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'
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~/
,.---------------------------------_.-
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)
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