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    Syllabi for B.E. M.B.A. 3rd, 4th, 5th and 6th semester in INFORMATION TECHNOLOGY OF PANJAB UNIVERSITY, CHANDIGARH

    1PROPOSED SCHEME OF EXAMINATION AND SYLLABI FOR B.E.
    M.B.A.(Information Technology) 3rd - 6th semesters ( w.e.f. 2010-11)
    1. The new scheme of Examination and syllabi of B.E. M.B.A. (Information
    Technology) for third to sixth semester for academic session 2010-11 is as
    follows:
    SCHEME OF EXAMINATION FOR B.E. M.B.A. (I.T.)
    Second Year - Third Semester
    Subj code Subj name Scheme of Teaching Scheme of Examination
    Theory/Prac
    L T P Total Sess Univ Exam Total
    AS301 Engg. Maths-III 3 1 0 4 50 100 150
    IT302 Data Comm &
    Networks
    3 1 0 4 50 100 150
    IT352 Data Comm &
    Networks (Prac)
    0 0 3 3 75 75 150

    IBM301 Organization
    Behaviour
    3 1 0 4 50 100 150
    IT304 Object Oriented
    Programming
    3 1 0 4 50 100 150
    IT354 Object Oriented
    Programming
    (Prac)
    0 0 3 3 75 75 150
    IT305 Digital Electronics 3 1 0 4 50 100 150
    IT355 Digital Electronics
    (Prac)
    0 0 3 3 75 75 150
    MEC371 Workshop --- --- --- --- 50 --- 50
    Total: 15 5 9 29 525 725 1250
    ii
    SCHEME OF EXAMINATION FOR B.E. M.B.A. (I.T.)
    Second Year - Fourth Semester
    Subj code Subj name Scheme of Teaching Scheme of Examination
    Theory/Prac
    L T P Total Sess Univ Exam Total
    IBM401 Management of
    Information
    Technology
    3 0 0 3 50 100 150
    IT401 Data Structures and
    Algorithm
    3 1 0 4 50 100 150
    IT451 Data Structures and
    Algorithm (Prac)
    0 0 3 3 75 75 150
    IT402 Analog & Digital
    Comm.
    3 1 0 4 50 100 150
    IT452 Analog & Digital
    Comm. (Prac)
    0 0 3 3 75 75 150
    IT403 Microprocessor 3 1 0 4 50 100 150
    IT453 Microprocessor
    (Prac)
    0 0 3 3 75 75 150
    IT404 Computer
    Architecture &
    Organization
    3 1 0 4 50 100 150
    Total: 15 4 09 28 475 725 1200
    SCHEME OF EXAMINATION FOR B.E.M.B.A. (I.T.)
    Third Year - Fifth Semester
    Subj
    code
    Subj name Scheme of Teaching Scheme of Examination
    Theory/Prac
    L T P Total Sess Univ Exam Total
    IT501 Web Technologies 3 1 0 4 50 100 150
    IT551 Web Technologies(Prac) 0 0 3 3 75 75 150
    IT502 Data Base Management
    Systems
    3 1 0 4 50 100 150
    IT552 Data Base Management
    Systems(Prac)
    0 0 3 3 75 75 150
    IT503 Wireless Communication 3 1 0 4 50 100 150
    IT553 Wireless
    Communication(Prac)
    0 0 3 3 75 75 150
    IT504 Operating System 3 1 0 4 50 100 150
    IT554 Operating System (Prac) 0 0 3 3 75 75 150
    IBM501 Marketing Management 3 1 0 4 50 100 150
    IBM502 Human Resource
    Management
    3 1 0 4 50 100 150
    IT506 Industrial Training (After
    4th Semester)
    --- --- --- --- 50 --- 50
    Total 18 6 12 36 650 900 1550
    iii
    SCHEME OF EXAMINATION FOR B.E. M.B.A. (I.T.)
    Third Year - Sixth Semester
    Subj
    code
    Subj name Scheme of Teaching Scheme of Examination
    Theory/Prac
    L T P Total Sess Univ Exam Total
    IT601 Computer Graphics 3 1 0 4 50 100 150
    IT651 Computer
    Graphics(Prac)
    0 0 3 3 75 75 150
    IT602 Software Engineering 3 1 0 4 50 100 150
    IT652 Software
    Engineering(Prac)
    0 0 3 3 75 75 150
    IT603 Network Security &
    Cryptography
    3 1 0 4 50 100 150
    IT653 Network Security &
    Cryptography(Prac)
    0 0 3 3 75 75 150
    IT604 Multimedia Systems 3 1 0 4 50 100 150
    IT654 Multimedia Systems
    (Prac)
    0 0 3 3 75 75 150
    IBM601 Managerial Economics 3 1 0 4 50 100 150
    IBM602 Corporate Legal
    Environment
    3 1 0 4 50 100 150
    Total 18 6 12 36 600 900 1500
    1
    SYLLABUS FOR B.E. M.B.A.(I.T.)
    THIRD SEMESTER
    Paper Title: Engineering Mathematics-III
    Paper Code: AS301 Max. Marks 100 Time: 3 Hours
    Course Duration: 45 Lectures of one hour each.
    Note: Examiner shall set eight questions, four from Part-A and four from Part-B of the
    syllabus. Candidate will be required to attempt any five questions selecting at least two
    questions from Part-A and two from Part-B.
    Part-A
    Sequences and Series: (08)
    Sequences, Limits of sequences, Infinite series, series of positive terms, Integral test,
    Comparison test, Ratio test, Root test. Alternating series, Absolute and Conditional
    Convergence, Leibnitz test. Power series: radius of convergence of power series, Taylor’s
    and Maclaurin’s Series, Formulae for remainder term in Taylor and Maclaurin series,
    Error estimates. (Scope as in Chapter 8, Sections 8.1 – 8.10 of Reference 2).
    Linear Algebra: (07)
    Concept of linear independence and dependence, Rank of a matrix: Row – Echelon form,
    System of linear equations: Condition for consistency of system of linear equations,
    Solution by Gauss elimination method. Inverse of a matrix: Gauss – Jordan elimination
    method (Scope as in Chapter 6, Sections 6.3 – 6.5, 6.7 of Reference 1).
    Eigen values, eigen vectors, Cayley – Hamilton theorem (statement only). Similarity of
    matrices, Basis of eigenvectors, diagonalization (Scope as in Chapter 7, Sections 7.1, 7.5
    of Reference 1). (07)
    Part-B
    Complex Functions: (08)
    Definition of a Complex Function, Concept of continuity and differentiability of a
    complex function, Cauchy – Riemann equations, necessary and sufficient conditions for
    differentiability (Statement only). Study of complex functions: Exponential function,
    Trigonometric functions, Hyperbolic functions, real and imaginary part of trigonometric
    and hyperbolic functions, Logarithmic functions of a complex variable, complex
    exponents (Scope as in Chapter 12, Sections 12.3 – 12.4, 12.6 – 12.8 of Reference 1).
    Laurent Series of function of complex variable, Singularities and Zeros, Residues at
    simple poles and Residue at a pole of any order, Residue Theorem (Statement only) and
    its simple applications (Scope as in Chapter 15, Sections 15.1 – 15.3 of Reference 1).(07)
    Conformal Mappings, Linear Fractional Transformations (Scope as in Chapter 12,
    Sections 12.5, 12.9 of Reference 1). (08)
    References:
    1. E. Kreyszig. Advanced Engineering Mathematics, 9th Edition, John Wiley.
    2. G. B. Thomas, R. L. Finney: Calculus, 10th Edition, Pearson Education.
    2
    3. Michael D. Greenberg. Advanced Engineering Mathematics, 2nd Edition, Pearson
    Education.
    4. R. V. Churchill, J. W. Brown. Complex Variables and Applications, 7th Edition,
    McGraw-Hill, 1996 Edition.
    5. Vivek Sahai, Vikas Bist. Linear Algebra, Narosa Publishing House, 3rd Edition,
    2002.
    Paper Title: Data Communication & Networks
    Paper Code: IT302 Max. Marks 100 Time: 3 Hours
    Course Duration: 45 Lectures of one hour each.
    Note: Examiner shall set eight questions, four from Part-A and four from Part-B of the
    syllabus. Candidate will be required to attempt any five questions selecting at least two
    questions from Part-A and two from Part-B.
    Part-A
    Introduction: (08)
    Data Transmission concepts; transmission impairments; switching; Modulation;
    multiplexing; Network Hardware: LAN, MAN, WAN, Wireless networks, Internet
    works; Network Software: Layer, Protocols, interfaces and services; Reference Model:
    OSI/TCP/IP and their comparison.
