Tuesday, December 25, 2007

S7 IT

OBJECT ORIENTED MODELING AND DESIGN
RT 701 2+1+0

Module 1
Introduction: object oriented development-modeling concepts – object oriented methodology – models – object oriented themes-Object Modeling– links and associations – advanced links and association concepts – generalization and inheritance - grouping constructs – a sample object model- Advanced Object Modeling: aggregation – abstract classes – generalization as extension and restriction – multiple inheritance – metadata – candidate keys – constraints

Module 2
Dynamic modeling: Events and states – Operations – Nested state diagrams – Concurrency – Advanced dynamic modeling concepts – A sample dynamic model – Relationship of Object and Dynamic models.
Functional modeling: Functional models – Data Flow Diagrams - Specifying operations – Constraints – A sample functional model – Relation of functional to Object and Dynamic models.

Module 3
Analysis: Analysis in object modeling, dynamic modeling and functional modeling, Adding operations- Iterating the analysis
System Design: Breaking system into subsystems - Identifying concurrency-allocating subsystems to processors and tasks, managing of data stores. Handling of global resources- handling boundary conditions-Common Architectural Frameworks

Module 4
Object Design: Overview of Object design – Combining the three models – Designing algorithms – Design optimization – Implementation of control – Adjustment of inheritance - Design of association – Object representation – Physical packaging – Documenting design decisions-Comparison of methodologies

Module 5
Other Models: Booch’s Methodology- Notations, models, concepts. Jacobson Methodology- architecture, actors and use-cases, requirement model, Analysis Model, Design model, Implementation model and Test Model-Unified Modeling Language (UML).

Text Books

Object Oriented Modeling and Design -JamesRumbaugh, Prentice Hall India
Object Oriented Analysis and Design with Applications - Grady Booch, Pearson Education Asia

References

Object Oriented Software Engineering - Ivan Jacobson, Pearson Education Asia
Object Oriented Software Engineering - Berno Bruegge, Allen H. Dutoit, Pearson Education Asia
Object Oriented Analysis and Design using UML - H. Srimathi, H. Sriram, A. Krishnamoorthy
Succeeding with the Booch OMT Methods -A practical approach - Lockheed Martin, Addison Wesley
UML and C++ practical guide to Object Oriented development - Richard C.Lee & William, Prentice Hall India.


COMPUTER GRAPHICS
RT 702 3+1+0

Module1
Introduction to Computer Graphics: Basic concepts in Computer Graphics – Applications of Computer Graphics, Interactive Graphics system – Raster scan and Random scan systems – Generating a raster image, Application of raster scan graphics. Video Display Devices, Display processors – Display files – graphical input & output devices.

Module 2
2D Graphics: Line drawing algorithms – DDA, Bresenham’s – Bresenham’s Circle drawing algorithm - 2D Transformations, Clipping – Line clipping – Polygon Clipping, Windowing.

Module 3
3D Graphics: 3D display methods, 3D Object Representation – Polygon Surfaces – Quadratic surfaces – Spline Representations – Bezier Curves and Surfaces – B-Spline Curves and Surfaces, 3D Transformations.

Module 4
3D Rendering: Three-Dimensional Viewing-Projections, Clipping, Visible Surface Detection – Classification of Visible surface detection algorithms – Back-face Detection, Depth- Buffer Method, Scan-line Method.
Surface Rendering Methods-Basic illumination Models – Polygon–rendering Methods, Gouraud Shading, Ray-Tracing Methods.

Module 5
Advanced Technologies: Fractals – Classification of Fractals – Self-Squaring Fractals, Animation- Raster Animation, Morphing.

Text Book

Computer Graphics (C version) - Donald Hearn & Pauline Baker (Pearson Education Asia)

References

Computer Graphics- Donald Hearn & Pauline Baker (Prentice Hall of India)
Principles of Interactive Computer Graphics – William .N. Newman, Robert .F. Sproull (second edition), McGraw Hill edition
Computer Graphics Principles & Practice - Foley, VanDam, Feiner, Hughes (second edition in C), Addison Wesley
Fundamentals of Computer graphics & - D. P. Mukherjee, Prentice Hall of India multimedia
Java 2 complete reference - Herbert, Schildt, Tata McGraw Hill
Computer Graphics - Roy A Plastack & Gordon Kally (Schanmi Series McGraw Hill edition)


MODERN COMMUNICATION SYSTEMS
T 703 3+1+0

Module 1 Optical Fibre communication
Advantages, Disadvantages, System block diagram, Fibre types, Cable configurations, Light propagation through optical fibre, Fibre configurations, Acceptance angle and acceptance cone, Cable losses, Light sources, Light detectors.

