SIR SYED UNIVERSITY OF ENGINEERING & TECHNOLOGY, KARACHI DATED 18.08.2011 NO.SSUET/REG/2011/3091 MINUTES OF THE 35TH MEETING OF THE ACADEMIC UNIVERSITY HELD ON 23RD JULY, 2011 The of 35th, Meeting of the Academic Council was held Prof. Dr. S. Jawaid Hasan Rizvi, / Hilal Ahmed Qureshi in the Conference Following attended the meeting:- Prof. Dr. Najeeb Siddiqui Prof. Dr. S. M. Makhdumi Prof. Dr. Bilal Ahmed Alvi Prof. Dr. M. A. Haleem Prof. Shaukat Abbas Engr.M. Yousuf Siddiqui Prof. Faheem Ahsan Prof. Dr. Mohammad Zakaullah Khan Dr. Nouman Hasany Prof. Dr. M. Akhlaq Ahmed Mr. Abdul Rauf (Principal AIT) Mr. Faisal Bin Naseem Mr. Maqsood Alam Siddiqui Shah Mahmood H. Syed Prof. Dr. OF THE- under the Chairmanship Acting Vice Chancellor, Room (Block B) on 23-07-2011 at 11 :00 a.m. 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. COUNCIL Member Member Member Member Member Member Member Member Member Member Member Member Member Secretary could not attend the meeting due to his preoccupations. The meeting started with the recitation of Holy Quran by Prof. Shoukat Abbas and there after the items on the agenda of the meeting were discussed one by one. ITEM NO.1 CONFIRMATION THE ACADEMIC The Academic 31-05-2011 Council OF THE MINUTES OF THE 34TH MEETING OF COUNCIL HELD ON 31-05-2011 reviewed the Minutes confirmed it and passed the following of its 34th Meeting held on resolution:- RESOLUTION NO.AC- 35.1 Resolved t31-0S-2011 that the minutes of the 34th be confirmed meeting of the Academic Council and kept on record. held ITEM NO.2 The report ACTIONS TAKEN REPORT ON THE DECISIONS OF THE 34TH MEETING OF THE ACADEMIC COUNCIL HELD ON 31-05-2011. on the actions taken on the decisions Academic Council held on 31-05-2011 was of the 34th meeting of the 'discussed item wise. The following resolution was passed:- RESOLUTION NO.AC- 35.2 Resolved that the report on the actions taken in respect of the decisions 34th Meeting of Academic Council held on 31-05-2011 of the be noted with satisfaction and kept on record. ITEM NO.3 RECOMMENDATIONS OF THE 34TH MEETING OF THE ACADEMIC COUNCIL REFERRED BACK VIDE ITEM NO.4 IN THE 40TH MEETING OF THE BOARD OF GOVERNORS OF SIR SYED UNIVERSITY OF ENGINEERING & TECHNOLOGY HELD ON 25TH JUNE, 2011. The recommendation of the Board of Faculty were placed before the Academic Council on 31.05.2011 held on 25.06.2011 and after approval were placed in BOG in 40th meeting vide item No 4 of its agenda. BOG referred back the recommendation of Board of Faculties to the Academic Council for review. The recommendations reconsideration. were accordingly placed before the Academic Council for The reports of the Committee constituted by the Academic Council for the review of courses for Electronic EngineeringlTelecommunication Engineering, Computer Engineering the Academic and Computer Science were placed before Council. The Committee constituted for reviewing Computer Engineering curricula, placed before the Academic Council, its recommendation through the thairman, Computer EngineeringDepartment. , I The recommendations Telecommunication of the Committee, Engineering Council by the Chairman syllabi, Electronic The recommendations formed for reviewing were placed before Electronic & the Academic Engineering Department. of the Committee for the review of Computer Science , courses were presented by the Principal A.I.T. The recommendation of above Committees were approved by the Academic Council with some modifications. These recommendations as modified shall be incorporated in the Prospectus 2012 and appear at Appendix -1 for Computer Engineering and Appendix' -2 for ElectronicfTelecommunication Engineering and Appendix-3 for Computer Science. The Academic Council passed the following resolution in this regard:- RESOLUTION NO.AC-35.3(a) Resolved that the recommendation of the Committees for reviewing of Computer Engineering and Electronic/ Telecommunication Computer Science, the syllabi Engineering and be approved with the instruction to incorporate them in the Prospectus 2012. b) CHANGES IN SEMESTER RULES The report rules examined also placed items las constituted for recommending at (d) The grading examined changes by Prof. Shaukat Abbas and recommended before the Academic appearing appendix-4. 2011, of Committee and & (g). in Semester for approval was Council which was approved after dropping The approved form of the rules system for Postgraduate Courses recommended for approval appears at for Batch 2009 by Prof. Shaukat and Abbas also approved. It appears at Appendix-5. 3 The Academic Council passed the following resolution in this regard:- RESOLUTION NO.AC-3S.3(b) Resolved that the recommendations of the committee, constituted for reviewing the Semester Rules examined dropping items at (d) & (g). by Prof. Shaukat Abbas be approved, after Further more, the grading system for Postgraduate Courses for Batch 2009 & 2011 examined and recommend by Prof. Shaukat Abbas be also approved. Meeting ended with a vote of thanks to and from the Chair. ~ 1 __./ (SHAH MAHMOOD H. SYED) ~ REGISTRAR DRAFT APPROVED BY DiJr:lz;:SAN (PROF. VICE CHANCELLOR RIZVI) Copy to:PS to Chancellor 4 I, SiR SlED UNIVERSITY Of ENGINEERING & TECHNOLOGY University Road, Karachl-75300, Tel. : 4988000-2,4982393-474583, Pakistan Fax: (92-21 )-4982393 Department of Computer Engineering Chairman Department of Computer Engineering Ph.D. (Computer Systems Engineering), M. E. (Computer Systems Engineering), B. E. (Computer Systems Engineering) E-mail: nhasany@ssuet.edu.pk 'D~'t~':' j •..••..•.....•••.•.•.•••.•.•.•......•..•..•.•................•.•.•.•••.••• Subject: ~'Iy:'21 ~t.· 20' 11' Minutes of the meeting A meeting of a committee CEO), was held (constituted on July, 21st 2011 by the academic council to review the courses of under the Chairmanship Associate Dean Faculty of Engineering of Prof. Dr. Najeeb Ahmed, at his office. Following were the participants including under-signed:- 1) Prof. Dr. Syed Misbah Uddin (CEO) 2) Mr. Faisal bin Naseem (Controller 3) Mr. Rizwan-ul-Hasan Recommendations of Exam.) (Asst. Professor, CEO on special invitation) are attached for the approval. Cc: Associate Dean, faculty of Engineering All Concerned Associate Dean faculty of Engineering r»-t/ r---.---------:----.-------------------.--- ---------- Recommendation-1 Existing Syllabus 1. 2. 3. I Computer Programming and Problem Solving CE-102 (3+2) 1 st semester. Applied Physics MS-110 (3+ 1) 2nd semester Basic Electrical Circuits & Machines EE-107 (2+1) 2nd semester. - - --- - (Interchange of Courses) Proposed Syllabus 1. Interchange Computer Programming and Problem Solving CE-102' (3+ 1) of 1 st Semester with Basic Electrical Circuits and Machines EE 107 of Semester. z= -, r·---------------~---------------·---------- Recommended by 1.' 2. '-- Justifications Board of Faculty of the University Board of Studies of the Department ---..J~ 1. Previously there were 2 courses Computer Programming and Problem Solving 1 and 2 in 1 st and semester respectively. On reservations of PEC on CPPS 1 & 2 we combined the 2 courses in 2009 as computer Programming and Problem Solving and place the course in 1 st semester. Fundamental of Computer Engineering and Programming Languages CE-101 (2+1) is also in 1s1 semester. It is reported by the I nstructors of both courses that the students are facing difficulties In learning the Programming Language course CPPS that contains all programming topics (variables, print statements, loops, functions, pointers, file management and graphics). As the HEC proposed curriculum contains 2 courses Computing Fundamentals and Computer Programming in 1st and 2nd semester respectively, we moved Computer Programming and Problem Solving in 2nd semester. z= 2. This will also help students in getting familiar with the basic programming terminologies in 1 st semester and learn advance terminologies in 2nd semester. 3. The Board of Faculty indicated that we cannot place Basic Electrical circuits & Machines and Applied Physics in the same 2nd semester so we Interchanged Applied Physics with Computer Programming and Problem Solving to resolve both issues. . / ,/ / ~- (Interchange of Courses) Proposed Syllabus _. __ Existing Syllabus 1 2. 3. 4. Electronic Devices & Circuits EE211 (2+1) 3rd semester. Basic Electronics EE-110 (3+1 ) 3rd semester. Microprocessor Based System 4th Design (3+1 ) CE-207 semester Digital Electronic Design EE-208 (3+1) 4th semester. 1. Board of Faculty of the University Board of Studies of the Department I I I Board of Department Studies I - - 1. Basic Electronics is prerequisite of Electronic Devices and Circuits and they are in the same 3rd semester. 2. The Board of Faculty indicated that Electronic Devices & Circuits and Design in the same 4th semester. So Electronic Devices & Circuits with Design to resolve both issues. we cannot place Digital Electronic we Interchanged Digital Electronic (Renaming of a Course) Proposed Syllabus CE-303 1. Renamed to new name Operating Systems with same course contents in 5th semester. -- -. Recommended by 1. - - .. Existing Syllabus System Programming (3+1) 5th semester .. Justifications Recommendation-3 1. ._-------_ Intercha.nge Electronic Devices & Circuits EE-211 (2+1) of 3rd semester with Digital Electronic Design EE-208 (3+1) of 4th semester. Recommended by 1. 