    Physical Layer: (08)
    Transmission media: Magnetic, Twisted pair, coaxial cable, fiber optics, wireless
    transmission (radio, microwave, infrared, light wave). Circuit Switching & Packet
    Switching. Introduction to ATM, ISDN (Narrowband & Broadband), Cellular radio and
    communication satellites.
    Data Link Layer: (09)
    Framing; Error control; Error correction & Detection; sliding window protocols (one bit,
    Go back n, selective repeat); Examples of DLL Protocols-HDLC, SLIP; Medium Access
    Sub layer: Channel Allocation, MAC protocols -ALOHA, CSMA protocols, Collision
    free protocols, Limited Contention Protocols, Wireless LAN protocols, IEEE 802.3,
    802.4, 802.5 standards and their comparison. Bridges: Transparent, source routing,
    remote.
    Part-B
    Network Layer: (09)
    Design issues, routing algorithms (shortest path, flooding, flow based, distance vector,
    hierarchical, broadcast, multicast, for mobile hosts).Congestion control algorithms
    (Leaky bucket, Token bucket, Choke, Packet, Load shedding).
    3
    Transport Layer: (06)
    Addressing, establishing and releasing connection, flow control & buffering,
    multiplexing, crash recovery, Internet Transport protocol (TCP and UDP).
    Application Layer: (05)
    Network Security; Domain Name System; Simple Network Management Protocol;
    Electronic Mail.
    Books Recommended:
    1. Computer Networks by Andrew S. Tanenbaum (PHI), Edi 4th.
    2. Data and Computer Communications by William Stallings (PHI), Edi 8th.
    3. Internet working with TCP/IP by Douglas E. Coomer,(PHI), Edi 3rd.
    4. Design & Analysis of Computer Communication Networks by Vijay Ahuja
    (McGraw), Latest Edition.
    5. Data & Computer Communication by Douglas E. Coomer (Addison Wessley),
    Latest Edition.
    Paper Title: Data Communication & Networks (Practical)
    Paper Code: IT352 Max. Marks:75 Time: 3 Hours
    Practicals based on theory.
    1. To familiarize with the various basic tools (crimping, krone etc.) used in
    establishing a LAN.
    2. To familiarize with switch (manageable & unmanageable), hub, connecters,
    cables (cabling standards) used in networks.
    3. To familiarize with routers & bridges.
    4. To use some basic commands like ping, trace-root, ipconfig for trouble shooting
    network related problems.
    5. To use various utilities for logging in to remote computer and to transfer files
    from / to remote computer.
    6. To develop a program to compute the Hamming Distance between any two code
    words.
    7. To develop a program to compute checksum for an ‘m’ bit frame using a
    generator polynomial.
    8. To develop a program for implementing / simulating the sliding window protocol.
    9. To develop a program for implementing / simulating a routing algorithm.
    10. To study various IEEE standards (802.3, 802.4, 802.5, 802.11)
    11. To develop a program for implementing/simulation the ALOHA protocol
    4
    Paper Title: Object Oriented Programming
    Paper Code: IT304 Max. Marks 100 Time: 3 Hours
    Course Duration: 45 Lectures of one hour each.
    Note: Examiner shall set eight questions, four from Part-A and four from Part-B of the
    syllabus. Candidate will be required to attempt any five questions selecting at least two
    questions from Part-A and two from Part-B.
    Part-A
    Principles of Objected Oriented Programming (03)
    Advantages of OOP, comparison of OOP with Procedural Paradigm
    C++ Constructs (03)
    Tokens, Expressions and control structures, various data types, and data structures,
    Variable declarations, Dynamic Initializations, Operators and Scope of Operators,
    Typecasting, Unformatted and formatted console I/O Operations
    Functions (05)
    Classes and Objects: Prototyping, Referencing the variables in functions, Inline, static
    and friend functions. Memory allocation for classes and objects. Arrays of objects,
    pointers to member functions.
    Constructors and Destructors (05)
    Characteristics and its various types, Dynamic Constructors, Applications, Order of
    Invocation, C++ garbage collection, dynamic memory allocation.
    Polymorphism (05)
    Using function and Operator overloading, overloading using friend Functions, type
    conversions from basic data types to user defined and vice versa.
    Part-B
    Inheritance (06)
    Derived classes, types of inheritance, various types of classes, Invocation of Constructors
    and Destructors in Inheritance, aggregation, composition, classification hierarchies,
    metaclass/abstract classes.
    Pointers (05)
    Constant pointers, Use of this Pointer, Pointer to derived and base classes, virtual
    functions, Bindings, Pure virtual Functions and polymorphism
    I/O Operations and Files (04)
    Classes for files, Operations on a file, file pointers
    Generic Programming With Templates (06)
    Definition of class template, Function Templates, Overloading Template Functions, Class
    templates and member functions templates with parameters, Standard C++ classes,
    persistent objects, streams and files, namespaces, exception handling, generic classes,
    standard template library: Library organization and containers, standard containers,
    5
    algorithm and Function objects, iterators and allocators, strings, streams, manipulators,
    user defined manipulators and vectors
    Introduction: (03)
    Object Oriented System, Analysis and Design.
    Books Recommended
    1. Object Oriented Programming with C++ by Bala Guruswamy, TMH, Edi 8th.
    Reference Books
    1. C++ Primer Plus by Prata, Pearson Education, Latest Edition.
    2. The C++ Programming Language by Bjarne Stroutstrup, Addison Wesley, Latest
    Edition.
    3. Object Oriented Programming with Ansi and Turbo C++ by Kamthane, Pearson
    Education, 1st Edition.
    4. The Complete Reference to C++ by Schildt, TMH, 4th Edition.
    5. OOPs Using C++ by Sanjeev Sofat, Khanna Publishers, 8th Edition.
    Paper Title: Object Oriented Programming (Practical)
    Paper Code: IT 354 Max. Marks: 75 Time: 3 Hours
    List of Experiments:
    1. Implementation of Functions, Classes and Objects
    2. Constructors and Destructors
    3. Operator Overloading and Type Conversion
    4. Inheritance and Virtual Functions
    5. Files
    6. Exception Handling and Generic Programming
    Paper Title: Digital Electronics
    Paper Code: IT 305 Max. Marks 100 Time: 3 Hours
    Course Duration: 45 Lectures of one hour each.
    Note: Examiner shall set eight questions, four from Part-A and four from Part-B of the
    syllabus. Candidate will be required to attempt any five questions selecting at least two
    questions from Part-A and two from Part-B.
    Part-A
    Introduction (10)
    Representation of Logic, Logic Variables, Boolean Algebra, Boolean Expressions and
    minimization of Boolean expression using K-Map, Review of Logic Gates & Flip-flops,
    design & Implementation of Adder, Subtractor, Multiplexer, DeMultiplexer, Encoder,
    Decoder, ROM, Digital Comparators, Code Converters
    Number Systems and Codes (07)
    6
    Decimal, Binary, Hexadecimal, Octal’s complement, 2’s complement, addition and
    subtraction, weighted binary codes, Error detecting codes, Error correcting codes,
    Alphanumeric codes.
    Counters & Shift Registers (07)
    Ripple Counters, Design of Modulo-N ripple counter, Up-Down counter, design of
    synchronous counters with and without lockout conditions, design of shift registers with
    shift-left, shift-right & parallel load facilities, Universal shift Registers.
    Part-B
    Data Converters (06)
    Sample & Hold switch, D/A converters: weighted type, R-2R Ladder type; A/D
    Converters: Counter-Ramp type, Dual Slope Type, Successive approximation type, flash
    type; Specifications of ADC & DAC
    Digital Logic families (09)
    Characteristics of digital circuits: fan in, fan-out, power dissipation, propagation delay,
    noise margin; Transistor-transistor Logic(TTL), TTL NAND Gate with active pull up, its
    input and output Characteristics, Types of TTL Gates (Schottky, standard, low power,
    high speed). Emitter Coupled Logic(ECL), ECL gate, its transfer characteristics, Level
    translation in ECL & TTL, MOS Gates, MOS Inverter, CMOS Inverter, Rise & Fall time
    of MOS & CMOS gates, Interfacing TTL & CMOS Circuits, Comparison of
    Characteristics of TTL, ECL, MOS & CMOS logic circuits, Tristate Logic & its
    applications.
