ec(uvce) 8th sem syllabus copy form lohith kumar 11guee6018

University Visvesvaraya College of Engineering

8th Semester Electronics & Communication Engineering

University Visvesvaraya College of Engineering Department of Electronics and communication

BANGALORE UNIVERSITY

Scheme of study and examination for 8th semester B.E(EC)

Under 2k6 scheme.

Sl.

No.

Code

Subject

No of Hrs/Wk Duration of Exam.

Sessional

marks

Exam

marks

Total

Marks Theory

/Tutorial

Practical

Theory

Practical

1

2K6EC-801 Embedded System

3+1

3

25

100

125

2 2K6EC-802 Optical Communication 3+1 3 25 100 125

3

2K6EC-803 Operations Research

and Engineering

Management

3+1

3

25

100

125

4 2K6EC-804.1

Advance Computer

Communication

Networks

3+1

3

25 100 125

5

2K6EC-805 Embedded System Lab

3+1 3

25 100

125

6 2K6EC-806 Project Work 3+1

3

50 100 150

7 2K6EC-807 Seminar

25 025

TOTAL 200 600 800




2K6EC801 – Embedded System

4 Hrs / week Internal Marks: 25 Exams. Marks: 100

PART-A

1. introduction to Embedded Systems: Characteristics’ Brief Review of sensors, signal conditioning, Data Encoding, Data Converters. Examples for embedded system digital camera. 6Hrs

2. Embedded Hardware :

16bit microcontroller: HCS12 architecture, Addressing modes, instruction queue, instruction set, interrupts Priority and Management, Memory Management and paging. Introduction to code warrior. Brief Introduction to Architecture of 32 bit ARM Processor- ARM Architecture & Organization ARM Programming Model. 12Hrs

3. Bus Structure: Introduction to serial bus RS232, USB,I2C, CAN and Fire wire buses and their

protocols and application. 6Hrs

PART –B

1. Wireless protocols : Bluetooth and IEEE 802.11, 802.15, 802.16, Introduction features, area of application. Interface for IRDA and WEB enabling. 6Hrs 2. Embedded Software :

Software Architectures – Round – Robin, Round – Robin with interrupts, Function - Queue Scheduling Architecture, Real time operating system Architecture. Introduction to RTOS – Task and task states, Tasks and data, semaphore and shared data. Other OS service – message queues, Mail boxes and pipes, Timer Functions, Events, Memory Management, interrupt Routings in RTOS. Basic design using RTOS – Principles and an example, Encapsulating semaphores and queues. Hard real-time scheduling consideration, Saving Memory space and power. Embedded software development – Host and Target machines, linker, prom Programmers, emulators and monitors. Debugging Techniques – Testing Host machine, Instruction set simulators tools, Assert macro laboratory tolls. 12Hrs

3. Programming concepts and Embedded Programming :

Programming in assembly language and high language C/C++, source code engineering tools, Program Modeling concept in single and multiprocessor system software, and software engineering practices in the embedded software Development Process. 6Hrs




Reference Books: 1. Vahid F , Givargies T,, “Embedded systems Design “By John Wiley 2002 2. David E Simon, An Embedded Software Primer. 3. Free scale Reference / Users manual. 4. Manual of Arm Processor. 5. Raj kamal, ‘Embedded System – Architecture, Programming and Design”, TMH 2003 6. Gupta R., “Co – Synthesis of Hardware and Software for Digital embedded Systems”.

Kluwer. 7. Barr M “RTOS”. 8. Liu,” Real – Time systems” , Pearson.ED.Asia.




2KEC802 – Optical Communication 4 Hrs / week Class Marks: 25 Exam Marks: 100

Part – A 1. Introduction :

Evolution of fiber optic communication systems, advantages, Basic Optical laws and definitions, Mode theory for circular waveguides, single mode and Graded-index fiber structures. 7Hrs

2. Fiber Fabrication: Outside V-P oxidation vapor phase axial deposition, Modified CVD , Plasma activated CVD, Double – crucible method, Mechanical properties of fibers, Fiber optical cables, Fiber splicing, Optical connectors. 5Hrs

3. Photonic Sources: Semi conduction material for photo devices, LEDs structure, Operation

quantum efficiency and power. Modulation of an LED , Laser diodes, Laser diode modes and Threshold calculations, structures quantum efficiency , resonant frequencies single mode lasers, Modulation of laser diodes. 7Hrs

4. Photonic Detectors : Principle of operation of a Photodiode, Noise in a PD, detector

response time, Avalanche PD, Structures of InGaAs APDs, Temperatures Effects and Comparison of PDs. 6Hrs

Part – B 1. Transmitters :

Analog and Digital transmitters, Schematics, LED and LD Driver Circuits for message Modulation source to fiber power launching, Lansing Schemes for coupling. 4Hrs

