Monday 18 June 2012

Admit card download for SSC CGL Examination | SSC CGL exam notifications


The Staff Selection commission will conduct the examination of Combined Graduate Level 1 examination on july 1 to july 8, 2012. The Combined Graduate Level 2 examination will be on September 15 and 16, 2012.  Now the applied candidates can download the admit card in the following links

Admit card download for SSC CGL examination


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EAMCET results 2012 | preliminary key download for EAMCET 2012


 The Engineering Agriculture and Medicine Entrance Test results will be declared in july 2012. This EAMCET exam is mainly for the U.G courses like B.E/B.tech, medicine , agriculture etc. Now they announced the results in their official sites. The candidates can check their results at:
http://www.apeamcet.org/
The preliminary key will be available on
http://www.apeamcet.org/Content/KeyDownload.aspx

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What is Random Number in TNEA


The Random number is a number which is assigned to the individual students according to the cut off marks. If the students having same cut off means then they will give the random number according to the marks they scored in mathematics . Mathematics marks is important for engineering so the random number is based on mathematics cut off only. According to the random number the students will be called at the time of counselling.

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Sunday 17 June 2012

Who is the next president of India


 I am too eagerly waiting to know the next president of our nation. All the students and people are expecting our A.P.J Abdul kalam as next president of India. Hope our dreams become true...share your thoughts here..

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Voice Operated Intelligent Fire Extinguisher Vehicle | ECE projects | project topics for ECE | project abstract for ECE



 Abstract


The project aims at designing an intelligent voice operated fire extinguishing robotic vehicle which can be controlled wirelessly through RF communication. The Robotic vehicle has a camera mounted on it whose direction can also be controlled using voice commands. The proposed vehicle has a water jet spray which is capable of sprinkling water. The sprinkler can be moved towards the required direction. The advent of new high-speed technology provided realistic opportunity for new robot controls and realization of new methods of control theory. This technical improvement together with the need for high performance robots created faster, more accurate and more intelligent robots using new robots control devices, new drivers and advanced control algorithms. This project describes a new economical solution of robot control systems. The presented robot control system can be used for differentsophisticated robotic applications.

Speech is the primary and most convenient means of communication between humans. Whether due to technological curiosity to build machines that mimic human’s or desire to automate work with machine, research in speech recognition as a first step towards human-machine communication. Speech recognition is the process of recognizing the spoken word to take necessary actions accordingly. The controlling devices of the whole system are Microcontrollers. Speech recognition module, wireless transceiver modules, obstacle detector, lamp, water jet spray, DC motors and buzzer are interfaced to Microcontroller.

When the user fed the voice commands to the speech recognition module, the microcontroller interfaced to it reads the command and sends relevant data of that command wirelessly using transceiver module. This data is received by the transceiver module on the robotic vehicle and feds it to microcontroller which acts accordingly on motors, pump and lamp. The vehicle is mounted with a camera which helps in viewing the live images on TV. Also, the vehicle is capable of detecting obstacles and alerts the user through buzzer. To perform this intelligent task, Microcontroller is loaded with a program written in embedded ‘C’ language.

The main objectives of the project are:

1. Construction of speech based intelligent fire extinguisher vehicle system.
2. Live images feed back through wireless video camera.
3. Obstacle detection capability.
4. Night vision capability.

The project provides the following learning’s:

1. Speech recognition module operation.
2. Interfacing of transceiver modules to Microcontroller.
3. DC motors working and need for motor driver.
4. Interfacing Speech recognition module to Microcontroller
5. Obstacle detector characteristics.

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Configurable Hardware Accelerators for Embedded Systems - Nanoprocessor


 Today’s consumer market is driven by technology innovations. Many technologies that were not available a few years ago are quickly being adopted into common use. Equipment for these services requires microprocessors inside and can be regarded as embedded systems.

Embedded systems are computer systems that are well hidden inside devices. At the time of design, much is known about the operating conditions and requirements. Embedded systems are designed to meet these requirements at a minimal cost. To improve efficiency and throughput, real-time operating systems (RTOSs) can be used. However, RTOSs can create overhead in systems.

Using hardware accelerators can significantly reduce overhead. In this work, we survey the major overhead in embedded systems and identify and analyze some of them in details. We then purpose and discuss nanoprocessors, as configurable hardware accelerators, to lower this system overhead. Our simulation result shows that nanoprocessors can improve system performance at a nominal cost.
Source: University of Maryland
Author: Zong, Lei




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Project topics for ECE in embedded system and microcontroller


