PG - Lesson Plan

M.Tech - I year - II Semester – Structural Engineering ST 0502 Reinforced Concrete Structures (Theory and Practice) 3 2 0

M.Tech Structural Engineering- II Semester Lesson Plan -II semester 2010-11

PURPOSE To get exposed to the design of structures and structural elements using various codes of practice.

INSTRUCTIONAL OBJECTIVES • To understand the basic concepts of reinforced concrete members • To develop an idea about the design of special R.C. elements • To familiarize with design and detailing of flat slabs and flat plates • Limit analysis of concrete beams and cast in site frames • To introduce the detailing and strengthening of existing structure • To test RC Beams in laboratory

Lecture No.

Topics to be covered Number of hours planned

Reference

1 Introduction – overview of syllabus 1 1,2,3,4,5,6 INTRODUCTION 2 Basic concepts- flexural behavioir 1 1,2,3,4

Basic concepts- shear behavioir 1 1,2,3,4 Basic concepts- torsional behavioir 1 1,2,3,4

3 Combination of flexure, shear, tosion and axial loading

2 1,2,3,4

4 Computation of deflection- as per IS 456-2000 2 1,2,3,4 5 Computation of crack width- as per IS 456-2000 2 1,2,3,4 DESIGN OF SPECIAL R.C. ELEMENTS 6 Design of slender columns- SP16 2 1,2,3,4 7 Design of ordinary walls 1 1,2,3,4 8 Design of shear walls 2 1,2,3,4 9 Design of Corbels 1 1,2,3,4 10 Design of Deep Beams 1 1,2,3,4 11 Design of grid floors 3 1,2,3,4 TEST I

Weightage -25/70

Lecture No.

Topics to be covered Number of hours planned

Reference

FLAT SLABS AND FLAT PLATES 12 Design of flat slabs- IS 456-2000 3 1,2,3,4 13 Design of spandrel beams 2 1,2,3,4 14 Design of slabs based on yield line theory 4 1,2,3,4 15 Hillerborg strip method 2 1,2,3,4 QUIZ I Weightage -5/70 INELASTIC BEHAVIOUR OF CONCRETE

BEAMS

16 Moment- rotation curves 1 1,2,3,4 17 Moment re -distribution in beams 2 1,2,3,4 18 Design of frames 2 1,2,3,4 ` DESIGN AND DETAILING OF

STRUCTURES

19 Detailing as per IS 456 1 1,2,3,4 20 Detailing as per IS 13920 2 1,2,3,4 21 Fire resistance considerations 1 1,2,3,4 22 Strengthening of existing structures 3 1,2,3,4 TEST 2 Weightage -25/70 TESTING 23 Demonstration of testing procedure-Rebound

hammer, UPV tester 1 5

24 Demonstration of testing of RC beams 1 5 Term paper

Weightage- 10/70

25 Analysis, Design and Detailing of a typical Moment resistance frame using STAAD.Pro

3 6

References

1. Varghese.P.C., "Advanced Reinforced Concrete Design", Prentice Hall of India, 2001

2. Purushothaman.P. "Reinforced Concrete Structural Elements", Behaviour, Analysis and Design. Tata Mc Graw Hill 1986

3. Pillai.S.V and Menon.D, "Reinforced Concrete Design", Tata McGraw Hill Book Co., first Edition, 2002

4. Park.R & Paulay.T, "Reinfroced Concrete Structures", John Wiley and Sons, 1975

5. Structural Engineering Lab manual 6. STAAD.Pro Help

Prepared by Approvedby Mr.A.Balamurugan Dr.R.Annadurai HOD/CIVIL

SRM University Dept. of Civil Engineering

LESSON PLAN

Sub.:ST0504-ADVANCED STEEL STRUCTURES Class:M.Tech-Structures-II Sem

S.No. Topics To be Covered No.of.Hours References

1 GENERAL Beams subjected to biaxial bending - Built-up Purlins - Various types and design

4 2,3,4,5,6,7

2 Design of Wind girders 2 2,3,4,5,6,7 3 Beam-columns - With various support

conditions- Design of foundations-with lateral forces.

