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برنامج الدراسات العليا في الكلية

 مقدمةأنشئت كلية التقنية الصناعية ( المعهد العالي للصناعة سابقا) لتحقيق أهداف عديدة ترمي لرفع كفاءة العاملين بقطاع الصناعة والقطاعات الأخرى ذات العلاقة، ونشر الوعي التقني بين أفراد المجتمع.واهتمت الـكلية خلال السنوات الأولى من إنشائها ببرنامج الدراسة والبحث العلمي لتخريج الكوادر ذات المستوى الجامعي والتقني، بالإضافة إلى تأهيل ورفع كفاءة العاملين بالقطاعات المختلفة من خلال عقد الدورات التدريبية في المجالات المختلفة.ونتيجة لنجاح برنامج الدراسات في مرحلة البكالوريوس بالكلية، وللحاجة الملحة لحملة الشهادات العليا (الماجستير) في المجالات المختلفة، وللمساعدة في دراسة العديد من المواضيع وإعداد بحوث خاصة بها، فقد بدأت الكلية عام 1995م في تنفيذ برنامج الدراسات العليا لنيل درجة الماجستير التقني. ولتجنب تشتت الجهود، وحتى يتم تنفيذ البرنامج بأقل ما يمكن من الصعوبات، فقد اتبعت الكلية نظام المجموعات، وذلك بفتح الدراسات العليا في تخصص واحد في نفس الوقت، والذي يتم توفير الاحتياجات المادية له.وعلى هذا الأساس شرعت الكلية في تنفيذ البرنامج في تخصص الهندسة الصناعية بعد أن توفر بالكلية العدد الكافي من الأساتذة لتدريس المقررات والإشراف على الرسائل، مع الاستعانة بأعضاء هيئة التدريس بالجامعات الليبية والمعاهد العليا للمساعدة في الإشراف. فانخرط بالبرنامج أكثر من (70) مهندساً، وقد تحصل عدد (36)  منهم على درجة الماجستير التقني.

ونظراً لنجاح برنامج الدراسات العليا في تخصص الهندسة الصناعية، شرعت الكلية خلال العام الدراسي 2003/2004 في برنامج الدراسات العليا في تخصص الهندسة الكهربية والالكترونية في شعبة هندسة التحكم الآلي وهندسة الحاسوب وهندسة الاتصالات، وانخرط بالبرنامج أكثر من (55) مهندساً ، وقد تحصل عدد (11)  منهم على درجة الماجستير التقني.

وقعت الكلية سنة 2007م اتفاقية تعاون مع جامعة جلاسكو وجامعة نوتنجهام ترنت البريطانيتينفي برنامج الدراسات العليا في تخصص الهندسة الالكترونية في شعبتي هندسة الحاسوب وهندسة الاتصالات،  حيث تم إيفاد عدد من الطلبة منذ توقيع الإتفاقية وقد تخرج حتى الآن عدد (28) طالباً ولايزال هذا البرنامج المشترك مستمر إلى وقتنا الحاضر.

وقد تحصل على درجة الماجستير التقني من الكلية حتى نهاية الفصل الدراسي خريف 2013/2014 أربعة وسبعون (75) طالباً وطالبة والجداول رقم (1) ،(2) و(3)  المرفقة في نهاية هذا الكتيب تعرض أسماء وتخصصات الخريجين.

وتلقي هذه الصفحات الضوء على بعض النقاط التي تخص برنامج الدراسات العليا بالكلية من ناحية القبول والدراسة والمقررات الدراسية بكل قسم وشعبة.

شروط القبول

يشترط للقبول ببرنامج الدراسات العليا ما يلي:

أن يكون مستوفياً لشروط اللياقة الصحية والبدنية.

أن يقوم بتقديم جميع المستندات المطلوبة.

أن يجتاز الاختبار الشخصي أو أي اختبارات أخرى تحددها إدارة الكلية.

التعهد بدفع المصاريف الدراسية المقررة وبالطريقة التي تحددها اللوائح والقرارات المنظمة لسير العمل بالكلية.

أن يكون مستوفياً لأية شروط تحددها اللوائح المعمول بها بالكلية، أو تقررها وزارة التعليم العالي والبحث العلمي.

أن يكون الطالب حاصلا على درجة البكالوريوس التقني من أحد الكليات التقنية أو مايعادلها أو درجة البكالوريوس  في الهندسة من أحد الكليات الجامعية بتقدير عام “جيد” على الأقل، بشرط توافق تخصص  درجة البكالوريوس الحاصل عليها مع تخصص درجة الماجستير التقني التي يرغب الحصول عليها  (الدرجتان مصممتان لنفس الشعبة التخصصية).

نظام الدراسة

1.    تكون الدراسة وفقاً لنظام الفصول الدراسية بواقع فصلين في العام الدراسي.

2.    يتم إجراء امتحانات تقويم لمرة واحدة بكل فصل دراسي، وذلك قبل إتمام إجراءات

التسجيل لأول مرة.

3.    يعامل كل من تغيب على أي من امتحانات التقويم معاملة الراسب في ذلك الامتحان.

4.   لا يتم احتساب المقررات التمهيدية أو الاستدراكية من ضمن المقررات الدراسية المطلوبة

للتخرج من الكلية.

5.   تتم إجراءات التسجيل لكل فصل دراسي خلال الأسبوع السابق لبدء الدراسة، ولا يعتمد

التسجيل إلا إذا كان على النموذج الخاص بذلك ووفق الإجراءات التي تحددها إدارة الكلية.