2. -- --------- Recommendation-2 of Justifications the . __ ._.- course are same 1. The contents of System Programming as the contents of Operating system course in the Higher Education Commission (HEC) official curriculum HEC official curriculum also contains an advance course So we renamed "System Programming" as Elective. Programming to Operating Systems with the I System System I introduce contents and same course Programming as an elective course. ~------------------------------- J - I ___ .S.Y-~IUJ._" •• , ••• --- .~ ,l l I' /" ~/ ,.---------------------------------_.- Recommendetion-A (Increase in Credit Hours) Proposed Syllabus Existing Syllabus 1. 2. 3. 4. 5. 6. 7. S. Software Engineering CE-202 (2+1) 4th Semester Relational '. Database Management System CE-301 (2+1) 5th semester Data Communication CE-312 (2+ 1) 6th Semester Parallel Processing CE-401 (2+1) ih semester Computer Graphics, Animation & Multimedia CE-414 (2+1) 7th semester Simulation and Modeling CE-407 (2+1) 8th semester VLSI Design Techniques CE-410 (2+1) s" semester Cryptography and Network Security CE-40S (2+1) Sth semester 1. 2. 3. 4. 5. 6. 7. S. Studies of ... - Ntf. Software Engineering CE-202 (3+1) t Semester Relational Database Management ystem CE-301 (3+1) 5th semester . Data Communication CE-31 3+1) th Semester Parallel Processing CE-4 (3+1) r" semester Computer Graphics, imation & Multimedia CE-414 (3+1) ih semester Simulation and M Cleling CE-407 (3+1) s" semester VLSI Design T chniques CE-410 (3+1) semester Cryptograp and Network Security. CE-40S (3+1) s" semester 6 a" _t Recommended by 1. Board of Department _._ __ Justifications the 1. 2. 3. Previously we have (3+1) credit hours of all these courses and the complete course outline was well distributed and organized with assignment and quizzes. In 200S HEC suggested to change the credit hours from (3+1) to (2+1). We implement that suggestion but the faculty members experienced many difficulties in the completion of the whole course outline with taking assignments and quizzes in (2+1) credit hours. Students are not comfortable by the pace of the lectures and the coverage of the contents per class. Currently we have' total 140 hours. After this increase and after the approval of recommendation-5 we will have total 145 credit hours. I 1. 2. EEElectronic '. Instrumentation 207 (2+1) 4th Semester Design and Switching Logic CE-204 Theory (3+1 ) 3rd. Semester 1. 2. 2. ! Board of Studies of the Department Committee constituted by the academic council to review the courses of CED .. 1. 2. 4. 5. ---------- The official curriculum of Higher Education Commission Four electronics courses as (HEC) shows that -are suffici e nt in a Engineering Foundation courses Computer Engineering Department University Program We have Basic Electrical Circuits and Machines EE-1 07, Electronic Device and Circuits EE-211, Basic Electronics EE-110 and Digital Electronic Design EE-208 in 2nd, 3rd and in 4th semesters. HEC official curriculum has NO course of Electronic Instrumentation for Computer Engineering Students. Removal of this course with (2+1) credit hours will help us in decreasing the total credit hours load of the entire curriculum (after approval of recommendation 4). Redundancy of LDST contents with Digital Electronic EE-208. The contents of Digital Electronic Design Design need to be revised by the CED ---------- Recommendation-6 Existing Syllabus No Electives - Justifications 3. 1. ---- Electronic Instrumentation EE-207 (2+1) of 4th Semester '. Course Dropped. Logic Design and Switching Theory CE-204 (3+1) 3rd. Semester, course dropped '. Recommended by 1. -- - (Removal of a Course) Proposed Syllabus Recommendation-5 Existing Syllabus . (Electives) Proposed Syllabus --- Parallel Processing (3+1) in Semester Compiler Design and Constructions (3+1) ih Semester Robotics (3+1) 7th Semester Computer Graphics, Animation & Multimedia (3+1) ih Semester (3+1) ih Semester 5. System Programming Semester 6. Simulation and Modeling (3+1) 7. VLSI Design Techniques (3+1) 8th Semester 8. Wireless and Mobile Networks (3+1) 8th Semester 9. Information Coding and Theory (3+1) e" Semester 10. Artificial I ntell~gence (3+1) 8th Semester -- 1. 2. 3. 4. e" r--' Justifications Recommended by 1. 2. Pakistan Engineering Council (PEC) Board of Faculty of the University 1. ---_-_---.- -_.- Pakistan engineering Council (PEC) recommended LIS in their last visit of the Department for Electives courses and they have some points for Elective Courses in the. I -I '~-7 / " "~ /~ / -- - .. of Studies of the Departmental Accreditation Process. __ ----- ,------- -_--_---_-- Course Contents of Electives: 1. Parallel Processing Semester (3+1) 2. Compiler Design and Constructions (3+1) ih Semester 7th I . i Definition of Parallel Processing; Performance factors/measures of parallel systems; Parallelism in Uniprocessors - six different techniques; Parallel systems classifications; Memory Distribution - Distributed Memory, -Shared Memory, Hybrid Memory, Comparison; Instruction SISD, SIMD, MIMD, MISD with example of each type; Processes and Granularity - Fine-grain, Medium-grain, Course-grain; Connection Topology; Static Interconnects Line/Ring, Mesh, Torus, Tree, Hypercube Dynamic Interconnects - Bus-based, Cross bar, Multi-port memories, Multi-stage networks; Types of parallelism - Task parallel and Data parallel; Task parallelism architecture - Vectorbased systems with parallel task dispatching; Data parallelism architecture - Data-flow computers - static and dynamic types - DFG; Parallel programming models implicit parallelism and explicit parallelism; Implicit parallelism using Parallelizing compilers; Explicit parallelism using Message passing, shared variable and data parallel techniques; Computational clusters - Introduction and working; Parallel computations through Numerical Solution methods Iterative Solution Methods ; Parallel SOR (Successive Over- Relaxation) Iterative Algorithms for the Finite Difference and Finite Element Methods; Conjugate Gradient Method through Iterative Procedure; - Multi-grid Method; First Strategy; Second Strategy (course grid correction); Direct Solution Method; Gauss Elimination Method and elimination procedure. Translators, History of Compilers, Language processing system, Types of Languages and compilers, Compiler Phases; Role, Features> Lexeme, Pattern, Token. Considerations for a simpler design of LA, ways of implementation, ; Specification and recognition of Tokens and implementation through systems programming language; Natural Language Grammar, formal grammar, context-free grammar, processing of grammars; Ambiguous and unambiguous grammar of expressions and if statement; Left recursion, left factoring, simple and fast implementation of predictive parsers, ; First and Follow sets, parsing table and moves of predictive parser; Canonical collection, j ," ./ r / ;' / , / in 3. Robotics (3+1) Semester 4. Computer Graphics, Animation Multimedia (3+1) ih Semester & parsing table and moves mage by the LR parser; Synthesized and inherited attributes, dependency graph; Lattributed grammars, Top-down translation of expressions; Type expressions, implementation of type checker. _ Introduction, components and subsystems, object localization, -, spatial description and transformations, kinematics (manipulator position / motion), statics, dynamics, mobile robots, task planning, sensors measurement and perception and control programming. Introduction to Computer Graphics ; Overview of Graphics Systems: Video Display Devices (Raster scan systems); Overview of Graphics Systems: Random Scan Systems, Graphics Software (Coordinate Representation, Functions and Standards); Two-Dimensional Geometric Transformations: Basic Transformations (scaling, translation, rotation), Matrix Representation and Homogeneous Coordinates, Composite Transformation; Two-Dimensional Geometric Trans format ions Concatenation of Matrices and General Fixed Point Transformations, other transformations (Shearing and Reflection); Three-Dimensional Geometric Transformations: Basic Transformations; Three-Dimensional Geometric Transformations: Composite Transformations; Output Primitives: Line Drawing Algos ; Output Primitives: Circle Drawing Algos; Output Primitives: Pixel Addressing; Output Primitives: Filled Area Primitive; Output Primitives: Scan line Fill Algo; Output Primitives: Boundary Fill Algo; Output Primitives: Character Generation; Two Dimension Viewing: Viewing Pipeline, Viewing Coordinate Reference frame, coordinate transformation, functions; Two Dimension Viewing: Coordinate transformation, Viewing functions; Two Dimension Viewing: Clipping Operations Three Dimension Concepts: Display Methods; Three Dimension Object Representations: Polygons, Polygon Meshes; Three Dimension Object Representations: Curved lines and Quadric Surfaces; Three Dimension Object Representations: Bi-cubic Patch nets; Three Dimension Object Representations: Space Subdivision Methods; Three Dimension Object Representations: Sweep Representations, Constructive Solid Geometry; Three Dimension Object Representations Octrees, SSP Trees ; Three Dimension Object Representations Fractal Geometry; Three Dimension Viewing: Viewing Pipeline Three Dimension Viewing: Projections Image Compression; Color Models; Animation: Animation Systems; Key framing Systems; Animation Motion Systems. . _ I +:. +~ /7~,.