terms of pronunciation and intonation which together
express what is being read. This may be achieved through reading
scientific and engineering text, and dealing with the language aspect,
in then.
2- Training the students to write in English taking into consideration the
. language structures with all their details.
3- Training the students to correctly use English structures and grammar
topics such as verb. prepositions, types of sentences (statement/
question/negative and simple/complex/compound).
4- Training the student, listen attentively in order to understand what
their professors say and . write down the important points.
5- Training the students in the general principles of translation which
my.
ELECTRICAL ENGINEERING DEPT.2012-2013
PhD- Electronics and Communication / Solid State
Ph.D. Electronics and Communication / Solid StateNo. ofUnits
SubjectSymbol
2Digital Signal ProcessingEEE 7302Microprocessor and MicrocomputersEEE 7312Microelectronics IEEE 7412Advance CMOS IEEE 7422NetworkEEE 7342Digital CommunicationEEE 7352Engineering AnalysisEEE 7372Microelectronics IIEEE 7412Advance CMOS IIEEE 7422Analog ElectronicsEEE 7432Non Volatile Memory Analysis and
StructureEEE 744
2Volatile Memory Structure1English LanguageEEE 740
(EEE730) Digital Signal Processing:1- Review of discrete-time signals and systems, difference equation
(D.E) representation.
2- Time-domain representation and impulse response h(n).
3- Frequency-domain representation and frequency response H(ejw).
4- Z-transform, properties, applications and inverse Z-transform.
5- IIR and FIR digital filter designs.
6- Digital filter realizations, (IIR filter structures; direct form I, direct
form II, direct form II transpose, cascade structure, parallel form
structure, Poly-phase and lattice structure).
7- FIR filter structures; direct, poly-phase and lattice structures.
8- Discrete Fourier transform (DFT) and fast Fourier transform (FFT)
algorithms with radix-2 and radix-4.
9- Wavelet transform (WT), continuous WT.
10- 1-D and 2-D discrete WT, applications.
11- DSP chips, TMS32C6x architecture, functional units, pipelining,
registers, linear and circular addressing modes, TMS3220C6x
instruction set.
12- Implementation examples.
(EEE731) Microprocessor and Microcomputers:Introduction to the 8086-80386 including Pentium processors, Architecture
of 80386 microprocessor and interfacing with memory & I/O Real mode of
80386 microprocessor instruction set, assembly programming and
debugging. Protected mode of 80386 microprocessor, Registers, memory
management, Virtual mode of 80386 microprocessor, Interrupts and
exceptions of 80386 microprocessor.
(EEE741) Microelectronics I
1- Operation amplifiers.
2- Operation amplifiers circuit design.
3- Bipolar current sources.
4- FET current sources.
5- Circuits with active loads.
6- Small signal equivalent circuits.
7- Analysis with active loads.
8- Differential amplifier with active load.
9- Gain stage and simple O/P stage.
10- General OP-amp cct. Design.
11- Bipolar OP-amp cct.
12- CMOS OP-amp cct.
13- Practical OP-amp parameters.
(EEE742) Advance CMOS I1- Introduction to theory of CMOS transistor.
2- Advanced CMOS digital gates.
3- The operation of pseudo-NMOS circuits.
4- The operation of high speed CMOS circuits.
5- The domino digital CMOS circuits.
6- BICMOS digital circuits.
(EEE734) Network:- Token ring LANS.
- Token ring LAN performance.
- Token ring standard (802.5).
- Token ring MAC protocol.
- High speed LAN (FDDI network).
- Fiber distributed data interface (FDDI).
- Ethernet switching and their standard IEEE 802.3 and Ethernet.
- Fast Ethernet.
- Multiple access mechanism (CSHA/CD).
- Road tmp delays.
- Ethernet component and architectures.
- WLANS architecture and their standards.
- IEEE 802.11 standards (802.11b, 802.11a physical layers.
- WLAN components (IEEE 802.11, 802.11b and 802.11a MAC layer).
- Accessing mechanism (CSMA/CA).
- PCF (point coordination function) and DCF (distributed ???
- Hidden station and virtual carrier sense / portal.
- MAC level acknowledgments.
- 802.11 security / roaming approach, association and multibility power
management.
(EEE735) Digital Communication:Random of analog communication , signal to noise ratio in analog systems,
digital communication, signal to noise in digital communication, random
process, decision theory , spread spectrum, MIMO systems.
(EEE737) Engineering Analysis:Solution of differential equations, types of D.E. Z-transform, discrete and
fast Fourier transform matrices techniques, optimal conditions partial
differential equations.
(EEE741) Microelectronics II1- S-Domain Analysis: Poles, zeros and Bode Plots.
2- Low frequency response of the common-source and common-emitter
amplifiers.
3- High frequency response of the common-source and common-emitter
amplifiers.
4- The common-Gate, Common-Base and cascade configurations.
5- Frequency response of the emitter and source followers.
6- Frequency response of different-ampere.
7- Classification of output stages.
8- IC power amplifiers.
9- MOS power amplifiers.
10- 741 OP-Amp. Circuit.
11- Small signal analysis of the 741-first, second and output stages.
12- Gain and frequency response of 741.
13- CMOS and BICMOS OP-Amps.
(EEE742) Advance CMOS II1- The operation of Domain logic gates.
2- Principles of BICMOS digital circuits.
3- Advanced BICMOS circuits application.
4- Emitter coupled logic gates.
5- Current-Mode logic circuits.
(EEE743) Analog Electronics:1- Introduction to OP amplifier circuit.
2- The advanced PLL digital circuit.
3- The design of series and parallel voltage regulator.
4- The design of high frequency power amplifier.
5- The operation of A/D and D/A converter circuits.
(EEE 744) Nonvolatile Semiconductor MemoryBasics of NVSM devices.Basic principles of NVSM devices.Basic operating principles.Basic programming mechanisms.
Basic NVSM Devices Presently in Use:a) Floating Gate Devices [SIMOS, FLOTOX, TPFG]b) Charge Trapping Devices [MNOS, SNOS, SONOS]c) Ferroelectric Devices.
Basic NVSM Device Equations and Models
(EEE740) English Language:The syllables for the Ph.D. course in English covers the following activities:
1- Reading, silent and loud, which requires trainers the students to
comprehend what they read, in addition to . attention to their oral
performance in terms of pronunciation and intonation which together
express what is being read. This may be achieved through reading
scientific and engineering text, and decaling with the language aspect,
in then.
2- Training the students to write in English taking into consideration the
. language structures with all their details.
3- Training the students to correctly use English structures and grammar
topics such as verb. prepositions, types of sentences (statement/
question/negative and simple/complex/compound).
4- Training the student, listen attentively in order to understand what
their professors say and . write down the important points.
5- Training the students in the general principles of translation which
my.
ELECTRICAL ENGINEERING DEPT.2012-2013
PhD- Electronics and Communication / Communication
Ph.D. Electronics and Communication / CommunicationNo. ofUnits
SubjectSymbol
2Digital Signal ProcessingEEE 7302Microprocessor and MicrocomputersEEE 7312Digital ElectronicEEE 7322Satellite CommunicationEEE 7332NetworkEEE 7342Digital CommunicationEEE 7352Mobile CommunicationEEE 7362Engineering AnalysisEEE 7372Modeling and Simulation TechniquesEEE 7382Wave PropagationEEE 7392Optical Communications2Telephone and Theory Television2Queening Theory1English LanguageEEE 740
(EEE730) Digital Signal Processing:1- Review of discrete-time signals and systems, difference equation
(D.E) representation.