    Semiconductor Memories & Programmable Logic (06)
    ROM, PROM, EPROM, EEPROM; RAM: Static RAM, Typical Memory Cell, Memory
    Organisation, Dynamic RAM cell, Reading, & Writing Operation in RAM, PLA, PAL &
    FPGA.
    Books Recommended:
    1. Digital Electronics – An introduction to theory and practice by William H. Gothmann,
    Prentice Hall India. (PHI), Edi 2nd .
    2. Modern Digital Electronics by R.P.Jain, 1997, (Tata McGraw-Hill) Edi 2nd.
    3. Digital Integrated Electronics by Herbert Taub & Donald Schilling, (Tata McGraw-Hill)
    Edi 3rd.
    4. Integrated Electronics by Millman & Halkias, (Tata McGraw-Hill), Edi 1st
    5. Digital System Principles & Applications by R J Tocci (PHI), Edi 10th .
    6. Digital Logic Design By Morris Mano, Pearson, Edi 4th.
    Paper Title: Digital Electronics (Practical)
    Paper Code: IT 355 Max Marks: 75 Time: 3 Hours
    Note: Do any eight experiments.
    7
    1. To study data sheets and truth tables of AND,OR,NOR,NAND,NOT and XOR gates.
    2. To verify the truth tables of RS, D, JK and T Flip Flops
    3. To fabricate and test the truth table of half/full adder.
    4. To design and implement a Modulo-N Counter
    5. To Design and implement a Universal shift register
    6. Design & fabrication of synchronous counter.
    7. Design & fabrication of Combinational circuits using Multiplexers.
    8. To convert 8 bit Digital data to Analog value using DAC
    9. To convert Analog value into 8 bit Digital data using ADC
    10. To design and fabricate the given sequential circuits using Flip-flops as memory
    elements.
    Paper Title: Organization Behavior (Theory)
    Paper Code: IBM 301 Max. Marks 100 Time: 3 Hours
    Course Duration: 45 Lectures of one hour each.
    Note: Examiner shall set eight questions, four from Part-A and four from Part-B of the
    syllabus. Candidate will be required to attempt any five questions selecting at least two
    questions from Part-A and two from Part-B.
    Part A
    Introduction to Organization Behavior [10]
    Definition and meaning of OB, impact of other sciences (Anthropology, Sociology,
    Psychology) on OB, perception, self esteem, attitude & personality, meaning of culture,
    impact of technology on OB.
    Motivation, Learning & Leadership [13]
    Meaning of Motivation , Content theories of motivation (Maslows Hierarchy of needs
    ,Herzberg’s two factor theory ), Process theories ( Vroom’s Expectancy theory, Porter-
    Lawler Model ), Motivation applied (Job design , job rotation ,goal setting , MBO ),
    various methods of motivating employees, Behavioral & Cognitive theories of learning,
    Leadership theories (Trait theory, Fiedler’s Contingency theory ,Path –Goal leadership
    theory), Leadership styles (Blake & Mouton managerial grid, Hersey & Blanchard’s life
    cycle approach )
    Part B
    Group behavior: [10]
    Group Dynamics, conflict, power & politics ,Group behavior, types of groups ,group
    decision making , conflict in organizations and reason, interpersonal conflict, inter group
    conflict , meaning of power , classification of power , politics in organizations
    Organization environment & Communication [12]
    Authority & responsibility ,delegation and division of work , quality of work life ,
    communication process, modes of communication in organization and barriers to
    communication, formal & informal communication,
    Recommended Books:
    1. Organization Behavior – Stephen .P.Robbins , Prentice Hall of India, 13th Edition.
    2. Organization Behavior- Fred Luthans , Tata Mcgraw Hill, 11th Edition.
    8
    SYLLABUS FOR B.E. MBA (IT)
    FOURTH SEMESTER
    Paper Title: Data Structures and Algorithms (Theory)
    Paper Code: IT 401 Max. Marks 100 Time: 3 Hours
    Course Duration: 45 Lectures of one hour each.
    Note: Examiner shall set eight questions, four from Part-A and four from Part-B of the
    syllabus. Candidate will be required to attempt any five questions selecting at least two
    questions from Part-A and two from Part-B.
    Part-A
    Introduction: (01)
    Introduction to data structures; Introduction to Algorithms Complexity;
    Arrays, Stacks & Queues: (08)
    Concepts; Basic operations & their algorithms: Transverse, Insert, Delete, Sorting of
    data in these data structures; Prefix, Infix, Postfix Notations;
    Lists: (10)
    Concepts of Link List and their representation; Two way lists; Circular link list; Basic
    operations & their algorithms: Transverse, Insert, Delete, Searching and Sorting of data
    in List; Storage Allocation & Garbage Collection; Linked stack and queues; Generalized
    List; sparse matrix representation using generalized list structure;
    Part-B
    Trees: (08)
    Binary Trees and their representation using arrays and linked lists; Trees and their
    applications; Binary tree transversal; Inserting, deleting and searching in binary trees;
    Heap & Heap Sort; General Trees; Thread binary tree; Height balance Tree (AVL); BTree.
    Graphs and their applications: (08)
    Graphs; Linked Representation of Graphs; Graph Traversal and spanning forests; Depth
    first search; Breadth first search.
    Sorting & Searching: (10)
    Insertion sort; Selection sort; Merging; Merge sort; Radix sort; Sequential & Binary
    Search; Indexed Search; Hashing schemes; Binary search Tree.
    Books Recommended:
    1. Data Structure Using C and C++ by A. Tenenbaum, Y. Langsam, M. J. Augenstein
    (PHI), 2nd Edition.
    2. Theory and problems of Data Structures by Seymour Lipschutz (McGraw Hill),
    Latest Edition.
    3. Data Structures & Program Design by Robert L. Kruse (PHI), 2nd Edition.
    9
    Paper Title: Data Structures and Algorithms (Practical)
    Paper Code: IT 451 Max. Marks: 75 Time: 3Hrs
    List of Programs:
    1. Implementation of Array Operation: Traversal, Insertion & Deletion at and
    from a given location; Sparse Matrices; Multiplication , addition.
    2. Stacks: Implementation of Push, Pop; Conversion of Infix expression to Postfix,
    Evaluation of Postfix Expressions.
    3. Queues: Adding, Deleting Elements; Circular Queue: Adding and Deleting
    elements.
    4. Implementation of Linked Lists: Inserting, deleting, inverting a linked list.
    Implementation of stacks and queues using linked lists; Polynomial addition,
    Polynomial multiplication.
    5. Trees: Implementation of Binary & Binary Search Trees, Recursive and Non-
    Recursive traversal of Tress.
    6. Graphs: BFS & DFS
    7. Implementation of sorting and searching algorithms.
    8. Hash Tables Implementation: Searching, inserting and deleting, searching &
    sorting techniques.
    Paper Title: Analog and Digital Communication
    Paper Code: IT 402 Max. Marks 100 Time:
    3 Hours
    Course Duration: 45 Lectures of one hour each.
    Note: Examiner shall set eight questions, four from Part-A and four from Part-B of the
    syllabus. Candidate will be required to attempt any five questions selecting at least two
    questions from Part-A and two from Part-B.
    Part-A
    Amplitude Modulation & Demodulation and Systems (08)
    Concept of Modulation its merits & demerits, Principle and generation of AM, DSB/SC,
    SSB signal, Balanced modulator, Detection of AM, DSB/SC, and SSB signals, Super
    heterodyne Radio Receivers.
    Frequency Modulation & Demodulation and Systems (07)
    Principles and generation of FM and PM signals, FM Transmitter and FM receiver with
    various stages
    Pulse Modulation & Demodulation (08)
    Principles, generation and detection of PAM, PWM, PPM & PCM signals, noise in pulse
    modulation system, companding, delta modulation ,adaptive delta modulation systems.
    10
    Part-B
    Digital modulation techniques (07)
    PSK, FSK, MSK, QAM. Error calculations for PSK, FSK, MSK, QAM, Shannon’s limit,
    Signal to Noise Ratio
    Multiplexing and Multiple Access (07)
    Allocation of communication Resources, FDM/FDMA, TDM/TDMA, CDMA, SDMA,
    Multiple Access Communications and Architecture, Access Algorithms.
    Spread Spectrum Techniques (08)
    Spread Spectrum Overview, Pseudonoise Sequences, Direct Sequence and Frequency
    Hopped Systems, Synchronization of DS and FH systems, Jamming Considerations,
    Commercial Applications
    Books Recommended :
    1. Principles of Communication Systems by Taub and Schilling (Tata McGraw
    Hill), Edi 2nd.