Module 2 Microwave communication
Advantages, Analog Vs Digital Microwave, Frequency modulated microwave radio system – Transmitter, Repeater, Receiver (block diagram only) Microwave terminal station – transmitter and receiver, path characteristics – fading.

Module 3 Satellite Communication
Satellite orbits, Geostationary satellites, Satellite classifications, Spacing, Frequency allocation, Satellite uplink and down link models (block diagram only), Earth station, Multiple accessing – FDMA, TDMA, CDMA, Satellite Radio Navigation, GPS (Basic idea only)

Module 4 Mobile Communication
Mobile communication services, Cellular telephone, Concepts – Cells, Frequency reuse, Interference, Cell splitting, Segmentation and Dualisation, Call system layout, Call processing, Analog and Digital Cellular Telephones, Block diagram of a typical transceiver, PCSS Mobile telephone system.

Module 5 Advanced Concepts
Concepts of Wireless LAN, ISDN-Protocol, Architecture, B-ISDN, ATM
Blue tooth Technology
WAP and WWW- Architecture, Protocols and Applications.

Text Book

Electronic Communication Systems, Fundamentals Through Advanced, 4th Edn - Wayne Tomasi, Pearson Education.

References

Electronic Communication Systems, TMH, 4th Edition. - Kennedy
Electronic Communications, PHI, 4th Edition. - Roddy & Coolen
Mobile Communications - Jochen Schiller, Pearson Education.
Electronic Communication systems, 3rd Edition - Frank R Dungan, VikasThomson Learning

MULTIMEDIA TECHNIQUES
T 704 2+1+0

Module 1 INTRODUCTION
Definition of multimedia, multimedia, hardware, software applications and software environments, - Media Types - Analog and digital video, digital audio, music and animation - Analog & Digital video - Memory storage - Basic tools - Authoring tools.

Module 2 BUILDING BLOCKS
Text - Hyper text - Sound - Sound cards - Standards - Image - Image types - Image compression, RLE, JPEG, MPEG - Fractal and Wavelet Compressions - Image file types - Animation - Capture and Playback techniques. (basic ideas only)

Module 3 MULTIMEDIA ENVIRONMENTS
The Compact Disc family, CD-interactive, Digital Video Interactive, QuickTime, Multimedia PC and Microsoft Multimedia Extensions.

Module 4 MULTIMEDIA PROGRAMMING
Framework: Overview, Media classes, Transform classes, Format classes and Component classes - Problems related to programming - Composition, Synchronisation, Interaction, Database integration.

Module 5 ADVANCED MULTIMEDIA
Moving pictures - Techniques realistic image synthesis, Virtual Reality - Full motion digital video - Video capture techniques - multimedia networks - Desktop video conferencing - Future multimedia.

References

Multimedia Programming Objects, Environments & Framework.- Simon J. Gibbs, Dionysios C. Tsischritziz (Addison-Wesley Publishing Co.)
Multimedia: Computing, Communications andApplications- Ralf Steinmentz and Klara Nahrstedt, Pearson Education.
Multimedia making it work - Tay Van Ghan – Osborne Tata Mcgraw Hill
Authoring Interactive multimedia - Arch C Luther
Optimizing your Multimedia PC - L.J. Skibbe, Susan Lafe Meister - Comdex
Multimedia Bible - Winn L. Rosch, Sams
Multimedia in Action - James E. Shuman, Vikas Publication
Multimedia Power Tools - Peter Jellam, Random house Electronic Pub.
Multimedia Computing - Mathew E. Hodger & Russel M. Sasnett, Addison wesley
Integrated Multimedia Systems - Palikom, The communication Wall Overview
WEB TECHNOLOGIES
RT 705 2+1+0