 List of Embedded Microcontroller Project Topics

Adaptive Lighting System for Automobiles
Traffic Priority for Ambulance
Distributed Control System
Distributed Input for Microcontroller
Distributed Output System.
Current Loop Modem Communication from MC to MC
Current Loop Modem Communication from MC to PC
Railway Helpline Display
Ultrasonic Alarm for Visually Impaired
Infrared USART For Microcontroller
DTMF Generation using Microcontroller
Data Logger With Graphics Display
Smart Beds
Remote RPM Data Logger
Soil Moisture Controller
Programmable Hopper Controller
Programmable Outgoing Barring System for Telephones
Servo Motor Speed Control using IR Remote
RC5 Decoder
Long Distanced Communication using IR
Programmable Wire Feeder For Welding Robots
High Precision Digital Timer
Temperature Data Logger
Programmable Serial Hub
Level Sensor With 4-20ma O/P
Ultrasonic Vibration Detector
Modular IR Remote Control For Industrial Automation
ECG Data Acquisition through IR
Networking Based on IR
Oscilloscope using Graphics LCD
Heart Beat Monitor And Recorder
RS 485 Extender
RS 485 Repeater
Remote Dish Positioning System
Mark Announcement System using Telephone
Glass Cutting Machine
Blood Dripping System
Telephone Operated Temperature Control System with Remote Control
Air Velocity Monitor
Monitoring System for UPS.
Security System for Remote Access using Telephone Line
Telephone Call Meter with Call Over Alarm
Prepaid Card for Call Taxi
Prepaid Cable Card System
Accident Alertness in Vehicles
UPS Monitoring System
Wire Less Communication From PC To μC
Power Monitoring System for Motors
Motor Monitoring System (V,I,F, Temp, Pf)
Telephone Operated Remote Robot
Respiration Monitor
Moving Message 16 Character Display
EPROM Programmer
Complete Boiler Guard
FRC Meter
Servo Motor Speed Controller with Feedback
Weather Monitoring
Electronic Voting Machine
IR Data Analyzer
Wire Less communication From Pc To Pc
PC To PC communication Through Laser/IR
Stepper Motor controlled By Remote Control
Digital Code Locking System
Message Transfer System Through Telephone
Automatic Pumping System for Vehicles
Door Security System
Dish Positioning using Wiper Motor
Code lock for electrical devices
Noise and vibration detectors
Inbuilt protector for motors
Servo Motor Speed Controller
Fuel Gas Detection Robot In Remote
Temperature controlled System
Automatic Wheel Alignment Robot
Pc to Microcontroller communication Through USART.
Home Automation System
Input Water Sensing And Overhead Tank Filling System
Digital Panel System
Motor Speed Reverse, Jogging, Breaking And Plugging System
Digital Weight Analyzer for Weight Bridge
Automatic Bus Fair System
Digital Frequency Meter
Light Brightness control Depends Upon Sunlight Intensity
Programmable Logic Controller (PLC)
Automatic Panel System
I2C Based Sequential Logic System
I2C Based Storage Oscilloscope
I2C Based Temperature Recording System
I2C Based High Security Data Transmission
I2C EPROM Programmers
I2C Based Running Message System
I2C Based Weather Station Recorder
I2C Based Security Code Locks
I2C Based Wind Speed Recorder
Smart Cards with I2C EPROM
IR adaptor for I2C BUS
Automatic Drilling System.
Satellite Tracking System
Home Appliances Controlled Through Telephone
Robot Operated Through Voice
Automatic Packing Machine
Object Counter
Smart Card Security Systems using I2?? C Devices
Telephone Account Recorder
Temperature Monitoring And Recording Device
Addressable Remote Transmitter Through mains communication.
Solar Tracking System.
Motor Speed control using IR Sensor
DC Motor Speed controlled using Remote
Remote control for Home Appliance
Digital Anemometer
TSR Based Multi Channel Motor Speed Monitor
Telephone Answering Machine
Hack Saw Controller
Electronic Voting Machine using LCD Display and EPROM for Memory Interface
Voice Operated Home Appliance control System
Remote Data Logging using Current Loop Modems
Irrigation control system
Air Leakage Detection Based on Pressure Sensor
Digital Storage Tachometer
Closed Loop control for Servo Stabilizer
Crack Detector
Digital IC Tester
Air and Fuel Ratio control System for Furnace
Fuzzy Logic Based Heat Exchanger with Simulation Result
Digital Clock Based on Real Time Clock(RTC) IC
Automatic Dim Dipper Programmable ON/OFF Timer Control
RF Signal Generator
Depth Measurement Based on LVDT
Wire Position Sensor Encoder and Distance Measurement
Telephone Switching
Automatic Ticketing Machine
Fuzzy Logic Based Flow Control
EPROM Simulators
Quality Control System
Weather Monitor
Object Detection using Ultrasonic Waves
IR Light Dimmer
Automatic Railway Gate Controlling System
Data Logger Based on RS 232 Serial Communication
Voice Operated Robot
Position control System
Wireless Water Level Controller
Weight Balance Cum Controller
Portable Recording System for Monitoring Vehicle Speeds
Vehicle Speed Storage System
Motion Recorder & Play Back
Security Recording Station Cards
Long Distance Communication for I2C EPROM Devices
Traffic Light Priority Control for Emergency Vehicles
Signal Plotter Based on Graphic Led
Paint Spraying Robot
Telephone Operated Machine
Lift control System
Priority for Emergency Vehicles in Traffic Signals
8 - Channel Water Level Controller
Programmable Multi Channel Water Level Controller
Color Detection using Image Processing
Pigment Adding System using Image Processing
Glass Breakage Detector
In-Circuit Programmer for ATMEL Controllers
PC interfaced Data Acquisitions System
Microcontroller Based Machine Monitoring
Watt-Hour-Meter using Microcontroller
Tyre pressure monitoring system
Optical Thermometer
Transmission Sensor For Remote Car Starter
FFT Implementation in Microcontrollers
Temperature Monitoring using Thermocouple
Temperature Monitoring using Thremistor
Precision Temperature Sensing Using RTD
Pressure Transmitter
Wireless Home security System
Tilt Measurement Using Microcontroller
Credit Card Reader
Environmental Monitoring
Cryptography using Microcontroller
Battery Level Monitor
IR Car Detector for Changing Lanes
RH Controller
Oil-Tank Level Indicator
3 phase Monitor
Motor position Control
Conveyer Controller
Multi-Zone Temperature Monitoring
Vibration Sensing System
Motor speed control through power line
Induction motor speed monitoring & control using PWM Technique
Heat exchange controller
SCADA Implementation in microcontroller
Generator Synchronization.
Fire Monitor using Microcontroller
On-load Tap-change for power transformer
Transformer protection system
Automatic humidity control for refrigerator
Scrolling message Display
Multi-channel Temperature Monitor & controller
Embedded Intelligent security System
Power factor monitor & control
Electricity theft Identification using RF Modems
Smart Networking
Voltage - Current, speed monitor through power line
Industrial monitor.
SMS Through landline
Production counter
Automatic dyeing machine
Maximum demand power meter
Automatic Phase Changer
Hospital connecting system
Accident identification system
Embedded lift controller
Intelligent traffic light controller
AVR for alternators
Mileage meter
PC- printer communication through power line
Machine control & fault recognition through telephone
Building automation system.
Incubator control system
Attendance recorder
Power room monitor with data logger
Energy billing through main line.
Automatic pattern cutting M/C in garments
Computer controlled vehicle
Coil - winding machine
EMG monitor
IC-engine monitoring system
Tension control system
Bank locker security system with SMS mobile alert
Centralized wireless monitoring in textile industries
Precise yarn thickness measurement
Automatic car parking controller using RF ID
Automatic weighing Bridge
Soft starter with overload tripping
Accident identification with auto dialer
Automatic shutter control system with intelligent security system
Car security system
Wind Mill Control System
Remote cable disconnection system
Tele monitoring patient through Internet
Wireless security system
Sequential control system for conveyer system
On line weighing balance
PLC based motor protection system
Boiler Controller
Automatic room control system
Telephone interface security system
Digital Taxi Meter
GPS-Based Accident Identification System for Vehicles
GPS Based train or bus or Aircraft Collision Avoidance
Serial Port Security Key
Anesthesia Control System for Medical Application
Maximum Demand Control
Weight& Height Measurement with printer Facility
Telephone Operated Motor Control
Sound Level Meter
Reactive Power Compensation
Locker Security Monitor
Remote control Using Modem
Automatic Bus Fare System Using RFID
Stroboscope based speed control system
Luminosity Meter
Wireless Voting Machine
Wireless Keypad
Video signal transmitter
Remote Security System
Wireless Door Control System
Remote control using GSM
IR Remote Control
Capacitance Meter
Tachometer
Remote Mouse Controlled Automation
Time Annunciation
Secured Data Acquisition System
Single Phase Preventer
Automatic Street Light ON-OFF Controller
Electronic Circuit Breaker
Refrigeration Using Remote Modem Interface
I.V. Drip Through Motor Controller
Telephone Line Monitor
Personal Safety And Tracking Through GPS
Ultrasonic Level Monitor
RF Based Automation
Card Based Message Transferring.
RF Card Based Security Accessing.
RF Based Billing System.
RF Based Data Retrieving System
RF Based House Security System
IVRS Based Data
Status Updating through Card System
Data feeding system through card.
Data Sharing through communication port with LCD Display
Field Identification System
ID Card Identification
Device Switching through Card System.
Device Switching through Finger Reorganization System.
Automatic Voice Dialer
Power Theft Indicator
Phone Book Dialer
Rescue Indicator
Chemical Titration
Load Sharing using DC Motors
Temperature Voice Announcement System


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Low Energy Wake-up Logic Electronics project


 Wake-up logic is responsible for informing instructions in the Window that are waiting to execute, about the availability of their input operands. The conventional method of wake-up consumes a significant percentage of the Instruction Window energy. Reducing the wake-up energy also addresses the Instruction Window hot spot problem caused due to the high power density of the Instruction Window.