    2. Communication Signals and Systems by S. Haykins(Wiley), Edi 5th.
    3. Principles of Digital Communication by J. Das, S.K. Mullick, P.K.
    Chatterjee, New Age International (P) Ltd, Edi 1st.
    4. Digital Communications by J.G. Proakis, (Tata McGraw Hill), Edi 5th
    5. Electronic Communication Systems by George Kennedy and B. Davis( Mc
    Graw Hill) Edi 4th .
    6. Communication Systems Analog and Digital by R.P. Singh, S.D. Sapre,
    TMH, Edi 5th .
    7. Electronic Communications by Dennis Roddy and John Coolen, PHI, Edi 4th.
    Paper Title: Analog and Digital Communication (Practical)
    Paper Code: IT 452 Max. Marks: 75 Time: 3 Hours
    1. To measure the modulation Index of AM signals using Trapezoidal Method.
    2. To study the voltages and waveforms of various stages of an AM
    Superheterodyne Receiver.
    3. To measure the sensitivity and selectivity of an Superheterodyne Radio Reciver.
    4. To measure the fidelity of an AM Superhetrodyne radio Receiver.
    5. To study DSB/SC AM signal and its demodulation using Product Detector Circuit
    (i) with dedicated wire
    (ii) with antenna
    6. To study the Frequency modulation and Demodulation circuits.
    7. To study the Pulse Code Modulation (PCM) and de-modulation circuits.
    8. To study the Time Division Multiplexing (TDM) and De-multiplexing circuits.
    9. To study delta and Sigma Delta modulation, demodulation circuits.
    11
    Paper Title: Microprocessor (Theory)
    Paper Code: IT 403 Max Marks:100 Time : 3Hrs
    Course Duration: 45 Lectures of one hour each.
    Note: Examiner shall set eight questions, four from Part-A and four from Part-B of the
    syllabus. Candidate will be required to attempt any five questions selecting at least two
    questions from Part-A and two from Part-B.
    Part-A
    Microprocessor Architecture and Microcomputer Systems: (05)
    Microprocessor Architecture, The 8085 MPU: Block Diagram, Pin Diagram, Adress/Data
    Buses, Concept of demultiplexing of Buses, Control and status signals, Registers, Ports,
    Flags, Instruction Decoding and Execution, memory Interfacing..
    Interfacing I/O Devices (06)
    Basic Interfacing Concepts, Interfacing Output Displays, Interfacing Input Devices,
    Memory- Mapped I/O
    Programming the 8085: (06)
    Introduction to 8085 Assembly Language Programming, The 8085 Programming Model,
    Instruction Classification, Instruction Format. Data Transfer (Copy) Operations,
    Arithmetic Operations, Logic Operations, Branch Operations, Writing Assembly
    Language Programs.
    Programming Techniques with Additional Instructions: (07)
    Programming Techniques Looping, Counting and Indexing, Additional Data Transfer and
    16-Bit Arithmetic Instructions, Arithmetic Operations Related to Memory, Logic
    Operations.
    Part-B
    Counters and Time Delays: (06)
    Counters and Time Delays, Hexadecimal Counter, Modulo Ten, Counter, Generating
    Pulse Waveforms, Debugging Counter and Time-Delay Programs.
    Stack and Subroutines: (04)
    Stack, Subroutine, Conditional Call and Return Instructions.
    Interrupts: The 8085 Interrupt, 8085 Vectored interrupts. (04)
    General –Purpose Programmable Peripheral Devices: (07)
    Block Diagram, Working and Control word of: The 8255A Programmable Peripheral
    Interface, The 8259 A Programmable Interrupt Controller, Programmable
    communications interface 8251.
    12
    Books Recommended
    1. Microprocessor Architecture, Programming and Applications with the 8085
    by Ramesh S.Gaonkar, PenRam, Edi 5th .
    Reference Books:
    1 Advanced Microprocessor & Interfacing by Badri Ram,Tata McGraw Hill,Edi 1st.
    2. Microprocessor Principles and Applications by Charles M.Gilmore, TMH Edi 3rd
    3. Microprocessors and Interfacing programming and Hardware by Douglas V. Hall,
    TMH, Edi 2nd
    Paper Title: Microprocessor(Practical)
    Paper Code: IT 453 Max Marks:75 Time : 3Hrs
    1. Familiarization of 8085 kits.
    2. Verification of arithmetic and logic operations using above kits.(At least 5
    programs)
    3. Development of interfacing circuits of various control applications based on
    8085.
    4. Application of assembly language using 8085 instructions set to develop
    various programs.
    5. Applications of data movement instructions to develop relevant programs.
    Paper title: Computer Architecture & Organization
    Paper Code: IT 404 Max Marks: 100 Time : 3Hrs
    Course Duration: 45 Lectures of one hour each.
    Note: Examiner shall set eight questions, four from Part-A and four from Part-B of the
    syllabus. Candidate will be required to attempt any five questions selecting at least two
    questions from Part-A and two from Part-B.
    Part-A
    Design Methodology (04)
    System design, Design levels- Gate level, Register level, Processor level.
    Basic Computer Organization & Design (08)
    Instruction codes, common bus system, computer instruction, Design of basic computer,
    Design of accumulator logic.
    Control Design (08)
    Basic concepts, Hardwired control, Micro programmed control, Design of control unit.
    Central Processing Unit (08)
    Introduction, General reg. Organization, Inst. Formats Addressing modes, Data transfer
    & manipulation, RISC & CISC Characteristics.
    13
    Part-B
    Input-Output Organization (06)
    I/O interface, Modes of transfer, Priority interrupts, DMA, I/O processor.
    Memory Organization (06)
    Memory hierarchy, Main memory, Auxiliary memory, Associative memory. Cache
    memory, virtual memory, Memory management H/W.
    Parallel Processing (05)
    Introduction, Multiprocessors, Interconnection structure.
    Books Recommended
    1. Computer Architecture & Organization by J.P Hayes Edi 3rd TMH
    2. Computer System Architecture by Morris Mano, Edi 3rd PHI
    Reference Books
    1. Advanced Computer Architecture by Kai Hwang, TMH, Edi 1st.
    2. Computer Organization and Architecture by William Stallings, PHI, Edi 6th.
    Paper Title: Management of Information Technology (Theory)
    Paper Code: IBM 401 Max. Marks 100 Time: 3 Hours
    Course Duration: 45 Lectures of one hour each.
    Note: Examiner shall set eight questions, four from Part-A and four from Part-B of the
    syllabus. Candidate will be required to attempt any five questions selecting at least two
    questions from Part-A and two from Part-B.
    Part A
    Information Technology (IT) [8]
    IT and society, IT infrastructure in India vis-à-vis developed nations (Telecommunication
    , Internet reach, PC, Broadband ,Mobile Phones ), IT applications in Healthcare &
    Education , meaning of E-Readiness and E-participation index as defined by United
    Nations, areas where growth is expected in future.
    System Investigation & Analysis , Networking [8]
    System Analysis & Design , Symbols used in modeling a business process , Networking
    concepts, Ethernet ,IP addressing, Functioning of Routers, Bridges, hubs and switches in
    a network, Telecommunication (GSM, CDMA , Wireless and other new technologies)
    Internet & Intranet [7]
    Functioning of Internet, Encryption & Digital signatures, Firewalls, Fraud on the Internet
    ,Virus , Hacking & Denial of Service attacks, Intellectual Property Protection on the
    Internet, Intranet & security
    14
    Part B
    E-Commerce & E-Governance [12]
    E-Commerce models , Intermediaries in E-Commerce, E-Governance in India ,study of
    successful E-Governance models like E-Choupal ,E-Payments (E-Cash, E-Wallets) and
    major players in the area, Online Shopping, Revenue models for Online Shopping
    Portals, Web Auctions like EBay, dealing with E-Waste.
    Knowledge Management & Business Intelligence [10]
    Meaning of Knowledge Management, Designing a Knowledge Management System,
    Nature & Scope of Business Intelligence, Software for Business Intelligence, Data
    Warehousing and Data Mining techniques.
    Recommended Books:
    1. Data warehousing fundamentals – Paulraj Ponniah, John Wiley, 1st Edition
    2. E-Governance : A comprehensive framework , D.N.Gupta, New Century Publications,
    Latest Edition.
    3 Business Data Communications & Networking , Jerry FitzGerald , Alan Dennis, John
    Wiley, 10th Edition.
    4 Applied Data Communication:A Business-Oriented Approach, , James E.Goldman,
    John Wiley, 4th Edition.