6.  لايجوز للطالب تسجيل مقررات دراسية خلال الفصل الدراسي الواحد  أقل  من

الحد  الأدنى  (6وحدات دراسية) وليس أكثر من الحد الأقصى (12 وحدة دراسية)

المسموح به ويستثنى من كل ذلك مقرر اللغة الإنجليزية.

7.  يسمح بتعديل التسجيل بالحذف أو الإضافة خلال أسبوعين من بدء الدراسة، وبالحذف

لمقرر واحد خـلال ثمانية أسابيع من بدء الدراسة بشرط موافقة قسم الدراسات العليا.

8.     يعتبر الطالب ناجحاً في المقرر الدراسي إذا تحصل على درجة 65% فأكثر.

9.    يقوم كل طالب بتقديم بحث “رسالة ” نهاية دراسته وفق البرنامج الذي تحدده إدارة الكلية.

10.   تمنح الكلية درجة الماجستير التقني في مجال الدراسات العليا لمن يستكمل متطلبات هذه

الدرجة.

11.    يخضع برنامج الدراسات العليا المشترك للكلية مع جامعات دولية لبنود الإتفاقيات

المبرمة.

المستندات المطلوبة

1. نموذج طلب قبول ببرنامج الدراسات العليا، معبأ من قبل الطالب.

2. صورة طبق الأصل من شهادة البكالوريوس وكشف درجات معتمدة من الجهة المختصة

بضمان الجودة.

3. شهادة خلو من السوابق.

4.  شهادة صحية.

5. صورة من البطاقة الشخصية وجواز السفر ساري المفعول (صفحتي الجواز باللغة العربية

والإنجليزية).

6. أربع صور شخصية.

7. شهادة وضع عائلي والرقم الوطني.

الإنذارات والفرص الدراسية

1- يوجه للطالب إنذار في الحالات التالية:

‌أ.  إذا رسب في مقررين دراسيين، أو إذا رسب في نفس المقرر مرتين.

‌ب.  إذا تحصل على معدل عام (تراكمي) يقل عن الحد الأدنى المقرر (65%).

‌ج.    إذا أخفق في أن تجاز رسالته.

2- يفصل الطالب في إحدى الحالات التالية:

‌أ.  في حالة حصوله على ثلاثة إنذارات.

‌ب.  إذا ثبتت عدم أمانته العلمية، وتسحب منه الإجازة العلمية إذا كان قد سبق منحها له.

برنامج الماجستير التقني في كلية التقنية الصناعية –مصراتة

 

عدد الوحدات عدد المقررات البرنامج
31 10 الماجستير التقني

المقررات المطلوبة

  

أولاً: مقررات تخصص الهندسة الصناعية

 1- مقررات عامة للقسم ( إجبارية) (22 وحدة)

ر.م رقم المقرر اسم المقرر الوحدات
1 GE900 English 1
2 IE9101 Advanced Statistics 3
3 IE9102 Productoin Planning and Control 3
4 IE9103 Project Management 3
5 IE9104 Opreation Research 3
6 IE9105 Quality Control 3
7           IE9401    Final Project 6

 2- مقررات تخصصية لكل شعبة ( إجبارية) ( 9 وحدات)

    أ-  مقررات شعبة هندسة الإنتاج وضبط الجودة

ر.م رقم المقرر اسم المقرر الوحدات
1 IE9201 Measurements and Inspection Methods 3
2 IE9202 Tool Design and Technology 3
3 IE9203 Advanced Manufacturing Technology 3

   ب-  مقررات شعبة الادارة الهندسية

ر.م رقم المقرر اسم المقرر الوحدات
1 IE9301 Engineering Economy 3
2 IE9302 Industrial Systems Analysis and Design 3
3 IE9303 Maintenance Management 3

ثانياً: مقررات تخصص الهندسة الإلكترونية

1-   مقررات عامة للقسم

أ‌-       مقررات إجبارية ( أربع مقررات) (13 وحدة)

ر.م رقم  المقرر اسم المقرر الوحدات
1 GE900 English 1
2 EE 803 Final Project 6
3 EE606 Data Communication and Computer  Networks 3
4 EE607 Digital Signal Processing ( DSP) 3

ب. مقررات اختيارية (يختار منها مقررين) (6 وحدات)

ر.م رقم  المقرر اسم المقرر الوحدات
1 GE901 Applied  Numerical Methods 3
2 GE902 Modeling and Simulation 3
3 GE903 Engineering Statistics and Probability 3
4 GE904 Engineering Management 3
5 EE605 Advanced Electronic Circuits 3
6 EE608 Network Security 3
7 EE609 Applied Industrial Processing Control 3
8 EE610 Wireless Communication and Mobile 3
9 EE611 Introduction to Information Security 3

 ‏2- مقررات تخصصية لكل شعبة

 أ- مقررات شعبة الحاسوب (يختار منها أربع مقررات)(12 وحدة)

 

ر.م رقم المقرر اسم المقرر الوحدات
1 EC701 Advanced Computer Architecture and Parallel Processing 3
2 EC702 Advanced Digital System Design 3
3 EC703 Advanced  Microprocessor and Embedded  Systems 3
4 EC704 Performance Evaluation of Computer Systems 3
5 EC705 Software Engineering 3
6 EC706 Advanced Operating Systems 3
7 EC707 Selected Topics in Computers 3
8 EC708 Digital Image Processing 3

  ب- مقررات شعبة الاتصالات (يختار منها أربع مقررات)(12 وحدة)