~~-, ------ - ----- - / " .-------=----:--;;:;-:;-;--:::;]InT-;-:---;------;-;----;------:-;----::::--__:--:-----:::----:--·- 5 System Programming Semester (3+1) 71n ~---;---~;--;-__;_:_~;::-:-:-;--;::;:rr-;-;;-;;----:----:---;-~__:;---..:..._--:--:-__:_:_··_: 6. Simulation Semester and Modeling (3+1) s" -------.-.--.... Introduction to the Operating Systems, File Processing, Memory Management, Memory Mapped Files and DLLs, Process management, Threads and scheduling, Thread synchronization, Inter-process Communication, Input! Output, Device Drivers (USB or Parallel Port), File System Drivers, Filter Drivers. ---.---------- .. - ... When is simulation the appropriate tool; Advantages and disadvantages of simulation; Areas of application; Systems and systems environment; Component of a system; Discrete and continuous system; Model of a system; Types of models; Discrete event system simulation; Steps in a simulation study; Simulation of queuing system; Simulation of inventory system; Other examples of simulation;. Concepts in discrete-event simulation; List processing; Manufacturing and material handling simulations; Goals and performance measures; Issues in manufacturing and material handling simulation; Case studies of the simulation of manufacturing and material handling systems; Simulation and languages for manufacturing and material handling; Statistical models in simulation Useful statistical models; Discrete distributions; Continuous distributions; Poisson Processes; Empirical distributions; Characteristics of queuing systems; Queuing notation; Transient and steadystate behavior of queues; Long-run measures of performance of queuing systems; Steady-state behavior of infinite-population markovian models; Steady state behavior of finite-population models; Networks of queues; Properties of random numbers; Generation of pseudo-random numbers; Techniques for generating random numbers; Tests for random numbers. ~---~~~~-~~-;--;::;:rr~--:---:--~~~-~-~-~--:-~~~---7. VLSI Design Techniques (3+1) SIn Conductors, insulators & semiconductors; Discrete Semester and Integrated Circuits; Benefits of Integrated Circuits; Advantages / disadvantages of ICs; MOS transistor Introduction, Types & Working; Implementing logic circuits using MOS transistors - CMOS logic: IC terminology; Scales of integration; Moore's law; IC Economics - Yield, Faults and Defects; VLSI Complexity problem; Processes used in Ie Designing; Step-by-step fabrication of a CMOS inverter; Semiconductor Memories; Memory Storage cells of: ROM, PROM. EPROM, EEPROM, Flash EPROM, SRAM, DRAM; Programmable Logic devices - Simple PLD & Complex PLD; Implementing logic circuits using SPLDs; Application Specific ICs - Advantages, I I I Typ~~e~ign_~ycle '- .. I' 7 --------------r-;:::-------;-;--~_:__:______:____:______:_-___:__.- -------.-------- - Programmable switch technologies; Logic Transformation & Synthesis using Multiplexer and Lookup Tables; Physical design - Partitioning, Floor planning, Placement, Routing; Placement & Routing algorithm; Latest trends in IC fabrication - Next Generation' Lithography and/or 3D Integration; Single-electron Transistors. ". , I, I 8. Wireless and Mobile (3+ 1) 8th Semester. Networks 9_ Information Coding and Theory (3+1) 8th Semester _ ( 10. Artificial Intelligence (3+1) 81n Semester Introduction to wireless environment , Wireless network architectures; Wireless local area for wireless and mobile network, Mobile IP, TCP in wireless environments; Mobile Ad-hoc networks and their routing; Different Generation of Mobile Communications Security In wireless networks; Mobile data services. Discrete Sources & Entropy; Channels & Channel Capacity; Linear Block Error-Correcting Codes; Cyclic Codes; Convolutional Codes; Information Theory & Cryptography; Shannon's Coding Theorems Artificial Intelligence: Its roots and scope; Artificial Intelligence as Representation & Search; Representation & Intelligence. Machine Learning; Advanced topics for AI problem solving; Languages & Programming techniques for Artificial Intelligence Expert System; Neural Computing and AI; Future of AI and Expert Systems. ee: .)r--- Courses of Studies for the Academic Session 2011 (Current SitMtion) Department of Computer Engineering Sir Syed University of Engineering and Technology ~ Karachi Semester - I S.No 1 1 i ! 2 3 4 5 Code HS 101 HS 104 HS 102 MS 103 CE 101 CE 102 Total L Semester - II ! Course Title Islamic Studies or Ethical Behavior English Calculus arid Analytical Geometr}, Fundamentals of Computer Engineering and Programming Languages Computer Programming and Problem Solving 16 Th 2 2 3 3 Lb 0 0 0 0 S.No 1 2 3 4 Code HS 103 MS 110 MS 105 HS 107 Course Title Pakistan Studies and Aligarh Movement Applied Physics Linear Algebra and differential Equations Management Information Systems • 2 1 5 CE 105 Computer Application 3 13 2 , 6 3 - Til Lb 3 o 3 3 -, o o 3 in Engineering Design , 2 - EE 107 Basic Electrical -- Total Circuits and Machines 19 I 2 16 - - r) , I Semester - III ! i I : S.No 1 2 3 4 5 6 Code MS 202 CE 205 EE 211 CE 204 EE 110 HS 201 Total Course Title Complex Variables & Integral Transforms Data Structures and Algorithms Electronic Device and Circuits Logic Design and Switching Theory Basic Electronics Communication Skills 21 Semester - IV Th 3 3 2 3 3 3 17 Lb 0 1 1 1 1 0 4 S.No 1 2 3 4 5 6 Code MS 204 CE 202 CE 207 EE207 EE 208 CE 209 Total Course Title Discrete Mathematics Software Engineering Microprocessor Based System Design Electronic Instrumentation Digital Electronic Design Finite Automata Theory' 19 Til 3 2 3 2 3 2 I 15 ! J LI -- 0 , - -, 1 1 a 4 .. W I ~~ Semester Semester -V - VI I S. No 1 2 3 Code MS 301 CE 306 CE 301 Course itle .Probability and Statistics Computer Architecture c; nd Organization Relational Database Ma hagement System 4 CE308 Communication Systemp 5 6 HS105 CE303 Total Semester S.No 1 2 3 r-- 4 5 Code CE 401 CE 402 CE 414 CE 405 CE 499 Total Psychology System Programming . Lb 3 2 2 0 1 1 S. No 1 2 3 2 1 4 2 3 14 18 - Th 0 1 4 .- '. Total Credit Hours - 14~O CE312 Semester Th 2 2 2 3 0 9 Lb 1 1 1 - Code I CE 407 HS 401 Course Title Simulation and Modeling Technical Writing & Presentation 3 CE 410 VLSI Design Techniques 4 3 5 CE 40e CE 499 Total Til 3 3 3 - 2 Lb 1 1 1 0 2 - 13 4" 1 VIII S.No 1 2 1 7 17 Total I Course 'jitle Parallel Processing Computer Communications and Networks Computer Graphics, An mation & Multimedia I' Digital Signal Processirj; I Project 16f CE309 5 , VII Course Title Numerical Methods Object Oriented Programming Advanced Principles of Operating~stems Advanced Computer Architecture & Organization Data Communication Code MS 302 CE 30th CE 307 Cryptography Project and Network 14 Skills Th 2 2 - 2 Security _. - 2 0 8 U 1 0 1 1 3 6 3 .:»> ='-:':.":_-_.:' Courses of Studies for the Academic Session 2012 (Revised) Department of Computer Engineering Sir Syed University of Engineering and Technology - Karachi Semester': I S.No 1 1 2 3 4 Code HS 101 HS 1..04 HS 102 MS 103 MS 110 5 CE 101 Total 'A Course Title Islamic Studies or Ethical Behavior English Calculus and Analytical Geometry Applied Physics e.: Fundamentals of Computer Engineeringand Programming Languages 15 Semester - " Th 2 2 3 3 3 Lb 0 0 0 0 1 :-z- -413 S.No 1 2 3 4 5 ;--... ~6 2 - Course Title Til Lb 3 Pakistan Studies and Aligarh Movement 0 - -Linear Algebra and differential Equations 3 0 3 Management Information Systems 0 Computer Programming and Problem Solving__ 3 -~~Computer Application in Engineering Design ~ 1 EE 107 Basic Electrical Circuits and Machines 20 Total r Semester - III S.No 1 2 3 4 5 Code MS 202 HS 201 CE 205 EE 110 EE 208 Total Course Title Complex Variables & Integral Transforms Communication Skills Data Structures and Algorithms Basic Electronics Digital Electronic Design 19 -- Code HS 103 MS 105 HS 107 CE 102 CE 105 2 1 --- 16 -- 4 Semester - IV Th 3 3 3 3 3 15 Lb 0 0 1 1 1 4 S.No 1 2 3 5 Code MS 204 CE 202 CE 207 EE 211 Total Course Title Discrete Mathematics Softwa!-e Engineering Microprocessor Based S:istem Design Electronic Device and Circuits 16 Th 3 3.._3 2 Lb 131 3 o I 3 Code MS 302 CE 304 CE 307 1 4 CE309 0 1 4 5 CE312 Th 3 2 3 Lb Communication Systems 2 Psychology Operating Systems 2 3 15 Code MS 301 CE 306 CE 301 Course Title Probability and $tatistics Computer Architecture and Organization .Relational Database Management System 4 CE308 5 6 HS105 CE303 Total S.No 1 2 _. 