مقرارات كليات الهندسة باقسامها قسم الاتصالات قسم التحكم قسم علوم وهندسة الحاسبات
كثرت الاسئله حول ماهية مقرارات هندسة الحاسب او هندسة الاتصالات اوهندسة التحكم و ما الفرق بين هندسة الحاسبات و كليه حاسبات و معلومات و محاولة منا لازالت بعض هذا الغموض علي قدر ما نستطيع اليكم اسماء و محتويات المقرارات بالنسبة لكلية الهندسة الالكترونية بمنوف من اول السنه الاعدادية حتي سنه التخرج
مقرارات القسم العام
Prep. Year
Mathematics (1): PM 001
Lecture: 4 hours/week
Exercise: 2 hors/week
Course details:
Functions – limits – continuity – differentiation – applications – integration – methods of integration – improper integration – Applications
Mathematics (2):PM 002
Lecture: 4 hours/week
Exercise: 2 hors/week
Course details:
Theory of equations – matrices – linear algebraic equations – iterative methods – infinite series – conical sections.
Physics (1) PM 003
Lecture: 2 hours/week
Exercise: 2 hours/week
Lab: 2hours/week
Physical quantities – units and dimensions – field of gravitational force – fluid statics and dynamics – viscosity – elasticity- sound waves – waves in elastic media – heat transfer – Kinetic theory of gases – first and second laws of thermodynamics – entropy.
Physics (2): PM 004
Lecture: 2 hours/week
Exercise: 2 hours/week
Lab: 2 hours/week
Charge and matter – electric field – Gauss law – electric potential – capacitors and dielectrics – current, resistance and electromotive force – magnetic field – Ampere’s law and Biot- Savart law – Faraday’s law of induction – inductance – magnetic properties of matter – Maxwell’s equation – Geometrical optics and fiber optics.
Mechanics: PM 005
Lecture: 4 hours/week
Exercise: 2 hours / week
Course details:
Vectors – multiplication – moments – equilibrium in space – trusses analysis – virtual work – center of mass – moment of inertia – linear motion of particles – S.H.M – planer motion of particles in Cartesian co-ordinates– projectiles – motion in resistive medium – velocity and acceleration in polar co-ordinates- circular motion – dynamics of charged particles in magnetic and electric fields – impulse and collision – dynamics of rigid body.
Production Technology (Production Engineering): PM 006
Lecture: 1 hour/week
Exercise: 2 hours/week for two semesters.
Course details:
Engineering Materials: Ferrous and non-ferrous metals - Introduction to engineering Instruments - Metal forming and machining - Different methods of joining metals - Introduction to non-conventional machining.
Engineering drawing and projection :FR 001
Lecture: 2hours/week
Exercise : 4 hours/week for two semesters
Different types of engineering lines – operations – Isometric and views – deduction of the third view – sections – steel - introduction to projection – different methods of projection – normal projection – the point – the line – the plane- position problems – measuring problems – additional projection- prisms presentation - circle projection – the cylinder – the cone and conical sections – intersection of different rotational surfaces – applications.
First Year
Mathematics (3): PM 101
Lecture: 4 hours/week
Exercise: 2 hours/week
Course details:
Ordinary first order differential equations- second and higher order linear differential equations – solving a system of differential equations – Laplace transform – power series solution for differential equations- applications.
Mathematics (4): PM 102
Lecture: 4 hours/week
Exercise: 2 hours/week
Course details:
Special functions – partial differentiation – multiple integrals – set theory and sub-sets – diagrams theory – Bolean algebra – solid analytic geometry.
Physics (3): PM 103
Lecture: 2 hours/week
Exercise: 2 hours/week
Course details
Bonds in solids – Dielectrics and polarization mechanisms – X-ray and its applications – crystal structure of solids – optical properties of solids.
Physics (4): PM 104
Lecture: 2 hours/week
Exercise: 2 hours/week
Course details
Band theory of solids – metals – insulators – semiconductors and superconductors- quantum mechanics and Schrodinger equation- Semiconductor devices and transistors – specific heat of solids (Debye theory) – wave particle duality.