Module 1
Introduction to SGML – features - XML, XML as a subset of SGML – XML Vs HTML – Views of an XML document – simple XML documents – Starting & Ending of Tags – Attributes of Tags – Entity References – Comments - CDATA section

Module 2
Document Type declarations – Creating XML DTDs – Element type declaration – Attribute List Declaration – Attribute types – Attribute defaults – Displaying XML Data in HTML browser as HTML tables – Storing XML data in HTML document – Converting XML to HTML with XSL minimalist XSL style sheets – XML applications

Module 3
Java Beans: Features – Designing Java Beans – Creating and using properties – Induced - bound and constrained properties - using and creating events – Introspection – creating & using Beanlnfo clauses – customization – providing custom property editors and GUI interfaces.

Module 4
JSPs - Creating simple JSP Pages – templating – Request time expression – Request & Response objects – Reading parameter values – Using Javabeans in JSPs - Reading & setting Properties of JavaBeans – Connecting forms & bean properties – Serialized beans – declaring variables & methods in pages – scriptlets – conditionals, loops & execution handling in JSPs with scriptlets – Accessing beans via scriptlets.

Module 5
EJB – Basics of EJB – Types of Beans – Development of Session Beans – Steps – Creating & Implementing Interfaces – Writing Deployment descriptors – Packaging and deploying bean - using the bean from a client – Development of stateful session bean. Entity beans – Features (Basics of developing and using entity beans)

References

Module1, 2
1. XML by Example: Building Ecommerce applications - Sean McGrath, Pearson Education Asia

Module 3
1. Using JAVA 2 Platform Special Edition - Joseph L. Weber, Prentice Hall of India
2. Java 2, AWT, Swing, XML and JavaBeans Programming Black Book - Steven Holzner, Wiley Dreamtech


Module 4
1. Java Server pages - Larne Pekowsky – Pearson Education Asia
2. JSP: Java server pages - Barry Burd, IDG Books India

Module 5
1. Mastering Enterprise Java Beans and the Java 2 Platforms, Enterprise Edition - EdRoman (WILEY computer publishing)
2. EJB Design Patterns - Floyd Marinescu

Additional Reference

Internet & Web Technologies - Raj Kamal, TMH


ELECTIVE -I
T 706 3+1+0

LIST OF ELECTIVE SUBJECTS

CMELRPTA 706-01 Optimization Techniques
T 706-02 Digital Image Processing
RT 706-03 Principles of real time systems
RT 706-04 Windows Programming
RT 706-05 Mobile Computing
RT 706-06 Software Architecture
T 706-07 Optical Communication

Note
New Elective subjects related to the recent trends in Information Technology can be added to this list. Institutions offering such courses should submit the detailed syllabus and get it approved from the University before offering the course.



OPTIMIZATION TECHNIQUES (ELECTIVE - I)
CMELRPTA 706-1 3+1+0

Module1 Classical optimization techniques
Single variable optimization – Multivariable optimization with no constraints – Hessian matrix – Multivariable saddle point – Optimization with equality constraints – Lagrange multiplier method – Multivariable optimization with inequality constrains – Kuhn- Tucker conditions.

Module 2 Constrained multivariable optimization
Elimination methods – unrestricted search method – Fibonacci method – Interpolation methods – Quadratic interpolation and cubic interpolation methods.
Module 3 One-dimensional unconstrained minimization
Gradient of a function – Steepest descent method – Newton’s method – Powells method – Hook and Jeeve’s method.


Module 4 Integer – Linear programming problem
Gomory’s cutting plane method – Gomory’s method for all integer programming problems, mixed integer programming problems.


Module 5 Network Technique
Shortest path model – Dijkstra’s Algorithm – Floyd’s Algorithm – minimum spanning tree problem – PRIM algorithm – Maximal Flow Problem algorithm.