2- Time-domain representation and impulse response h(n).
3- Frequency-domain representation and frequency response H(ejw).
4- Z-transform, properties, applications and inverse Z-transform.
5- IIR and FIR digital filter designs.
6- Digital filter realizations, (IIR filter structures; direct form I, direct
form II, direct form II transpose, cascade structure, parallel form
structure, Poly-phase and lattice structure).
7- FIR filter structures; direct, poly-phase and lattice structures.
8- Discrete Fourier transform (DFT) and fast Fourier transform (FFT)
algorithms with radix-2 and radix-4.
9- Wavelet transform (WT), continuous WT.
10- 1-D and 2-D discrete WT, applications.
11- DSP chips, TMS32C6x architecture, functional units, pipelining,
registers, linear and circular addressing modes, TMS3220C6x
instruction set.
12- Implementation examples.
(EEE731) Microprocessor and Microcomputers:Introduction to the 8086-80386 including Pentium processors, Architecture
of 80386 microprocessor and interfacing with memory & I/O Real mode of
80386 microprocessor instruction set, assembly programming and
debugging. Protected mode of 80386 microprocessor, Registers, memory
management, Virtual mode of 80386 microprocessor, Interrupts and
exceptions of 80386 microprocessor.
(EEE732) Digital Electronic:1- Advanced digital gates (RTL, DTL, TTL, ECL).
2- Advanced shotky TTL gate, propagation delay.
3- High speed digital integrated gates.
4- BICMOS digital circuits.
5- Gallium-Arsenide digital circuits.
6- Advanced PLL digital circuits.
(EEE733) Satellite Communication:Introduction.
Frequency allocation for satellite services.
Intelsat, U.S. domestic satellites.
Radio wave propagation, atmospheric losses, ionospheric effects, rain
attenuation, other impairments.
Polarization of satellite signals, ionospheric depolarization, rain
depolarization, ice depolarization.
Earth segment, space segment.
Satellite orbits.
Satellite construction, antenna subsystems, transponder subsystem, solar
cells.
Transmission losses, link loss, noise sources effects.
Analog and digital signals transmission uplink and down link budget
calculations.
Error in transmission.
(EEE734) Network:- Token ring LANS.
- Token ring LAN performance.
- Token ring standard (802.5).
- Token ring MAC protocol.
- High speed LAN (FDDI network).
- Fiber distributed data interface (FDDI).
- Ethernet switching and their standard IEEE 802.3 and Ethernet.
- Fast Ethernet.
- Multiple access mechanism (CSHA/CD).
- Road tmp delays.
- Ethernet component and architectures.
- WLANS architecture and their standards.
- IEEE 802.11 standards (802.11b, 802.11a physical layers.
- WLAN components (IEEE 802.11, 802.11b and 802.11a MAC layer).
- Accessing mechanism (CSMA/CA).
- PCF (point coordination function) and DCF (distributed ???
- Hidden station and virtual carrier sense / portal.
- MAC level acknowledgments.
- 802.11 security / roaming approach, association and multibility power
management.
(EEE735) Digital Communication:Random of analog communication, signal to noise ratio in analog systems,
digital communication, signal to noise in digital communication, random
process, decision theory , spread spectrum, MIMO systems.
(EEE736) Mobile Communication:Introduction, transmission modes, mobile communication systems, packet
radio mobile phones.
Cellular telephones, the cellular system concept interference in cellular
systems.
Multiple access schemes for cellular system FDMA, TDMA, CDMA.
Cellular systems, advance mobile phone services (AMPS) the (ETCS)
system and (USDC).
Global system for mobile (GSM), services and features.
GSM system architecture, network equipment functions code division
multiple access (CDMA).
Universal mobile telecommunication system (UMTS).
Mobile satellite systems.
Geostationary orbit, Inmarsat series.
Non geostationary orbit, ICO, Iridium, telegenic odyssey, global star.
(EEE737) Engineering Analysis:Solution of differential equations, types of D.E. Z-transform, discrete and
fast Fourier transform matrices techniques, optimal conditions partial
differential equations.
(EEE738) Modeling and Simulation Techniques:Devices modeling:
Diode and transistor modeling.Channel modeling:
Band-limited channel modeling.Mobile channel modeling:
Raylach fading channel modeling.Racian channel modeling.
System modeling:Computer network modeling by using OPNET.Introduction to OPNET.Features of OPNET.Comparison between OPNET simulator and NS-2 simulator.Creating network model in OPNET.Project editor.Node editor.Process editor.Palate.Modeling of a simple Ethernet model.Modeling of an M/M/1 queuing system.Modeling of an M/M/m queuing system.Modeling of switched Ethernet.
(EEE739) Wave Propagation:1- Self and mutual impedance of linear antennas.
2- Broadband dipoles and matching techniques.
3- Ultra wideband antennas (UWB).
4- Aperture antennas.
5- Frequency independent antennas.
6- Antenna synthesis.
7- Fractal antennas.
8- Application with some software packages.
9- Wave propagation in free space.
10- The effects of the Earth's surface on propagation.
11- Refraction by Troposphere.
12- Attenuation due to gases and hydrometeors in Troposphere.
13- Propagation by diffraction.
14- Propagation by scatter.
15- Influence of ionosphere on propagation.
16- Applications with some software packages.
(EEE740) English Language:The syllables for the Ph.D. course in English covers the following activities:
1- Reading, silent and loud, which requires trainers the students to
comprehend what they read, in addition to . attention to their oral
performance in terms of pronunciation and intonation which together
express what is being read. This may be achieved through reading
scientific and engineering text, and dealing with the language aspect,
in then.
2- Training the students to write in English taking into consideration the
. language structures with all their details.
3- Training the students to correctly use English structures and grammar
topics such as verb. prepositions, types of sentences (statement/
question/negative and simple/complex/compound).
4- Training the student, listen attentively in order to understand what
their professors say and . write down the important points .
5- Training the students in the general principles of translation which
my.
(EEE638)English Language:
The syllables for the M.Sc. course in English covers the following activities:
1- Reading, silent and loud, which requires trainers the students to
comprehend what they read, in addition to . attention to their oral
performance in terms of pronunciation and intonation which together
express what is being read. This may be achieved through reading
scientific and engineering text, and dealing with the language aspect,
in then.
2- Training the students to write in English taking into consideration the
. language structures with all their details.
3- Training the students to correctly use English structures and grammar
topics such as verb. prepositions, types of sentences (statement/
question/negative and simple/complex/compound).
4- Training the student, listen attentively in order to understand what
their professors say and . write down the important points ..
5- Training the students in the general principles of translation which
my .
ELECTRICAL ENGINEERING DEPT.2012/2013
PhD- Electronics and Communication / ComputerNetworks
Ph. D. Computer Networks
No. ofUnits
SubjectSymbol
2Digital Signal ProcessingEEE 7302Digital CommunicationsEEE 7352Mobile CommunicationsEEE 7362Microprocessors and Micro ComputersEEE 7312Modeling and Simulation TechniquesEEE 7382Satellite CommunicationsEEE 7332Digital ElectronicsEEE 7322Advance Engineering AnalysisEEE 7372Computer Network and internetEEE 7342Routing algorithms , Flow Control in Computer
Networks2Antennas2Broad Band Network2Protocol Design and Queening Systems2English LanguageEEP 740
(EEE 730) Digital Signal Processing:1- Review of discrete-time signals and systems, difference equation
(D.E) representation.2- Time-domain representation and impulse response h(n).3- Frequency-domain representation and frequency response H(ejw).4- Z-transform, properties, applications and inverse Z-transform.5- IIR and FIR digital filter designs.6- Digital filter realizations, (IIR filter structures; direct form I, direct
form II, direct form II transpose, cascade structure, parallel formstructure, Poly-phase and lattice structure).