ر.م رقم المقرر اسم المقرر الوحدات
1 ET701 Random Variables and Stochastic Processes 3
2 ET702 Information and Coding Theory 3
3 ET703 Communication System Design 3
4 ET704 Spread Spectrum Communication 3
5 ET705 Optical Communication Systems 3
6 ET706 Microwave Theory and Antenna Design 3
7 ET707 Data Transmission 3
8 ET708 High Speed Communication Networks 3
9 ET709 Selected Topics in Communications 3
10 ET710 Next Generation Networks 3
11 ET711 Radio Resource Management 3

   ج-  مقررات شعبة التحكم (يختار منها أربع مقررات)(12 وحدة)

ر.م رقم المقرر اسم المقرر الوحدات
1 ER701 Advanced Topics in Instrumentation 3
2 ER702 Multivariable Control System Design 3
3 ER703 Estimation and System Identification 3
4 ER704 Optimal and Adaptive Control 3
5 ER705 Selected Topics in Control and Instrumentations 3
6 ER706 Digital Control 3

  مفردات المقررات :

 

أولاً: مقررات تخصص الهندسة الصناعية

 

IE9101 Advanced Statistics 3 Units
Data Treatment and Statistical Measures: Data Classification, Measures of Central Tendency, Measures of Dispersion, Pictorial Representation. Sample Probability Theory. Expected Values. Typical Probability Distributions: The Hyper Geometric, Binomial, Poisson, Negative Exponential, and Normal Distributions. Estimating and Testing of Hypotheses: Confidence Intervals, The U-Test, The T-Test, The power of The Test. Correlation and Regression Analysis. Variable Analysis and Design of Experiments: Single Variable Variance Analysis, Several Variable Variance Analysis, Design of Experiments. Non-Parametric Statistics: Typical Tests, Non-Parametric Methods in The Analysis of Variables.
 
IE9102 Production Planning and Control 3 Units
Forecasting: Subjective methods, Quantitative methods. Product and process information: Bill of materials, Parts list, Quantity and assembly, Process and routing information, Inventory information. Planning and control: Master production plan, Material requirement planning, Capacity  planning, Periodic programs. Scheduling and loading techniques: Gantt Chart, PERT/CPM, Linear programming. Manufacturing Information systems:      Costing, Quality Control, Resources Follow-up. Just In Time (JIT) Concept and application. Design of Production Planning and control Systems: Scheduling and Loading Using Gantt Chart, Preparing Bill Of materials, Issuing monthly Programs and Job Orders, Designing the Information Systems.
 
IE9103 Project Management 3 Units
The Project Life Cycle. Project Management Functions: Forecasting, Planning and Follow-up, Organization, Coordination and Communication, Direction and motivation. Feasibility Studies:         Preliminary Studies, Detailed Feasibility Study, Project Evaluation. Project Design Data: Physical, Topography and Geology, Project Design Documentation, Production Know-how Documentation. Project Implementation Phases Management:  Conceptual Design, Detailed Design, Construction and Erection Works, Trail Runs and Performance Testing. Application Aspects: Training on the: Network Analysis Package – Feasibility Studies Software.
 
IE9104 Opreation Research 3 Units
Advanced Topics in Linear Programming: Dual Simplex Method, Ranges and Sensitivity, Integer and Mixed Integer Programming, Dynamic Programs, Parametric Programming, Linearization Techniques. Decision Models and Game Theory: Decision under Risk, Decision under Uncertainty, Game Theory. Simulation: Principles of Simulation, Simulation Modeling, Simulation Software and Applications. Non-Linear Programs: Unconstrained Algorithms, Constrained Algorithms. Application Aspects: Linear Programming and Extension Software. Simulation Software.
 
IE9105 Quality Control 3 Units
Quality Management: Basic Concepts, Quality assurance, Quality(Q) audit, Q  Costs, Training for Q. Q  Standards: Management and Organization of Q  Control In Accordance With International Organization for Standardization (ISO) Standards. Q Technology: Control Charts (Variables And Attributes), Sampling Inspection And Sampling Tables, Reliability, Q Rating of Out-Going Products. Design of Q Systems: Preliminary Study, Setting Policies and Objectives, Resources, Organizational Chart and Job Description, Inspection Instructions, instruction For Q Rating, Q Information, Evaluation of the System, Q Costs.
 
IE9201 Measurements and Inspection Methods 3 Units
PART 1: MEASUREMENT: Introduction: Basic Concepts and Classification of Measurements, Measurements Errors, Indicating and Registering Equipments. Measurement Information Systems: Measurement Systems, Information Systems.PART 2: INSPECTION METHODS: Analysis of Chemical Composition. Analysis of Gases and Inclusions in Metals.  Destructive Tests, Non-Destructive Tests, Factography.
 
IE9202 Tool Design and Technology 3 Units
Introduction: Tool Materials, General Consideration in Tool Design. Sheet Metal Forming Dies: Design of Blanking and Piercing Dies, Design of Bending Dies of Deep Drawing Dies. Bulk Metal Forming Dies: Design of Blanking and Piercing Dies, Design of Extrusion Dies. Design of Forging Dies. Metal Casting Dies: Design of Dies for Gravity casting Design of Dies for Centrifugal casting, Design of Dies for Pressure Casting. Plastic Forming Dies: Design of PRESS Dies, Design of Forming Dies, Design of Injection Dies. Metal Cutting Tools:  Design of Turning, Design of Milling Cutters, and Design of Cutting Tools for Numerical controlled Machines.Jigs and Fixtures: Design of Fixtures, Design of Jigs. Inspection and Gauging: Design of Inspection and Gauging. Rolls Tools: Design of Rolls for Plate and Sheet metal Production, Design of Rolls for Production of Sections.
 