References

Optimization theory and application - S.S. Rao, New Age International P. Ltd.
Optimization Concepts and applications in Engineering - A. D. Belegundu, T.R. Chandrupatla, Pearson Education Asia.
Principles of Operations Research for Management - F. S. Budnick, D. McLeavey, R. Mojena, Richard D. Irwin, INC.
Operation Research an introduction - H. A. Taha, Eastern Economy Edition.
Operation Research – R. Pannerselvam, PHI

DIGITAL IMAGE PROCESSING
T 706-2 3+1+0

Module 1
Introduction to Digital Image Processing, The Fourier and Z-Transform of Multi dimensional Sequences, Digital image processing in practice, Digitalizing images, Characteristics of an image digitiser, Types of Image Digitisers. Image processing software, Software organization, processing sequence the gray level histogram, Introduction to histograms, Uses of histograms, Relations between histogram and image.

Module 2
Point operations, Uses, Linear point operations, Point operations and the histogram, Applications of point operations. Introduction to algebraic operations, Applications, Geometric operations, Grey level interpolation, Spatial transformation, applications, geometric operations, linear filtering theory – Harmonic signals and complex signal analysis.

Module 3
Convolution operation, Applications of digital filtering some useful functions, Convolution filtering – Dimension sampling, Reconstruction of images from its samples, Nyquist rate, Aliasing and foldover frequencies. Non rectangular grid sampling, Practical limitation in sampling and construction. Display aperture and interpolation, Moire effect and flat field response.

Module 4
Processing sampled data, Computing data, Truncation, Optics and System analysis, Diffraction limited optical systems, Abbreviation in an imaging system. Applications of Digital image processing – Image restoration, Approaches and models, Super resolution, System identification, DTF from degraded image spectrum, noise modeling.


Module 5
Image Segmentation by Thresholding, Optimal threshold selection, Gradient optical threshold selection, Gradient based methods, Region growing techniques – Segmented image structure. Measurement and classification size, shape, Measurements, Feature selection, Classification 3 dimensional image processing optical sectioning, CAT Stereo – Metric ranging, Stereoscopic image display – shaded surface display.

References

Digital Image Processing- Kenneth R. Castleman, Prentice Hall.
Digital Image Processing – Rafael C Gonzalez & Richard E Woods, Pearson Education
Discrete Time Signal Processing- Oppenheim and Schafer, Prentice Hall of India.
Fundamentals of Digital Image Processing- Anil K. Jain, Prentice Hall of India.
Introducing Digital Image Processing- Jensen J.R, Prentice Hall.
Image Processing, Analysis & Machine Vision –Sonka, Hlavac & Boyle, Thomson Learning



PRINCIPLES OF REAL TIME SYSTEMS (ELECTIVE - I)
RT706-3 3+1+0

Module 1
Introduction to Real Time Systems – Structure of real time systems, real time computer, task classes – Periodic, Aperiodic, critical, Non-critical, definition of real time systems – real time systems, embedded systems - Hard real time systems, soft real time systems, real time design issues.

Module 2
Real time kernel – polled loop systems, co-routines, interrupt driven systems – sporadic, fixed rate systems, hybrid systems, task control block - task status, scheduling – uniprocessor scheduling – traditional rate monotonic, rate monotonic deferred server, EDF, IRIS tasks – multiprocessor scheduling – utilization balancing algorithm, next-fit, bin- packing algorithm, myopic offline, buddy strategy (no need of proofs) fault tolerant scheduling.

Module 3
Communication – Communication Media and message sending topologies, network architecture issues, protocols – contention – based, token - based, stop and go multiloop, polled bus, hierarchal, round robin, fault tolerant routing – clocks and synchronization – fault tolerant synchronization in hardware, synchronization in software.

Module 4
Fault tolerance – definition, cause of failure, fault types, fault detection and containment, redundancy – hardware, software, time, information, integrated failure handling – reliability – parameter values – series – parallel systems, NMR clusters, combinational model, master chain model, fault latency, transient faults, software error models.

Module 5
Programming Languages – Desired language characteristics, Real time databases, characteristics, main memory databases, Transaction, Disk schedule algorithms, Databases for hard real time systems, maintaining serialization constituency.