4 2,3,4,5,6,7

CYCLE TEST 4 CONNECTIONS

Bearing type joints - unstiffened and stiffened seat connections

4 2,3,4,5,6,7

5 Moment resisting connection of brackets-riveted and welded

4 2,3,4,5,6,7

6 Semi-rigid connections. 1 2,3,4,5,6,7 7 TOWERS

Basic structural configurations - free standing and guyed towers - loads on towers - wind loads

2 2,3,4,5,6,7

8 Design criteria for different configurations and transmission line towers

4 2,3,4,5,6,7

9 Foundation design 2 2,3,4,5,6,7 10 PLASTIC ANALYSIS

Theory of plastic bending - Plastic hinge concept - Mechanism method

2 1,3,5,7

11 Application to continuous beams -Plastic moment distribution -

4 1,3,5,7

12 Application to portal frames 2 1,3,5,7 13 Analysis of Gable frames - instantaneous

centre of rotation - Connections 2 1,3,5,7

14 INDUSTRIAL BUILDINGS Industrial buildings-braced and unbraced

4 2,3,4,5,6,7

15 Gable frames with gantry 2 2,3,4,5,6,7 16 Rigid industrial frames 4 2,3,4,5,6,7 17 Fire resistant design-Fatigue resistant design 1 2,3,4,5,6,7 MODEL EXAM

REFERENCE BOOKS 1. Neal. B.G., "Plastic Method of Structural Analysis", 1975 2. Lothers, "Structural Design in Steel", Prentice Hall, 1999 3. Ramchandra, "Design of Steel Structures", Vol I & II Standard Book House, Delhi,

1975 4. Edwin.H.Gaylord, Charles.N.Gaylord, James. E. Stallmeyer, "Steel Structures",

McGraw Hill, New Delhi, 1980 5. Duggal.S.K, "Design of Steel Structures", McGraw Hill New Delhi, second Edition 6. Arya.S and Ajmani.J.L, "Design of Steel Structures", Nem Chand & Bros, Roorkee 7. Dayaratnam P. "Design of Steel Structures," Wheeler and Co, New Delhi. 1999

Prepared By Approved By Mr.S.Pradeep Dr.R.Annadurai. HOD / CIVIL

C ST0506 FINITE ELEMENT METHOD WITH COMPUTER APPLICATION 3 0 2 4 PURPOSE To know various element formulations, use them for analysis including programming.

INSTRUCTIONAL OBJECTIVES

• To introduce various methods of formulation • To formulate one, two and three dimensional element properties • To impart knowledge of application of method to field problems • To apply finite element method to dynamic and stability problems • • To introduce structural analysis software

INTRODUCTION Boundary value problems - Concept of piecewise approximation - Variational Methods - Rayleigh Ritz method - Methods of weighted residual - Collocation, sub domain, Galerkin, least square methods - Finite Difference Method - Concept of Finite element method - Displacement model, stress model and hybrid models - principle of minimum potential energy - Principle of minimum complimentary potential energy - Hellinger - Reissner's principle - Steps in Finite Element Analysis.

BAR AND TRIANGULAR ELEMENT PROPERTIES (2D) Displacement field - compatibility and convergence criteria - Bar elements - Analysis of framed structures - 2D and 3D truss and Beam elements - Analysis of plane strain / plane stress conditions - CST, LST and QST elements.

RECTANGULAR ELEMENT PROPERTIES (2D) Lagrangian, serendipity and Hermitian family elements - Rectangular and quadrilateral element - degenerated elements - sub-Iso-super parametric elements - numerical integration techniques - Isoparametric elements - axisymmetric elements.

ELEMENT PROPERTIES (3D) 3D brick elements - eight and twenty nodded elements - plate bending elements - thin plates - Mindlin's plate theory - thick plate elements.

APPLICATION TO FIELD PROBLEM Application of finite elements analysis - Torsion.

PRACTICALS Introduction of structural Analysis software Programming in Excel for model analysis-Modelling using STAAD and SAP and dynamic analysis-RCC and Steel design-Finite element modeling.

REFERENCE BOOKS

1. Chandrapatla R.T. and Belagundu, A.D., "Introduction to Finite Elements in Engineering", Second Edition, Prentice Hall of India, 1997

2. Gallagher R.H, "Finite Element Analysis - Fundamentals", Prentice Hall Inc. 1975

3. Zienkiewicz. O.C., "Fundamentals of Finite Element Method", McGraw Hill Book Company Fourth Edition., 1987

4. Hinton & Owen, "Finite Element Programming", Academic Press, London, 1977 5th Edition

5. Krishnamoorthy C.S., "Finite Elements Analysis - Theory and Programming", Tata McGraw Hill publishing company limited, New Delhi 1986