3 19 S.No 1 0 1 1 2 2 3 4 5 Code CE 402 CE405 CEXXX CEXXX CE 499 Total Code CE 401 CE 403 CE 404 CE 414 CE 418 Course Title Computer Communications and Networks Digital Signal Processing *Elective -I *Elective -II Project , 18 18 Th ._-LI 3- 1 3 3 \ C -<0 ~~It \ 2 o - 3 fa\ 14 4 Th 2 3 3 3 0 11 Lb S.No 1 2 3 4 5 1 1 1 1 3 7 Code HS 401 CE 408 CEXXX CE xxx CE 499 Total Course Title Technical Wilting & Presentation Skills Cry; tography_ and Network Security *Elective -III *Elective -IV Project 17 TI1 2 U) 0 1 3 3 - 1 3.- -- 1 0 11 3 6 -- .- Electives - VIII Gourse Title Parallel Processinq Compiler Design,and Constructions Robotics I Computer Graphics, Animation & Multimedia System Proqrarnlninq "Please note that Electives Course Title Numerical Methods Object Oriented Programming Advanced Principles of Operating Systems Advanced Computer Architecture & Organization Data Communication Semester - VIII Electives - VII S. No 1 2 3 4 . 5 o Total Semester ~ VII S. No 1 J~ Semester - VI Semester - V Th 3 3 3 3 3 Lb 1 1 1 1 1 S.No 1 2 3 4 5 (ill be offered depending on the availability of facilities Total Credit Hour~ - ,142 Code CE 407 CE 410 CE 412 CE 413 CE 415 Course Title Simulation and Modeling VLSI Design Techniques Wireless and Mobile Networks Information Coding and Theory Artificial Intelligence Til 3 3 3 3 Lb 1 1 1 3 1 " \, 3 2 3 2 r- i '\ a )--S'/ \~~-~--~ --r: Courses of Studies for the Academic Session 2011 (Current Sjt~ Department of Computer Engineering Sir Syed University of Engineering and Technology - Karachi Semester - II Semester - I ' S.No 1 , 1 2 3 4 5 L Code HS 101 HS 104 HS 102 MS 103 CE 101 CE 102 Total Course Title Islamic Studies or Ethical Behavior English Calculus and Analytical Geometry Fundamentals of Computer Engineering and Programming Languages Computer Programming and Problem Solving 16 Th 2 2 3 3 Lb 2 0 0 0 0 S. No 1 2 3 4 Code HS 103 MS 110 MS 105 HS 107 Course Title Pakistan Studies and Aligarh Movement Applied Physics Linear Algebra and differential Equations Management Information Systems 1 5 CE 105 Computer Application in Engineering Code MS 202 CE 205 EE 211 CE 204 EE 110 HS 201 Total Course Title Complex Variables & Integral Transforms Data Structures and Algorithms Electronic Device and Circuits Logic Design and Switching Theory Basic Electronics Communication Skills 21 3 3 3 3 1 2 -. 3 2 6 EE 107 Basic Electrical Circuits and Machines , 13 Total 3 - '19 'I 2 - 16 - ') " Semester - IV Semester - III S.No 1 2 3 4 I I 5 6 Design Lb 0 'I 0 0 Til Th 3 3 2 3 3 3 17 Lb 0 1 1 1 1 0 4 S.No 1 2 3 4 5 6 Code MS 204 CE 202 CE 207 EE207 EE 208 CE 209 Total Course Title Discrete Mathematics Software E~gineering Microprocessor Based System Design Electronic Instrumentation Digital Electronic Design Finite Automata Theory 19 I ! : Til Lb 3 o 2 1 I 3 2 3 2 15 1 1 1 0 4 Semester S.No 1 2 3 4 5 6 Semester - VI - V Code MS 301 CE 306 CE 301 Course Tille Probability and Statistics' Computer Architecture and Organization Relational Database Management System CE308 Communication HS105 CE303 Total Systems Psychology SjI_stem Programming Th 3 2 2 Lb 0 1 1 S. No 1 2 3 Code MS 302 CE 304 CE 307 2 1 4 CE309 2 3 14 18_ 0 1 4 5 CE312 Course Title Numerical Methods Object Oriented Programming Advanced Principles of Operating Advanced Computer Architecture Organization Data Communication Systems & 2 2 'I ( Total Lb 1 1 1 Til 3 3 3 0 .-- 1 13 4 Th 2 Ll 2 0 2 1 2 0 8 '1 \ Semester - VII S.No 1 2 Code CE 401 CE 402 3 CE 414 4 5 CE 405 CE 499 Total Course Title Parallel Processing Computer Communications and Networks Computer Graphics, Animation & Multimedia Digital Signal Processing I Project 16 Total Credit Hours - 1 0 Semester - VIII Th 2 2 2 Lb 3 0 9 1 3 7 1 1 1 S.No 1 2 Code CE 407 HS 401 Course Title Simulation and Modeling Technical Writing & Presentation 3 CE 410 VLSI Design Techniques 4 5 CE 408 CE 499 Total Cryptography Project and Network 14 Skills Security 1 3 6 3 Apr~~-~ '~. SIR SYED UN1VERSrrV OF ENGlNEER3NG & TFCg-n~OLO";"Y', hAHACHi ELECTRON IC/TI~LECOM MUN ICATfON EN~; ~~YEHJ r"LLL))t:_P{\HTM ENT nail': Minutes of Meeting to consider curriculum revision rO'" proposals .luly21,2011 BS Elcdronic F:nginccring '. to Item No:05 or 34th Meeting or Academic Council. a meeting 01' committee 11l1'l11ed was held on July 21,2011 to consider the revisions in the curriculum or Llcctronic and Tclccornrnunicution l.ng inccring. Reference The meeting was attended by the Iollowing committee members and officials: 1, Pro!'. Dr. Najccb Siddiqui Associate Dean Faculty 01' l.nginccring 2. Prof. Dr. Misbahuddin Pro lessor Computer 1':ngineering 3; Dr. Syed Noman IIasany Associate Professor Computer lnginccring 4_ Engr. Syed Rizwan-ul-l Iasan Assistant Professor Computer I':nginccring S, Mr. Faisal Bin Nasccrn Controller or lxuminations 6, "Engr. Irfan Ahmed Usrnani Assistant Professor I-:lectronic I',ngi:!7. "Engr. Muhammad Aarnir Assistant Professor I .lcctronic I':ngg ~- (* representatives I ; i: I' I I or Chairman Electronic Engineering) The minutes of the meeting arc as under: 1. To meet the pre-requisites aspect, places or the following courses may be changed: I I COURSE NAME I _~l_§~Q_,!__~TotCssional Practices EE472 Fundamental 01' Wireless Communications .-- ---- ----- .--. . *~ "'1 ii1~'fl.1 M31 §Si' M ;1 r T·· 1 s" .. I; ;!nqn.1M~'i Semester Semester *, $.; 2. Internship for students must be retained but zero credit hour may be allocated 3. In prospectus, detailed course description of the following courses may Ill: replaced cO~lrscs in order to meet the standard 01" the prospectus. KE220 DIGITAL I iM;l Semester ih Semester gth instead 01- one credit hour. with outline 01' the LOCIC lH:SIGN (3+1) EXISTINC CONTENT:; Boolean algebra Boolean Algebra 8, Logic Gates, Boolean Functions, Canonical & Standard Forms, Digital Logic Gates. Digital Logic Families RTL & DTL Circuits, Integrated Injection Logic, TransistorTransistor Logic, Emitter Coupled Logic, MOS & CMOS. Simplification of Boolean Functions Map Method, NAND & NOR Implementation, Don't Care Conditions, the Tabulation Method. Combinational Logic Design procedure, adders, subtractors, code conversion, analysis procedure. multilevel NAND & NOR circuits, exclusiveOR & equivalence functions Binary parallel I Review of Number System!~, Boolean Algebra 8" Logic Gates, Canonical 8, 0tallciard Forms, Gate Level Representations :_)Irnplificatloll of Boolean Functions. Cornbmational Logic Circuits Analysis and Deslqn, F-'rll(jfarnmable Logic Array, Sroquentl<-iI I.<KII'_ Circuits Analysis and Desiqn, Optirmzation of synchronous sequential cm.uils; Memories and Storage, Digital Ilitc?qr<llrc;rI Circuits. Interfacing of Logic r:amilir'!; lllili)(.lllcllon to FPGA ) I adder, decimal adder, magnitude comparator, decoder, multiplexer, programmable logic array Sequential Logic Circuits Flip flop, triggering of flip-flop, state reduction & assignment, design procedure, design of counters, design of stare condition Registers, Counters and the Memory Unit; Inter-register transfer, shift register, conditional control statements, overflow, decimal & floating point data, non decimal data, Modulus N counters, memories, ROM, EPROM, PROM and RAM, dynamic RAM. Interfacing of logic families: Introduction to TTL logic family, Comparison of TTL and CMOS logic families-logic levels, current, voltage and loading parameters, output types (open collector, tri-state), Interfacing of TTL with CMOS-buffers, level shifters, Interfacing of logic families with LEOs, relays, solenoid and opto-couplers, Switch._~el:l()uncing circuits, FPGA KE211 ELECTRONIC DI~~VICES & CIRCUITS EXISTING CONTENTS .,. BJT AC Analysis: Introduction, Reproduction and amplification, bias and signal components, voltage, current and power gain Important parameters of a two port system Transistor modeling, 're' model for common emitter, common base and common collector configurations. BJT small signal analysis of CE Fixed bias, Emitter stabilized bias, voltage divider bias, Un bypassed Emitter bias, collector feedback bias, common base and emitter follower configurations Hybrid model of BJT, hybrid parameters, Approximate hybrid equivalent model, AC analysis by approximate hybrid model of common emitter, common base and emitter follower configurations Complete hybrid equivalent model (current gain, voltage gain, input impedance and output impedance), Effect of Load impedance (RL), Effect of source impedance (RS), combined effect of RS and RL on fixed bias, voltage divider, collector feedback, un bypassed emitter stabilized, common base and emitter follower networks, FET AC Analysts: Trans conductance gm, graphical and mathematical determination of gm, FET input impedance, output impedance, FET AC equivalent circuit, Small signal analysis of JFET fixed bias, self bias, voltage divider bias, source follower and common gate configuration Depletion type MOSFET and Enhancement type MOSFET biasing, E (3+1) PROPOSlj~D CONTI(NTS BJT AC analysis: Introduction, Reproduction and Amplification, Bias and signal components, Voltage, current and Power gain, Important parameters of a two port system, Transistor Modeling, re Transistor model (CE configuration, CB configuration & CC configuration), BJT small signal analysis of CE Fixed bias,Voltage Divider bias, CE bias and Emitter Follower bias, CB configuration, Cotlector Feedback configuration, Collector DC bias configuration, Hybrid equivalent model, h parameters Approximate Hybrid equivalent, Fixed bias, Voltage Divider, Un bypassed & Bypass Emitter bias configuration Complete Hybrid equivalent model (current gain, voltage gain, input impedance, output impedance claculations). Two Purl System, Effect of Load impedance (RI), EFfect of Source Impedance (Rs) Combined Effect of Rs and RI, FET AC Analys is: Introduction: Construction, types and operation of JFET & MOSFET, Transfer character.sties. DC Biasing techniques, FET small signal model, Mathematical model of qrn, Plotting gm Vs VGS FET input 1IT1rH'Ii;lrlCC,", FET output impedance FET AC oquivalont circuit, JFET 8, MOSFET Fixed 1;1;1:': ::;r:lr bias, Un bypassed & Bypassed r-~c;, ,II-iT Voltage Divider, Source Follower (Con unon Drain) Common Gate confiquration B.n and JFET Frequency Response: LoqarrUllw;, Decibels Ge:'neral Frequency COW;ldr;I:111()fl, l.ow I I !