Lecture: 4 hours/week
Exercise: 2 hours/week
Course details:
Ordinary first order differential equations- second and higher order linear differential equations – solving a system of differential equations – Laplace transform – power series solution for differential equations- applications.
Mathematics (4): PM 102
Lecture: 4 hours/week
Exercise: 2 hours/week
Course details:
Special functions – partial differentiation – multiple integrals – set theory and sub-sets – diagrams theory – Bolean algebra – solid analytic geometry.
Physics (3): PM 103
Lecture: 2 hours/week
Exercise: 2 hours/week
Course details
Bonds in solids – Dielectrics and polarization mechanisms – X-ray and its applications – crystal structure of solids – optical properties of solids.
Physics (4): PM 104
Lecture: 2 hours/week
Exercise: 2 hours/week
Course details
Band theory of solids – metals – insulators – semiconductors and superconductors- quantum mechanics and Schrodinger equation- Semiconductor devices and transistors – specific heat of solids (Debye theory) – wave particle duality.
2nd Year
Mathematics (5): PM 201
Lecture: 4 hours/week
Exercise: 2 hours/week
Course details:
Fourier series – Fourier integral – numerical analysis.
Mathematics (6): PM 202
Lecture: 4 hours/week
Exercise: 2 hours/week
Course details:
Partial differential equations – vector analysis – complex variables – numerical solutions for boundary value problems.
Engineering mathematics: PM 301 CE
( Department of electrical communications).
Lecture: 3 hours/week
Exercise: 2 hours/week
The Z-transform – probability theory – difference equation – matrix analysis – numerical analysis approx. theory – numerical solution of differential equations.
Engineering mathematics: PM 301 CC
Department of electrical communications.
Lecture: 3 hours/week
Exercise: 2 hours/week
The Z-transform – probability theory – difference equation – matrix analysis – numerical analysis approx. theory – art of counting.
مقرارات قسم هندسة وعلوم الحاسبات
Computer Sciences and Engineering
Prep . Year
Introduction to computer programming – Variables declaration and scope - type definition - Flow of control – Arrays - Functions - Pointers - Structures - Input and Output in C - Binary system – Computer Arithmetic - Logic gates - Basics of digital circuits and the simple combined logic elements.
1st Year
CSE 161 Computer s’ Operations (First Year)
Basic Data Structures - Abstract Data Structures - Recursive Algorithms - Complexity Analysis - Sorting Algorithms - Searching Algorithms – Introduction to versions and characteristics of Windows - Other tools of Visual Programming. Using Microsoft Developer Studio - Graphical User Interface (GUI) - Introduction to object-oriented programming in C++ Principles of OOP - Structures and classes Motivation for classes - Scope resolution operator - Memory management - Modular design and encapsulation - Windows Programming versus C++ WP as a kind of OOP. Introduction to Visual C++ and Microsoft Foundation Classes (MFC).
Dependencies
Pre-requisites for this module: CSE 000 Computer Fundamentals
2nd Year
Logic Design: combinatorial logic, Memory element, Counters, Registers - Analysis of combinational digital circuits. Design of combinational digital circuits - Analysis of sequential digital circuits - Design of sequential digital circuits.
CES 262 Computer Engineering (Second Year)
Computer Technology and Performance - Memory Systems: characteristics of memory systems; memory hierarchy; main memory; cache memory; external memory; memory management. Processor: register classes; register organisation; instruction cycle; instruction pipelining; reduced instruction set computers; superscalar processors Input-Output: polling; interrupts; DMA
THIRD YEAR
Fundamentals of Computer Design - Memory Systems – Processor - Input-Output-Instruction Set Principles – Pipelining - Memory Hierarchy - Storage Systems: types of storage devices; bus systems - connections, protocols and standards
CSE 362 Databases and Information Systems
demonstrate an understanding of the role and importance of information bases in organisations - Pprinciples and objectives of data management - Concepts of Database systems - Conceptual design using ER model - Relational Database, Relational constraints, and Relational Algebra - SQL – Standard Database Language - ER – to- Relational database mapping .