In this work, we investigate the energy and power savings of a low complexity scheme that stores the dependence relations between instructions in an array and uses this array to simplify the wake-up. We then present a new wake-up scheme that further reduces the wake-up energy by using a smaller table to store dependence relations and dynamically allocates dependence slots to only those instructions that have dependents in the Window. Our approach leads to savings of up to 50% in wake-up energy and 15% in the Instruction Window power with a very slight decrease in IPC. Also, both the schemes are more scalable than the conventional wake-up scheme with increasing Instruction Window size and Issue Width.
Source: University of Maryland
Author: Kakaraparthi, Himabindu


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Saturday 16 June 2012

5th semester syllabus for Civil Engineering




UNIVERSITY DEPARTMENTS
ANNA UNIVERSITY  :: CHENNAI 600 025
REGULATIONS – 2008

B.E CIVIL ENGINEERING

SEMESTER – V 

CODE NO.  COURSE TITLE 
L  T  P  C 
THEORY  
CE 9301  Structural Analysis – I  3  1  0  4
CE 9302  Design of Steel Structures  3  0  0  3
CE 9303  Foundation Engineering  3  0  0  3
CE 9304  Water Supply Engineering   3  0  0  3
CE 9305  Highway Engineering  3  0  0  3
CE 9306  Hydrology and Water Resources Engineering   3  0  0  3
  Elective-I  3  0  0  3
PRACTICAL
CE 9307  Soil Mechanics Laboratory  0  0  4  2
CE 9308  Highway Engineering Laboratory  0  0  4  2
GE 9371  Communication Skills and Soft Skills Lab  0  0  2  1




CE 9301     STRUCTURAL ANALYSIS-I                          L  T   P    C 
3   1   0     4 
OBJECTIVE: 
To learn the modern method of analysis of beams and frames.

UNIT I   DEFLECTION OF DETERMINATE STRUCTURES                              12
Principles of virtual work for deflections  - Deflections of pin-jointed plane frames and rigid
plane frames –Williott diagram.

UNIT II   FLEXIBLITY MATRIX METHOD                                12
Equilibrium and compatibility - Determinate vs indeterminate structures - Static and Kinematic
–Indeterminacy  - primary structure  - Compatibility conditions  - Analysis of indeterminate pinjointed plane frames, continuous beams, rigid jointed plane frames  

UNIT III  SLOPE DEFLECTION METHOD                                12
Slope deflection equations- Analysis of continuous beams and rigid frames (with and without
sway) - Symmetry and antisymmetry – Simplification for hinged end - Support settlements.

UNIT IV  MOMENT DISTRIBUTION METHOD                               12  
Stiffness and carry over factors  –  Distribution and carry over of moments  -  Analysis of
continuous Beams - Plane rigid frames with and without sway.

UNIT V  MATRIX STIFFNESS METHOD                                          12
Element and global stiffness matrices–  Co-ordinate transformations  –  Rotation matrixCompatibility  matrix –  transformations of stiffness matrices, load vectors and displacement
vectors  –  Analysis of Continuous Beams  –  Analysis of pin-jointed plane frames  and rigid
frames, by direct stiffness method.
 

L: 45 +T: 15     TOTAL: 60 PERIODS    
TEXT BOOKS: 
1.  Bhavikatti, S S,  “Structural Analysis”, Vol.1 and 2, Vikas Publishing House Pvt Ltd., New
Delhi-4, 2003.
2.  B.C.Punmia, Ashok Kumar Jain & Arun Kumar Jain,  “Theory of structures”  –   Laxmi
Publications, New Delhi, 1999.

REFERENCES: 
1.  William Weaver, Jr & James M.Gere,  “Matrix analysis of framed structures”, CBS
Publishers & Distributors, Delhi, 1995
2. Vaidyanathan,R  &Perumal,P, “Structural Analysis”  Vol.1  &  2  Laxmi  Publications, New
Delhi,2004
3.  Ashok K.Jain, “Advanced Structural Analysis”, Nem Chand & Sons, 1996
4. Pandit G.S. and Gupta S.P., “Structural Analysis – A Matrix Approach”, Tata McGraw Hill
Publishing Company Ltd., 2006
5. Reddy .C.S , “Basic Structural Analysis”, Tata McGraw Hill Publishing Company, 2005

CE 9302     DESIGN OF STEEL STRUCTURES                         L   T   P    C 
3    0    0    3 
OBJECTIVE: 
To learn the design of Component and structure using steel and timber material subjected to
external loading.

UNIT I   SECTIONS AND JOINTS                                                               12
Types of steel structures – Properties of rolled steel sections and Light gauge steel sections –
Allowable Stresses as per IS code  - Riveted and bolted  connections –  Failures of joints  –
Single and multiple riveted lap and butt joints under axial and eccentric loading – Strength of
fillet and butt welded joints – Design of riveted and welded joints.

UNIT II   TENSION MEMBERS                                           8
Design of simple and built-up members subjected to tension  –Effective area of angles
connected to gussets.

UNIT III  COMPRESSION MEMBERS                                  8
Maximum slenderness ratio of various compression members  –  IS code provision for
compression members  – Design of simple and built-up compression members with lacings
and battens – Design of column bases.

UNIT IV  BEAMS                                                          11
Design of simple beams based on strength and stiffness as per IS code – Design of built – up
beams and curtailment of flange plates –Flange splice and web splice- Design of plate girder
and stiffeners.
  UNIT V  TIMBER                              6
Study of properties and strength of natural and laminated timber  –  Allowable stresses in
compression, tension and flexure as per IS Code  –  Types of joints with nails and bolts  –
Design of simple compression members as per IS code– Design of beams for strength and
stiffness as per IS code.
TOTAL :  45 PERIODS 
TEXT BOOKS: 
1.  Ram Chandra , Design of  Steel Structures, Vol. I, Standard Book house, New Delhi,
1992.
2. Vazirani  V.N. and Ratwani M.M.,  Steel Structures and Timber Structures, Khanna
Publishers, New Delhi, 1995.
3. Punmia.B.C., Ashok Kumar Jain, Anand Kumar Jain, “Comprehensive Design of Steel
Structures” Lakxmi Publications Pvt. Ltd., 1998.

REFERENCES: 
1. Kazimi S.M.A and Jindal R.S., Design of Steel Structures, Prentice-Hall of India (P) Ltd.,
New Delhi, 1990.
2. Ramamrutham S., Design of Steel, Timber and Masonry  Structures, Dhanpat Rai and
Sons, New Delhi, 1989.
3. Narayanan.R et al., Teaching Resource on Structural Steel Design, INSDAG, Ministry of
Steel Publications, 2002.
4. Duggal.S.K “ Design of  Steel Structures” Tata McGraw Hill Publishing Company, 2005

CE 9303     FOUNDATION ENGINEERING                            L  T   P    C 
3   0    0    3 
OBJECTIVE: 
To impart knowledge on common method of sub soil investigation and design of foundations.
At the end of this course student acquires the capacity to investigate the soil condition and to
select and design a suitable foundation.

UNIT I   SITE INVESTIGATION AND SELECTION OF FOUNDATION                    9
Scope and objectives  – Methods of exploration –  auguring and boring – Wash boring and
rotary drilling  –  Depth of boring  –  Spacing of bore hole  –  Sampling techniques   –
Representative and undisturbed sampling methods - Split spoon sampler, Thin wall sampler,
Stationery piston sampler – Bore log report – Samples Penetration Tests (SPT and SCPT) –
Data interpretation  - strength parameters and  liquefaction potential  - Selection of foundation
based on soil conditions.