\~OSFET Dr3ii"": f2edbacl<: confiquration E I Fr~;C;~:2::C:l 2n~I'J~):r I',,(_~ ~ • I., I"." Iff:"f 10nC'/ I rv'lOSFET voili:l~e U.'lvider configuration, response at 13,j r <.1I;;p·j'lflf'/ I (,w' I r~~~;~~~ Designing FE T amplifier networks response of FE r Arnpllflt~1 Miller Effect (bypassed source resistance, un bypassed Capacitance. High Frequonrv I'.;~;ponse of I source resistance, source follower. common BJT AmpliFier, Higl, F,'equI,;lCY r"sp0I1S8 of gate). Compound Configurations FET Amplifier Multistage FIp.qlll-~rH;y Effects Cascaded systems of BJTs and JFETs, Compound Configurations: Cascade Darlington connection (AC equivalent connection of BJT and JF~T. Darligton circuit) AC input Impedance, output connection (AC Equivalent Cucuit AC input impedance AC voltage gain, AC current impedance," AC Voltage WlIn, AC Current gain, Current mirror circuit, Differential gain, Feedback pair circuit, Current Mirror Amplifier (DC bias, AC operation, Single circuit, Differential Amplifiers (DC bias, AC ended voltage gain, double ended voltage operation, Single ended AC \/oltage gain gain, common mode operation) constant Double ended AC Voltage gain, Common current source. BJT and JFET Frequency mode operation of circuil, Constant Current Response: Low frequency analysis, Low Source frequency response of BJT amplifiers, Low frequency response of FET amplifiers, Miller effect capacitance, High frequency response of BJT amplifier, High frequency response of FET amplifier, multi stage frequency effects. Power Amplifiers: Definition and amplifier types, amplifier efficiency, Series fed Class A amplifier, Class B amplifier, Complementarysymmetry Circuits, Quasi-complementary Push-Pull amplifier, Class C amplifier, Class D amplifier, Power transistor heat sink. I EE212 APLIFIERS & OSCILLATOR Operational Amplifier: Basics, Mathematical operations, Practical Considerations, Differentiators & Integrators, Single Supply biasing & Norton Amplifiers. Integrated Circuits: Precision Rectifiers, Peak detectors, Comparators, Clampers, Sample & Hold Circuit, Digital to Analog and Analog to Digital converters,. Filter Design: Filter response terminology; second order filter functions; low pass; high pass; band pass; notch; and all pass Examples of passive filter circuits low pass, high pass; band pass. notch, and all-pass Example for a band pass filter. Circuit for single amplifier biquad filters Circuit sensitivity Butterworth approximation, Chebycllev approximation Oscillators: General Consideration, Criteria for Oscillation, Basic Circuit Requirements, RF Oscillator Circuits Hartley Oscillator, OSCillator. Tuned I (3+1) EXISTING CONTENTS COlpitts 'I Collector Oscillator, Crystal Oscillators, Oscillator Characteristics, Crystal Oscillator Circuits. RC or Phase-shift Oscillators Principle of Operation, Vvren Bndge Oscillator, I PROPOSI'~I) CONTI':f"JTS Introduction: Transistor configurations (CB,CE,CC), BJT and Differential amplifiers Power Amplifiers: Definilion and Amplifier types, Class A, B, Pushh Pull Class B, C & D, Claculation & derivations of Power & Efficiency of amplifiers Operational Amplifiers: Op amp fundamentals Op-amp configurations: Non invertinq p, Inverting Opamp, voltage follower, surnmmq amplifier, difference amplifier, instrumentation amplifier, Integrator & Differentialor circurls, Srnqle supply Biasing 8, practical c(JI'l:;lderations, f\lon linear applications of ()prlillp Filters: Active & Passive filters Low WI';~~. high pass. band pass. all pass, blqll(lll fillp.rs: Circuit sensitivity, Comparison of [lle;1 ;:-Id roalisations Butterworth 8, Chebychev < If,plOXlrnatlons Oscillators and critori» r"( »s cillation: concept of oscillator posrnvo r(~I;(lh;:]ck, start Lip conditions, PC or ph,l",,' "111(/ o"clliator princrpte of operation, \J\Ir~lll hfldq'; osr.illator, RF Oscillator Circuits: Ilclrlil:'1 Colpitts & Tunecl Collector Oscillator IntAgrated Tir:lers, Voltaqe Controtlcr: O~;I:iIL1L()r: , ) Integrated Oscillator, 4. timers Voitage Phase Lock Loop. Controlled The subject 'EE340 Linear Control Systcms' may he named as 'I(E3-l0 to its contents. 5. The Elective Courses may be restored to make the curriculum Conh'ol Systems' according \\ ilh the outline inliru: 01' III':C curriculum. STING STRUCTURE SEMESTER-7 Crs.IO SEMESTER·8 Cr. Hr. Course Title _ .:::~:. , ,,'.;;:; Cr. Hr. Crs.IO Course Title EE472 Fundamentals Communications ----Psychology 'f-' HS105 r------- I I 2+0 I 11 r iI 3+0 --- HS404 Professional Practices 3+0 EE471 Opto-Electronics 3+1 EE461 Industrial Control Electronics 3+1 EE481 VLSI Design 2+1 EE423 Embedded System Design Application 3+1 EE462 Robotics 3+0 0+3 EE499 Project-II 0+3 16 Total credits I 11 Wireless of & --Project - I EE499 ----- ---- Total credits I W ~I'] ~'~121.J.i i~IlIi iii ~1 Crs.IO ~. 16 e Cr. Hr. Course Title Crs.IO Course HS404 Professional Titlo Cr. Hr. Practices 3+0 ---Psychology HS105 EE472 EE461 2+0 Fundamentals of Wireless Communications 3+0 Industrial 3+1 EEXXX Control Elective Electronics - I * Project - I EE499 resources in a particular and facilities. EEXXX Ele ctiv» - II EEXXX Elective - III 0+3 EE499 Prolf'f:1 16 Elective courses 3+'1 3+'1 Total credits * Opto-Elcctrnn«:': EE'~71 semester Tot<J1 credits will be decided :c: 2+11 3+0 ,. II 3+0 0+3 16 _._ .---. -----by the de pa rt mcn t <1c(:ording to the available I Course No, 1 2 3 ------_-4 5 -. 6 7 8 9 .~ 10. ---_--- 11 6. i 1, ~ Title of Courses Numerical Methods In linginccring Power Electronics FPC1A-13ased System Design Satellite Communications Antenna & Microwave Engineering Introduction to Robotics Fuzzy r .ogic and Neural Networks Mechatronics Applications VI,S I Design Embedded System Design & Application Nanotechnology Theory I_~i b Total 3 2 2 3 3 2 2 2 2 0 I 3 3 3 3 4 " () i 'I 1 3 '1 3 3 0 4 3 1 3 3 3 An elective course may be added in the elective list with the proposed title "J':mbcddcd Systems Design & Applications" Ior the Batch 2009, to enhance the capabilities or students in the field of embedded systems. The subject is very important for electronic engineering students to come up at the local' and international market standards. ~ _ I~~~~ ; Prof. Dr. Syed Misbahuddin Mr. Faisal Bin Nasecm Prof. D ) // SlH SYED UN1VEHSJTY OF ENG1NEEHjl~C ~x TECnIH)l'()~.;'«', KARAC~n E L I~ CT H 0 N} CIT f~ L ECO M M UN I CAT JON l~~ N (; iN E E R J N fL_D EPA RTM E NT Dale: Minutes of Meeting to consider run-iculum rcvi ions proposals Engineering Juiy21,2011 for BS Telecommunication Reference to Item No:OS 01- 34th Meeting or Academic Council. a meeting 01' committee July 21. 2011 to consider the revisions in the curriculum ofTclccommunicution I·:nginccring. lormcd was held Oil The meeting was attended by the following committee members and officials: I, Prof. Dr. Najeeh Siddiqui Associate Dean l-aculty or 1':llginecring 2, Prof. Dr. Misbahuddin Professor Computer linginccring 3, Dr. Syed NOmClI1 I lasany Associate Professor Computer I':nl:',illcering 4, Engr. Sycd Rizwan-ul-Ilasan Assistant Professor Computer l.nginccring 5, Mr. Faisal Bin Nasccrn Controller of 1':xLlminations 6, * Engr. Irfan Ahmed Usmani Assistant Pro lessor l.lcctronic I':ngg 7. *Engr. Muhammad Aamir Assistant Professor l.lcctrcnic I':ngg (* representatives Fhc minutes 0f or Chairman Uectronic lnginccringj the meet i ng are as under: 1. Internship for s,tudents must be retained but zero credit hour may be allocated instead or one credit hour. y 2. or the In prospectus, detailed course description' of the following courses may be replaced with outline courses i~ order to meet the standard of the prospectus, TE321 DICITAL SIGNAL PROCESSING (3+1) EXIBTJNG CONTENTS I Analog to digital conversion: Sampling theorem, Quantization error, aliasing, Revision of Discrete Time Signal & Systems, Classification and its properties. Discrete Fourier transforms: The Discrete Fourier Transform (OFT), Inverse OFT, OFT properties (Linearity, Circular shift of DFT input, Circular shift of OFT frequency output, periodicity, OFT of even and odd sequences, OFT of real