CSE 363 Computer Networks
Computer network introduction - Topology, Protocols and Architecture -The OSI model and the TCP\IP Protocol Suite - Principles of internetworking, The Internet and routing protocols - Transport services and Protocol mechanisms - Network security - requirements and techniques - Introduction to distributed applications.
CSE 364 Computer Graphics and Visualization
Graphics devices - The concept of workstations, segmentation and the output and input primitives - Scan conversion algorithms - Object representation and manipulation- the implementation of clipping; and segment and viewing transformations (rotation, scaling, translation and projection) in two and three dimensions.
CSE 365 Selected Topics (1)
Peripheral Computer Devices and interface - Internal PC Components - AT vs. ATX . Video Cards and Monitors - Parallel and Serial Ports - Universal Serial Bus , SCSI Standards . PCI Bus , . ISA Bus , IDE and EIDE Port , AGP Bus - Hard Drive Structure - Floppy Disks - CD-ROM and DVD Drives - Printing Technologies - Laster Printer Components - Inkjet Printers
CSE 366 Laboratories
CSE 367 Microprocessors and their Applications
The microprocessor family- Microprocessor architecture memory stack, I/O, DMA - Processor control and monitoring(Interrupts, Resets, Status) - Hardware Reference information(CPU architecture MIN/MAX mode, EXTmemory addressing, I/O interfacing, microprocessor applications) - Microprocessor system design
CSE 368 Computer Operating Systems
A practical introduction to modern operating systems, with a substantial laboratory component, primarily using UNIX and the C++ programming language-Programming with multiple "threads" of execution - synchronization/sharing primitives - pitfalls of multithreaded software - Operating system design - management of threads of execution, including scheduling algorithms - management of shared and unshared memory - virtual memory - file system management - input and output - security
CSE 369 Multimedia and Virtual Reality Systems
Definitions of multimedia - Types of multimedia systems. CD networked etc - Properties and characteristics of individual multimedia components text, speech, image, video - Data transmission, capture, compression, presentation and synchronization - Multimedia Databases, structure organization - Case Studies of multimedia applications - Future options for multimedia systems.
CSE 370 Artificial Intelligence Technologies
Intelligent software agents and multi-agent systems - Artificial intelligence programming in Lisp or Java - Decision making, systems, modeling and support; Knowledge based decision support Fundamentals of expert systems - Basic concepts of fuzzy set theory; fuzzy decision making; Basic concepts of neural networks - Hybrid intelligent systems - Basic concepts of genetic algorithms: evolutionary algorithms, evaluation, optimization problems.
CSE 371 Selected Topics (2)
Optical computers - Complex representation of optical signals - Optical correlation and convolution - Linear Optical filtering: amplitude filter - Propagation of optical information - Optical pattern recognition - 3-D representation and visualization of optical functions - Mathematically manipulate expressions involving these functions - Graphical and mathematical convolution - Optical techniques of extracting signal from signal plus noise - Analyze propagation of light as a linear system phenomenon - Design and analysis of an optical information processing system such as phase-contrast microscopy.
CSE 366 Laboratories
FORTH YEAR
Overview- Database design using EER data model - EER – to – Relational mapping - Concepts of object oriented database - Functional dependencies and normalization for relational databases - Relational database design algorithms - Database recovery techniques - Database security and authorization - Distributed Databases - Deductive Databases
CSE 462 Software Engineering
The nature, rationale and principles of software engineering. Phases of development Requirements and their relationship to testing. Specification and introductory design. Designing with Finite State Machines. Designing with Jackson Structured Programming. Designing with Data Flow Diagrams. Testing and Coverage Metrics. Inspection, Maintenance and Evolution
CSE 403 Compiler Design
Description: An introduction to compiler design. Topics covered in this course include: Lexical analysis, Syntax analysis, Syntax-directed translation, Type checking and other static analysis, Run-time environments, Code generation, Program optimization
CSE 464 Selected Topics (3)
Concurrent Systems - The origins of concurrency - The need for interprocess communication and synchronization - Message passing -Reasoning about concurrent systems with Petri Nets. Implementation of concurrent systems - Process management - Implementation of interprocess communication and synchronization. Memory management - Device management
CSE 465 انسانيات
CSE 406 Laboratories
CSE 467 Project
CSE 468 Distributed Systems and Internet Technology
CSE 469 Advanced Computer Networks
Introduction to Networking Fundamentals - Medium Access Control Protocols for High Speed Networks - Fast Access Technologies - Integrated Services Digital Networks(ISDN) - TCP/IP - TCP/UDP - SPX/IPX - WWW, E-mail, and DNS - Security and Firewalls tunnels, and Routers - Internet Security.