UNIT II   SHALLOW FOUNDATION                                      9
Introduction  –  Location and depth of foundation  –  Codal provisions  –  bearing capacity of
shallow foundation on homogeneous deposits – Terzaghi’s formula and BIS formula – factors
affecting bearing capacity – problems – Bearing capacity from in-situ tests (SPT, SCPT and
plate load)  –  Allowable bearing pressure  –  Seismic considerations in bearing capacity
evaluation.  Determination of Settlement of foundations on granular and clay deposits – Total
and differential settlement – Allowable settlements – Codal provision – Methods of minimizing
total and differential settlements.
 
UNIT III  FOOTINGS AND RAFTS                          9
Types of foundation – Contact pressure distribution below footings and raft:  Isolated footing –
Combined footings  –  Types and proportioning  – Mat foundation  –  Types  –  Applications  –
Proportioning – Floating foundation – Seismic force consideration – Codal Provision.

UNIT IV  PILE FOUNDATION                         9
Types of piles and their function – Factors influencing the selection of pile – Carrying capacity
of single  pile in granular and cohesive soil – static formula – dynamic formulae (Engineering
news and Hileys) – Capacity from insitu tests (SPT and SCPT) – Negative skin friction – uplift
capacity- Group capacity by different methods (Feld’s rule, Converse – Labarre  formula and
block failure criterion) – Settlement of pile groups – Interpretation of pile load test (routine test
only)  – Underreamed piles – Capacity under compression and uplift.

UNIT V  RETAINING WALLS                           9
Plastic equilibrium in soils – active and passive states – Rankine’s theory – cohesionless and
cohesive soil – Coulomb’s wedge theory – Condition for critical failure plane – Earth pressure
on retaining walls of simple configurations – Culmann Graphical method  – pressure on the
wall due to line load – Stability analysis of retaining walls.
            TOTAL:  45 PERIODS
  
TEXT BOOKS: 
1.  Murthy, V.N.S, “Textbook of Soil Mechanics and Foundation Engineering”, CBS Publishers
and Distributors, New Delhi, 2007.
2.  Gopal Ranjan and Rao, A.S.R.,  “Basic and Applied Soil Mechanics”, Wiley Eastern Ltd.
New Delhi (India), 2000.
3. Arora, K.R., “Soil Mechanics and Foundation Engineering”,  Standard Publishers  and
Distributors, New Delhi, 2002.
4. Varghese, P.C., Foundation Engineering, Prentice Hall of India (P) Ltd, New Delhi, 2005.

REFERENCES: 
1.  Das, B.M. “Principles of Foundation Engineering” (Fifth edition), Thomson Books, 2003.
2. Swamisaran, “Analysis and Design of Structures  –  Limit state Design”, Oxford IBH
Publishing Co.Pvt.Ltd., New Delhi, 2005.
3. Kaniraj, S.R., “Design aids in Soil Mechanics and Foundation Engineering”, Tata McGraw
Hill publishing company Ltd., New Delhi, 2002.
4. Bowles, J.E., “Foundation analysis and design”, McGraw Hill, 1994.
5. Punmia, B.C., Soil Mechanics and Foundations”, Laxmi Publications Pvt.Ltd. New Delhi,
1995.
6. Venkatramaiah, C.,  “Geotechnical Engineering”, New Age International Publishers, New
Delhi, 2007 (Reprint).  
 

CE 9304     WATER SUPPLY ENGINEERING                  L  T    P    C 
                                                                                                                                 3   0    0    3 

OBJECTIVE:  
Principles and design of water treatment and distribution will be covered.  Relevant BIS codes
and GOI Manuals will be referred.

UNIT I   SOURCES OF WATER                                        9
Public  water supply system  –  Planning,  Objectives,  Design period,  Population forecasting;
Water demand  –  Sources of water and their characteristics,  Surface and Groundwater  –
Impounding Reservoir  -Well hydraulics  –  Development and  selection of source  –  Source
Water quality – Characterization – Drinking Water quality standards.

UNIT II   CONVEYANCE FROM THE SOURCE                      9
Water supply –  intake structures – Functions and drawings; Pipes and conduits for water  –
Pipe materials – Hydraulics of flow in pipes – Transmission main design- Laying, jointing and
testing of pipes  –appurtenances-  Drawings;–  Types and capacity of pumps  –  Selection of
pumps and pipe materials.

UNIT III  WATER TREATMENT                      10
Objectives  –  Unit operations and processes  –  Principles, functions design and drawing of
flash mixers, flocculators, sedimentation tanks and sand filters; Disinfection –THM;  Iron and
Manganese removal, Defluoridation  -  Residue Management  –  Corrosion Control;
Construction, Operation and Maintenance aspects-Layout and Hydraulic Profile of water
treatment plants.

UNIT IV  ADVANCED WATER TREATMENT                       7
Water softening  -  Desalination  -demineralization  –  Adsorption  -Membrane Systems  -
Construction and Operation & Maintenance aspects – Recent advances.

UNIT V  WATER DISTRIBUTION AND SUPPLY TO BUILDINGS                  10
Requirements of water distribution  –  Components  –  Selection of pipes material  -  Service
reservoirs – Functions and drawings – Network design – Economics – Computer applications
–  (Analysis of distribution networks) – Appurtenances – operation and maintenance – Leak
detection.

Principles of design of water supply in buildings – House service connection – Fixtures and
fittings; Systems of plumbing and drawings of types of plumbing.

TOTAL:  45 PERIODS 
TEXT BOOKS:
1.  Garg, S.K., Environmental Engineering, Vol.I Khanna Publishers, New Delhi, 2005
2. Modi, P.N., Water Supply Engineering, Vol. I Standard Book House, New Delhi, 2005
3. Punmia, B.C., Ashok Jain and Arun jain, Water Supply Engineering, Laxmi Publications
(P) Ltd., New Delhi, 2005.

REFERENCES: 
1. Manual on Water Supply and Treatment, CPHEEO, Ministry of Urban Development,
Government of India, New Delhi, 2003.
2.   Syed R.Qasim and Edward M.Motley Guang Zhu, Water Works Engineering Planning,
      Design and Operation, Prentice Hall of India Private Limited, New Delhi, 2006.  

CE 9305    HIGHWAY ENGINEERING                                        L  T    P   C 
  3   0    0    3 
OBJECTIVE: 
To give an overview / basis of highway engineering with respect to the development, planning,
design, construction and maintenance of highways.
                                    
UNIT I   HIGHWAY PLANNING AND ALIGNMENT                                 8
History of road development in India – Classification of highways –  Institutions for Highway
planning, design and implementation at different levels  –  factors influencing highway
alignment  –  Engineering surveys for alignment, objectives, conventional and modern
methods.  

UNIT II   GEOMETRIC DESIGN OF HIGHWAYS INCLUDING HILL ROADS               10
Typical cross sections of Urban and Rural roads  –  Lateral and vertical clearance at
underpasses  –  Cross sectional elements  –  Horizontal curves, super elevation, transition
curves, widening of curves – Sight distances – Vertical curves, gradients, hairpin bends – IRC
standards    

UNIT IIII  DESIGN FLEXIBLE AND RIGID PAVEMENTS                                 9
Design principles – pavement components and their role - Design practice for flexible and rigid
pavements, (IRC methods only).                                                                              

UNIT IV  HIGHWAY CONSTRUCTION MATERIALS, EQUIPMENTS AND PRACTICE 8                                          
Highway construction materials, properties, testing methods – Construction practice including
modern methods, concrete road constructions (problem not included)  - Highway drainage –
Special considerations for hilly roads.          