sequence, complex-conjugate sequence/OFT relationship),Eight Point OFT example, DFT Frequency response characteristics, frequency selectivity, spectral leakage, Gibbs phenomenon, Equivalent noise bandwidth, Overlap correlation. Fast Fourier, transforms, Butter fly diagram, Decimation In Time PROPOSll~J) CONTVlyrS Introduction: Introduction to Digital Signal Processing, The Concept of frequency in Continuous-Time & Discrete-Time Signals, Analog to Digital & Digital to Analog Conversion, Z-TrclnsForm & its Properties. Discrete Transforms DiscreteTime Fourier Transform (DTFT), Discrete Fourier Transform (DFT) E, its Properties, Efficient Computation of DF-'T, Radix -2 FFT Algorithm A fr(-!lrlf~lJIIulk for Digital Filter Design Difference Equation and Transfer Function, IlilPlll ,I: r:;esponse, Step Response and ::~,/~,;II.,~ln F;esponse, Digital Filter Frequency R'::';;ponse, Basic Types of Filtering, Filter ~eslgn Steps, Realization of oigiicil [- illers. Finite Impulse Response (FI R) Filter Design FIF filters specification:" r::I[\ Coefficient I I I I Z-I I and Frequency for FFT Revision of transforms. The properties of Ztransform (Region of convergence, linearity, delay property, time scaling by complex exponential sequence, differentiation, multiplication, convolution property, Initial value theorem, Final value theorem). The inverse Z-transform, complex inversion integral, Inversion by partial fractions, inversion •• I; ,- . by divisions, Calculation methods lii;i/li~~-:; liiojJLi):::'c Response (IIR) Filter Design IIR filter format, Coefficient Calculation methods of !!R filter • complex convolution theorem. Solution of difference equation. Application of Ztransform to the analysis of discrete time systems. Design & Analysis of Digital Filters (FIR & IIR): Realization structures for FIR and IIR filters. Direct form-I, Direct form II, Cascade, Parallel, Lattice, Frequency sampling and Fast Convolution method. Design of Infinite Impulse Response (IIR) filters: Introduction to digital filter design, Analogue filter approximations (Analogue lowpass Butterworth, Chebyshev, Elliptic filters) Frequency band transformation, Digital filter design equations (for lowpass, highpass, bandpass, bandstop filters) IIR digital filter design techniques and procedure using Bilinear transformation, Impulse invariant and Pole placement methods. Design of Finite Impulse Response (FIR) filters: Introduction to FIR filter and its characteristics, Properties of FIR filters, Window functions, FIR filter design using Hamming, Hanning and Kaiser window methods. Introduction to digital image processing. TE331 DIG1TAL -- __ COMMUNICAT10NS (3+1) EXIST1NC COi'rrENTS Fl{OI'O>il':D {.{ J~ n:i'n.s .- Elements of Digital Communication and Information Theory: Model of a digital communication system; Mutual information and channel capacity of a discrete memoryless channel, Calculation of channel capacity of a i Introduction, digital versus analog, overview of digital communication systems. Some probability theory: (a) Probability space, random variables, density and distribution functions, independence (b) Expectation. conclitional I l i discrete memoryless channel. of a BSC. I expectation. Bayes' I ule (t":;) Stochasti~ of a continuous AWGN Channel, processes, autocorrelation functions, Hartely- Shannon law, Bandwidth-SIN stationarity, ergoe!icity, spectral density. tradeoff. Sampling Theory: Sampling Source coding, sarnplinq. quantization, theorem, Signal reconstruction in time companding, PCM, (18It;'\ modulation domain, Practical and Flat Top Communication channels norse, Sampling, Sampling of Bandpass Signal. bandwidth, memoryless channels, AWGN Waveform Coding Techniques: channels, Modulation, optimal receiver Discretization in time and amplitude, principles, signal design, probability of Linear quantizer, Quantization noise error, Maximum-likelihood receivers, power calculation, Signal to Quantization Orthogonal, simplex and other signals, noise ratio, Non-uniform quantizer, A law PAM, PSf<, OAM, FS~< Channel coding: & Mu- law, companding; encoding and (a) Block coding, (b) Convolutional Pulse Code Modulation, Bandwidth of coding, the Viterbi algorithm, (c) CodedrCM, Differential pulse code modulation, modulation. Signaling over bandlimited Multiplexing PCM signals, Delta channels: (a) Intersymbol interference, modulation, Idling noise and slope Nyquist's criterion (b) Spectral shaping, overload, Adaptive delta modulation, equalization (zero-forcing, MMSE) (c) Adaptive DPCM, Comparison of PCM Partial response signaling. Signaling over and OM, Digital Base Band fading channels, Spread-spectrum Transmission: Line Coding & its communications, properties. NRZ & RZ types, signaling format for unipolar, Polar, bipolar (AMI) & Manchester coding and their power spectra (No derivation), HOB and B8ZS signaling, lSI, Nyquist criterion for zero lSI & raised cosine spectrum, Matched filter receiver, Derivation of its impulse response and peak pulse signal to noise ratio, Correlation detector decision threshold and error probability for binary unipolar (on-off) signaling, Digital Modulation Techniques: Types of digital modulation, Wave forms for Amplitude, Frequency and Phase Shift Keying, Method of generation and detection of coherent & non-coherent binary ASK, FSK & PSK, Differential phase shift keying, Quadrature modulation techniques, M-ary FSK, Minimum Shift Keying (MSK), Probability of error and comparison of various digital modulation techniques.A base band signal receiver, Probability of error, The Optimum filter, Matched Filter, Probability of error in Matched filter, Coherent reception, Coherent reception of ASK, PSK and FSK, Non-Coherent reception of ASK, FSK, PSr( ane! QPSK, Calculation of error probability of BPSK and BFSK, Error probability for i I I I Multiplexing: QPSK.Digital of time division Fundamentals multiplexing, electronic commutator, bit, byte interleaving TTCarrier system, Synchronization and Signaling of T1, TOM, PCM hierarchy, North-America CCITT standards, T1 to T 4 PCM TOM system (DS1 to DS4 signals), Signal format of M 12 Mux for AT & T (Bell) system, bit rate calculation for DS1 to DS4 signals. TE350 ANTENNA & MICROWAVE EXISTING 'ff, ~ \' CONTENTS •. THEORY (3+1) PHOPOSED CONTI(NTS Introduction to Propagation System. Mathematical basics: Vector Analysis & Different Types of Frequencies and Their Coordinate System, Maxwell's Equations, Applications. Propagation In Free Space. Wave Equation, Vector Potential, Energy Tropospheric Propagation, Ionospheric and Power Relations in the propagation. Sky Waves, Space Waves, Electromagnetic Field. Skin Effect, Surface Wave or Ground Wave Homogenous Plane Waves, Propagation Propagation, Summary of Radio wave of Electromagnetic waves through the propagation, Wave propagation via Atmosphere, Basics for Communication upper atmosphere, Important terms and System Calculations, Receivers and Definitions of Radio waves. Important Transponders. Waves on Transmission terms and Definitions of Radio waves. Lines, Reflection Coefficient Diagram Introduction to Transmission Lines. (Smith Chart), Scattering Matrix Concept, Equivalent Circuit Of Transmission line, Directional Couplers, Frequency Electrical Characteristics of Conversion & Mixing, Antennas. Transmission line. Types of Transmission Lines, Derivation for Characteristic Impedance Zo, Formulas for Zo, L, C, Stub Matching, Waves on Transmission lines, Resonant and Non resonant Transmission lines, Traveling waves and Standing waves. Standing waves ratio, Transmission line Applications. Losses in Transmission lines. Smith Chart, Calculation from Smith Chart Antenna Equivalent Circuits, Characteristics of Antenna, Radiation . Field, Polarization, Radiation Resistance. Isotropic Radiator, Power Gain. Effective Area, Length of Antenna, Half wave Dipole, Quarter Wave Dipole. Types of Antennas. Antenna's Power Gain Calculations. Antenna's Effective Area, Length Calculations. ;;; wave and I 1., wave dipole Antenna. Yagi Uda T I arrays, Vertical and Horizontal Axis of Antennas. Microwave Tubes. Klystron. Magnetron. Traveling Wave Tubes, Solid-state devices e g. Gunn diode, impatt diode etc., Microwave communication, Basic principles of Radar, Radar types, Radar equation, Factors influencing maximum range, noise effects, Power and frequencies used in Radar. TE330 ANALOG COMMUNICATIONS I (3+0) EXISTINC CONTENTS Analog Modulation Techniques: Introduction, Theory of Amplitude Modulation; AM Power Calculations, AM Modulation with a Complex wave, Theory of Frequency Modulation (FM); Spectra of FM Signals, Narrow Band and Wide Band FM, Theory of Phase Modulation, Comparison of AM and FM, Comparison of PM and FM, Noise and Frequency Modulation, Pre-emphasis and De-emphasis. AM Transmission/AM Reception: Introduction, Generation of Amplitude Modulation, Basic Principles of AM Generation; Square law Diode Modulation, Vander Bijl Modulation, Suppressed Carrier AM Generation, Ring Modulator, Balanced Modulator.Tuned Radio Frequency (TRF) Receiver, Basic Elements of AM Super-heterodyne receiver; RF Amplifiers