CSE 470 Computer Vision and Image Understanding
image representation and preprocessing - segmenting simple and complex images - labeling regions of an image - recognizing relationships between regions of an image - apply simple image processing techniques such as thresholding and edge enhancement - segment an image - label the segmented regions - extract features from the regions - Image representation, Image preprocessing, Statistical and structural methods of image labeling, Labeling of line drawings, Object models and matching, Knowledge based vision, Analysis of multiple images
CSE 471 Parallel systems and their Applications
Introduction-basic parallel constructs - performance models of parallel computers - Parallel algorithms - Parallel computer architecture - multi-threaded architectures-Commercial database servers - data-intensive applications - reliability requirements.
CSE 472 Selected Topics (4)
Geographic Information Systems - GIS definition - GIS through history - The function of the GIS - Studying the way maps and other data have been stored or filed as layers of information in a GIS makes it possible to perform complex analyses - Applications of GIS - Using GIS - Mapmaking - Site selection - Emergency response planning - Simulating environmental effects - Graphic display techniques -The future of GIS
CSE 466 Laboratories
مقرارات قسم الاتصالات الكهربية و الالكترونية
Electronic & Electrical Communication Engineering **Department **
- Prep. Year -
Engineering Drawing Tools-Engineering Operations-Engineering
Projection-Isometric Drawing-Missing Views-Sections-Steel
Construction-Mechanical Assembly.
- 1st Year -
Electron Ballistics-Semiconductor Physics-P-N Junction Diodes
-P-N Junction Analysis-Diode Applications
-Zener and other two Elements Devices.
(EC 122)- Electronics(2)
1-The Basic of (BJT) Transistor.
2-Bipolar Junction Transistor Characteristics.
3-Load Lines and dc Bias Circuit.
4-Small Signal Transistor Equivalent Circuit.
5-Single Stage Transistor Amplifier.
6-Metal Semiconductor Contact.
7-Junction Field Effect Transistor JFET.
8- Metals Semiconductor Field Effect Transistor (MESFET).
9-Metal Oxide Semiconductor Field Effect Transistor (MOSFET).
10-Biasing Circuits Equivalent Circuits MOSFET.
11-Field Effect Transistor Amplifier.
(EC 123)- Electrical Workshop
Safety-Tools and measuring equipments-Specification s for used Components-Special skills in components tes-Assembly techniques
-Printed circuit Design-Soldering tech-Shop practices and construction for; Analogue circuit: Lightening and electronic circuits-Troubleshooting strategy and skills.
(EC 124)Semiconductor Devices physics & Technology
Crystal structure .Energy Band Diagram .- Intrinsic carrier densities - Mobility , conductivity , and velocity saturation .-diffusion and recombination .- General excess carrier movement. Semiconductor under non – equilibrium conditions .--Space charge .Wafer preparation . – Epitaxial Deposition . – Lithography and Etching – diffusion – metalization – chip test – junctions .
(EC 125) - Electronic Circuits Drafting
Drafting techniques of electronic designs-Symbols of electronic Circuits drafting Assembly and detail drawing-Electron-Component symbols – Schematic -diagram drawing-Wiring and printed circuit board diagrams-Draw Proper Schematic diagrams of pictorial diagrams-Computer-aided-drawing of electronic Components and circuits- Computer-aided-drawing of printed circuit boards.
- 2nd Year -
Introduction-Communication Systems and Transmission Media-Broadcasting Communication Systems-Basic Telephony Systems-Computer Communication Systems-Optical Communication Systems-Modern Communication Systems-Pulse Modulation Systems-Radar Systems-Modern Communication systems.