    5.Information Technology for Management : Improving Performance in the Digital
    Economy , Efraim Turban , Linda Volonino , John Wiley, 7th Edition
    15
    SYLLABUS FOR B.E. MBA (IT)
    FIFTH SEMESTER
    Paper title: Web Technologies
    Paper Code: IT 501 Max. Marks: 100 Time: 3 hours
    Course Duration: 45 lectures of one hour each.
    Note: Examiner shall set eight questions, four from Part-A and four from Part-B of the
    syllabus. Candidate will be required to attempt any five questions selecting at least two
    questions from Part-A and two from Part-B.
    Part-A
    Internet Basics: (07)
    Internet; Communication on the Internet; Internet services; types of accounts; Internet
    Domains; NIC; IP addresses; Web Servers; review of TCP/IP; HTTP; telnet; ftp; WWW
    concepts; web site creation concepts; web commerce; internet telephony.
    HTML: (08)
    HTML basics; HTML tags; text formatting; text styles; lists: ordered, unordered and
    definition lists; layouts; adding graphics; tables; linking documents; images as
    hyperlinks; frames and layers; DHTML, style sheets.
    Java Script: (06)
    Advantages of JavaScript; writing JavaScript into HTML; JavaScript data types,
    variables, operators and expressions; arrays and functions in JavaScript; condition
    checking; loops; dialogue boxes.
    Part-B
    Advanced Java Script: (08)
    JavaScript document object model; JavaScript assisted style sheets; events handling in
    JavaScript; browser objects; form objects; built-in and user defined objects; cookies.
    ASP: (16)
    Origin of ASP; how ASP works; ASP Objects, Application object; ASP Error object;
    Request object; Response object; server object; session object; Scripting objects; Active
    Server Components; ActiveX Data Objects, Comparison with CGI-Perl, JSP and PHP.
    Books Recommended:
    1. Web Enabled Commercial Application Development Using HTML, DHTML,
    Java Script, Perl CGI by Ivan Bayross, BPB, Edi 3rd .
    2. ASP 3.0: Programmer’s Reference by Richard Anderson, Dan Denault, Wrox
    Publications, Edi 2nd .
    Paper title: Web Technologies (Practical)
    Paper Code: IT 551 Max. Marks: 75 Time: 3 hours
    Practical based on theory.
    16
    Paper title: Data Base Management Systems
    Paper Code: IT 502 Max. Marks: 100 Time: 3 hours
    Course Duration: 45 lectures of one hour each.
    Note: Examiner shall set eight questions, four from Part-A and four from Part-B of the
    syllabus. Candidate will be required to attempt any five questions selecting at least two
    questions from Part-A and two from Part-B.
    Part-A
    Data Base Concept: (04)
    Data Base Vs file oriented approach, Basic DBMS terminology, Data independence,
    General Architecture of a Data Base Management Software, Components of DBMS.
    Data Base Design: (05)
    Introduction to Data Models, Entity Relationship Model, Entities, Attributes, E-R
    Diagrams, Conceptual Design of a relational data base model.
    Data Normalization: (06)
    Introduction, Keys, First Normal Form, Second Normal form, Third Normal form, Boyce
    Codd Normal form, Denormalization, case studies of Data Normalization
    Transaction Processing Concepts: (06)
    Schedules and recoverability, serializability, locking techniques, timestamp ordering,
    granularity, multiversion concurrency control.
    Part-B
    Structured Query Language (SQL): . (08)
    Introduction to SQL, Data types, Querying database tables, Conditional retrieval of rows,
    Working with Null Values, Matching a pattern from a table, Ordering the Result of a
    Query, Aggregate Functions, Grouping the Result of a Query, Insert statement, Update &
    Delete statement, Alter & Drop statements, Querying Multiple Tables: Joins, Equi Joins,
    Inner Joins, Outer Joins, Self Joins; SET Operators: Union, Intersect, Minus; Nested
    Queries. Functions: Arithmetic, Character, Date and General Functions; Group Functions
    Data Manipulation and Control: (08)
    Data Definition Language (DDL), Creating Tables, Creating a Table with data from
    Another table, Inserting Values into a Table, Updating Column(s) of a Table, Deleting
    Row(s) From a Table, Dropping a Column, Introduction to VIEWs, Manipulating the
    Base table(s) through VIEWs, Rules of DML Statements on Join Views, Dropping a
    VIEW, Inline Views, Materialized Views. Database Security and Privileges, GRANT
    Command, REVOKE Command, COMMIT and ROLLBACK.
    PLSQL: (06)
    Introduction to PL/SQL, PL/SQL Block Structure, PL/SQL Architecture, Fundamentals
    of PL/SQL, PL/SQL Data Types, Variables and Constants, Scope and Visibility of a
    17
    Variable, Assignments and Expressions, Operator Precedence, Referencing Non-PL/SQL
    Variables, Built-in-Functions, Conditional and Iterative Control, SQL Within PL/SQL,
    Writing PL/SQL Code, Composite Datatypes. Cursor Management in PL/SQL, Cursor
    Manipulation, Implicit Cursor Attributes, Exception Handling in Pl/SQL; Predefined
    Exceptions, User Defined Exceptions.
    Relational Queries: (02)
    Relational Algebra and Calculus, Preliminaries, Relational Algebra, Relational Calculus,
    Expressive Power of Algebra and Calculus, Points to review.
    Books Recommended:
    1. An Introduction to Database Systems by C.J. Date, Pearson, Edi 8th .
    Reference books:
    1. Schaum’s Outlines Fundamentals of Relational Databases, by Toledo, Tata Mc
    Graw Hill, Edi 1st.
    2. Database Management Systems by James Martin (PHI), Edi 3rd .
    3. Data Base Management Systems by Ullman, Pearson Edi 2nd .
    4. Database Management Systems by Raghu Ramakrishnan and Johannes Gehrke,
    McGraw Hill, Edi 3rd.
    5. Introduction to Data Base Systems by Desai, Bipin C. (Galgotia Publications),
    Edi 3rd .
    Paper title: Data Base Management Systems (Practical)
    Paper Code: IT 552 Max. Marks: 75 Time: 3 hours
    Practical based on Theory.
    Paper Title: Wireless Communication
    Paper code: IT 503 Max. Mark : 100 Time: 3 Hours
    Course Duration: 45 lecturers of one hour each
    Note: Examiner shall set eight questions, four from Part-A and four from Part-B of the
    syllabus. Candidate will be required to attempt any five questions selecting at least two
    questions from Part-A and two from Part-B.
    Part-A
    Introduction (09)
    Evolution of Mobile Communication Systems, Paging systems, cordless telephone
    systems, cellular telephone systems, comparison of common wireless communication
    systems.
    18
    System Design Fundamentals (13)
    Frequency reuse, Channel assignment strategies, handoff strategies, interference,
    improving coverage and capacity in cellular systems, mechanism for capacity
    improvement-cell splitting, cell sectoring and microcell zone concept, modulation
    techniques.
    Wireless Systems (08)
    GSM, GSM reference architecture and GSM security architecture, CDMA digital cellular
    standard, IS-95 system.
    Part-B
    Channel Impairment Mitigation Techniques (05)
    Introduction, Power control, Diversity Techniques: Frequency Diversity, Time Diversity,
    Space Diversity, Path Diversity, Channel Equalization, Rake receiver, Channel coding
    and interleaving.
    Multiple Access Techniques (06)
    Simplex, Duplex, Time Division Duplex, Frequency Division Duplex FDMA, TDMA,
    CDMA, SDMA, OFDM, Hybrid Multiple Access.
    Migration to 3G technologies: (04)
    WiFi, WiMax, EDGE, Bluetooth, CDMA-2000.
    Books Recommended:
    1. Wireless Communications Principles and practice by Theodore S. Rappaport,
    Prentice Hall India, Edi 2nd .
    2. Wireless and Cellular Communication by Sanjay Sharma, SK Kataria Publisher,
    2009 Edition.
    3. Mobile and Personal Communication Systems and services by Raj Pandya, IEEE
    Press, 1st Edition.
    Paper Title: Wireless Communication (Practical)
    Paper code: IT 553 Max. Marks : 75 Time: 3 Hours
    Practical based on theory.
    Paper title: Operating Systems
    Paper Code: IT 504 Max. Marks: 100 Time: 3 hours
    Course Duration: 45 lectures of one hour each.
    Note: Examiner shall set eight questions, four from Part-A and four from Part-B of the
    syllabus. Candidate will be required to attempt any five questions selecting at least two
    questions from Part-A and two from Part-B.