IE9203 Advanced Msnufacturing Technology 3 Units
Cutting Shaping: Control of a Metal Cutting Machines, Machines, Tool Life, Surface Finish, Machining Costs, Advanced Machining Processes. Welding: Weldments Quality Criteria, Advanced Welding Processes. Metal Casting: Patterns, Casting Quality Criteria, Advanced Casting Processes, Powder Metallurgy. Non-Cutting Shaping (Metal Working): Plasticity Theory, Quality Criteria of Metal Working products, Roll Forming. Organization of Manufacturing Process: operation Planning, Manufacturing Systems.
 
IE9301 Engineering Economy 3 Units
Introduction to Engineering Economy: Scope of Engineering Economy, Engineering Economy and the Engineer, Basic Economic and cost principles with reference to Engineering. Economic Analysis Methods: Investment Alternative Comparison, Replacement Alternative Comparison, Break-even Analysis Optimization Models. Use of Economic Analysis in Decision Making: Introduction to Decision Making, Estimates and Decision Making, Risk and Decision Making.
 
IE9302 Industrial Systems Analysis and Design 3 Units
System Theory: The System Elements, Characteristics and Type, Information Types and Systems, Recording Techniques. The Factory as a System: The External Environment, Objectives, Inputs, Outputs, Processing, Communications and Control, Management Functions and Processes. The System Life Cycle:  Data Generating and Analysis, System Design, System Implementation, System Maintenance. Industrial Systems Application Cases: Manpower, Industrial Safety, Materials. Application Aspects: Training on Computer Package in Area and stock Control.
 
IE9303 Maintenance Management 3 Units
Management and Management Process with Respect to Maintenance: Introduction to Management and Management Process, Scope of Maintenance Responsibilities, Types of Maintenance, Management Policies for Maintenance, Planning and Scheduling of Maintenance, Reports from Maintenance, Maintenance Control, Incentive Payment of Maintenance Employees, Human Factors In Maintenance. Cost Control of Maintenance: Maintenance work Measurement, Work Simplification in Maintenance, Estimation and Control of Cost in Maintenance, Network Application in Maintenance, Maintenance Stores and Inventory Control. Use of Computers in Maintenance Management: Computerized Maintenance MIS, Computerized Planning and Scheduling.
ثانياً:مقررات تخصص الهندسة الإلكترونية
GE901 Applied Numerical Methods 3 Units
In this course, the emphasis is on the fundamental understanding of methods, developing programming skills and familiarizing students with computers as engineering tools. It includes Modeling, Floating point operations and error analysis, Backwards error analysisCondition numbers for evaluation of an expression. Methods for Solution of Nonlinear Equations such as bisection method, secant method and Newton’s method with application of contraction theorem to systems of equations are also included. The last part of the course includes Computing eigenvalues and eigenvectors, Polynomials, Bernoulli polynomials and Euler-Maclaurin formula, orthogonal polynomials and Gram-Schmitd orthogonalization theorem.
 
GE902 Modeling and Simulation 3 Units
This course introduces the students to the most widely used software packages in academia and industry for modeling and simulating dynamical systems. Students are encouraged to try building models from scratch, or take an existing model and add to their design and visualized what happens with parameters change. It includes simulation linear and nonlinear systems, modeled in continuous time, sampled time, or a hybrid of the two with multirate systems. The students are also introduced to hierarchical molding, so they can build models using both top-down and bottom-up approaches. By the end of the course, students are required to submit a project using some simulation toolboxes available in SIMULINK package such as communication tool box, control system toolbox, frequency-domain system identification, fuzzy logic toolbox, higher-order spectral analysis or model predictive control Toolbox.
 
GE903 Engineering Statistics and Probability 3 Units
Introduction to statistical methodology emphasizing applications in engineering. Topics include descriptive statistics, regression, analysis of variance, and design of experiments. Emphasis is on probability theory and its applications, with a smaller module at the end covering basic topics in statistics (parameter estimation, hypothesis testing and regression analysis). The probability part includes events and their probability, the Total Probability and Bayes’ Theorems, discrete and continuous random variables and vectors, the Bernoulli trial sequence and Poisson process models, conditional distributions, functions of random variables and vectors, statistical moments, second-moment uncertainty propagation and second-moment conditional analysis, and various probability models such as the exponential, gamma, normal, lognormal, uniform, beta and extreme-type distributions. In addition, the graduate subject has a module on system reliability, which covers both second-moment and full-distribution techniques. Throughout the subjects, emphasis is on application to engineering and everyday life problems.
 
GE904 Engineering Management 3 Units
This course serves as an introduction to engineering management. Topics include financial principles, management of innovation, engineering project planning and control, human factors, career planning, patents, and technical strategy. The case study method of instruction in this course emphasizes student participation in class discussion.
 
EE605 Advanced Electronic Circuits 3 Units
The objective of this course is to cover circuit design and theory and to give student the understanding of factors governing the behavior of essential electronic materials. The main topics of this course are operational amplifiers ideal and  non-ideal models and characteristics, linear and non-linear applications operational trans-conductance amplifiers (OTAs) -model, design considerations,characteristics, phase detector circuit realization, operation and applications, multistage amplifiers, feedback theory, frequency response, voltage controlled oscillators (VCOs), phase locked loop (PLL), balanced modulator and demodulator. Transducers been covered in this course such as temperature, pressure, displacement, magnetic field, speed and acceleration. Converters devices such as D/A, A/D, V/I, I/V, V/F, F/V.  Sample and hold circuit and active filters design.
 