(EC 222) Very Large Scale of Integrated Circuit (VLSI )
Introduction – MOS transistor theory modeling of transistor using SPICE – fabrication of circuits MOS -Inverter static characteristics - Inverter dynamic characteristics – Combinational MOS logic - Mid-Term Exam – Sequential MOS logic circuits - MOS semiconductor Memories - Description component and analysis – Interaction with matter Ion Implementation .
(EC 223) - Electronic Circuits
Integrated Circuits -Operational Amplifiers-The Operational Amplifier Examples-Analog& Signal Conditioners and Signal Processing Using Op. Amps -Optoelectronics-Microwave Electronics-Surface Acoustics wave Devices.
(EC 226) Electronic Workshop
1-Electronic Components.
2-Tests .
3-Famous Applications for Components.
4-Planning and Designing Electronic Packaging.
5-PCB Design Manufacturing.
6-Troubleshooting Tests.
7-Projects.
(EC 234) Waves & Signal Analysis
Vector Analysis-Electrostatic Fields-Potentials and Capacitances
-Magnitostetic Fields-Inductance and Energy-Time Varying Electromagnetic Fields.
- 3rd Year -
Network Functions -Approximation all Pole filters-Passive Synthesis-Elements of Active Synthesis-Sensitivity.
(EC 322) - Electromagnetic Theory
Plane wave propagation-Transmission line at UHF -Rectangular and circular Guides-Microstrip Lines .
(EC 323) -Theory of Radio Comm.
Introduery topics-The Amplitude modulations - demodulations Techniques-The Analog modulation - demodulations Techniques
-Signal transmission through linear Comm. Channels-The Performance Evaluation of analogue Comm. Systems in the Presence of Noise and interferences.
(EC 324) Digital Exchanges Systems
Introduction-Telephone Set-Electronic Exchange Systems-Digital Exchange Systems
(EC 326) LAB.3 [1 , 2 ]
1-Amplitude Modulation(AM).
2-Frequency Modulation (FM).
3-Pulse Code Modulation (PCM).
4-Phase Locked Loop (PLL).
5-Microprocessor(MP).
6-Digital Modulation.
7-Oscillators, Filters (Feed Back).
8-Amplifiers.
(EC 327) Optical Communications
Introduction – optical fiber wave guides . – Transmission characteristic of optical fiber wave guide - optical sources – fabrication of optical fiber – connector , splices and coupler .
(EC 328) Microwave Engineering
Circuit Theory for wave guide Systems-Impedance trans for motion and matching-Passive Micro wave Devices-Filter design-Microwave amplifier design.
(EC 329) Acoustics
Vibrations and Waves-The Acoustic Wave Equations-Transmission Phenomena-Radiation and Reception of Acoustic Waves-Ultrasonic Transducers-Loudspeakers-Microphones-Room Acoustics.
(EC 330) - Digital Communications Systems
Introduction-The Sampling theory - Digital Transmission systems
-Digital Modulation systems - Data Communication systems
-Performance of digital communication systems in the presence of noise.
(EC 325 , 331) Elective course (1,2)
Computer Graphics. Electronic Devices. Random Variable and Random Process. Intelligent Network Applications of Neural Networks in Electromagnetic. Digital Exchange Systems. TV Engineering.
- 4th Year -
Overview of Computer Networks-Data transmission-LAN Topology
-LAN Protocols-OSI Protocol-Internet-Network Security-ISDN-ATM Network
(EC 422) Information theory and coding
Introduction-Source coding-Channel coding-Line coding-Data Scrambler-Data compression
(EC 423)-Mobile Communication
Fundamental of Mobile Radio -Cellular Structure
- Mobile Radio Network Structure- Channel Allocation Techniques -Mobile Radio Propagation Channels
- Diversity and Combining Techniques - System Capacity Analysis -Digital Cellular Mobile Radio -Modulation Techniques
-Multiple Access Techniques -Operating Systems-3rd – Generation Systems -safety Aspects
(EC 424)- Antennas Engineering
Linear Antenna-Arrays of Elements-Aperture Antenna-Microstrip Antennas-Smart Antenna-Receiving Antennas-Ground wave Propagation-Space wave Propagation-Sky wave Propagation.