    19
    Part-A
    Basic Functions and Concepts of Operating Systems: (05)
    Concept of an operating systems, batch system, Multi-programmed, Time sharing,
    Personal Computer System, Parallel system, Real time system, General system
    Architecture.
    Features and Objectives of Operating Systems: (11)
    System components, operating system services, System calls, System Programs, System
    Structure, System design and implementation. Concept of process, process states, process
    state transition, process control block, operations of processes, concurrent processes,
    deadlocks, scheduling algorithms, scheduling criteria, Process Synchronization.
    Memory Management: (06)
    Logical and physical address space, storage allocation and management techniques,
    swapping, concepts of multi programming, paging, segmentation, virtual storage
    management strategies, Demand Paging, Page Replacement Algorithms, Thrashing.
    Part-B
    Information Management: (06)
    File concept, Access method, Directory structure, Protection File system structure,
    Allocation methods, Free space management, Directory implementation, Disk structure,
    Disk Scheduling, Disk management, Swap space management.
    Distributed-System Structures: (06)
    Network operating system, Distributed operating systems, Remote services, Robustness,
    Design Issues.
    Distributed file systems and Distributed Coordination: (06)
    Naming and Transparency, Remote file Access, Stateful versus stateless service, File
    replication, Event ordering, Mutual Exclusion, Atomicity, Concurrency control,
    Deadlock Handling, Election Algorithms, Reaching Agreement.
    Case Studies: (05)
    Unix O.S. Architecture, Operating system services, user perspective, representation of
    files in Unix system processes and their structure, Input-output system, Memory
    management, Unix shell, history and evolution of Unix system.
    Books Recommended:
    1. Operating Systems by Galvin & Silberschatz Addison Wesley Publishing Ltd.
    Edi 5th .
    Reference books:
    1. An Introduction to Operating System by Harvey M. Deitel , Narosa Publishing
    House, Edi 3rd .
    2. Operating Systems: Design and implementation by Andrew S. Tanenbaum, PHI,
    Edi 3rd .
    3. Operating system, by Millan Milankovic, McGraw Hill, Edi 5th .
    20
    Paper title: Operating Systems (Practical)
    Paper Code: IT 554 Max. Marks: 75 Time: 3 hours
    Practical based on theory.
    1. Installation of the Linux operating system
    2. Working with text editor ‘vi’
    3. Using basic commands-man,who,more,pipe,finger,cat,redirect,ls,cp,mv,rm.
    4. Working with directory and plain filespwd,
    cd,mkdir,rmdir,lp,wc,date,cal,sort,diff,uniq and grep commands.
    5. Using miscellaneous commands-head,tail,cut,copy,paste,spell,find and bc.
    6. Working with shell scripts under Korn Shell and using shell variables, print,
    chmod and calendar commands.
    7. Additional features of Korn shell such as profile, kshrc file, history, read and
    command line editing commands, aliases and special characters in print command
    8. Using quotes, relational operators, command substitution, arithmetic functions,
    shell control statements such as for-in, if-then-elseif-else, while,case,date and
    script.
    9. Working under the Bourne shell-shell scripts, control statements such as test, for,
    for in, if-then-else-fi, -if-then-elif-fi, while,until, case, relational operators and
    expressions.
    Paper Title: Marketing Management
    Paper Code: IBM 501 Max. Marks 100 Time: 3 Hours
    Course Duration: 45 Lectures of one hour each.
    Note: Examiner shall set eight questions, four from Part-A and four from Part-B of the
    syllabus. Candidate will be required to attempt any five questions selecting at least two
    questions from Part-A and two from Part-B.
    Objectives: (i) To understand the nature, tasks and the environment under which
    marketing operates. (ii) To study the theory, principles and practical aspects of various
    marketing functions. (iii) To learn to take marketing decisions.
    Part A
    Introduction to Marketing: [5]
    Definition; Scope and Importance of Marketing; Key Customer Markets;
    Concepts/Philosophies of Marketing; Holistic Marketing Concept; Marketing Tasks;
    Marketing Mix
    Marketing Environment: [5]
    Marketing Environment; New Marketing Realities; New Consumer Capabilities;
    Demographic Environment; Social-Cultural Environment; Natural Environment;
    Technological Environment and Political-Legal Environment; SWOT analysis.
    21
    Analyzing Markets: [5]
    Marketing Research Process; Sources of data collection; factors influencing consumer
    behavior; buying decision process; post-purchase behavior; Organizational Buying;
    Stages in the Buying Process.
    Market Segmentation: [6]
    Levels of market segmentation; segmenting consumer markets; Niche Marketing;
    segmenting business markets; Michael Porter’s five forces model; Analyzing
    competitors; strategies for market leaders; Targeting and Positioning.
    Part B
    Product Decisions: [6]
    Product characteristics; classifications; differentiation; packaging and labeling; Product
    Life Cycle.
    Pricing Strategies: [6]
    Understanding Pricing; Setting the Price; Initiating and Responding to Price Changes;
    Reactions to Competitor’s Price Changes.
    Marketing Channels: [6]
    Marketing Channels; Role of Marketing Channels; Identifying Major Channel
    Alternatives; Types of Intermediaries; Channel-Management Decisions, Retailing,
    Wholesaling.
    Marketing Communication: [6]
    The Role of Marketing Communications; Communications Mix-Advertising, Sales
    Promotion, Public Relations and Publicity, Events and Experiences, Direct and
    Interactive Marketing, Personal Selling.
    References:
    1. Kotler, P. Keller K.I. et al: Marketing Management, A South Asian Perspective,
    Pearson Publisher, 13th Edition.
    2. Ramaswamy, V.S. & Namakumari, S: Marketing management, planning,
    implementation and control, MacMillan Publisher, 3rd Edition..
    3. Hepner H.W.: Modern Marketing- Dynamics and Management.
    James M. Carman and Kenneth P. Phillips and Duncan: Marketing Principles and
    Methods, UBS Publisher, 11th Edition.
    4. Britt and Boyd (ed): Marketing Management and Administration, PHI Publisher, 2nd
    Edition.
    5. Cundiff, W.F. and Still R,: Basic Marketing, PHI Publisher, 1999 Edition.
    6. Converse Paul and Harvey W.Hugg: Elements of Marketing, PHI, 7th Edition.
    7. Kotler, Philip and Armstrong: Principles of marketing, New Delhi, PHI, 11th Edition.
    8. Hoffman, Douglas, K., et al: Marketing, Best Practices, Thomson Publisher, 2nd
    Edition.
    9. Saxena, R: Marketing Management, TMH, 2nd Edition.
    22
    Paper Title: Human Resource Management
    Paper Code: IBM 502 Max. Marks 100 Time: 3 Hours
    Course Duration: 45 Lectures of one hour each.
    Note: Examiner shall set eight questions, four from Part-A and four from Part-B of the
    syllabus. Candidate will be required to attempt any five questions selecting at least two
    questions from Part-A and two from Part-B.
    Objectives: The objective of the paper is to make student aware of the various functions
    and importance of the HR department in any organization. It is basically concerned with
    managing the human resources, whereby the underlying objective is to attract retain and
    motivate the human resources in any organization, which is the most challenging and
    daunting look for any organization today.
    Part A
    Introduction: [5]
    Meaning, scope, objectives and functions of HRM; Importance of Human Resource
    Management; HRM & HRD a comparative analysis;
    Environment of HRM: [5]
    Role of government, internal and external forces; Human Resource Management
    practices in India.
    Human Resource Planning: [5]
    Definition, objectives, process and importance; Job analysis, description, specification &
    job evaluation; Recruitment, selection, placement and induction process;
    Human Resource Development: [6]
    Concept, Employee training & development; Career Planning & development;
    Promotions, demotions, transfers, separation, absenteeism & turnover;
    Part B
    Job Compensation: [6]
    Wage & salary administration, incentive plans & fringe benefits.
    Performance Management: [6]
    Concept & process, performance appraisal, Potential appraisal;
    Quality of work life (QWL): [6]
    Meaning, techniques for improving QWL.
    Industrial Relations: [6]
    Concept and theories, trade unions; Health, Safety & Employee welfare measures;
    Employee grievances and discipline, participation & empowerment; Introduction to
    collective bargaining.
    References:
    1. V.S.P. Rao: Resources Management, Excel Publishing, 2nd Edition.
    2. Edwin B. Flippo: Personnel Management, Tata McGraw Hill, 12th Edition.
    3. Dale Yoder: Personnel Management & Industrial Relation, PHI, 7th Edition.
    23
    4. Arun Monappa & Saiyadain: Personnel Management, Tata McGraw Hill, 2nd
    Edition.