Text Book

Real Time Systems - C.M Krishna, Kang G. Shini (M?C Graw Hill)

Reference

Real Time Systems, Design & Analysis - Philip Laplante (IEEE)

WINDOWS PROGRAMMING (ELECTIVE - I)
R706-4 3+1+0

Module 1
Introduction -Concepts of Windows Programming- Event Driven Programming – Languages that support Windows Programming – Visual Basic – Java – Visual C++
Visual Basic Programming: Basic Language features – Variables, data types, constants, control statements – Forms – Creating and Using basic Controls – text boxes, labels, buttons - Event handling procedures – Properties Window – Common properties for Controls. Message boxes

Module 2
Visual Basic Programming (Contd) Standard Controls – List boxes, Comboboxes, Image box, picture box, Shape controls, Timer, Scrollbars, Frames, Checkboxes, Option Boxes – Frames - File, Drive and Directory List boxes - MDI and SDI interfaces – Menus

Module 3
ActiveX controls - RichTextBox, Tree View Control, List view Control, Progessbar, Flexgrid Control, Common dialog Controls – Font, File, Print Dialogs – Creating Custom activex controls – Creating Events and properties for ActiveX controls.

Module 4
Graphics and Multimedia – Drawing Graphics in Windows - setting colors - Drawing text, lines, ellipses, arcs, circles – plotting points –Filling figures with colors and patterns – Using clipboards to transfer images between applications Printing graphics and text – Creating animations with Picture clip control - applying image effects – stretching, flipping, embossing, egraving, blurring, sweeping – Using the Multimedia Control – Handling multimedia Errors

Module 5
Database Access – Using DAO, RDO and ADO for accessing databases – Creating tables, inserting, deleting and updating records – Using the Data Control – Using the ADO Data Control
Using Windows API: Using DLL Procedures in Visual Basic – Declare statement – Handling C++ and Windows Data types – Playing sound with API funtions – Capturing Images from the screen – Handling mouse outside Applications window – Making an ‘always on top’ window.

References

Visual Basic 6 Programming Black Book - Steven Holzner (Dreamtech Press)
Programming Windows fifth Edition - Charles Petzlod (Microsoft Press)
Visual Basic - Ivan Petrosaus (BPB)
Visual Basic - Garry Cornell (BPB)
Using Visual Basic - Resselman (PHI)


MOBILE COMPUTING (ELECTIVE - I)
R706-5 3+1+0

Module 1
Introduction - Short History, Mobile telephone systemsSimplified Reference model. Multi carrier modulation. Cellular systems.

Module 2
Wireless Communication Systems -Telecommunication Systems-GSM & DECT-Architecture and Protocols.Satellite Systems-GEO, LEO, MEO.
Broadcast Systems-Broadcast transmission, Digital Audio Broadcasting-Multimedia Object Transfer Protocol. Digital Video Broadcasting.

Module 3
Wireless LAN and ATM - Infra red and Radio Transmission, Infrastructure and ad hoc networks, 802.11- Bluetooth- Architecture, Applications and Protocol, Layers, Frame structure. Comparison between 802.11 and 802.16.
Wireless ATM- Services, Reference Model, Functions, Radio Access Layer. Handover- Reference Model, Requirements, Types, handover scenarios.
Location Management, Addressing, Access Point Control Protocol (APCP).

Module 4
Mobile Network and Transport Layers - Mobile IP- Goals, Requirements, IP packet delivery, Advertisement and discovery. Registration, Tunneling and Encapsulation, Optimization, Reverse Tunneling, IPv6, Dynamic Host configuring protocol, Ad hoc networks – Routing, DSDV, Dynamic source routing. Hierarchical Algorithms.
Traditional TCP, Indirect TCP, Snooping TCP, Mobile TCP, Transmission.

Module 5
Wireless Application Protocol & World Wide Web
WAP- Architecture, Protocols-Datagram, Transaction, Session.-Wireless Application Environment-WML- Features, Script- Wireless Telephony Application.
WWW- HTTP, Usage of HTML, WWW system architecture.

Text Book

1. Mobile Communications – Jochen Schiller, Preason Education Asia

References

Computer Networks – Andrew S. Tanenbaum, PHI
Communication Networks -Fundamental Concepts and Key Architectures Leon-Garcia & Indra Widjaja, Tata McGraw Hill


SOFTWARE ARCHITECTURE (ELECTIVE - I)
R706-6 3+1+0

Module 1
Introduction to Software architecture – Architectural styles – pipes and filters –data abstract and object oriented organization – Event based, implicit invocation, Layered systems – Repositories – Interpreters – Process control – Heterogeneous Architectures.