7- FIR filter structures; direct, poly-phase and lattice structures.8- Discrete Fourier transform (DFT) and fast Fourier transform (FFT)
algorithms with radix-2 and radix-4.9- Wavelet transform (WT), continuous WT.10- 1-D and 2-D discrete WT, applications.11- DSP chips, TMS32C6x architecture, functional units, pipelining,
registers, linear and circular addressing modes, TMS3220C6xinstruction set.
12- Implementation examples.
(EEE 735) Digital Communication:Random of analog communication, signal to noise ratio in analog systems,digital communication, signal to noise in digital communication, randomprocess, decision theory, spread spectrum, MIMO systems.
(EEE 736) Mobile Communication:Introduction, transmission modes, mobile communication systems, packetradio mobile phones.Cellular telephones, the cellular system concept interference in cellularsystems.Multiple access schemes for cellular system FDMA, TDMA, CDMA.Cellular systems, advance mobile phone services (AMPS) the (ETCS)system and (USDC).Global system for mobile (GSM), services and features.GSM system architecture, network equipment functions code divisionmultiple access (CDMA).Universal mobile telecommunication system (UMTS).Mobile satellite systems.Geostationary orbit, Inmarsat series.Non geostationary orbit, ICO, Iridium, telegenic odyssey, global star.(EEE 731) Microprocessor and Microcomputers:Introduction to the 8086-80386 including Pentium processors, Architectureof 80386 microprocessor and interfacing with memory & I/O Real mode of80386 microprocessor instruction set, assembly programming anddebugging. Protected mode of 80386 microprocessor, Registers, memorymanagement, Virtual mode of 80386 microprocessor, Interrupts andexceptions of 80386 microprocessor.
(EEE 738) Modeling and Simulation Techniques:Devices modeling:
Diode and transistor modeling.Channel modeling:
Band-limited channel modeling.Mobile channel modeling:
Raylach fading channel modeling.Racian channel modeling.
System modeling:Computer network modeling by using OPNET.Introduction to OPNET.
Features of OPNET.Comparison between OPNET simulator and NS-2 simulator.Creating network model in OPNET.Project editor.Node editor.Process editor.Palate.Modeling of a simple Ethernet model.Modeling of an M/M/1 queuing system.Modeling of an M/M/m queuing system.Modeling of switched Ethernet.
(EEE 733) Satellite Communication:Introduction.Frequency allocation for satellite services.Intelsat, U.S. domestic satellites.Radio wave propagation, atmospheric losses, ionospheric effects, rainattenuation, other impairments.Polarization of satellite signals, ionospheric depolarization, raindepolarization, ice depolarization.Earth segment, space segment.Satellite orbits.Satellite construction, antenna subsystems, transponder subsystem, solarcells.Transmission losses, link loss, noise sources effects.Analog and digital signals transmission uplink and down link budgetcalculations.Error in transmission.
(EEE 732) Digital Electronic:1- Advanced digital gates (RTL, DTL, TTL, ECL).2- Advanced shotky TTL gate, propagation delay.3- High speed digital integrated gates.4- BICMOS digital circuits.5- Gallium-Arsenide digital circuits.6- Advanced PLL digital circuits.
(EEE737) Engineering Analysis:Solution of differential equations, types of D.E. Z-transform, discrete and
fast Fourier transform matrices techniques, optimal conditions partial
differential equations.
Error in transmission.
(EEE734) Network:- Token ring LANS.
- Token ring LAN performance.
- Token ring standard (802.5).
- Token ring MAC protocol.
- High speed LAN (FDDI network).
- Fiber distributed data interface (FDDI).
- Ethernet switching and their standard IEEE 802.3 and Ethernet.
- Fast Ethernet.
- Multiple access mechanism (CSHA/CD).
- Road tmp delays.
- Ethernet component and architectures.
- WLANS architecture and their standards.
- IEEE 802.11 standards (802.11b, 802.11a physical layers.
- WLAN components (IEEE 802.11, 802.11b and 802.11a MAC layer).
- Accessing mechanism (CSMA/CA).
- PCF (point coordination function) and DCF (distributed ???
- Hidden station and virtual carrier sense / portal.
- MAC level acknowledgments.
- 802.11 security / roaming approach, association and multibility power
management.
(EEE740) English Language:
The syllables for the Ph.D. course in English covers the following activities:1- Reading, silent and loud, which requires trainers the students to
comprehend what they read, in addition to . attention to their oralperformance in terms of pronunciation and intonation which togetherexpress what is being read. This may be achieved through readingscientific and engineering text, and dealing with the language aspect,in then.
2- Training the students to write in English taking into consideration the. language structures with all their details.
3- Training the students to correctly use English structures and grammartopics such as verb. prepositions, types of sentences (statement/question/negative and simple/complex/compound).
4- Training the student, listen attentively in order to understand whattheir professors say and . write down the important points .
5- Training the students in the general principles of translation whichmy.
MECHANICAL ENGINEERING DEPT.2012-2013
M.Sc. Mechanical Engineering
M.Sc.-production & metallurgyM.Sc.- thermal power eng.
MECHANICAL ENGINEERING DEPT.2012-2013
M. Sc. CoursesThermal Power Engineering
Basic Topics
CourseNumber Subject
No. of Hrs.
Units1st term 2nd term
Theo. App. Theo
. App.
ME 501 Advanced Mathematics 2 - - - 2
ME 502 Experimental Design 2 - - - 2
ME 503 Computer Techniques - - 1 2 2
ME 513Advanced Fluid
Mechanics 3 - - - 3
ME 516Advance Heat and Mass
Transfer --- - 3 - 3
ME 504 English language 2 - 2 - 2
Selective topics
CourseNumbe
rSubject
No. of Hrs.
Units1st term 2nd termTheo
. App. Theo. App.
ME 505 Automatic Control - - 2 - 2
ME 510Internal combustion
engine 2 -- -- -- 2
ME 511 Power plant engineering 3 - - - 3
ME 512 Energy conservation 2 - - - 2
ME 518Statistical
Thermodynamics -- -- 2 -- 2
ME 519 Entropy Generation -- -- 3 -- 3
ME 524 Design of thermal system -- -- 3 -- 3
M.Sc. Thesis (ME 699) (10) unit Selective topics to be on two courses and total units is (26) Total units required with thesis = 36 unit
M. Sc. Coursesproduction and metallurgy Engineering
Basic Topics
CourseNumbe
rSubject
No. of Hrs.
Units1st term 2nd termTheo
. App. Theo. App.
ME 501 Advanced Mathematics 2 - - - 2
ME 502 Experimental Design 2 -- --- -- 2
ME 503 Computer Techniques -- -- 1 2 2
ME 553 Applied metallurgy 2 -- -- -- 2
ME 504 English language 2 - 2 - 2
Selective Topics
CourseNumbe
rSubject
No. of Hrs.
Units1st term 2nd termTheo
. App. Theo. App.