EE606 Data Communication and Computer Networks 3 Units
Overview of data communication and computer networks, including network hardware and software, as well as reference models, example networks, data communication services and network standardization. The OSI and the Internet (TCP/IP) network models are discussed. The course covers each network layer in details, starting from the Physical layer to towards the Application layer, and includes an overview of network security topics. Other topics covered include encoding digital and analog signals, transmission media, and protocols. circuit, packet, message, switching techniques, internetworking devices, topologies. LANs/WANs, Ethernet, IP, TCP, UDP, and Web applications. Labs on network analysis
 
EE607 Digital Signal Processing 3 Units
Discrete- Time signal and systems – The Z- transform – The Discrete Fourier Transform -Flow graph and matrix representation of digital filters-Digital filter design techniques -Computation of the Discrete Fourier Transform – Effect of finite register length in DSP – Power Spectrum estimation
 
EE608 Network Security 3 Units
An intense examination of network security defense techniques and countermeasures with defense fundamentals explained in great detail. Network defense techniques such as designing firewall systems and IDS, configuring firewalls, VPNs, Trojan port numbers, and security related RFCs.
 
EE609 Applied Industrial Process Control 3 Units
You will gain knowledge of digital signal processing and the application of appropriate techniques in condition monitoring and process control, taking into account factors such as advanced human machine interface and sensor technology.
 
EE610 Wireless Communication and Mobile 3 Units
Cellular concepts, frequency reuse, co channel interference, Cell splitting. Radio propagation characteristics; models for path loss, shadowing and multipath fading (delay spread, coherence bandwidth coherence time. Doppler spread). Jakes’ channel model. Digital modulation for mobile radio; analysis under fading channels; diversity techniques and Rake demodulator. Introduction to spread spectrum communication. Multiple access techniques used in mobile wireless communications: FDMA/TDMA, CDMA. The cellular concept: Frequency reuse; the basic theory of hexagonal cell layout; spectrum efficiency. FDM/TDM Cellular systems; channel allocation schemes. Handover analysis. Cellular CDMA; soft capacity. Erring capacity comparison of FDM/TDM systems and cellular CDMA. Discussion of GSM standards; signaling and call control; mobility management; location tracing. Wireless data networking; packet error modeling on fading channels, performance analysis of link and transport layer protocols over wireless channels; mobile data networking (mobile IP); wireless data in GSM, IS-95, and GPRS.
 
EE611 Introduction to Information Security 3 Units
Crypto Basics:  Classic Crypto, Simple Substitution Cipher,  Cryptanalysis of a Simple Substitution, Definition of Secure, Double Transposition Cipher, One-Time Pad. Symmetric Key Crypto: Stream Ciphers, A5/1, RC4, Block Ciphers, Feistel Cipher, DES. Public Key Crypto: Knapsack, RSA, Repeated Squaring, Elliptic Curve Cryptography, Elliptic Curve Math, ECC Diffie-Hellman. Hash Functions: Hash Function, Non-Cryptographic Hashes, Tiger Hash, HMAC, Uses for Hash Functions.  Access Control, Authentication: Authentication Methods, Passwords, Keys Versus Passwords, Choosing Passwords,  Attacking Systems via Passwords, Password Verification  Math of Password Cracking. Authorization: Access Control Matrix, ACLs and Capabilities, Confused Deputy, Multilevel Security Models, Bell-LaPadula,  Biba’s Model, Compartments, Covert Channel, Inference Control. III Protocols Simple Security Protocols, Authentication Protocols,  Authentication Using Symmetric Keys, Authentication Using Public Keys, Session Keys, Perfect Forward Secrecy. Real-World Security Protocols: Introduction, SSH, SSL, SSL and the Man-in-the-Middle, SSL Connections, SSL Versus, IPSec, IPSec, IKE Phase 1: Digital Signature, IKE Phase 1: Symmetric Key, IKE Phase 1: Public Key Encryption ,IPSec Cookies IKE Phase, IKE Phase 2, IPSec and IP Datagram’s, ESP and AH, Kerberos Security, WEP, WEP Authentication, WEP Encryption,  WEP Non-Integrity,  GSM Authentication Protocol, GSM Security Flaws,  GSM Conclusions. IV Software Software Flaws and Malware, Software Flaws, Race Conditions,  Malware, Brain, Morris Worm, Code Red, SQL Slammer.
 
EC701 Advanced Computer Architecture  and Parallel Processing 3 Units
Processor design: memory hierarchy; bus, cache, and shared memory; disk arrays, pipelining and superscalar techniques; reducing branch penalties; multivector computers parallel array processors: SIMD computers; interconnection networks; systolic arrays multiprocessors: program and network properties; scalability issues; performance evaluation; caches and consistency issues; parallel programming and compilers; scheduling algorithms Distributed-memory multi-computers: architecture; distributed shared memory; routing and network design issues; load balancing/data mapping algorithms; performance evaluation and visualization; design of parallel algorithms; scalable, multithreaded, and dataflow architectures; applications Distributed processing: distributed operating system; load balancing algorithms
 
EC702 Advanced Digital System Design 3 Units
Philosophy of digital system design using MSI/LSI/ VLSI    Review of concepts of digital design – analysis of combinational Systems using the concept of assertion levels, polarized mnemonicsminimization – Variable Entered Mapping (VEM) technique ,EX-OR & NE XoR function minimization ,Combinational design of mixed real systems using MSIS., Fundamental concepts of sequential machines: review  of the design of flip-flops and practical considerations, Approaches to sequentional analysis & design – design of counters,shift register and memories,  introduction to multi-input system controller design also be included.
 