(EC 426)- LAB. 4th year [1,2]
microprocessors circuits – Antenna demonstration – digital communication – optical fiber communications.
(EC 428)Advanced Communication Systems
Data Network -Spread Spectrum-Radar and Remote Sensing
-Satellite Communication-Mobile Communication-Computer Communication.
(EC 429)Communication Network Planning
Goal of Network Planning-Fundamental Plans-Financial Plan-Provision Timing Plan-Technical Plan -Forecasting Plan -Switching Plan -Numbering Plan -Routing Plan-Signaling Plan
-Charging Plan-Evaluation and Development Plan -Transmission plan -Quality of Service -Grade of Service-Mobile Radio Network
-Satellite Network.
(EC 430)Microwave Electronics-
Microwave Tubes- Solid State Amplifiers-Parametric Amplifiers
-Oscillators and Mixers
(EC 431)Satellite Engineering
Introduction-Satellite Systems-Satellite Links-Satellite Orbits
-Modulation Technique in Satellite Communication Systems- Multiple Access Techniques-Satellite Systems Applications.
( CE 425 , 432 )Elective Course [ 3, 4 ]
Satellite Antennas. Integrated Optics. Radar and Sonar Systems.
Applications of Surface Acoustic Waves in Mobile Communications. Advanced communication Networks. Very Large Scale Integrated Circuits. Economic and Laws. Management and Marketing. Arts.
مقرارات قسم الالكترونيات الصناعية و هندسة التحكم
Department of Industrial Electronics And Control Eng.
First Year
Introduction: Nature of electricity – Sources of electrical currents – Electrical circuits – Resistive circuits – Electrical networks analysis techniques and theorems – Magnetism and electro magnetism – Magnetic circuits – Electro static and capacitance – Transient performance of linear electric circuits – Single phase alternating current circuits (wave analysis – vector analysis – complex quantities).
(CE142)Laboratory Experiments
Direct current experiments – alternative current experiments – Performance of resistive circuits – Inductive and capacitive circuits – power factor improvement – Testing of single phase transformers.- Familiarization to electrical and electronic components – using measurement instruments in electronic laboratory – cathode-ray oscilloscope – Resonance and filter circuits – Amplifiers – Digital measurement instruments and power amplifiers.
Second Year
Classification of control systems – Transfer function – Mathematical description of physical systems – systems analysis in time domain - Testing signals – Systems transient response (steady state error - dynamics) – Stability – Introduction to optimal control .
(CE242)Electrical Power and Machines
Introduction: Poly phase circuits – Transmission lines – Transmission lines current and voltage relations – Representation of power systems – Transformers – Induction motors (single and three phases) – Direct current machines.
(CE243)Electrical Measurements
Data analysis – Indicating instruments (digital screens) – Direct and alternative current bridges – Error detection in cables – Attenuators – Oscilloscopes.
(AC225)Laboratory Experiments
Power amplifiers – Audio amplifiers – Analog differentiators and integrators – On/off circuits and analog circuits – Differentiation amplifiers with high input impedance. Amplifiers using stable bridges – Comparators – Zero crossing detection – Oscillators – High frequency – Crystal oscillators – Triangle waveform generators – Multivibrators – Characteristics of DC-motors - DC generators - Induction motors.
Third year
Correlation functions- Numerical analysis of: solution of linear and nonlinear algebraic equations- calculation of eigen- values and vectors- finding the roots of power series- difference equations- solution of differential and integral equations-Applications on MATLAB.
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(AC342) Electronic And Industrial Measurements
Digital instruments, indicators, X-Y recorders, logic analyzers, Harmonic analyses. analogue to digital converters-Transducers and signal conditioners.
(AC343) Linear Control Systems Root locus analysis and design. Frequency response (Nyquist criteria, Pode diagram)- stability based on frequency domain- frequency domain compensation. Phase and gain margins- Design of classical controllers P, PI, PID. Ziegler-Nicola design methods- Applications on MATLAB.
(AC344) Micro Controllers
Introduction- Microprocessor architecture- Arithmetic logic unit- Control unit- time control- timing and counters- simple interfacing methods- modeling and programming of microprocessors.