ME 505 Automatic control - - 2 - 2
ME 520 Non Destructive Testing 2 -- -- -- 2
ME 545 Composite Materials --- --- 2 -- 2
ME 551 Engineering Materials 2 --- -- - 2
ME 552 Physical Metallurgy 3 - - - 3
ME 554 Work shop Technology 2 2 - - 3
ME 555 Advanced Machining -- -- 2 2 3
ME 556 Industrial Engineering - - 2 - 2
ME 557 Metal forming - - 3 - 3
M. Sc. Thesis (ME 699) units = 10 Selective topics to be on two courses and total units is (26) Total units required with thesis = 36 unit
M. Sc. Courses
ME 501 Advanced Mathematics ( 2 – 0 )Fourier TransformsBessel’s Functions, Legendre Functions and Polynomials applied to thesolution of Partial Differential EquationsIntroductory to the calculus of variations, Galerkin and Ritz methods
ME 502 Experimental Design (2 – 0)The use for data collection and analysisBasic statistical analysisParameters and estimatorsEstimation and testing of hypothesisSimple linear regressionMultiple linear regressionsAnalysis of variance and ANDVA tablesNon-linear estimationModel selection methodsComputer applications
ME 503 Computer Techniques (1 – 2)Computers and computational errorRoots of non-linear equationsLinear and non-linear systems of simultaneous equationNumerical differentiation and truncation errorNumerical Integration single and multi-step methodsSolution of Ordinary Differential EquationsFinite differences solution of partial differential equations
ME 504 English Language (2 – 0)GrammarThe parts of speechFeatures of scientific EnglishFeatures of scientific translationTranslating passages of the fieldScientific writing
ME 505 Automatic Control (2 – 0)Open Loop and Closed Loop System, Frequency Response of Linear
Control Systems, State – Space Function, Transfer Functions of ControlComponents.
ME 510 Internal Combustion Engine (2 – 0)Basic Engine Types and Their OperationThermodynamic Principles of A – S CyclesCombustion:Combustion in S I Engines, Combustion in CI EnginesPerformance Characteristics of IC EnginesReal Cycles Compared with Fuel – Air CyclesFuel Metering (Carburetor and fuel Injection)Un supercharged and Supercharged Engines and their PerformanceIC Engines Diesel Plant, Operation and MaintenanceGas Turbine Engines and Plant
ME 512 Energy Conservation (2 – 0)Introduction, Energy economics analysis, Electrical systems
optimization, Waste heat recovery, Cogeneration, Thermal insulation,Thermal energy storage, Passive solar energy systems.ME 513 Fluid Mechanics (3 – 0)Fundamental of control volume conceptConservation equations of mass, momentum, and energyBernoulli and Euler equationsInternal and external laminar viscous boundary layerInternal and external turbulent viscous boundary layerAdvanced Compressible fluid flow (selected topics)ME 516 Advanced Heat and Mass Transfer (3 – 0)Heat conduction concepts, thermal resistance, and the overall heat transfercoefficientThe heat diffusion equationAnalysis of heat conduction ( well-posed problem, fins design)Transient and multidimensional heat conductionConvection heat transfer (some introductory ideas of laminar and turbulentthermal boundary layer, Reynolds analogy)External and internal forced convectionNatural convectionHeat transfer in Boiling and other phase-changeThermal radiation heat transfer
Heat exchanger designMass Transfer
ME 518 Statistical Thermodynamics (2 – 0)Boltz mann, Bose – Einstein and Fermi – Dirac StatisticsPartition Function, Velocity DistributionLaws of Thermodynamics, Thermodynamic PropertiesBose – Einstein Fermi – Dirac Statistics, Gas MixturesQuantum TheoryTranslation and RotationVibration, Electronics StatesMonatomic GasesMonatomic SolidsDiatomic and Polyatomic GasesSpectraChemical EquilibriumDissociation and Ionization
ME 519 Entropy Generation (3 -0)Analysis of second law of thermodynamics –Definition of entropy
change –Reversibility test –Methods of reversible heat transfer -Limitations imposed on second law of thermodynamics during change ofstate -Entropy transfer for cyclic systems- Entropy generation and exergydestruction – The Gouy-Stadola thermo –System communicating withmore than one heat reservoir -Exergy analysis of steady state and non flowprocesses – Features of irreversible system .Entropy generation in fluidflow laminar and turbulent -Entropy generation in Heat TRANSFER –Conduction -Convection internal and external flows -Entropy generationin storage system .ME 520 Quality Control (NDT) (2 – 0)
Types of defects and their origin (casting, welding and processingdefects). Testing and non - destructively inspection,. defects evaluation -Location , characterization & sizing using ultrasonic, radiography ,penetrates, magnetic particles and eddy current techniques. Criticalassessment of defects using the above methods. NDT techniquescomparison.
ME 524 Design of thermal systems ( 3 – 0 )IntroductionData analysesEconomicsComponent simulationSystem simulationSystem optimizationDifferent optimization methods
ME 551 Engineering Materials ( 2- 0)Metallic materials: Theory of alloying and alloy systems Ternary alloysystems, their equilibrium diagrams and industrial applications. Alloy steels.Heat- treatments of steels based on the T.T.T. curves. Failure analysis andprevention. Materials selection.
Non-metallic materials: Natural and synthetic rubbers, otherelastomers. Plastics. Thermoplastics. Thermo setters. Ceramics. Carbon andgraphite. Composite-materials including, concrete and wood. Processing,characteristics, and industrial applications of non-metallic materials.ME 552 Physical metallurgy ( 3-0)
Metallographic of macrostructure and microstructure examination.Electron microscopes. X-ray diffraction. Equilibrium and non-equilibriumphase transformation. Heat treatable alloys of both ferrous & non- ferrous.Strengthening through non-equilibrium transformation ( hardening &tempering and precipitation hardening). Work hardening phenomenon.Characteristics of micro corrosion.ME 553 Applied metallurgy (2-0)
Extraction of ferrous & non ferrous metals and their relatedthermodynamic reactions. Smelting operation in steel making and inaluminum. Mechanics of equilibrium and non – equilibrium transformations.Transformation systems of stable and meta-stable reactions. Harden abilityand heat – treatments of steels. Casting metallurgy. Metallurgical principlesof welding and weld ability. Specifications of both metallic and non-metallic materials. Materials selection Selected topics.
ME 554 Workshop Technology ( 2 – 2 )Numerical Control Machine and Robots Technology , Computer
Technology for Manufacturing Systems ,Machine Tools and Processes,Computer Aided Design Simulation and Design Methodology, Case Studies.ME 555 Advanced Machining Technology ( 2-2)TurningThreading cutting, production turning machines.Milling
- vertical milling machinesHole forming , Boring and shaping
- Horizontal milling machinesMachine setup and practice, Gear production , Helics and camsmilling.
CNC-MACHINES.- Vertical band machines.- Shaping , slotting , planning machines and broaching
NON CONVENTIONAL MACHINES .Abrasive machines.Electric Discharge machines (EDM)Electrochemical machines. (EDM)Ultrasonic machinesLaser Beam machinesPlasm machines
ME 556 Industrial Engineering ( 3 – 0 )Production Analysis, Planning and Control, Layout of Facilities,
Quality and Reliability, Work and Motion Study, Ergonomics, FinancialAnalysis, Human Aspects ,Robot Structures ,Control of Industrial Robots,Case studies.ME 557 Metal Forming ( 3 – 0 )
Materials Processing, Die – Design ,Different Types of ForgingProcesses ,High Speed Metal Forming ,Die – Wear ,Lubrication in MetalForming ,Economic Decisions in Metal Forming.
DAMS & WATER RESOURCESENGINEERING DEPT.