EC703 Advanced Microprocessor and Embedded systems 3 Units
This course contains the development of microprocessor and Microcontroller based systems, moving towards the discussion of analysis and design of embedded microprocessor systems for communication systems, process control, automotive systems power generation and video application. The course includes review to Microprocessor System Architecture, Components of the Microprocessor, Operations of the Microprocessor,Programming Model and Internal Organization, Hierarchies, Program Creation and Execution, DSP, Multiprocessing and Micro-controller and real time specification and design. It also includes software/hardware co-design and Co-operative Multitasking.
 
EC704 Performance Evaluation of Computer Systems 3 Units
Performance measures and evaluation techniques -Measurement techniques -Experiment design and data analysis – Fundamental of queuing models – Elementary stochastic analysis -Product form queuing Network models -Basic algorithms  for product -form network, Aggregation and approximate modeling-Bounds on performance -Petri Net – Based performance modeling.
 
EC705 Software Engineering 3 Units
Structured Programming- Modularity- Functional decomposition- Date flow design- The programming language- object-quieted programming- Functional programming- Logic programming- Software tools- Testing and implementation- Software fault Tolerance- Structured walk troughs- Chief programmer teams and project Support Libran’s – software management.
 
EC706 Advanced Operating Systems 3 Units
Advanced topics in Operating Systems which includes, but not limited to, Computer System Structures, Operating System Structures, Processes CPU Scheduling, Process Synchronization, Deadlocks Memory Management, Virtual Memory, File System Interfaces, File System Implementations, I/O Systems, Secondary Storage, Network Structures, Distributed Systems.
 
EC707 Computers Selected Topics in 3 Units
Advanced topics of contemporary interest in Computer field. Instructor specified, according to topic.
 
EC708 ProcessingDigital Image 3 Units
Introduction to image processing: this includes image formation and representation, illumination, image sampling and quantization, spatial and grey-level resolution, Isopreference curves, some basic relationships between pixels, connectivity, regions, and boundaries, distance measure, arithmetic/logic image operations. Geometric Image operations: Image resizing, interpolation and decimation, affine spatial transformations (rotation), and higher-order spatial transformations. Chapter 3: Image enhancement in spatial domain: contrast enhancement via point transformations, and histogram equalization median. Image enhancement in frequency-domain: Fourier analysis and unitary image transforms: 2-D DFT, FFT & DCT, 2-D convolution and correlation, linear filtering, 2-D FIR filters, blurring, and sharpening. Image segmentation: block processing, edge detection, region-of-interest processing, and line profiles.  Image processing morphology: binary mathematical morphology, grey mathematical morphology, basic concepts of set theory, union, intersection and complement, some logical operations between binary images, dilation and erosion.
 
ET701 Random Variables and Stochastic Processes 3 Units
Stochastic processes; Definition, Normal stochastic process, stationary processes;  nonlinear systems, linear time-invariant systems, Spectral analysis, linear transformation of stochastic process, Matched fitter, sampling theorem for Random processes, Band-limited stochastic processes; Narrow-band noise, Poisson processes; Stochastic control models; development of control laws by dynamic programming; separation of estimation and control; Kalman filtering; self-tuning regulators; dual controllers; decentralized control introduction: decision-making under uncertainty. State space models: state, observation and control processes. Properties of linear stochastic systems: linear Gaussian systems; asymptotic properties, Gauss-Markov processes; quadratic costs. Controlled Markov chain models: finite state systems; Markov and stationary policies; cost of Markov policy; infinite state systems.
 
ET702 Information and Coding Theory 3 Units
General discussion on coding theory with emphasis on the algebraic theory of cyclic codes using finite field arithmetic, decoding of BCH and RS codes, finite field Fourier transform and algebraic geometry codes, convolution codes and trellis decoding algorithms. Introduction to linear codes: Parity and generator matrices, decoding rules, cosset leaders, and standard arrays. Bounds on code parameters; Singleton, sphere-packing, Gilbert-Varshamov and other bounds. Some simple codes: Hamming, Golay, Reed-Muller codes, Finite fields: Basic theory, minimal polynomials, Cyclic codes and BCH codes: Ring ideals, generator and parity check polynomials and matrices, the BCH bond.
 
ET703 Communication System Design 3 Units
Routing and flow control in networks: time-reverse of Markov process and reversible Markov process; tree condition, truncation and circuit switching model; a network of queues in series and output processes; open and closed networks with random routing; throughput in closed networks with random routing (with application to input buffering in a crossbar packet switch); Norton’s equivalent for closed networks, product form Markov network with multiple customer types and deterministic routes; routing and flow control issues, virtual circuit and datagram routing tables, ARPANET routing updates; basic graph concepts, Prim-Dijkstra and Kruskals algorithm for MWST, Bellman-Ford algorithm for shortest path problem; Dijkstra’s shortest path algorithm, optimal static routing; flow deviation algorithm; matching problem, algorithm for bipartite matching, max-flow problem; maximum flow and network reliability; min-max fair allocation of network flows; regulation of bursty traffic – generalized round robin and leaky bucket regulators; dynamic routing – fluid model, dynamic programming, diffusion model.
 