    5. Gray Dessler: Human Resource Management, PHI, 6th Edition.
    Paper Title: Industrial Training
    Paper Code: IT 506
    Training Duration: 4 to 6 weeks
    SYLLABUS FOR B.E. M.B.A. (I.T.)
    SIXTH SEMESTER
    Paper Title: Computer Graphics
    Paper code: IT 601 Max. Marks : 100 Time: 3 Hours
    Course duration: 45 lecturers of one hour duration each
    Note: Examiner shall set eight questions, four from Part-A and four from Part-B of the
    syllabus. Candidate will be required to attempt any five questions selecting at least two
    questions from Part-A and two from Part-B.
    Part-A
    Introduction to computer graphics (07)
    Applications of computer graphics, Picture representation, color table ,Video Display
    Devices- Raster Scan Systems, Random Scan Systems, Input Devices, Output primitives
    Raster Scan Graphics: (07)
    Scan conversion, Frame buffer, Bresenham's line and circle drawing algorithms, Scan-
    Line Polygon Fill Algorithm, Inside-Outside Tests, Boundary-Fill Algorithm, Flood-Fill
    Algorithm, Antialiasing and Halftoning, Character Generation, Attributes of lines
    Segments: (06)
    Segments table, creating deleting and renaming segments, visibility, image
    transformations.
    Transformations: (07)
    Geometric Transformations: Matrices, Translation, Scaling, Rotation, Homogeneous
    Coordinates ,Composite Transformation Matrix, Coordinate Transformation, Rotation
    about an arbitrary point, Inverse Transformations, Other transformations.
    Part-B
    Windowing and clipping: (08)
    Viewing transformation and clipping, The Cohen-Sutherland algorithm, The Sutherland –
    Hodgman Algorithm, The clipping of polygons.
    24
    Three Dimension: (05)
    3D geometry, 3D primitives, 3D transformations, rotation about arbitrary axis, parallel
    projection, perspective projection, viewing parameters, conversion to view plane
    coordinates
    Hidden Line and surface: (05)
    Back face removal algorithms, hidden line methods
    Text Book:
    1. Donald Hearn & M. Pauline Baker, “Computer Graphics”, Prentice Hall of India, 2nd
    Edition.
    Reference Books:
    1. Newman and Sproul, ”Principle of interactive Computer Graphics”, McGraw Hill, 2nd
    Edition.
    2. Steven Harrington,”Computer Graphics, A programming Approach”,TMH, 2nd
    Edition.
    3. Rogar and Adams,”Mathematical Elemants of Computer Graphics”, Mcgraw Hill, 2nd
    Edition.
    4. N.Krishnamurthy, “Introduction to Computer Graphics”, Tata Mc Graw Hill, 1st
    Edition.
    Paper Title: Computer Graphics (Practical)
    Paper code: IT 651 Max. Marks : 75 Time: 3 Hours
    Practical based on theory.
    Paper title: Software Engineering
    Paper Code: IT 602 Max. Marks : 100 Time: 3 Hours
    Course duration: 45 lecturers of one hour duration each
    Note: Examiner shall set eight questions, four from Part-A and four from Part-B of the
    syllabus. Candidate will be required to attempt any five questions selecting at least two
    questions from Part-A and two from Part-B.
    Part-A
    Software Evolution (06)
    Software products, Evolving role of Software, Software crisis, S/w Engineering - a
    layered Technology, Software process Models.
    Project Management Concepts (04)
    People, The problem, The Process, S/w Measurement, Project Metrics.
    S/W Project Planning (04)
    Project estimation, Empirical Estimation Models, COCOMO Model.
    25
    Risk Management (04)
    Reactive Vs Proactive risk strategies, s/w Risks, Risk Identification, Projection, Risk
    Mitigation, Monitoring and Management.
    S/W Quality Assurance (06)
    S/w quality concept, SQA- S/w quality assurance activities, reviews, SQA plan, ISO
    9000 Quality standards, ISO approach to quality assurance systems.
    Part-B
    S/W Configuration Management (05)
    Baselines, S/w configuration Items, SCM process, Version control, Change control.
    Design (06)
    Design Concepts and principles, Modular Design, Design Methods.
    S/W Testing Methods (06)
    Testing Fundamentals, test case design, White box testing, Black Box testing, Testing
    Strategies, Verification & validation, Unit, Integration, Validation, System Testing.
    Computer aided S/W Engineering (04)
    CASE, Building blocks For Case, Integrated Case Environment.
    Books Recommended
    1. S/W Engineering-A Practitioner's Approach by Roger S.Pressman, (McGRAWHILL
    Internation Editions), Edi 7th.
    Reference Books
    1. Software Engineering by Ian Somerville, Pearson Education, Edi 8th.
    2. Software Engineering by Jalote, Narosa Publisher, Edi 3rd .
    Paper Title: Software Engineering (Practical)
    Paper Code: IT 652 Max. Marks 75 Time:3 Hours
    Practical based on theory.
    Paper title: Network Security & Cryptography
    Paper Code: IT 603 Max. Marks: 100 Time: 3 hours
    Course duration: 45 lecturers of one hour duration each
    Note: Examiner shall set eight questions, four from Part-A and four from Part-B of the
    syllabus. Candidate will be required to attempt any five questions selecting at least two
    26
    questions from Part-A and two from Part-B.
    Part-A
    Basic Encryption and Decryption: (05)
    Attackers and Types of threats, challenges for information security, Encryption
    Techniques, Classical Cryptographic Algorithms: Monoalphabetic Substitutions such as
    the Caesar Cipher, Cryptanalysis of Monoalphabetic ciphers, Polyalphabetic Ciphers
    such as Vigenere, Vernam Cipher
    Stream and Block Ciphers: (07)
    Rotor based system and shift register based systems. Block cipher: principles, modes of
    operations. The Data encryption Standard (DES), Analyzing and Strengthening of DES,
    Introduction to Advance Encryption Standard (AES)
    Number theory and basic Algebra: (04)
    Modular Arithmetic, Euclidean algorithm, Random number generation
    Key Management Protocols: (04)
    Solving Key Distribution Problem, Diffie-Hellman Algorithm, Key Exchange with
    Public Key Cryptography.
    Part-B
    Public Key Encryption Systems: (08)
    Concept and Characteristics of Public Key Encryption system, Rivets – Shamir-Adlman
    (RSA) Encryption, Digital Signature Algorithms and authentication protocols, The
    Digital Signature Standard (DSA).
    Hash Algorithms: (05)
    Hash concept, description of Hash Algorithms, Message Digest Algorithms such as MD4
    and MD5, Secure Hash Algorithms such as SH1 and SHA2
    Network Security: (04)
    Kerberos, IP security: Architecture, Authentication Header, Encapsulating Security
    Payload.
    Web Security: (04)
    Web security consideration, secure socket Layer protocol, Transport Layer Security
    Secure Electronic Transaction Protocol
    Firewalls: (04)
    Firewall Design principles, trusted systems, Virtual Private Networks.
    Books Recommended
    1. Principles of Cryptography, William Stallings, Perason Education, 4th Edition.
    27
    Reference Books:
    1. “Security in Computing, Charles P.Pfleeger, 1996, Prentice Hall International,
    Inc, Edi 2nd.
    2. Cryptography & Network Security, Atul Kahate, TMH, 2nd Edition.
    3. Applied Cryptography: Protocols, Algorithms, and Source Code in C, Bruce
    Schneier, John Wiley and Sons, 2nd Edition.
    4. Firewalls and Internet Security, Bill Cheswick and Steve Bellovin, Addison-
    Wesley, 2nd Edition.
    5. “Security Technologies for the world wide web”, Rolf Oppliger, Artech House,
    Inc., 2nd Edition.
    6. “Digital Certificates Applied Internet Security”, Jalal Feghhi, Jalli Feghhi and
    Peter Williams, Addison Wesley Longman, Inc., Latest Edition.
    Paper title: Network Security & Cryptography (Practical)
    Paper Code: IT 653 Max. Marks: 75 Time: 3 hours
    Practical based on theory.
    Paper Title: Multimedia Systems
    Paper Code: IT 604 Max. Marks: 100 Time: 3 hours
    Course duration: 45 lecturers of one hour duration each
    Note: Examiner shall set eight questions, four from Part-A and four from Part-B of the
    syllabus. Candidate will be required to attempt any five questions selecting at least two
    questions from Part-A and two from Part-B.