2012-2013High Diploma Dams & Water Resources
EngineeringM.Sc. Dams & Water Resources Engineering
DAMS & WATER RESOURCESENGINEERING DEPT.
2012-2013
High Diploma Dams & Water ResourcesEngineering
High Diploma Syllabus (Dams & Water Resources)
First Semester
Code subject Hours UnitsTheo. Appl.
1 WE600 Wells and Pumps 2 1 22 WE601 Optimization 2 1 23 WE602 Modern irrigation
techniques2 1 2
4 WE603 Statistical application inwater resources
2 1 2
5 WE604 River mechanics 2 1 26 WE605 Special problem* 2 2
Total 12 5 12
Second semester
Code subject Hours UnitsTheo. Appl.
1 WE606 Open channel hydraulics 2 1 22 WE607 Soil water management 2 1 23 WE608 Water resources systems
management2 1 2
4 WE609 Software packages for waterresources
2 1 2
5 WE610 Numerical analysis 2 1 26 WE605 Special problem* 2 2
Total 12 5 12
* Special problem is an annual course with 4 units throughout twosemesters.
WE600: Wells and Pumps (2,-,1)Introduction, groundwater movement and holding water layers, hydraulics ofwells, investigation of groundwater, wells digging and maintenance.Types of pumps, Centrifugal pumps, types of centrifugal pumps, hydrauliccharacteristic of centrifugal pumps, pumps efficiency, pumps curve,displacement pumps, rotary pumps, Pumps on series and parallel, waterhammer.
WE601: Optimization (2,-,1)Linear programming, sensitivity analysis, Integer programming, Introductionto the dynamic programming
WE602: Modern irrigation techniques (2,-,1)Sprinkler irrigation, Sprinkler irrigation system, center–pivot system, linear-move system, traveler sprinkler system, trickle irrigation.
WE603: Statistical applications in water resources (2,-,1)Basic concepts, Discrete statistical distribution, Continuous statisticaldistribution, Confidence limits and hypothesis tests, Correlation andregression, Variance analysis, Data generation, Time series
WE604: River Mechanics (2,-,1)Introduction, types of rivers, bed forms, hydraulics of river flow, flowresistance, river regulation and protection, sediment transport effects andproperties, types of sediments, sediment transport equations.
WE605: Special problems (2,-,-)Studies on selected topics within the field of irrigation and water resourcesengineering.
WE606: Hydraulics of open channels (2,-,1)Introduction, types of flow in open channels, flow equations, specificenergy, varied flow, design of lined channels, design of un-lined channel.
WE607: Soil water management (2,-,1)Soil moisture, Water potential, Soil- plant- climate relationship, Soil heat,Soil air.
WE608: Water resources system management (2,-,1)Introduction, Available alternatives’ evaluation methods, Cost–benefitanalysis, planning and analysis of water resources projects, Application ofdynamic programming, Application of stochastic dynamic programming.
WE(609): Software packages for water resources (2,-,1)- Hydrologic engineering centre – River Analysis System (HEC- RAS).- Hydrologic engineering centre- Hydrologic Modeling System( HEC-
HMS),- GIS Global mapper.
WE(610): Numerical Analysis (2,-,1)Numerical solution of non–linear equations, Numerical solution of linearsimultaneous equation, Numerical integers first order, Numerical solutionsof differential equation with initial condition, Numerical solutions of higherorder deferential equations, Forward, backward and centered differences.
DAMS & WATER RESOURCESENGINEERING DEPT.
2012-2013
M.Sc IrrigationM.Sc HydrologyM.Sc Hydraulic
M.Sc. IrrigationUnitsSecond CourseFirst CourseSubjectcode
App.Exp.Theo.App.Exp.Theo.322MathematicsWE700322OptimizationWE70112English Language(1)WE70212English Language (2)WE703322Artificial IntelligenceWE704332Pumps and wellsWE705
322Management of FarmIrrigation WaterWE707
322Advanced irrigationWE708322Advanced irrigationWE709322Advanced DrainageWE710
2601080108Total1818Sum of week hrs.
M.Sc. Hydrology
UnitsSecond CourseFirst CourseSubjectcodeApp.Exp.Theo.App.Exp.Theo.
322MathematicsWE700
322OptimizationWE701
12English Language (1)WE702
12English Language (2)WE703
3220Artificial IntelligenceWE704
322Open ChannelsHydraulicsWE706
322Surface HydrologyWE714
322Applied statisticalhydrologyWE715
322GroundwaterHydrology
WE716
322Water ResourcesSystem Management
WE717
2601080108Total1818Sum of week hrs.
M.Sc. Hydraulic
UnitsSecond CourseFirst Course
SubjectcodeApp.Exp.Theo.App.Exp.Theo
322MathematicsWE800
322OptimizationWE801
12English Language (1)WE804
322Artificial IntelligenceWE805
322Pumps and wellsWE808
12English Language (2)WE809
322Intermediate fluidmechanicsWE810
322Dimensional Analysisand Similitude
WE811
322Open ChannelsHydraulics
WE812
322Sediment TransportWE813
2601080108Total
1818Sum of week hrs.
WE ,2,0)Ordinary Differential Equations with Variable Coefficients.Patrial Differential EquationsFourier Series.Complex Functions analysisLinear algebra, basis, projections.Orthogonal Series of polynomialsEucidean Spaces.
WE ,2,0) Introduction. Linear programming, duality theory, sensitivity analysis. Integer programming. Dynamic programming. Nonlinear programming.
WE 702 : English Language (1) / Common ( 0,2,0)- According to pies and syllabus to suggested by the instructors of theEnglish language for graduate study students in Engineering College.
WE 703 : English Language (2) / Common ( 0,2,0)According to pies and syllabus to suggested by the instructors of the Englishlanguage for graduate study students in Engineering College.
WE ,2,0) Similarity between GA's and Nature Driven Adaptation Processes Basic Genetic Algorithm (Working Principles) GAs Terminology Encoding
Initial population Selection Roulette wheel, tournament selection Basic operators of Gas: crossover and mutation Fundamental theorem of Gas and schema theorem Niche and speciation
Crowding and sharing functions Application
Fuzzy Logic ( 5 weeks) Fuzziness: An introduction Fuzzy membership functions Membership function operations Optimization in fuzzy environments Fuzzy sets for water allocation Fuzzy sets for reservoir storage and release targets Applications
The approach Ann structure and topology Learn process Supervised feed forward ann and back – propagation Unsupervised ann Modelling by neural networks Applications
As a substitute to any of the above topics:
History, Definition GIS components Data models: raster, vector, points, lines, polygons Data base structure, attributes Sources of GIS data Arc View program Applications
WE 705 : Pumps and wells / Common ( 2,2,0) Definitions.
Types of pumps. Centrifugal pumps.
Characteristics curers. Pumps in series and parallel.
Cavitation. Reciprocating pumps.
Head loss. Design of pump system.
Pump selection. Types of wells. Safe yield of wells. Pump system for wells. Water hammer.
Surge tanks.
WE 706 : Open Channels Hydraulics / Hydraulic (2,2,0) Type of open channels.
Types of flow in open channels. Characteristics of open channels. Velocity and pressure distribution. Uniform flow , Equations of flow , applications.
Specific Energy, critical depth , applications. Momentum , types of hydraulic jump.
Gradually varied flow , general equation. Water surface lorigitdinal profiles.
Solution of the general equation of varied flow. Computer program for water surface equation.
HEC program and its applications.