CharacteristicsSensrtivity.Selectivity, Image Frequency Rejection, MixersTracking and Alignment, Local Oscillator, IF Amplifier, AM Detectors; Envelope or Diode Detector, AGC, AM Receiver using Transistors Communication Receiver FM Transmission/FM Reception Generation of FlVl by Direct Methods. Indirect Generation of F~jl; The Armstrong Method, FIVl Stereo Transmission.FM Receiver Direct Methods of Frequency Demodulation; Slope Detector, Travis Detector Foster Seely or Phase Discriminator, Indirect methods of FM Demodulation: FM I'I~OPOSI(I) CONTENTS Analog Modulation Techniques, AM Transmission & AM Reception, FM Transmission & FM Reception, FM Transmission & FM Reception, SSB Transmission/SSB Reception, Communication System example (TVI Radio), Pulse Modulation Transmission and Reception: Pulse Amplitude Modulation (PAM), PAM Modulator Circuit, Demodulation of PAM Signals, Pulse Time Modulation (PTM); Pulse Width Modulation (PWM), Pulse Position Modulation (PPM), PPM Demodulator, Basic Multiplexing Techniques, Introduction to Telephone instruments & signals, telephone circuit & Public telephone network. s I Detector usmq PLL and Stereo FiVl Multiplex Reception. SSB Transmission/SSB Reception: Advantages of SSB transmission, Generation of SSB; Independent SideBand Systems (ISB), Vestigial SideBand Modu!ation (VSB).SSB Product Demodulator, Balanced Modulator as SSB Demodulator, ISB/Suppressed Carrier Receiver. Pulse Modulation Transmission and Reception: Introduction, Pulse Amplitude Modulation (PAM), PAM Modulator Circuit, Demodulation of PAM Signals, Pulse Time Modulation (PTM); Pulse Width Modulation (PWM), Pulse Position Modulation (PPM), PPM Demodulator. Information Theory: Introduction, Measurement of information, Entropy, Information Rate, Hartley Law, Noise in Information Carrying Channel and Shannon-Hartley Theorem. TE301 TRANSMISSION AND SWITCHING SYSTEMS (3+0) EXISTING CONTENTS f-------- -_._-- PROPOSI':]) CONTENTS -- Transmission Systems including PDH and SOH, Synchronization, routing techniques, Line Encoding Techniques (HDB3, 2B 1 Q), Types of Switching Review of switching technologies Circuit, Message and Packet Switching, Telecommunication Network (PSTN, pLMN), Exchanges Hierarchy, Basic Functions of a Typical Digital Switching Exchanges (examples taken from EWSD, AXE, SYSTEM12 etc), SPC, Software Structure of SPC Digital Switches, Software Life Cycle, Telecommunications Traffic and models including characterization of PABX and Public exchange traffic, GOS, BHCA, Network Traffic Loaci anci Parameters, Blocking Probabilities, Modeling Switching Systems, Incoming Traffic and Service Time Characterization, Blocking Models and Loss Estimates, Delay Systems, Time and Space Switching, TS-T and S-T-S Systems and its Basic of switching System, Evolution of Switching System, Principal of Common Control, Touch Tone Dial Telephone, and Principals of Crossbar Switching, Digital Switching, Electronic Space Division, Stored Program Control Exchange (SPC), features of SPC, Technical Specifications of SPC, Two-Stage Networks, ThreeStage Networks, n-Stage f\Jetworks, Basic Time Division Space Switching, Basic Time Division Time ~"vitching. Time Multiplexed Space Svvilchinq, Grade of I Service, Non blc·d J.III'! Networks, Synchronization, Control ." Switching System, Call Prucr':"~J~,if1[J Function, Channel Associated ~~ir.lnC1llJlrJ. Comrnon ' Channel Signaling, :3ign;1Iing Sytem-6 (SS6), Signaling System-7 (SS7), Telecommunications Traffic and models incluciing characterization of PABX anci Public Exchange traffic, RC)llting Tables, Charging Plans, (:;111 detail re<cording(CDR), j'/ulnbr:1 irl\J Plans, [ II 1/:-- I. variations, Numbering Plans, Routing Tables, Charging Plans, Call detail recording(CDR), numbering plans, Classifications of Signaiing Systems, Channel Associated Signaling (CAS) and Common Channel Signaling (CCS) ITU's Common Channel Signaling '. System # 7 (CCS7 Or SS7), - protocol Architecture mapping with OSI model, MSU, LSSU, and FISU, Global title translation, ISUP and TUP protocol maps, Case Study of FMM on Call Scenarios such as prefix Analysis and task element definition(PATEO), isolation of condensed prefix(CPX), ONEU and Index, LSIF, TRA and Private Access Resource Management. ISDN Implementation In Commercial Exc.h~nge. 3. The subject 'E:E340 Linear Control Systems' may be named as '1(1(340 to its contents. 4. The Elective curriculum. Courses may be restored '~1 Transmission and SV1Illc!lII1U for various Telecornrnunicnlion to make the curriculum techniques Networks. Control Systems' according inlinc with the outline or TlI':C XISTING STRUCTURE , .. SEMESTER·S SEMESTER-7 t Crs.IO HS-404 TE-432 TE-470 TE-461 Cr. Hr. Crs.IO 3+0 HS-105 Wireless & Mobile Communications 3+0 TE-434 Telecommunication 3+0 TE-440 2+1/3+ 0 Course Title Professional Practices Systems Network Security _.,! : ~; - :: Project - I 0+3 Cr. Hr. Psychology 2+0 Satellite 3+0 Communication Optical Fiber Cornrnurucauon 3+1 TE-423 Traffic 3+0 rI~-499 r'rol8ct Enginecrinq -_ ... _ .. - '15 Crs.IO HS-404 Course Title Professional Practices Total credits Cr. Hr. Crs. ID 3+0 HS-105 ._. II 013 --Total credits , Course Title ---- TE-499 •••.•• ~ - I -_ - _.'15 .. -- Course Title Cr. Hr. 1'~;yCI1Oloq,! 2+0 7 "'J I I TE-432 Wireless & Mobile Communications 3+0 Electivo -II TE-XXX * 1 I J 3+0 ._ Telecommunication TE-470 Elective TE-XXX - I Systems * 3+0 TE-440 2+11 3+0 TE-XXX Optical fiber Comnu IflILclll{lr 1 3+1 3+0 Elective - III ,. --- _. Project -I TE-499 0+3 Project TE-499 II 0+3 --- " 15 Total credits Total credits 15 -_._.- * Elective courses in a particular semester will be decided by the department according to the available resources and facilities. The proposed List or elective courses are as Col lows: Title of Courses Course No. Advanced Filter Theory 1 {~I .. -' 2 ._ --.-.- r 3 ..l 4 5 6 .. Network Security Total Lab 2 '1 3 3 3 0 0 3 3 2 2 1 1 3 3 Radar Systems Multimedia Systems 2 8 traffic Engineering 2 '1 3 9 VLSI Design FPGA based Digital System Design 2 'I 3 2 '1 7 - . 10 5. Information Theory & Coding Satellite Communications --Microwave Engineering Theory 3 2 3 3 1 An elective course may be added in the elective list with the proposed title ·'FPC!\. based Digital System Design" Cor the Batch 2009, to enhance the capabilities of students in the field 01' digital system design. The subject is very important lor telecommunication engineering students to come up at the local and international market standards. y,~. '\ DL S_v('d No rua n l laxanj Prof. Dr. Syed Misbahuddin Prof. lY' Naj ccb Siddiqui SIR SYED UNIVERSITY OF ENGINEERING & TECHNOLOGY. KARACHI Department of Computer Science To Honourable Dean Basic & Applied Sciences, SSUET Subject Course Revision of BS (CS) Date 11/06/2011 It is submitted that undersigned has visited Prof.Dr. Hilal Ahmed Qureshi at his residence on 10106/2011 at 5 :00 PM regarding the course revision of BS (CS) for the prospectus 2012. The enclosed draft of revised curriculum of BS(CS) for Prospectus 2012 as AIU1ex A-I comprises the courses which are now inline keeping in view the suggestions of Prof. Dr. Hilal Ahmed Qureshi. Submitted for your kind advice and guidance please. -s: Sh~} Tic BS (CS) Programme • I ~ ......,. Department of Computer Science, Sis Syed University ofEngineering & Technology Modifications in Curr iculu.n of bS(CS), ' The new scheme of studies of BS (CS) degree programme for prospectuses 2012 is shown as follows: ;, Courses of Studies [20l2Ifor BS (CS) Degree Programme N.B. The proposed changes are shown as highlighted text. Semester - I S# Course' Code. 1 CS120 Credit. hours •. 3+1 Course Title' ;~~> " , ~. Applied Physics -~ 2 HS102 English 3+0 3 CS119 Aligarh Movement / Pakistan Studies 2+0 Introduction to Computer Science (ITCS:) Introduction to Economics 3+1 ," 'Remarks ;~ ~d~~~ • , ;;' .Introduced In place of Physics - I & II (CS 1 03 & CSIO) and Credit hrs raised to 3+ 1 , Contents are Same introduced as prescribed by CED, SSUET the Aligarh .Split Movement / Pakistan Islamic Studies and studies (CSI05) course into two separate courses as CSl19 & HSIOI or HSI04 f \'; ~. ! ,< 4 CS1'14 5 CSl13 6 CSl15 f 2+0 " ~' ~i " Semester - II S# Course Code .' 1 HSI01 I I Mathematics (Calculus & Analytical Geometry) Total Credit hours: '-"/ 3+0 the total credit 18 Credit Previously ,'{~ ~;, )~-r:.{',,>\; -, Hours was-l ? ' hrs. Course Title Islamic Studies OR Ethical Behavior Programming Fundamentals Mathematics (Differential Eq. Linear Algebra) Introduction to Financial Accounting , Credit hours 2+0 2 3 HS104 CSl16 CSl17 4 CS121 5 HSI05 Psychology 6 CS118 Web Engineering Total Credit hours: 1 Remarks , ,~s:! ,. Introduced Ethical Behavior to facilitate Non Muslim students '}t". 