    Part-A
    Introduction: (05)
    Multimedia and its types, Introduction to Hypermedia, Hyper Text, Multimedia Systems
    and their Characteristics, Challenges, Desirable Features, Components and Applications,
    Trends in Multimedia.
    Multimedia Technology: (06)
    Multimedia Systems Technology , Multimedia Hardware devices, Multimedia software
    development tools, Multimedia Authoring Tools, Multimedia Standards for Document
    Architecture, SGML, ODA, Multimedia Standards for Document interchange, MHEG,
    Multimedia Software for different media.
    Storage Media : (05)
    Magnetic and Optical Media, RAID and its levels, Compact Disc and its standards, DVD
    and its standards, Multimedia Servers.
    28
    Audio: (05)
    Basics of Digital Audio, Application of Digital Audio, Digitization of Sound, Sample
    Rates and Bit Size, Nyquist's Sampling Theorem Typical Audio Formats Delivering
    Audio over a Network , Introduction to MIDI (Musical Instrument Digital Interface),
    Components of a MIDI System Hardware Aspects of MIDI ,MIDI Messages
    Part-B
    Image,Graphics and Video: (06)
    Graphic/Image File Formats, Graphic/Image Data, Colour in Image and Video, Colour
    Image and Video Representations, Basics of Video ,Types of Colour Video Signals,
    Analog Video, Digital Video, TV standards.
    Video and Audio Compression: (12)
    Classifying Compression Algorithms, Lossless Compression Algorithms, Entropy
    Encoding, Run-length Encoding, Pattern Substitution, Basics of Information theory,
    Huffman Coding, Huffman Coding of Images, Adaptive Huffman Coding, Arithmetic
    Coding, Lempel-Ziv-Welch (LZW) Algorithm, Source Coding Techniques , Transform
    Coding, Frequency Domain Methods, Differential Encoding, Vector Quantisation, JPEG
    Compression, Video Compression, H. 261 Compression, Intra Frame Coding, Inter-frame
    (P-frame) Coding, MPEG Compression, MPEG Video, The MPEG Video Bitstream ,
    Decoding MPEG Video in Software , Audio Compression, Simple Audio Compression
    Methods, Psychoacoustics ,MPEG Audio Compression
    Multimedia Communication: (06)
    Building Communication network, Application Subsystem, Transport Subsystem, QOS,
    Resource Management, Distributed Multimedia Systems
    Books Recommended:
    1. Multimedia Computing Communications and Applications By Ralf , Latest
    Edition by Steinmetz amd Klara Nahrstedt, Pearson Education, 1st Edition
    Reference Books:
    1. Multimedia System Design By Prabhat K. Andleigh, Kran Thakkar, PHI, 3rd Edition
    2. Multimedia Computing By Li, Drew, Pearson Education, 2nd Edition
    3. Multimedia Communications By Fred Halsall, Pearson Education, 4th Edition
    Paper Title: Multimedia Systems (Practical)
    Paper code: IT 654 Max. Marks: 75 Time: 3Hrs
    Practical related to all of the following
    1. Multimedia Authoring Systems
    2. Programming in Multimedia Authoring Systems
    3. Creating Presentation using Flash Media
    29
    4. Designing Hypertext and Hypermedia Systems
    5. SMIL
    6. Programming in Multimedia API in any Language
    7. Programming of Various Compression Standards
    8. Multimedia System Design Project For Application areas such as
    Education, Sales, Medical, Communication, Marketing etc
    Paper Title: Managerial Economics
    Paper Code: IBM 601 Max. Marks 100 Time: 3 Hours
    Course Duration: 45 Lectures of one hour each.
    Note: Examiner shall set eight questions, four from Part-A and four from Part-B of the
    syllabus. Candidate will be required to attempt any five questions selecting at least two
    questions from Part-A and two from Part-B.
    Objectives: To provide students with an understanding of basic economic principles of
    production & exchange-essential tools in making business decisions in today’s global
    economy. The object presents the foundation to understanding how the economy works,
    covering microeconomic description of business applications, including pricing for profit
    maximization, price elasticity, market structures and modeling of business in varying
    economic climates. The focus is on market economics, the organization that operation
    there and their business strategies.
    Part A
    Introduction to Managerial Economics: [4]
    Nature Scope and Importance of Managerial Economics. , opportunity costs , incremental
    principle , time perspective , discounts and equi marginal principles.
    Demand Concepts and Analysis: [4]
    Individual Demand, Market Demand, Kinds of Demand, Determinants of Demand,
    Demand Functions, Functions, Demand Schedule and Law of Demand.
    Theory of Consumer Behavior: [4]
    Cardinal Utility Approach and Ordinal Utility (Indifference Curves) Approach;
    Elasticity of Demand: [4]
    Concept, Types, Measurement and importance.
    Demand Forecasting: [5]
    Sources of Data-Expert Opinions, Surveys and Market Experiments; Time Series
    Analysis-Trend Projection; Barometric Forecasting-Leading Indicators, Composite and
    diffusion Indices.
    Part B
    Production Function: [4]
    Concept and types, Returns to Factor and Returns to Scale, Law of Variable Proportions.
    Cost concepts and Analysis: [4]
    30
    Concept of Cost, Short run and Lung-run Cost Curves, Relationships among various
    costs, Break-even Analysis.
    Revenue Curves: [4]
    Concept and Types.
    Perfect Competition: [4]
    Characteristics, Equilibrium Price, Profit Maximizing output in Short Run and Long Run;
    Monopoly: [4]
    Characteristics, Equilibrium Price, Profit Maximizing output in Short Run and Lung Run;
    Price Discrimination;
    Imperfect Competition: [4]
    Monopolistic Competition, oligopoly and Barriers to Entry.
    References:
    1. Craig Peterson, Lewis and Jain: Managerial Economics, Pearson Education, 1st
    Edition.
    2. Mark Hirshey: Managerial Economics, Thomson Publisher, 1st Edition.
    3. Dr. V.Panduranga Rao: Microeconomics-IBS Publication
    4. Keat: Economic Tools for Today’s Decision Makers, 4th Edition, Pearson
    Education
    5. William Samuelson and Stephen G. Mark, Managerial Economics, 5th Edition,
    John Wiley & Sons, 6th Edition.
    6. Managerial Economics Analysis: Problem Cases, 8th Edition, Truett & Truett,
    Wiley
    7. K.K. Dewett: Modern Economic Theory, S. Chand & Sons, 14th Edition.
    8. Mote, Paul Gupta: Managerial Economics, Vikas Publisher, 1st Edition.
    9. A. Koutsoyiannis: Modern Microeconomics, Mc Millan, 2nd Edition.
    10. R.L. Varshney & K. L. Maheshwari: Managerial Economics, S.Chand & Sons, 4th
    Edition.
    Paper Title: Corporate Legal Environment
    Paper Code: IBM 602 Max. Marks 100 Time: 3 Hours
    Course Duration: 45 Lectures of one hour each.
    Note: Examiner shall set eight questions, four from Part-A and four from Part-B of the
    syllabus. Candidate will be required to attempt any five questions selecting at least two
    questions from Part-A and two from Part-B.
    31
    Objective: Corporate legal environment represents that external environment in which
    the organization has to work. The course covers the basic laws which a student must be
    aware of.
    Part A
    Information Technology Act-2000 : [11]
    Objective of the act, documents excluded from the scope of the act, digital signatures,
    types of digital signatures in India, certifying authorities in India, regulation of certifying
    authorities, duties of subscribers, offences, appellate tribunal, penalties and adjudication
    Company Law : [11]
    Definition and nature of a company, kinds of companies , formation of a company,
    memorandum of association, articles of association, prospectus, membership in a
    company, shares , transfer and transmission of shares, meetings and proceedings.
    Part B
    Patents Law : [11]
    Patents Act 1970 as amended by the The Patents (Amendment) Act 2005, The Patents
    rules, 2003 as amended by The Patents (Amendment) Rules ,2006, Inventions not
    patentable, applications for patents, publication and examination of applications, grant of
    patents and rights conferred thereby, Patent Cooperation Treaty (PCT), Trade Related
    Intellectual Property Rights (TRIPS)
    Consumer Protection Act 1986 : [12]
    Definitions under the act : complaint , consumer, defect, deficiency , unfair trade practice,
    consumer protection councils, redressal machinery under the act, district forum, state
    commission, national commission
    References:
    1. Manish Arora , Guide to Patents Law, Universal Law Publishing Co, 4th Edition.
    2. K.C.Garg, V.K.Sareen , Mercantile Law, Kalyani Publishers, 14th Edition.
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