UNIT V  EVALUATION AND MAINTENANCE OF PAVEMENTS                  10
Pavement distress in flexible and rigid pavement – Pavement evaluation, roughness, present
serviceability index, skid resistance, structural evaluation, evaluation  by deflection
measurements – Strengthening of pavements –Types of maintenance – IRC standards
                      
TOTAL:  45 PERIODS    
TEXT BOOKS: 
1.  Khanna.K and Justo. C.E.G., Highway Engineering, Khanna Publishers, Roorkee,1994.
2.  Kadiyali.L.R.,  Principles and practice of Highway Engineering, Khanna  Technical    
Publications, Delhi, 1997.
3.  Indian Road Congress (IRC), Guidelines and Special Publications of Planning and Design.
                                                                                                                    
REFERENCES:  
1. Blunden W.R and J.A Black, The Land Use Transport Systems, Pergamon Press, 1994.
2. Vazirani, V.N and S.P.Chandola, Transportation Engineering, Vol.1. Khanna Publishers,
Delhi, 1999
3. Clarkson.H Oglesby and R.Gary Hicks, Highway Engineering, John Wileysons , 1992
4. Arora.N.L. Transportation Engineering, New India Publishing Home, 1996.
5. Sharma.S.K Principles , Practices and Design of Highway Engineering, S.Chand and
Company Ltd.,1995
6. O’Flaherty.C.A Highways, Butterworth – Heinemann, Oxford,  2006

 
CE 9306    HYDROLOGY AND WATER RESOURCES ENGINEERING             L  T   P   C 
3   0    0   3 

OBJECTIVE:
To make students understand the various hydrological processes, estimate the surface and
groundwater resources of a drainage basin and to estimate the hydrologic extremes i.e. floods
and droughts and their management.

UNIT I   HYDROLOGIC PROCESSES                                  9
Introduction  –  Hydrometeorology  -  Hydrologic cycle  -  Precipitation and its types  -
measurements - evaporation, evapotranspiration, infiltration and other abstractions.

UNIT II   SURFACE RUNOFF                                     9
Drainage basins  –  hydrologic losses and rainfall excess  –  hydrograph analysis  –  unit
hydrograph  –  S-curve Synthetic unit hydrograph  – Rainfall-runoff models  -  SCS method  –
stream flow measurements.

UNIT III  GROUNDWATER                                        9
Groundwater concepts – properties and types of aquifer – saturated flow – steady state one
dimensional flow – steady state well hydraulics – unsteady groundwater flow – Theis method
and Jacobs method –  Ground Water Estimation by GEC norms  - geophysical exploration  -
sea water intrusion.

UNIT IV  RESERVOIR PLANNING AND MANAGEMENT                                  9
Single and multipurpose projects – dams – types – fixation of storage capacity – Strategies for
reservoir operation – reservoir sedimentation.

UNIT V  FLOODS AND DROUGHTS                        9
Definition of floods and droughts – frequency analysis – flood control measures –  Inter basin
water transfer – drought indices  - drought prone area programme – artificial recharge –  rain
water harvesting.
TOTAL:  45 PERIODS 
TEXT BOOKS:  
1.  Subramanya .K. Engineering Hydrology, Tata McGraw Hill, 2003.
2. Raghunath .H.M., Hydrology, Wiley Eastern Ltd., 2004.

REFERENCES:  
1. Linsley, R.K. and Franzini, J.B., Water Resources Engineering, McGraw Hill International
Book Company, 2000
2. Ven Te Chow, Maidment, D.R. and Mays, L.W., Applied Hydrology, McGraw Hill
International Book Company, 1998.
3.  Todd.D.K., Ground Water Hydrology John Wiley and Sons, New York, 2000.


CE 9307      SOIL MECHANICS LABORATORY                 L  T   P    C 
0   0   4     2 

OBJECTIVE:
At the end of the course student attains adequate knowledge in assessing both Physical and
Engineering properties of soils through laboratory testing procedures.
LIST OF EXPERIMENTS: 
1.  Specific gravity of soil solids
2. Grain size distribution – Sieve analysis
3. Grain size distribution - Hydrometer analysis
4. Liquid limit and Plastic limit tests
5. Shrinkage limit and Differential free swell tests
6. Field density Test ( Sand replacement method)
7. Determination of moisture – density relationship using standard Proctor compaction test.
8. Permeability determination (constant head and falling head methods)
9. Direct shear test in cohesionless soil
10.  Unconfined compression test in cohesive soil
11. Tri-axial compression test in cohesionless soil (Demonstration only)
12. Laboratory Vane Shear test in cohesive soil
13. One dimensional consolidation test (Determination of co-efficient of consolidation only)

TOTAL: 60 PERIODS 
REFERENCES: 
1.  Saibaba Reddy, E. Ramasastri, K. Measurement of Engineering Properties of Soils”, New
age International (P) Ltd, Publishers, New Delhi, 2002.
2. “Soil Engineering Laboratory Instruction Manual”, Published by the Engineering College    
Co-operative Society, Chennai, 1996.
3. Lambe T.W., Soil Testing for Engineers”, John Wiley and Sons, New York, 1990.
4. I.S. Code of Practice (2720): Relevant Parts, as amended from time to time.  


CE 9308     HIGHWAY ENGINEERING LABORATORY                     L T  P  C 
0   0  4  2
OBJECTIVE: 

To learn the principles and procedures of testing of highway materials
I. TESTS ON BITUMEN
1.  Penetration
2. Softening Point
3. Ductility
4. Viscosity
5. Elastic Recovery
6. Storage Stability
 
II. TESTS ON AGGREGATES
1.  Stripping
2. Soundness
3. Proportioning of Aggregates
4. Water Absorption

III. TESTS ON BITUMINOUS MIXES

1. Determination of Binder Content
2. Marshall Stability and Flow values
3. Specific Gravity
4. Density
TOTAL: 60 PERIODS 

REFERENCES: 
1.  Methods for testing tar and bituminous materials , IS 1201  –  1978 to IS 1220  –  1978,
Bureau of Indian Standards
2.  Methods of test for aggregates, IS 2386 – 1978, Bureau of Indian Standards
3.  Mix Design Methods Asphalt Institute Manual Series No. 2, Sixth Edition 1997, Lexington,
KY, USA.

GE 9371     COMMUNICATION SKILLS AND SOFT SKILLS LAB          L  T   P   C 
0   0    2   1 
OBJECTIVES: 
  To equip students of engineering and technology with effective speaking and listening
skills in English.
 To help them develop their soft skills and interpersonal skills, which will make the
transition from college to workplace smoother and help them excel in their jobs.
 To enhance the performance of students at Placement Interviews, Group Discussions and
other recruitment exercises.

A.   Viewing and discussing audio-visual materials
                                                                                                      
1. Resume / Report Preparation / Letter Writing:  2

Letter writing – Job application with Resume - Project report - Email etiquette.

2. Presentation skills:  1

Elements of effective presentation  –  Structure of presentation  -  Presentation tools  –  Body
language.