ET704 Spread Spectrum Communication 3 Units
Transmission spectrum widening, spread-spectrum characteristics, interference and jamming margin. Processing gain, direct-sequence spread-spectrum systems (DSSS). Characteristics and generation of PN sequences. Frequency hopping, slow and fast hopping systems. Chirp FM systems. Hybrid spread-spectrum, FH/DS modulation. Coding, autocorrelation and cross correlation of the codes and high-rate code generation. CDMA. RAKE receiver. Initial synchronization and acquisition, sliding correlator. Signal tracking. Tau-Dither and Delay-Lock tracking. Frequency hops synchronization. Global positioning system fundamentals
  
ET705 Optical Communication Systems 3 Units
Dielectric waveguides, analysis. Nonlinear fiber optics. Second order dispersion. Solitons, interactions. Coherent communications. Dispersion compensating methods, high-speed and large distance systems. Single mode, DFB and DBR semiconductor lasers, with edge and surface emitters. Erbium doped and semiconductor optical amplifiers. Semiconductor detectors. Digital and analog transmission systems, restoration digital signals. Optical fiber networks. Optical switching, integrated optical circuits
 
ET706 Microwave Theory and Antenna Design 3 Units
Introductory antenna theory and design. Fundamentals and definitions, simple radiating systems, arrays, line sources, wire antennas, broadband antennas, and antenna measurements, small and half-wave, as well as small loop antennas. By the end of the course, students are expected to perform the following: Design linear and planar arrays using pattern multiplication., analyze broadband antenna concepts and performance, analyze resonant, patch antennas, and line sources, analyze plane wave propagation in various media and the reflection and refraction characteristics at interfaces with boundaries and Design microwave impedance matching networks, single section and wideband multisection networks.
 
ET707 Data Transmission 3 Units
Study of modern telecommunication and data networks; packet and circuit switched networks; ATM; congestion control; mathematical modeling of networks; economics. Finishing this course, students are expected to learn the following topics: Layering Protocol Mode, Physical Layer, Physical Media, Digital Baseband Transmission,  Digital Modulation, Coding, Error Detection and Correction, Data Link, Point to Point, Multiplexing in Wireline and Wireless, Circuit Switched Networks, Frame Relay & ATM ,Local Area Networks (Wired), Wireless LAN,  IP and Routing (Network Layer), Transport layer and upper applications
 
ET708 High Speed Communication Networks 3 Units
covers circuit and system level design issues of high speed communication systems, with primary focus being placed on wireless and broadband data link applications. Specific circuit topics include transmission lines, high speed and low noise amplifiers, VCO’s, and high speed digital circuits. Specific system topics include frequency synthesizers, clock and data recovery circuits, and GMSK transceivers. In addition to learning analysis skills for the above items, students will gain a significant amount of experience in simulating circuits in SPICE and systems in CppSim (a custom C++ simulator).
 
ET709 Selected Topics inCommunications 3 Units
Advanced topics of contemporary interest in communication Engineering.   Instructor specified, according to topic.
 
ET710 Next Generation Networks 3 Units
In this course, students will examine the various concepts and technologies being used to achieve next generation networks goals. Issues studied will include: core routing techniques such as MPLS, IP multicast, multi-topology routing, and IPv6; traffic management and quality of service protocols; IP video on demand and video simulcast techniques and issues; last-mile access technologies such as DSL, DOSCIS, and broadband fixed and mobile wireless. The course will explore the theory of the underlying protocols algorithms and practical constraints, and trade-offs associated with technology choices and network design. The method of teaching will be through lectures by the instructor and occasional guest lectures by industry experts. Students will be asked to help prepare and participate in one lecture segment during the semester. There will be a final project and an examination. Prerequisites: Prior course in computer networks and familiarity with network protocols.
 
ET711 Radio Resource Management 3 Units
Changing capacity, Admission control, Packet scheduling, PRM  methods.  Load Control, Resource management, Power control, Handover control.
 
ER701 Advanced Topics in Instrumentation 3 Units
Instrumentation techniques incorporating computer control, sampling, and data collection and analysis are reviewed in the context of real-world scenarios. Capacitive, inductive, optical, thermal, and other sensing methods are examined in terms of their capabilities, limitations, and possible applications. The course also features several practical applications of sensors.
 
ER702 Multivariable Control System Design 3 Units
Introduction to multi-input, multi-output state-space and input output models and their control, at the introductory graduate level. Topics include the following: MIMO system models, Solution of state equations, Time-varying linear systems, External descriptions,  Realization of external descriptions, Transformation to special forms, Controllability, observability, Linear state feedback, Eigenvalue assignment, Observers, Optimal control, Matrix fraction descriptions and  PID controllers.
 
ER703 Estimation and System Identification 3 Units
System identification basics, non parametric identification, parametric identification, nonlinear function identification, least squares methods, identification of discrete transfer function models. Identification and parameter estimation: gradient and least square schemes
 
ER704 Optimal and Adaptive Control 3 Units
Studies design of nonlinear control systems based on stability considerations; examines Lyapunov and hyperstability approaches to analysis and design of model reference adaptive systems; identifiers, observers, and controllers for unknown plants. Direct and indirect adaptive control: self-tuning regulators, model reference and pole placement algorithms, Convergence, stability and robustness properties
 
ER705 Selected Topics in Control and Instrumentations 3 Units
Advanced topics of contemporary interest in Control & Instrumentations. Instructor specified, according to topic.
 