2. Signal Degradation: Attenuation, absorption, scattering and bending losses in core and cladding, distortion inter and intra modal dispersion, Pulse broadening effect, measurement Standards and test procedures. 6Hrs

3. Receivers: Fundamental operation of analog and digital receivers, front end and Pre- amplifier stage circuits, evaluation of probability of errors, Sensitivity in receivers. Analog receivers and SNR calculation. 6Hrs




4. Fiber Optic links : Regenerative regenerators, Digital Links-link power and rise time budget analysis. Analog links, C/N ration analysis. Coherent link – Homodyne and heterodyne detection schemes. WDM operational principle of WDM. DWDM. Concepts and components used for all optical for all optical Networks. 8Hrs References: 1. Gerd Keiser: Optical fiber communication, TMCG 2. John M Senior: Optical fiber communication, PHI 3. Govind P Agrawal: Fiber Optic Communication Systems, John Wiley 4. John Power: Fiber optic systems, TMH 99.




2K6EC803-Operation Research and Engineering Management

4hrs/week Class Marks: 25 Exams Marks: 100

Part – A 1. Introduction ORM

Introduction, overview of OR modeling approach, Introduction to linear Programming, Graphical and simplex method. Big M Method, Concept of slack and artificial variables. Duality theory Principles and Problem. 10Hrs

2. Special types of LPP, Transportation and Assignment problems,(Both balanced and

unbalanced types), Finding the initial solution by N – W corner rule and Vogel’s approximation method [VAM –Technique]. Finding the optimal solution by stepping stone method and methods of multipliers for transportation problems and Hungarian method for assignment Problems. Travelling Salesman’s Problem. 8Hrs

3. CPM and PERT –Networks in Management, Finding the critical the critical path and the various time and floats for a project, Finding the expected duration of a project, Critical path and probability estimation for a project. 6Hrs

4. QUEUING THEORY And GAMES: Block Diagram of queuing system single server model with finite and infinite Q – Length. Solution of two - Person Zero sum game by dominance, Mini- Max criteria, concept of saddle Point, solution of game by graphical method. 6HRS

Part – B 1. MANAGEMENT AND PLANNING

Introduction, Need for managers, what managers do? Need for organization, management is it art or science? Need for planning, Its premises, concept of strategic planning and MBO. Types of Plans. 12Hrs

2. ORGANIZING AND LEADING :

Types of organizing , Departmentation, span of control, need for Departmentation, Types of leaders, Traits of leaders, Maslow’s hierarchy of needs, Ohio University leadership theory need for Leaders. 12Hrs

3. Controlling :

Why control? Types of control, Management and Bureaucratic control, Designing effective control systems. 6Hrs Reference: 1. Operation research – Hamdy H. taha 8th edition Pearson education 2. Introduction to operations research –Hiller and Leibermann, TMH 3. Principles of Management – Koontz and weirich, TMH 4. Introduction to management science Learning – Anderson , Sweeny, Williams Thomson




2K6EC804: Advanced computer communication Networks

4hrs/week Class Marks: 25 Exams Marks: 100

Part – A

1. Basics of discrete and continuous time Markov chains: poison process queuing theory: M/ M1,M/GI/I queue stationary distribution, stability conditions, little’s Law. 15Hrs

2. Performance analysis: Scheduling algorithm, MAC protocols: Slotted ALOHA, CSMA. 10Hrs

Part – B

1. MPLS, QOS for real and data application, DiffServ and IntServ Architectures 06Hrs 2. VoIP,SIP,WLAN : MAC Protocol and its performance analysis 06Hrs 3. Mesh / Adhoc Networks : General issue, MAC and Routing Protocols 08Hrs 4. Introduction and issue in sensor Networks. 05Hrs

Reference: 1. D Bertsekas and R.Gallager, Data Networks,2nd edition, Prentice Hall 2002. 2. J Walrand and P varaiya , High Performance Communication Networks , Morgan- Kaufmann, 2nd edition.

3. C.Siva Ram Murthy and B.S manoj, Adhoc wireless Networks, Prentice Hall 2004




2K6EC805 – Embedded System Lab 4hrs/week Class Marks: 25 Exams Marks: 100

1. Measuring temperature in real time using temperature sensor. 2. Measuring X Y Z coordinates using accelerometer. 3. Measuring pressure using pressure sensor. 4. Interfacing a graphics LCD and displaying waveforms. 5. Transmission of RF signals by interfacing RF Transmitter/Receiver. 6. Experiment to transmit infrared rays. 7. Experiment on Blue tooth protocol. 8. Experiment on Zigbee Protocol. 9. Experiment on I2C Protocol. 10. Experiment on CAN Protocol. 11. Experiment on Ethernet TCP/IP. 12. Interface experiment using USB Bus. 13. Four experiment on OFC (Depending upon the availability of kits)