WE ,2,0)- Crop water requirements.- Methods of estimating reference crop evapotrans- prated.- Crop factor KC.- Water stress factor Ks.- Field Irrigation Scheduling- Farm irrigation water supply systems.- Irrigation water use efficiency ( water productivity) and ways for
improvement .- Management of deficit irrigation.- Supplemmtal irrigation.- Modernization and improvement of farm irrigation systems.
WE ,2,0)- Planning and design methodology of irrigation systems.- Mechanized irrigation systems, center pivot irrigation system, linearmove system.- Traveling sprinkler, Drip/ Trickle irrigation systems.- Installation.- Operation and maintenance of irrigation systems.
WE ,2,0)- water distribution under irrigation system .- productivity economics and irrigation uniformity .- supplemental irrigation .- deficit irrigation .- runoff recovery systems .- pluse(surge) irrigation .- evaluation and improvement of irrigation systems .
WE n ( 2,2,0)- Introduction, Field methods of determining hydraulic conductivity ofsoils, seepage analysis.- Boundary conditions, Methods of obtaining flow nets, Basis ofelectrical analogue and the resistance network.- Drainage criteria for irrigated areas.- Discharge rate and water table.- Unsteady state computations.- Computation for peak irrigation period.
- Computation based on the dynamic equilibrium conceptWE 711 :Intermediate fluid mechanics /Hydraulic(2,2,0)
Description and classification of fluid motions. Basic equations of control volume of a fluid for: acceleration, rotation
in one and three dimensional flow, conservation of mass, momentumand energy using vector notation.
Dynamics of incompressible inviscid flow. Euler's and Bernoulli's equations for two dimensional flow. Basic concepts of the boundary layer theory. The flow around immersed bodies (ax symmetric and three
dimensional ), forces on immersed bodies. Flow measurement.
WE 712: Dimensional Analysis and Similitude/Hydraulic (2,2,0) Introduction Dimensions Dimensional homogeneity Dimensional analysis Buckingham π theorem Types of similarity Laws of similarity Similarity and modeling Types of models Distorted models Applications : Hydraulic structures models and rivers models
WE 713 : Sediment Transport / Hydraulic ( 2,2,0) Introduction. Properties of sediment. Forms of bed roughness. Resistance to flow in loose boundary channels. Beginning of sediment motion and stability analysis.
Riprap design with safety factor. Design of stable channels. The motion of bed material, bed load equations, suspended load
estimation, and total load determination. Sediment transport in closed pipes. Measurement of sediment discharge.
WE 714 : Surface Hydrology / Hydrology ( 2,2,0) Interpretation of basic hydrologic information Evapotranspiration ( consumptive use ) Rainfall disposition, snowfall Infiltration Rainfall – runoff relation Runoff process Overland flow hydrograph, stream flow hydrograph Hydrologic models Statistics in hydrology
WE ,2,0) Basic concepts. Discrete probability distribution. Continuous probability distribution. Confidence limits and hypothesis testing. Regression and correlation. Analysis of variance. Data generation. Time series. Stochastic hydrological models.
WE 716 : Groundwater Hydrology / Hydrology ( 2,2,0) Occurrence, distribution, and movement of groundwater Infiltration and flow net Continuity and momentum equations Well analysis, steady and unsteady flow equations Groundwater investigation Well digging Safe yield, quality of ground water, and basin wide ground water
development Model studies and numerical analysis of groundwater
WE 717 : Water Resources System Management / Hydrology ( 2,2,0) An Overview Methods for Evaluating Alternatives Benefit-Cost Analysis Project Planning and Analysis Application of Deterministic Dynamic Programming Application of Stochastic Dynamic Programming Multi Objective Analysis and Performance Criteria River Basin Simulation. Flood Management
ARCHITECTURAL ENGINEERINGDEPT.
2012-2013
High Diploma Architectural EngineeringM.Sc. Architectural Engineering
ARCHITECTURAL ENGINEERINGDEPT.
2012-2013
High Diploma Architectural Engineering
٢٠١٣-٢٠١٢ناوین المواد الدراسیة للدبلوم العالي للعام الدراسي فیما یلي عالتصمیم المعماري/ الفصل األول
عدد الوحدات المادة الدراسیة
٣ Advanced theories of Architecture٣ Islamic Architecture٣ Architecture and Environment٣ Advanced Building Technology٢ Engineering Services٢ Advanced Software
التصمیم المعماري/ الفصل الثاني
عدد الوحدات المادة الدراسیة
٣ Design Methods and Processes٣ Advanced Building Technology٣ Advanced Software٢ Project Management٢ Design Project٢ English Language
ري/ الفصل األولالتصمیم الحض
عدد الوحدات المادة الدراسیة
٣ Urban Design Theories٣ Islamic Architecture٣ Infrastructure services٣ Housing٢ Advanced Software٢ Measurement and Analysis Methods
ل الثانيالتصمیم الحضري/ الفص
عدد الوحدات المادة الدراسیة
٣ Urban Sustainability٣ Urban Issues٣ Advanced Software٢ Legislations and Laws٢ Research Methods٢ English Language
ARCHITECTURAL ENGINEERINGDEPT.
2012-2013
M.Sc. Architectural Engineering
M.Sc. STUDY- ARCHITECTURAL ENGINEERINGFIRST SEMESTER
Item Cod Subjects UnitsHOURST P
1 ARCH E. 601 ISLAMIC ARCHITECTURE 3 3 --2 ARCH E. 602 ARTIFICIAL INTELLIGENCE 3 3 --
3 ARCH E. 603ARCHITECTURAL DESIGNMETHODOLOGY(ADVANCED)
2 2 --
4 ARCH E. 604 THEORIES OF ARCHITECTURE (ADVANCED) 3 3 --
5 ARCH E. 605 ENGLISH LANGUAGE 1 1 --
TOTAL 12 12 --
SECOND SEMESTER
Item Cod Subjects UnitsHOURST P
1 ARCH E. 606 TECHNOLOGYof ARCHITECTURE 2 2 --2 ARCH E. 607 ARCHITECTURAL and ENVIRONMENT 2 2 --
3 ARCH E. 608THEORIES OF URBAN DESIGN(ADVANCED)
2 2 --
4 ARCH E. 609 ARCHITECTURAL DESIGN (ADVANCED) 2 -- 4
5 ARCH E. 610 QANTITATIVE ANALYSISTECHNIQUES 2 2 --
6 ARCH E. 611 ENGLISH LANGUAGE 1 1 --
TOTAL 11 9 4
ISLAMIC ARCHITECTURE1 - The emergence of the Arab-Islamic architectural thoughts, ideals, anddoctrines.
Discuss the literatures2 - Theology and the influential concepts about architecture, miscellaneous(Theology and objectives of Islamic Sharia).
Discuss the literature3 - Koran is key research in architecture science and theory in the science ofarchitecture and theories.
Discuss the literature4 - Concepts , , construction laws, ethics and the provisions of Muslimarchitecture, The impact of ordinances and rules of Islame ,and the conceptof variables within the framework of the constants. (Qur'an and Sunna)
Discuss the literature5 - The historical literatures
Discuss the literature6 - The concept of beauty ,The impact of Islam on the formation of art andaesthetic concept in Islamic Architecture.
Discuss the literature7 - Theories of form in the Arab-Islamic architecture: a religiousinterpretation of the building.
Discuss the literature8 - Formal interpretation of the building.
Discuss the literature9 - Environmental explanation of the building.