3. Soft Skills:  1
          
Time management – Stress management – Assertiveness – Negotiation strategies.
 

4. Group Discussion:  1

Group discussion as part of selection process, Structure of group discussion – Strategies in
group discussion – Mock group discussions.
5. Interview Skills:  1
Kinds of interviews – Interview techniques – Corporate culture – Mock interviews. (Career Lab
Software may be used for this section).

NOTE: Career Lab software may be used to learn the skills, to be applied in the practice
session.

B.   PRACTICE SESSION:                                                                                

1.  Resume / Report Preparation / Letter writing: Students prepare their own resume and
report.  4
2. Presentation Skills: Students make presentations on given topics.  8
3. Group Discussion: Students participate in group discussions.  6
4. Interview Skills: Students participate in Mock  Interviews  6

TOTAL:  30 PERIODS
REFERENCES: 
1.  Anderson, P.V, Technical Communication, Thomson Wadsworth, Sixth Edition, New Delhi,
2007.
2. Prakash P, Verbal and Non-Verbal Reasoning, Macmillan India Ltd., Second Edition, New
Delhi, 2004.
3. John Seely, The Oxford Guide to Writing and Speaking, Oxford University Press, New
Delhi, 2004.
4. David Evans, Decisionmaker, Cambridge University Press, 1997.
5. Thorpe, E  and Thorpe, S Objective English, Pearson Education,
      Second Edition, New Delhi, 2007.
6.  Turton, N.D and Heaton, J.B, Dictionary of Common Errors, Addision Wesley Longman



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3rd semester syllabus for all the branches for Anna university, chennai


Hi frnds, you can download IIIrd semester for all the branches for anna university under chennai.

Aerounatical syllabus for 3rd year

Civil Engineering syllabus

Mechanical Engineering syllabus

Electrical Enginering Syllabus

Electronics and communication syllabus

Information Technology syllabus

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Electronics and Instrumentation syllabus
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3rd semester syllabus for Computer Science and Engineering



UNIVERSITY DEPARTMENTS 
ANNA UNIVERSITY :: CHENNAI 600 025 
REGULATIONS – 2008 
CURRICULUM FROM III TO VIII SEMESTERS FOR  
B.E.  COMPUTER SCIENCE AND ENGINEERING 

SEMESTER III     
CODE NO  COURSE TITLE  L  T  P  C 
THEORY 
MA9211  Mathematics III  3  1  0  4
EC9213  Electronic Devices and Circuits  3  0  0  3
CS9201  Design and Analysis of Algorithms  3  0  0  3
CS9202  Database Management Systems  3  0  0  3
CS9203  Programming and Data Structures II  3  0  0  3
CS9204  Computer Architecture  3  1  0  4
PRACTICAL
CS9205  Database Management Systems Laboratory  0  0  3  2
CS9206  Programming and Data Structures Laboratory II  0  0  3  2
CS9207  Algorithms Laboratory  0  0  3  2
 MA 9211               MATHEMATICS III      L T P C 
                           (Common to all branches of BE / B.Tech Programmes)        3 1  0  4       
                                                                                                                           

AIM: 
To facilitate the understanding of the principles and to cultivate the art of formulating
physical problems in the language of mathematics.
OBJECTIVES: 
  To introduce Fourier series analysis which is central to many applications in
engineering apart from its use in solving boundary value problems
 To acquaint the student with Fourier transform techniques used in wide variety of
situations in which the functions used are not periodic
 To introduce the effective mathematical tools for the solutions of partial differential
equations that model physical processes
 To develop Z- transform techniques which will perform the same task for discrete time
systems as Laplace Transform, a valuable aid in analysis of continuous time systems      

UNIT I  FOURIER SERIES  9+3                                                          
Dirichlet’s conditions – General Fourier series – Odd and even functions – Half-range
Sine and Cosine series  –  Complex form of Fourier series  –  Parseval’s identity  –
Harmonic Analysis.

UNIT II         FOURIER TRANSFORM  9+3
Fourier integral theorem  –  Fourier transform pair-Sine and Cosine transforms  –
Properties  –  Transform of elementary functions  –  Convolution theorem  –  Parseval’s
identity.
                                                                                                                                                    
UNIT III         PARTIAL DIFFERENTIAL EQUATIONS  9+3
Formation – Solutions of first order equations – Standard types and Equations reducible
to standard types – Singular solutions – Lagrange’s Linear equation –  Integral surface
passing through a given curve  –  Solution of linear equations of higher order with
constant coefficients.

UNIT IV  APPLICATIONS OF PARTIAL DIFFERENTIAL EQUATIONS  9+3
Method of separation of Variables – Solutions of one dimensional wave equation and
one-dimensional heat equation – Steady state solution of two-dimensional heat equation
– Fourier series solutions in Cartesian coordinates.
                                                                                                                                                
UNIT V  Z – TRANSFORM AND DIFFERENCE EQUATIONS  9+3
Z-transform  –  Elementary properties  –  Inverse Z-transform  –  Convolution theorem  –
Initial and Final value theorems  –  Formation of difference equation  –  Solution of
difference equation using Z-transform.

                                                                                   L: 45, T: 15, TOTAL = 60 PERIODS                          
TEXT BOOK: 
1. Grewal, B.S. “Higher Engineering Mathematics”, Khanna Publications (2007)

REFERENCES:            
1.  Glyn James, “Advanced Modern Engineering Mathematics”, Pearson Education
(2007)
 2.  Ramana B.V., “Higher Engineering Mathematics” Tata McGraw Hill (2007).
3.  Bali N.P. and Manish Goyal, “A Text Book of Engineering” 7
th
 Edition (2007) Lakshmi
Publications (P) Limited, New Delhi.

EC 9213               ELECTRONIC DEVICES AND CIRCUITS                          L T P C 
                                                                                                                              3 0  0 3

AIM: 
The aim of this is to introduce the concept of Circuit theory, Electronic Devices and their
applications.
UNIT II  CIRCUIT ANALYSIS TECHNIQUES  9
Linearity and Superposition, Sources Transformation, Thevinin  and Norton      
Equivalent Circuits, Maximum Power Transfer, Delta-Wye Conversion, Single Phase
and 3 Phase Circuits-Power Factor-Power-Concept of Phasor Diagrams.

UNIT III  SEMICONDUCTOR  DEVICES  9
PN-Junction Diode- Drift and Diffusion Current-Zener Diode-Zener Regulator-BJT- V-I
Characteristics-CE Configuration-Current Equation h-Parameter Model.JFET-  V-I
Characteristics- Current Equation- Transconductance MOSFET-Types DMOS,  EMOS –
V-I Characteristics-Moll Current Equation Equalitine Treatment only.

UNIT IV  RECTIFIER, AMPLIFIER AND OSCILLATOR  9
FWR-Filter-Capacitors Input Filter-Choke Input Filter – CE  Amplification with and    
without feedback  –  Analysis and Frequency Response  –  CS  MOSFET Amplifier  -    
Analysis

UNIT V  OPERATION AMPLIFIER   9
Introduction of an Inverting Amplifier, Non Inverting Amplifier, Basic Application of
Operation Amplifier: Subractor, Summing Amplifier, Digital to Analogue Convertor,  Low
Pass Filter, First Order Low Pass Filter, First Order High Pass Filter, Integrator,  
Differentiator.
                   TOTAL: 45 PERIODS                                                                                                          
TEXT BOOKS:
1.  David A.Bell “Electronic Devices and Circuit”,Oxford press-2008.
2. Robert T.Paynter “Introductory Electronic Devices and Circuits”, Pearson  
      Education-Sixth Edition

REFERENCES:
1.  Denal A.Neamar,  “Electronic Circuit Analysis and Design”,  Second Edition,  Tata
MCGraw Hill, 2002.
2.  Adel S.Sedia Keanath  “C  with Micro Electronic Circuit”-Fourth Edition-Oxford
University Press-1998.