ER706 Digital Control 3 Units
Digital Computer Control Design Methods: Discrete system stability, continuous design with discrete equivalents, design in the z-domain, frequency domain, deadbeat control, pole placement. Digital Controller Implementation Issues: Digital filter structures, PID implementation, effect of coefficient and signal quantization. Uses of microcontroller with embedded system are studied.

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كشف بأسماء الطلبة الخريجين تخصص هندسة صناعية

م. الاســــــــــــم الشعبة سنة التخرج
علي قاسم شتوان إنتاج وضبط الجودة 1999
خالد عمران العكروتي إدارة هندسية 1999
محمود محمد الجعلي إدارة هندسية 1999
منصور سالم عمر زغنيين إدارة هندسية 1999
عوض ابراهيم زبلح إنتاج وضبط الجودة 1999
عمر ابراهيم اعزوزة إدارة هندسية 1999
سالم أحمد الفقي إنتاج وضبط الجودة 2001
عمر علي شنب إنتاج وضبط الجودة 2001
جبريل محمد عيسى إدارة هندسية 2001
سليمان محمد قليوان إدارة هندسية 2001
جلال عبدالسيد سرار إدارة هندسية 2001
محمد علي شتوان إدارة هندسية 2001
علي ابراهيم الفقيه إدارة هندسية 2001
ابراهيم سالم النيحوي إدارة هندسية 2001
مصباح خريص معاتقي إنتاج وضبط الجودة 2002
مصطفى أحمد شكشك إدارة هندسية 2002
علي أحمد شكشك إدارة هندسية 2002
بشير مختارأحمد بن زعبية إدارة هندسية 2002
ابراهيم أحمد بادي إنتاج وضبط الجودة 2002
عبدالعظيم سالم باله إنتاج وضبط الجودة 2003
مسعود عمر مزيد إنتاج وضبط الجودة 2003
جمال محمد بن ساسي إدارة هندسية 2003
عبدالله البشير بادي إدارة هندسية 2004
محمد سعد سلامة إدارة هندسية 2004
الحسين مخلوف كرزاب إنتاج وضبط الجودة 2005
سالم عبدالسلام التركي إنتاج وضبط الجودة 2005
فيصل سالم عاشور إدارة هندسية 2005
عوض علي الدوريش إدارة هندسية 2005
عبدالله سالم المشرقي إدارة هندسية 2005
محمد مفتاح الخمري إنتاج وضبط الجودة 2006
يوسف خليفة حويل إنتاج وضبط الجودة 2006
فتحي المهدي عمر إنتاج وضبط الجودة 2007
محمد نجيب طرينه إنتاج وضبط الجودة 2007
محمد علي الدرويش إنتاج وضبط الجودة 2007
منصور عاشور الشريف إنتاج وضبط الجودة 2008
علي  أحمد بوميس إنتاج وضبط الجودة 2009

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م. الاســـــــــــم الشعبة سنة التخرج
أسماء عبدالله المنقوش هندسة حاسوب 2007
وسام محمد الترجمان هندسة حاسوب 2007
عمر علي أبوعلة هندسة اتصالات 2007
هدى بدر الدين أبوغرسة هندسة حاسوب 2008
أحمد عبدالقادر جحا هندسة حاسوب 2008
سالم عمر ساطي هندسة حاسوب 2008
أبوبكر علي محمد الحطبة هندسة حاسوب 2008
مصباح عقيل شرف هندسة حاسوب 2009
ديما عبدالحفيظ المصطفى هندسة حاسوب 2009
ابراهيم مصطفى أبو طلاق هندسة اتصالات 2010
شيرين حمدتو صلاح هندسة تحكم 2012

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في البرنامج المشترك مع الجامعات البريطانية

 

م. الاســــــــــم الشعبة سنة التخرج
ربيع خليل العالم هندسة حاسوب 2011
خالد امحمد حيدر هندسة اتصالات 2011
علي الصديق جويد هندسة اتصالات 2011
سالمة علي التايب هندسة اتصالات 2011
عبدالله محمد بلابلة هندسة اتصالات 2011
صلاح الدين عمر دبك هندسة اتصالات 2011
عبدالرحمن أبوبكر الحطبة هندسة اتصالات 2011
فيصل التهامي الزعيليك هندسة حاسوب 2011
عبدالمجيد محمد عياد هندسة حاسوب 2011
طارق أبوبكر أبوليفة هندسة حاسوب 2011
أسامة محمد الرجوبي هندسة حاسوب 2011
عمر بدر الدين أبوغرسة هندسة اتصالات 2011
عمر امحمد الرملي هندسة اتصالات 2011
التهامي مفتاح الغول هندسة اتصالات 2011
بشير ميلاد الخراز هندسة حاسوب 2011
فيصل عبدالرحمن الفقيه هندسة اتصالات 2012
منير رمضان خليفة فكرون هندسة اتصالات 2012
محمد رجب معافه هندسة حاسوب 2012
عبدالعزيز محمود سويب هندسة حاسوب 2012
عائشة رمضان هجرس هندسة حاسوب 2012
محمد الهادي الجمل هندسة حاسوب 2012
فرج محمد الأجنف هندسة اتصالات 2012
أيمن السنوسي أبوفناس هندسة حاسوب 2012
عفيف صالح أبوغرسة هندسة اتصالات 2012
وائل محمد قرمة هندسة اتصالات 2012
محمد بادي هندسة اتصالات 2014
نزار باكير هندسة اتصالات 2014
أحمد بادي هندسة اتصالات 2014