3+1 3+0 s. 2+0 Introduced Psychology course of 2+0 as recommended by HEe. 2+0 2+1 16 Credit - I11'S. Previously the total credit hours was 19 ,/'j ' _ •... ", • Sem ste - 11:1: S# Course 1 Code CS201 Course Title ; Logic Design & Switching Theory Credit hours 2+1 -, -, 2 3 CS203 HS201 Probability & Statistics Communication Skills 4 CS20S CS209 Discrete Mathematics Object Oriented Programming Total Credit hours: 5 Remarks 3+1 3+0 3+0 3+1 17 Credit hrs. Introduce some important course contents related to Basic because Electronic Basic Electronics is not suggested by HEC. is Same Course Code applied as being followed In SSUET. Also the credit hours are raised to 3+0 instead of 2+0 Previously the total credit hours was 18 Semester - IV S# 2 Course Cone CS213 CS216 3 CS214 Theory of Automata Languages 4 CS217 Computer Architecture ~ 1 Course Title Credit hours 3+1 3+0 Data Structures & Algorithms Multivariate Calculus & Formal Remarks This course is introduced as recommended by BEC 3+0 - 3+0 • e ::, CS305 lntroduction to Operating System Total Credit hours: 3+1 17 Credit hrs . . ,I Introduced the Computer Architecture course because its IS recommended by HEC as Computer Science core course Instead of Computer Architecture and Assembly Language. Previously the total credit hours was 20 I• Semester- V S# Course Code CS302 CS303 CS310 1 2 3 4 CS208 CS315 5 Credit hours 3+1 3+J 3+1 Course Title Computer Networking Intro to Database & RDBMS Compiler Construction Numerical Analysis Microprocessor . Interfacing Programming , -, & 2+1 3+1 Remarks Introduced this course as recommended by BEC. , Total Credit hours: 19 Credit hrs. Previously the total credit hours was 19 Semester - VI S# 1 . Course 'Code CS316 Credit hours 3+1 Course Title Artificial In telligence . , 2 3 4 CS308 CS304 CS318 Computer & Networks Security Operation Research Computer Graphics Animation & Multimedia 3+1 2+1 2+1 6 C~210 HS401 Software Engineering Technical Report Presentation Skills Writing and Total Credit hours: 3+1 2+0 20 Credit hrs. . ,. Artificial Re-titled as Intelligence as suggested by BEC instead of Artificial Expert intelligent and Systems I I: >.l • c 5 Remarks ! Re-titled as Computer Graphics Animation & Multimedia instead of Graphics & Multimedia. Similarly the credits hrs are decreased to 2+ 1 instead of 3+ 1 The same course is being by CE, SSUET offered Dept. and HEC Previously the total credit hours was 20 • Semester - VU S# Course Code CS417 I Credit hours Course Title Design and Algorithms Analysis 3+1 ofl I I '. 2 CS419 Wireless Networks 2+1 3 CS420 Software Project Management 2+1 4 CS421 Human Computer 2+1 In teraction 5 CS499 Final Year Project ~ 3 , 1 Remarks Re titled as Design and Analysis of Algorithms as prescribed by HEC, instead of Algorithmic Analysis and Design." hrs are The credits reduced to 2+ I instead of 3+1 Reduced the credit hours of SPM to 2+ I instead of 3+1 Introduced this course because it is recommended by HEC as computing core course 0+3 Total Credit hours: 16 Credit hrs. \. Previously the total credit hours was 19 Semester - VIII is# . Course Title 1 Course 'Code CS409 2 CS414 3 CS422 Data Warehousing Mining IS Audit 4 CS423 Digital Image Processing .J " CS317 Software Qual ity Assurance Testing 6 CS..J.99 Final Year Project or Credit hours Simulation & Modeling 2+1 & Data 2+1 I 2+1 i Total Credit hours: The same course title will be introduced as prescribed by HEC 3+1 2+0 & Remarks Decreased the credit hours of IS Audit to 2+0 instead of 3+ 1 The ered its hrs wi II be decreased to 2+ I instead of 3+ 1 Deere-sed the credit hours of SQA to 2+ 1 instead of 3+ I 0+3 18 Credit hrs. r/linim.um Credit hours of US (CS) degree programme Previously the total credit hours was 19 as recommended by BEC = 133 I• ~: ': Sir Syed Univ~rsity of Engineering & Technology, Karachi DEPARTMENT OF COMPUTER SCIENCE Minutes of the Meetings A committee was constituted: for reviewing the course contents of BS (CS) for prospectus 2012 by Worthy Vice Chancellor SSUET in the meeting of Academic Council, held on Tuesday, 31 st May 2011 in the conference room. . In this connection, two meetihis were held on 3rd & 6th June 2011 in which the proposed amendments in the Scheme of courses of BS' (CS) degree programme was thoroughly' discussed, considering all the courses & their perquisites of. BS (CS) in perspective of guideline given by HEC in its Curriculum' I· Revision document of BS(CS)aevised in 2009. (Minutes for the same are attached herewith) I' , 1; ( rd . ,J; tit . . The 3 and last meeting was held on 7 June 2011 at 2:30 p.m. in the office of Dean, Faculty of Basic & Applied Sciences Office, under the supervision of Dean, Faculty of Basic & Applied Sciences, SSUET along with Associate Dean, Faculty of Engineering. ~~ The following have attended t1i~ meeting: 1. Prof. Dr. Syed Jawaid,~asan Rizvi, 2. Prof Dr Najeeb Siddiqui, 3. Prof. Dr. Syed Faisal Ahmed Bukhari, 4. Prof. Abdul Rauf S. Mr. Shardha Nand I " Dean, Faculty of Basic and Applied Sciences Associate Dean, Faculty of Engineering Chairman, Computer Engineering Dept. Principal, AIT lie BS (CS) Programme & Asst. Prof. . In this meeting whole scheme of courses for BS (CS) programme was finalized by the committee. (See Annexure - A) . I It is also submitted that Prof. Dr. Hilal Ahmed Qureshi could not spare time due to preoccupation. " J: I' Approved by Dean Basic and Applied Science: --+~HI"-tj"'-'--":--T';r--'- Copy to: (i) Prof Dr Najeeb Siddi~~li (ii) Prof. Dr. Syed Faisal Ahmed Bukhari, (iii) Prof. Abdul Rauf (iv) Mr. Shardha Nand Associate Dean, Faculty of Engineering Chairman, Computer Engineering Dept. Principal, AIT lie BS (CS) Programme & Asst. Prof. I, .) , / SiR SY~D U~UVER,SrrY Of EriG~NEERING & TECHNOLOGY University Road, Karachi - 75300, Pakistan Tel. 4988000-7, Fax: (92 - 21) 4982393 httt://www.ssuet.edil.pkl • ~fj_ DATED: 11-6-201" NO.SSUET/REG/2010;7-7 '. t To, ' ••• " -.!-.• , " ". .f r: , . '.- . I! •• ~,- •.• , Prof. Shaukat Abbas Chairman, Postgraduate Programme, SSUET. SUBJECT: ANY OTHER ITEM NO.34.7-2 SEMESTER RULES The recommendations of the Committee of the Deans, Chairmen of the Departments and Controller of Examinations were presented by the Dean, Basic & Applied Sciences. After a through discussions it vva,s, decided that the proposal-be examined by Prof. Shaukat Abbas. !5 ----- .. - ~.A .. -_., ",_-_. --: ... -- ---._ - ... ~-. _._-- --.- Improvement of Grades _ .. _. _._._ .. _-- __ ._ ._ .. _-_._._----_. ----_-_._--_ -_. -~-. - ... _ --- . A students may repeat a course of a semester with grade C provided: (i) G.P.A is less than 2.5 in that Semester (ii) Is allowed only one ~hance to do it, by the end of the following' academic year. (iii) Maximum number of courses allowed for improvement in a semester is 2. _______ . . .~ ......• _" " __ . __ . __ . ._ .. Distribution of lVIarks: . . __ . __ . , Courses Assignments/Presentation I Lab·Work·-·-. . - ~._. ._~4 ~·4._4_· __ ._ ._ .. __ without Lab work 20 30 05 10 __ .. __ ._ _ I 0 -_._- _._--_._-- -------- with less than 80% attendance A candidate allowed to take the Semester E ---------- If a students approval Examination .. -~-- .... . in class lectures on the recommendations RS.10,000/- not be in that Course . _-------- fails to attend cia sses for two weeks consecutively his /her admission and .Iab work wil may be cancelled. in a semester without However, he may be allowed by the Chairman/Dean on the payment prior readmission of readmission fee of only. --- -------~-------------------j F If a student could not appear at mid term test for genuine the Chairman reasons, he may be allowed of the depart ment to appear at a make up test after the final by semester c. examination. .- .. G Clause of 2.13(3) -- - o' .- .' _o --.- of Semeste r Rules regarding Divisions be deleted. --_ .._----------- ------------- H Grading System for Postgradu ate Courses: attached I Summer Semester: t A summe r semester of 8 weeks be offered with double contact hours. A students can take upto 6(8) credit hours in a summer semester _. The above proposal ------------------_.---- if recommended by Prof. Shaukat Abbas be incorporated in the , . prospectus 2012 after its approval by the Vice Chancellor and the following resolution was passed:- RESOLUTION NO. AC-34.7-2 Resolved that the changes in the Semester Rules as discussed '1 be incorporated by the Academic Council may • in the Prospectus 2012, if recommended by Prof. Shaukat Abbas and approved by the Vice Chancellor. Draft minutes perusal of the Academic and necessary action Council duly approved before it is circulated by the Vice Chancellor is sent for your to all concerned. ~/ (Shah Mahmood H Syed) Registrar V Copy to:Dean, Basic 8( Applied Sciences ;' .l.-l ( .0 /0 ;!7f Sir Syed Uruversity of Engineering & Technology, Karachi Consideration & approval Grading of Grading System System ( Bat.c h - 2 0 0 9 ) I l ! ; S 1 - 52 S3 54 - SS l ! I ~ ~; 2.2 2.3 2.4 2.S 2.6 2.7 2.8 2.9 56 . 57 - 58 59 i < 1 60 - 61 65 -79 3.0 . B B 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 A 4.0 66 - 67 68 69 -70 71 72-73 74 .. i 80 - 100 4.0 A (Batch - 20'l1) il~~~{}MWD:.~.~~}3:~l~}~~~i~,~ ;:~~~S{:t!\S'f,}f0,"~1~'ji~~i.\~';::.:;c;t~\t:2;:;§~"~~~1~i~tf~\i ·'fy\.1 ~ ~r~' 4--vV'" St..t-.-l •.....t,.. . • ,"k \ 'l..' 1\ 00 - 49 50 - 59 60 - 64 ()) 69 t- F D 0 01 - 1.9 7.0 - 2.4 78 C C B B -' ' :~l)- i\l\ 10 77 84 85 - 89 lOU ='.5 - 2.9 3.0 - J 3 3.6 3d -, - I -, I) i j" J. .1) ~