CS 9201            DESIGN AND ANALYSIS OF ALGORITHMS           L T P C 
                                                                                                                              3  0  0 3     
AIM: 
The aim is to introduce the basics of algorithm design paradigms and analysis to enable
designing of efficient algorithms.

OBJECTIVES: 

  •   To introduce the basic concepts of algorithm analysis  
  •  To introduce the design paradigms for algorithm design 
  • To introduce the basic complexity theory. 

 
UNIT I  PRELIMINARIES  9
The Role of Algorithms in Computing-Getting Started-Growth of  Functions  –
Recurrences-The Substitution Method-  The Recurrence Tree Method-The Master
Method  -Probabilistic Analysis and Randomized Algorithms-The Hiring Problem-
Random Variables-Randomized Algorithms

UNIT II  DESIGN TECHNIQUE I  9
Quicksort-Description-Performance-Randomized version-Analysis.Sorting in linear timeLower bounds for sorting-Counting sort-Medians and order statistics-Minimum and
maximum-Selection in expected linear time- Selection in worst-case linear time-Dynamic
Programming – Matrix chain multiplication –Elements of Dynamic programming- Longest
common sequences.

UNIT III  DESIGN TECHNIQUE II  9
Greedy Algorithms-Activity selection problem-Elements of  Greedy StrategyHuffman code.Matrix Operations-Properties of matrices-Strassen's  algorithmSolving systems of linear equations-Inverting matrices.

UNIT IV  APPLICATIONS  9
Linear Programming-Standard and slack forms-Formulating problems-Simplex
algorithm-Duality-Initial basic feasible solution  - String Matching-Naive string matching
algorithm-Knuth-Morris-Pratt algorithm.

UNIT V  NP PROBLEMS  9
NP-completeness-Polynomial time-Polynomial-time verification-NP-completeness and
reducibility-NP-completeness proofs  -  NP-completeness problems. Approximation
Algorithms-The vertex-cover problem-The traveling-salesman problem.

         TOTAL: 45 PERIODS   
TEXT BOOK: 
1.  Thomas H.Cormen, Charles E.Leiserson, Ronald L.Rivest, Cliford Stein,
      “Introduction to Algorithms”, Second Edition, Prentice Hall of India, 2007.

REFERENCES: 
1.  Jon Kleinberg, Eva Tardos, “Algorithm Design”, Pearson Education, 2006.
2. Michael T. Goodrich, Toberto Tamassisa, “ Algorithm Design: Foundations, Analysis
and Internet Examples”,   Wiley Student Edition, 2007.
3. Anany Levitin, “Introduction to Design and Analysis of Algorithms”, Pearson
Education, 2003.

CS 9202               DATABASE MANAGEMENT SYSTEMS                       L T  P C 
3  0  0  3 

AIM: 
To provide a strong foundation in database technology and an introduction to the current
trends in this field.
OBJECTIVES:

  • To learn the fundamentals of data models and to conceptualize and depict a database system using ER diagram. 
  •  To make a study of SQL and relational database design. 
  •  To understand the internal storage structures using different file and indexing techniques which will help in physical DB design. 
  • To know the fundamental concepts of transaction processing-  concurrency control  techniques and recovery procedure. 
  •  To have an introductory knowledge about the  Storage and Query processing techniques 

 UNIT I  INTRODUCTION  9
Purpose of Database System -– Views of data – Data Models – Database Languages ––
Database System Architecture  –  Database users and Administrator  –  Entity–
Relationship model – E-R Diagrams -- Introduction to relational databases
 UNIT II  RELATIONAL MODEL  9
The relational Model  –  The catalog-   Types–  Keys  -  Relational Algebra  –  Domain
Relational Calculus – Tuple Relational Calculus  - Fundamental operations – Additional
Operations-  SQL fundamentals  -   Integrity  –  Triggers  -   Security  –  Advanced  SQL
features –Embedded SQL– Dynamic SQL-  Missing Information–  Views –  Introduction
to Distributed Databases and Client/Server Databases
 UNIT III  DATABASE DESIGN  9
Functional Dependencies – Non-loss Decomposition – Functional Dependencies – First,
Second, Third Normal Forms, Dependency Preservation  – Boyce/Codd Normal Form-
Multi-valued Dependencies and Fourth Normal Form  –  Join Dependencies and Fifth
Normal Form

UNIT IV  TRANSACTIONS  9
Transaction Concepts  - Transaction Recovery – ACID Properties – System Recovery –
Media Recovery – Two Phase Commit  -  Save Points – SQL Facilities for recovery –
Concurrency  –  Need for Concurrency  –  Locking Protocols  –   Two Phase Locking  –
Intent Locking – Deadlock- Serializability – Recovery Isolation Levels  – SQL Facilities
for Concurrency.    
                                                                                                                                                                                                        
UNIT V  IMPLEMENTATION TECHNIQUES  9
Overview of Physical Storage Media – Magnetic Disks – RAID – Tertiary storage – File
Organization  –  Organization of Records in Files  –  Indexing and Hashing  –Ordered
Indices – B+ tree Index Files – B tree Index Files – Static Hashing – Dynamic Hashing –
Query Processing Overview  –  Catalog Information for Cost Estimation  –  Selection
Operation – Sorting – Join Operation – Database Tuning.            
      
 TOTAL: 45 PERIODS   

TEXT BOOKS: 
1.  Abraham Silberschatz, Henry F. Korth, S. Sudharshan, “Database SystemConcepts”,
Fifth Edition, Tata McGraw Hill, 2006.
2. C.J.Date, A.Kannan, S.Swamynathan, “An Introduction to Database
Systems”, Eighth Edition, Pearson Education, 2006.
  
REFERENCES: 
1.  Ramez Elmasri, Shamkant B. Navathe, “Fundamentals of Database Systems”,
FourthEdition , Pearson / Addision wesley, 2007.
2. Raghu Ramakrishnan, “Database Management Systems”, Third Edition, McGraw
Hill, 2003.
3. S.K.Singh, “Database Systems Concepts, Design and Applications”, First Edition,
Pearson Education, 2006.

CS 9203                  PROGRAMMING AND DATA STRUCTURES II             L T P C  
                                                                                                                                 3 0 0  3 

AIM: 
The aim is to introduce the concept of Object Oriented Programming and analyse  the
implementation  of  Advanced Data Structures using Object Oriented Programming
Language.

OBJECTIVES: 

  •   To introduce the concepts of Object Oriented Programming language.  
  • To introduce the concepts of Templates and Error Handling. 
  •  To introduce the concepts of Advanced Data Structures. 