(AC346) Experimental Laboratory-1
Experiments are related to measurements-industrial electronics- control systems- biomedical engineering.
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(AC347) Nonlinear systems
Describing function- stability using phase plane- Liaponov stability methods for linear and nonlinear systems- introduction to hyper stablity method.
(AC348) Industrial electronics
Introduction- power diodes- thyristors( diac-SCR-triac-etc.) - firing ,protection, switching off circuits- single and three phase controlled rectifiers- AC voltage regulators( cycle control- phase control- loading cases).
(AC349) Digital control systems
Signal analysis and signal transformation- sampling theorem- transfer function-block diagrams- stability- digital controllers(P-PI-PID) – System identification – adaptive and self-tuning controllers.
(AC350) Medical Electronics
Introduction to biomedical instrumentation design- biomedical transducers- electrodes and bio-signal amplifiers- applications to instrumentation in(heart- lung- brain- muscles – nerves) – effects of the interference of magnetic fields and magnetism and the radio signals on bio-signals and the method of suppression.
(AC346) Experimental Laboratory-2
Includes experiments in electronic measurements and control of some processes available in the laboratory. It includes some experiments on biomedical engineering and industrial electronics.
(AC345, 351) Elective-1, 2
Computer Architecture- Advanced computer language -System modeling and simulation - Robotics - Power systems and Electrical Machinery-Mechatronics-1-Physiological signals .- Stochastic process control- Computer Networking based Control Systems - Artificial Intelegence- Microcontrollers- Mechatronics-2 -Bio- signal processing .
Fourth year
Introduction- advantages of the utilization of PLC- PLC architecture- logic and sequential control circuits- PLC programming( Ladder diagram-instruction list-function diagrams) – counters and timers- applications.
(AC442) Power Electronics circuits Power transistors- DC choppers( step down-step up-step up/down) – Inverters(single phase- double phase- phase reduction) – chuc inverter- converter classifications- inverse converters from AC to DC( half bridge- full bridge- three phase – voltage source- current source- PWM) – resonance inverters- Applications.
(AC443) Intelligent Control Systems
Introduction to intelligent systems and their applications – Intelligent control systems and fuzzy logic – Fuzzy relations and fuzzy rules – Fuzzy relations and Compositional rule of inference – Fuzzy logic control – Intelligent systems and neural networks – Fuzzy neural networks and its applications to control systems.
(AC444) Medical equipment
Introduction to clinical laboratory ( Spectrum analyzers – chemical analysis) – Artificial kidney – calibration and maintenance of medical equipment- safety rules and factors in medical equipment.
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(AC446) Experimental Laboratory-3
Includes experiments in electronic measurements and control of some processes available in the laboratory. It includes some experiments on biomedical engineering and industrial electronics.
(AC448) Industrial automation systems
Basic of system modeling (thermal- chemical – mechanical) – Industrial control components (switches- relays- statrters- final control elements- stepper motor) –computer control systems- supervisry control and data acquisition- (SCADA)- Distributed control systems (DCS)- Applications of automation systems.
(AC449) Applications of Industrial electronics
Controller types (two levels-three levels- three terms) – Applications of power electronics in temperature and industrial furnaces –Induction heating- Modeling and control of electromechanical systems ( DC- AC- AC synchronous generator) Position, torque and speed control- DC-link inverter- variable speed drive.
(AC450) Real time control systems
Introduction- types of real time systems-sequential control supervisory control- hardware and software requirements- Direct digital control- modeling of real time systems- controller design- real time operating systems- Applications.
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(AC446) Experimental Laboratory-4
Includes experiments in electronic measurements and control of some processes available in the laboratory. It includes some experiments on biomedical engineering and industrial electronics.
(AC452 , 445 )Elective3 - 4
Modern control system – Data transmission and system interfacing – Macaronis 3 – ionized and non-ionized radiation - Control Using Advanced Software- Advanced Programmable logic - controllers and its Applications - Mechatronics-4 - Medical imaging- Automation And Computer Integrated Manufacturing – Robotic application in manufacturing .
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