Discuss the literature10 -:Functional interpretation.
Discuss the literature11 -Scientific explanation.
Discuss the literature12 - Problems of contemporary Arabic architecture (Heritage andglobalization). Methods to achieve a contemporary Islamic architecture
ARTIFICIAL INTELLIGENCE1. General introduction, definitions and relation to the scientific research.2. Methods of the artificial intelligence with examples.3. Genetic algorithms for problem solving. Principles, programming, andgeneral architectural applications.4. Neural network – principles, programming and training.5. Applications on neural network. General and architectural problems.
6. Architectural project representing real case.
ARCHITECTURAL DESIGN METHODOLOGY1- Architectural design
Description of architectural designTypes of design problemsDesign process in various schools of architecture
2- Design methodology
Intuition methods (black box methods)Glass box methodsAccommodation methods- its phases
3- Thinking and reasoning
Theories of thinkingCreative thinkingExpertise , creativity, intelligenceRelations between creativity and design
4- Design strategy
Architectural design strategiesArchitectural applications
5- Design Philosophy
Definition, typesClient, user, designer needsFuture vision
THEORIES OF ARCHITECTURE ( ADVANCED )Changing Ideals & Concepts in Architectural Discourse across Time:An analysis of the ideals and concepts that constitute the architecturaldiscourse across time, and via which the recurrent architectural trends,movements and styles related the architectural form and practice with theirphilosophical, cultural, political, social and economic context. This task is tobe performed through critically reviewing the works of famous theorists andpractitioners of architecture from Modern, late-Modern, Post-Modern anddeconstructive Architecture.Sign Production and Interpretation in Architecture:A critical review and discussion of the sign production and interpretationapproaches in architecture and studying the impact and the relationshipsbetween developments in the intellect generally upon meaning production
and interpretative strategies within the architectural discourse such as thestructural, phenomenological and deconstructive approaches.
Architecture and Cultural Identity:A comparative review and analysis of the different architectural trendswhich are concerned in their theories and practices with the issue of culturalfunction of architecture and the role of the architectural phenomenon inbuilding and asserting the cultural identity for different societies.
ARCHITECTURE TECHNOLOGY1-TechnologyConcept of Technology - Theoretical approach of Technology -Architectural Technology - Principles of Technology in Architecture -Technology in Architectural practice - Discuss and analysis several booksand projects from Architecture Technology2-Intelligent ArchitectureIntelligent buildings – How to use Intelligent Architecture – Discuss andanalysis several books and projects from Intelligent Architecture3-The Sky ScraperHistory of Sky Scraper – The Sky Scraper Construction (Structural systems)– The Sky Scraper (Environmental approach) - The Sky Scraper (Social andFunctional systems) – The Sky Scraper (Visual analysis) - Discuss andanalysis several books and projects from The Sky Scraper4-Sustainable ArchitectureConcept Of Sustainability – Sustainable Architecture as a part of SustainableDevelopment – Levels of Sustainability ion Architecture – Theoreticalapproach of Sustainable Architecture – Discuss and analysis several booksand projects from Sustainable Architecture5-Human ArchitectureHumanity of Architecture - Parts of Human Architecture – Practice ofHuman Architecture now with Technology – Discuss and analysis severalbooks and projects from Human Architecture6-Green ArchitectureEnvironmentally Friendly Architecture – Parts of Green Architecture –
Green Architecture with Technology – Discuss and analysis several booksand projects from Green Architecture7-Future ArchitectureConcept of Future Architecture – Continuity of Architecture all over thetime – Discuss and analysis several books and projects from FutureArchitectur
ARCHITECTURAL ENVIRONMENT1- Modern technology and its uses in architecture, sustainable design –Weakarchitecture (Lack, correction and benefiting from surrounding environmentand its resources).2-Response of human body to climatic elements .Micro climatic an Andadaptation of environment condition to provide thermal comfort to man.3- Resources of renewable energy in the world and their application inarchitecture.Economical of energy in thermal and acoustical insulation in architecture.Passive and active solar energy in building.4- Modern engineering services needed in building .Indoor and out doorpollutants And their remedy.THEORIES OF ADVANCED URBAN DESIGNIntroductionOrigins and Sources of Urban Design TheoriesThe Concepts of Space , Mass and FormPsycho – Socio Systems ( Environment and Behavior )Bio – Physical systems ( Comfort and Sustainability )Approaches in dealing with Urban DesignBehavioral ApproachSemiological ApproachCognitive ApproachPhysical ApproachThe Physical Aspect of the CityThe Environmental Aspect of Urban DesignThe Aesthetics of place and SpaceThe concept of Urban IdentityApplications
DESIGN (ADVANCED)Subject Definition.Defining a specific problem regarding a specific subject.Defining the nature of the project.General Analysis/ To get acquainted with the design problem and definingthe plan of analysis according to the nature of the design problem.Site Analysis/ to study it's different characteristics to reach a general conceptregarding the positive and negative aspects of the site and how to make useof them in design.
Synthesis/ To define the main design elements to be used to produce thealternatives then to evaluate them according specific criteria to define theoptimum alternative.Development/ To develop in details the design solution via defining therequired criteria and specifications.Preparing the required drawings for the project.ANALYTICAL TECHNIQUESIntroductionsStatistical TechniquesTest of HypothesesSimple and Multiple Regression and CorrelationAnalysis of VarianceMultivariate AnalysisSpatial Analysis TechniquesNearest Neighbor AnalysisSpatial Content AnalysisSpace Syntax MethodologyModeling and ModelsApplication of Advanced Mathematical Techniques in Architecture andUrban DesignHeuristics AnalysisDecision Making TheoryLinear Programming .
COMPUTER ENGINEERING DEPT.
2012-2013
M.Sc. Computer Engineering
Ph.D. Computer Engineering
COMPUTER ENGINEERING DEPT.
2012-2013
M.Sc. Computer Engineering
College of Eng.Computer Engineering Dept.
M.Sc. Syllabus 2012-2013Semester-1
UnitsHrs.CodesSubjectNo٢٢MCE01Optimization Techniques1-٢٢MCE02Distributed Operating Systems2-٢٢MCE03Digital Control3-٢٢MCE04Computer Parallel Processing4-٢٢MCE05Advanced Computer Networks5-٢٢MCE06Advanced Microprocessors6-١(1)Theory + (1) TrainingMCE07English Language713Semester-1 Units
1. Optimization TechniquesMCE01:Introduction to Optimizationtechniques and definitions (objectivefunction,constraints,differentregions, etc.),Classical methods with noconstraints and with constraintsnecessary and sufficient conditions,Linearprogramming methods, integer optimization,probabilistic methods.
2. Distributed Operating Systems MCE02: Introduction to operatingsystem : scheduling, resource management client /server computing .
Network operating system.Parallel processing and Algorithms DistributedData Base, Distributed Applications , Distributed file
system,Distributedoperating systems.3. Digital Control MCE03:Study of using digital techniques in analog
control system,the design of needed, also the study of soft intelligentcontrol system.
4. Computer Parallel ProcessingMCE04:Multiprocessors InterconnectionNetworks, Shared Memory Architecture, Message Passing Architecture,Abstract Models, Parallel Programming.
5. Advanced Computer Networks MCE05: This is a graduate level courseon advanced computer networking. The course involves both areading/lecture/discussion and a term project. We will read and discusstopics on various aspects of computer networking: Internet designprinciples, congestion/flow control, network topology, routing, Web,wireless, data centers and cloud computing.