UNIT I  OOP  CONCEPTS  9
Introduction  –  Learning C++  -  Design of C++  -  History and Use  –  Programming
Paradigms – Standard Library – Types and Declaration – Pointers, Arrays, Structures –
Expressions and Statements – Functions – Namespaces and Exceptions – Source Files
and Programs  – Classes  – User-Defined Types  – Objects  – Operator Overloading  –
Operator Functions – Complex Number

UNIT II  INHERITANCE  9
Type Conversion Operators  –  Friends  –  Large Objects  –  Essential Operators  –
Subscripting – Function Call – Dereferencing – Increment and Decrement – String Class
– Derived Classes – Abstract Classes – Design of Class Hierarchies

UNIT III  TEMPLATES AND EXCEPTIONS  9
Templates – Function Templates – Error Handling – Grouping of Exceptions – Catching
Exceptions  –  Resource Management  – Multiple Inheritance  –  Access Control  –  Run
Time Type Information

UNIT IV  DATA STRUCTURES  9
OO Perspective of List, Stack, Queue, and Search Tree ADTs – AVL Trees – Red Black
Trees – Splay Trees – B-trees – Priority Queues (Heaps)
  
UNIT V  SET AND GRAPHS  9
Disjoint Set ADT  – Graph Algorithms  –  Topological Sort  –  Shortest-Path Algorithm  –
Network Flow Problems – Minimum Spanning Tree – Applications of Depth-First Search

     TOTAL: 45 PERIODS   
TEXT BOOKS: 
1. Bjarne Stroustrup, “The C++ Programming Language”, 3rd ed., Pearson Education,
 2007.
2. Mark Allen Weiss, “Data Structures and Algorithm Analysis in C++”, 2nded., Pearson Education, 2005.

REFERENCES: 
1. Ira Pohl, “Object-Oriented Programming using C++”, 2nded., Pearson Education,  1997.
2. Goodrich, Michael T., Roberto Tamassia, David Mount. “Data Structures and  Algorithms in C++”. 7th
 edition, Wiley, 2004.

CS 9204                       COMPUTER ARCHITECTURE                          L T P C 
                                                                                                                                 3 1 0  4 
  
AIM:   
To understand the organization of a computer, and the hardware-software interface.

OBJECTIVES:  
  To know about the various components of a computer and their internals.
 To comprehend the importance of the hardware-software interface, and instructionset architecture.
 To understand the architectural features of superscalar processors.

UNIT I  BASIC STRUCTURE OF COMPUTERS  9+3
Functional units  –  Basic operational concepts  –  Bus structures  –  Performance and
metrics  –  Instructions and instruction sequencing  –  Hardware  –  Software Interface  –
Instruction set architecture – Addressing modes – RISC – CISC  - ALU design – Fixed
point and floating point operations.

UNIT II  BASIC PROCESSING UNIT  6+3
Fundamental concepts – Execution of a complete instruction – Multiple bus organization
– Hardwired control – Micro programmed control – Nano programming.

UNIT III  PIPELINING AND ILP  12+3
Basic concepts – Data hazards –  Instruction hazards –  Influence on instruction sets –
Data path and control considerations  –   Performance considerations  –  Exception
handling – Advanced concepts in pipelining –Exploitation of more ILP – Hardware and
software approaches  –  Dynamic scheduling  –  Speculation  –  Compiler approaches  –
Multiple issue processors.
  
UNIT IV  MEMORY SYSTEM  9+3
Basic concepts  –  Semiconductor RAM  –  ROM  –  Speed  –  Size and cost  –    Cache
memories  –  Improving cache performance  –  Virtual memory  – Memory management
requirements – Associative memories – Secondary storage devices.

UNIT V  I/O ORGANIZATION  9+3
Accessing I/O devices – Programmed Input/Output -Interrupts – Direct Memory Access
– Buses – Interface circuits – Standard I/O Interfaces (PCI, SCSI, USB), I/O devices and
processors.                            

                                                                                 L: 45, T: 15, TOTAL = 60 PERIODS 
TEXT BOOKS: 
1.  Carl Hamacher, Zvonko Vranesic and Safwat Zaky, “Computer Organization”, Fifth
Edition, Tata McGraw Hill, 2002.
2. David A. Patterson and John L. Hennessy, “Computer Organization and Design: The
Hardware/Software interface”, Third Edition, Elsevier, 2005.

REFERENCES: 
1. William Stallings, “Computer Organization and Architecture  –  Designing for
Performance”, Sixth Edition, Pearson Education, 2003.
2. John P. Hayes, “Computer Architecture and Organization”, Third Edition, Tata
McGraw Hill, 1998.
3. V.P. Heuring, H.F. Jordan, “Computer Systems Design and Architecture”, Second
Edition, Pearson Education, 2004.
4. Behrooz Parhami, “Computer Architecture”, Oxford University Press, 2007.

CS 9205           DATABASE MANAGEMENT SYSTEMS LABORATORY             LT P C       
                                                                                                                                 0 0 3 2 
AIM:
The aim of this laboratory is to inculcate the abilities of  applying the principles of
database management systems. The course aims to prepare the students for projects
where a proper implementation of databases will be required.

OBJECTIVES: 
  The students will be able to create a database file
 The students will be able to query a database file
 The students will be able to append and update a database file

EXPERIMENTS IN THE FOLLOWING TOPICS: 
1. Data Definition, Manipulation of base tables and views
2. High level programming language extensions.
3. Front end tools
4. Forms
5. Triggers
6. Menu Design
7. Importing/ Exporting Data.
8. Reports.
9. Database Design and implementation (Mini Project).
TOTAL: 45 PERIODS     11
CS 9206         PROGRAMMING AND DATA STRUCTURES LABORATORY II  L T P C 
                                                                                                           0  0 3  2 

AIM:  
To implement different data structures and their algorithms for storing, accessing and
manipulating data using an object oriented programming language.
OBJECTIVES:  
  To implement the concepts of object oriented programming.
 To implement different data structures using object oriented programming language.
 To use standard template library in the implementation of standard data structures.

EXPERIMENTS IN THE FOLLOWING: 
1.   Implementation of any one of the following List, Stack, Queue ADTs, binary search
     trees.
2.  Implement data abstraction by separate compilation of implementation (.h & .cpp)  
     and  application (main.cpp).

3.  Use of standard Template Library: Strings, containers.
4.  Use of STL: Iterators.
5.  Operator Overloading.
6.  Templates.
7.  Exception handling, Class Hierarchies.
8.  AVL Tree.
9.  Splay Tree.
10. B Tree.

11. Graph algorithms.
TOTAL: 45 PERIODS   

CS 9207                       ALGORITHMS LABORATORY                       L T P C 
                                                                                                                                0  0 3 2 
AIM: 
To understand the running time of algorithms.

OBJECTIVES:  
  To understand the need for analyzing algorithms.
 To understand that algorithms execution speed cannot be expressed as a fixed time
quantity.
 To know the ways of estimating time speed for different algorithms
 To study about applications of the different algorithms.
 To know about the various tools available for analyzing algorithms.

IMPLEMENT THE FOLLOWING 

1.  Simple recursive programs like Towers of Hanoi ,Generating Permutations.
2. Sort algorithms.
3. Randomized quick sort algorithm.
4. Merge sort using Divide and Conquer approach.
5. Generation of Huffman code using Greedy Approach.
6. Floyd's Algorithm -Dynamic Programming.
7. Simplex Method.
8. String matching algorithms.
9. Study of Benchmarking algorithms.
10.  Study of Algorithms Tools.
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