Module 2
Shared Information Systems – Integration in software Development Environment – Integration in the design of Buildings – Architectural structures for based information systems

Module 3
Guidance for user interface architecture Artificial design space – Formal models and specifications-The value of architectural formalism – Formalizing the architecture of a specific system – Formalizing the architectural style – Formalizing an architectural design space

Module 4
Linguistic issues - Requirements for architecture – Description languages – first class connectors – Adding implicit invocation to factorial processing languages.

Module 5
Tools for architectural design – Unicon – Exploiting style in architectural design environments – Architectural interconnection

Reference

Software Architecture – perspectives on an emerging discipline- Mary Shaw, David Garlan, PHI


OPTICAL COMMUNICATION
T 706-7 3+1+0

Module 1
Optical fibres: Graded index and step index fibres- refractive index profiles, numerical aperture propagation of optical beams in fibres. Mode characteristics and cut off conditions (mathematical derivations required). MCVD technique for fibre fabrication, losses in fibres- attenuation, absorption, scattering and radiation losses.

Module 2
Signal distortion in fibres – Intra model and inter model distortion – group delay , material and wave guide dispersion. Optical sources : Light Emitting diodes – LED structures – surface and edge emitters, mono and hetero structures – internal – quantum efficiency , injection laser diode structures – comparison of LED and ILD.

Module 3
Optical Detectors: PN junction photo diodes, PN Photo detectors, Avalanche photo diodes, construction, characteristics and properties, Comparison of performance. Optical amplifiers (OAs): Need for OAs, Principles of operations of various OAs – SLAs, fibre amplifiers (FRA, FBA, EDFA). Comparison of performance.

Module 4
Optical communication systems: Direct detection and heterodyne receivers. SNR, advantage of coherent optical communications. Optical digital communications, Transmission link analysis, point to point links – system consideration – link power budget and rise time budget.

Module 5
Classification of light wave systems – linear systems: Intensity modulated Direct Detection (IMDD) and coherent systems. Non linear systems. Introduction to solitons –Solitons communications using lumped amplifiers, Bit error Rate performance.

References

Optical Fibre Communications- Gerd Keiser, Mc Graw Hill.
Fiber Optic Communications, 4th Edition. - Joseph C.Palais, Pearson Education.
Optical Fibre Communications- Senior, PHI.
Fibre Optic Communication – D C Agarwal, Wheeler Pub.
Optical Communication Components & Systems – Franz & Jain, Narosa Publishing.
Optical Communication Systems – Gowar, PHI





MULTIMEDIA LAB
T 707 0+0+3

Programs for
Point plotting
Line and circle drawing
Line and Polygon clipping
Transformations
Hidden line elimination
Curves
Web page design with HTML
Multimedia development using PowerPoint, 3D Studio, Adobe Photoshop.
Familiarization of latest multimedia development tools.



COMMUNICATION SYSTEMS LAB
T 708 0+0+3

Analog optical communication experiments based on optical communication kits / benches
Digital optical communication experiments based on optical communication kits / benches
Digital communication experiments based on trainer kits.
Design of digital filters (software simulation using MATLAB/ SIMULINK)
FFT, DFT Implementation using software simulation (MATLAB/ SIMULINK)
Study of transmission media – coaxial cables – Types-Hubs-Bridges-Repeaters-Routers-Gateways –Switches
Study of modems-NIC-Cable connectors and their usages
Study of Internet-accessing, services and applications
Simple network programming experiments in Java.




PROJECT & SEMINAR

T 709/ T 808 0+0+3

Each student is required to present a technical paper on subject approved by the department. The paper should, in general, reflect the state of the art technology. Report should be submitted to the department.
In addition to the seminar, the students shall undertake a project work (as a team or individually) in the 7th semester itself in consultation with the guide (s). On completion of the project work in the 8th semester, each student shall present the work done before a panel of staff members, and submit a report of the project work to the department.

1 comment:

Anonymous said...

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