6. Advanced Microprocessors MCE06:Architecture of 80386 up, Modesof operations (Realand protected mode), Real mode features andinstructions, Protected mode features, tables, memory, management,paging system and user descriptors, protections,protected modeinstructions, Exceptions and Traps for protection violation, Computersystem based 80386 and Pentium processors.
EnglishLanguageMCE07: conversation among students,Tofel teachingaudio How to apply for Tofel exam .How to fill in application forms,Howto write aresearch article,How to write an M.Sc. dissertation .
Semester-2UnitsHrs.CodesSubjectNo
٢٢MCE08Image Processing1-٢٢MCE09Network Security2-٢٢MCE10Computer Graphics3-٢٢MCE11Pattern Recognition4-٢٢MCE12Advanced Real time and
embedded Systems5-
٢٢MCE13Soft Computing6-١(1) Theory + (1)TrainingMCE14English Language713Semester-2 Units10Dissertation36Total M.Sc. Units
1. Image Processing MCE08:Review, Image enhancement ,Imagerestoration ,lossless compression methods,lossy compression method,image models (additive and multiplicative), wavelet denoising.
2. Network security MCE09:Basic concepts and techniques in informationsecurity and management such as risks and vulnerabilities,appliedcryptography , authentication,access control,multilevelsecurity,multilateral security,network attacks anddefense,intrusion,physical security,copyright protection ,privacymechanisms ,security management, system assurance and evaluation,andinformation warfare. Coverage of high-level concepts such asconfidentiality integrity,and availability applied to hardware,software,anddata.
3. Computer GraphicsMCE10:Review and Introduction, 3D DigitalDifferential Analyzer, 3D-Transformations, 3D- Chipping, HiddenSurfaces.
4. Pattern Recognition MCE11:Introduction to Pattern Recognition,Bayesian Decision Theory, Quadratic Classifiers, Nearest Neighbors andK-means, Linear Discriminant Functions, Nonlinear Discriminants andNeural Networks, Principal Components, Advanced DimensionalityReduction, Statistical Clustering, Independent Components Analysis,Support Vector Machine.
5. Advanced Real Time and Embedded Systems MCE12: This classprepares you to understand advanced research issues in real-timesystems. You will be introduced to schedulability theory, resourcehandling, timing analysis, real-time operating systems, real-time systemdesign, embedded architectures, soft real-time systems, middleware,quality-of-service, power-awareness, distributed real-time systems andsensor networks.
6. Soft Computing MCE13:Fuzzy Logic, neural networks, geneticalgorithms, evolutionary computing, probabilistic computing.
EnglishLanguageMCE14: Conversation among students,Tofel teachingaudio How to apply for Tofel exam., How to fill in applicationforms,How to write aresearch article, How to write an M. Sc.dissertation.
COMPUTER ENGINEERING DEPT.
2012-2013
Ph.D. Computer Engineering
University of MosulCollege of Eng.Computer Engineering Dept.
Ph. D. Syllabus 2012-2013Semester-1
UnitsHrs.CodesSubjectNo.٢٢DCE01Advanced Microprocessor1-٢٢DCE02Networks Design & Modeling2-٢٢DCE03Computer Graphics3-٢٢DCE04Computer Parallel Processing4-٢٢DCE05Advanced Computer Networks5-١(1) Theory+(1)TrainingDCE0٦English Language6-11Semester-1 Units
1. Advanced Microprocessors DCE01:Architecture of 80386 up,Modes of operations (Real and protected mode), Real mode featuresand instructions, Protected mode features, tables,memory,management,paging system and user descriptors,protections,protected mode instructions, Exceptions and Traps for protectionviolation, Computer system based 80386 and Pentium processors.
2. Network Design and Modeling DCE02:A- Congestion And Traffic Management: Queuing Models, QueuingAnalysis, Single Server Queues, Effects of Congestion, CongestionControl, Traffic Management.B- Packet, Frame Relay And ATM Networks Congestion Control:Congestion Control in Packet Switching Networks, Frame RelayCongestion Control Performance of TCP over ATM, Traffic andCongestion control in ATM , Requirements and Attributes, TrafficManagement Frame work, Traffic Control, ABR traffic Management,ABR rate control, RM cell formats, ABR Capacity allocations, GFRtraffic.
C-Network Design Techniques:Design principles and trade-off, End-to-End Vs. Hop-by-Hop-Control Mechanisms, Design techniques,Scaling time and space-specialized hardware implementation-parallelism and pipelining, Data structure optimization and latency
reduction, Future trends: Changing resource tradeoffs-technology andapplications.
3. Computer Graphics DCE03:Review andIntroduction, 3D Digital Differential Analyzer, 3D-Transformations,3D- Chipping, Hidden Surfaces.
4. Computer Parallel ProcessingDCE04:Multiprocessors Interconnection Networks, Shared MemoryArchitecture, Message Passing Architecture, Abstract Models, ParallelProgramming.
5. Advanced Computer NetworksDEC05:This is an advanced-level course on the recent developmentsin computer networks. The topics to be covered include current topicsof research and development such as Routing, Congestion Control,Multicasting and Resource Reservation in the Internet, WirelessNetworks, including wireless ad hoc networks, Peer-to-peer networks(P2P), Performance Study of Computer Networks, and if time permitsand Multiprotocol Label Switching (MPLS).
EnglishLanguage DCE06:Conversation among students ,Tofel teachingaudio, How to apply for Tofel exam .How to fill in application forms, Howto write aresearch article, How to write a Ph. D. Thesis.
Semester-2UnitsHrs.CodesSubjectNo.
٢٢DCE0٧Optimization Techniques1-٢٢DCE0٨Advanced Operating Systems2-٢٢DCE٠٩Advanced Computer Architectures3-٢٢DCE1٠Optional Topic (1)*4-
٢٢DCE1١Optional Topic (2)*5-
١(1) Theory+(1)TrainingDCE12English Language6-11Semester-2 Units38Thesis٦٠Total Ph.D. Units
1. Optimization TechniquesDCE07:Introduction to Optimizationtechniques and definitions (objective function,constraints, differentregions, etc.),Classical methods with no constraints and withconstraints necessary and sufficient conditions,Linear programmingmethods, integer optimization,probabilistic methods.
2. AdvancedOperating Systems MCE08:Introduction to operatingsystems: scheduling, resource management, client /servercomputing.Network operating system. Parallel processing andAlgorithms Distributed Data Base, Distributed Applications,Distributed file system,Distributed operating system .
3. Advanced Computer Architecture DEC09:Superscalar andsuperpipelining processor architectures, VLIW processors, programparallelism, performance evaluation, memory systems,Microarchitecture. Parallel Architecture.
4. Optional Topic (1)DCE10*
5. Optional Topic (2)DCE11*6. EnglishLanguage DCE12: conversation
among students ,Tofel teaching audio, How to apply for Tofel exam.How to fill in application forms, How to write aresearch articlehow to write a Ph. D. Thesis.
* Optional Topics can be chosen from the followings:Computer Hardware,Computer Interfacing, Advanced Logic Design,Network Accesses Techniques,Wireless Networking, NumericalAnalysisand Optimization, Multimedia Systems, Computer Electronics,Computer Bus systems, Optical Communications, MobileCommunications, Optical Computers, Optical Computer Networks,SoftwareEngineering,Real Time Data Base Systems, ArtificialIntelligence,Advanced DSP Processors, Programmable Logic Circuits,Advanced Image Processing, Advanced Transforms, Graphic SoftwareOpen GL.