6. Schwarz, "Finite Element Methods", Academic Press, 1988 7. Bruce Irons and Shrire.N., "Finite Element Primer", Ellis Howood Limited,

1983 8. Zienkiewicz.O.C and R.L Taylor, "The Finite Element Method", Vol.1, Basic

Formulation and linear problems, Mc Graw Hill Limited, U.K. 1989 9. Bathe K.J, "Finite Element Procedures in Engineering Analysis", PHI, New

Delhi, 1990 10. Cook R.D., Malkus D.S. and Plesha M.E., 'Concepts and Applications of Finite

Element Analysis', John Wiley, Third Edition, New york, 1989 11. Rajesekaran .S., 'Finite Element Methods in Engineering Design', Wheeler

Publishers, Allahabad, 1999 12. Krishnamoorthy, C.S and Rajeev S., "Computer Aided Design", Narosa

Publishing House, New Delhi 1991

Prepared By Approved By Dr.K.S.Sathyanarayanan Dr.R.Annadurai HOD/Civil

SRM UNIVERSITY DEPARTMENT OF CIVIL ENGINEERING

LESSON PLAN LAKSHMIPATHY

Sub Code : ST 0508 Subject Name : Experimental Techniques & Instrumentation Class : M.Tech (Structural Engg.) Year / Sem : I year /II Semester Date : 2010 – 2011 Jan to May 2011 Lecture Number

Topic Reference / Books

1. Overview of the syllabus – Instroduction to strain measurement – Terminologies – principles used in the manufacturing of gauges – Types – Description performance – simple and multiple lever – gauges etc.

4

2. Mechanical gauges – contd. Berry’s gauge Tucker mann’s gauge, Pneumatic gauge deforest scratch gauge – Demech gauge – Whitt more gauge, Jenkin’s gauge – Un bonded Electrical strain gauges.

1,2,4

3. Electrical Resistance gauges – wire – foil Types – group of strain gauges – Rosettes, Different configurations, Analysis of strain gauges Data – Analytical solution.

1,2,3,4

4 Gauges sensitivity – gauge factor – simple strain gauge Circuits – application.

1,2,4

5 Strain gauge Abalysis – Murphy’s construction – Strain circle problems.

1,2,4

6 Photo elasticity – plane polarized light circularly polarized light, polari scope.

2,4

7 ISO clinics ISO chromatics – working of polari scope application.

2,4

8 Calibration problems 2,4 9 Hydraulic Jacks and pressure Gauges – electronic load

cells – proving rings – calibration of Testing M/C. 4

10 Vibration measurements – Characteristics of vibrations LVDT, Transducers for velocity and acceleration measurement.

Handout

11 Vibration meter – seismograph Vibration analyses – Electro dynamic exciter – Display and recording of signals – CRO – xy plotter strip chart reorder – Digital Data Acquisition System principle and application.

Handout

12 Acoustics – wind flow measurement pr. transducer – Sound level meter wind Tunnel and Testing of transmission line tower.

Handout and SERC Brochure

13 Model Analysis – need objective terminologies – similitude, primary and secondary scale factors methods of model studies – difficulties – materials for model study.

3 & 4 Indeterminate structural analysis by Kinney

14 Scale factors – Mechanics approach, slides on Direct model study.

“

15 Dimensional Analysis, Buckingham II – Theorem – applications and problems on Direct model analysis.

“

16 Indirect model Analysis – Defragmenters and description.

“

17 Materials for model analysis. Model Problems on model analysis

18 Distress in structures – diagnosis of Distress in structures – crack observation and measurement.

Handout SRM Lecture Notes

19 Corrosion of reinforcement in concrete. “ 20 Half cell construction and use – damage assessment. “ 21 Controlled blasting for demolition Engineered

demolition techniques. “

22 Non destructive testing method, Load testing of structures – components, Bridge and Buildings.

4 and Handout

23 Rebound Hammer – Ultra sonic testing – principles and application.

4 and Handout

24 Brittle coatings – Introduction Handout 25 Brittle coatings – Handout 26 Brittle coatings 27 Holography – use of lasers in structural testing. 28 Test – I 29 Test – II 30 Test – III 31 Quiz - 1 32 Quiz - 2

Reference / Test Books

1. Sadhu Singh, “Experimental stress Analysis,” Khanna publishers, New Delhi.

2. Dalley and Riley, “Experimental stress Analysis, Tata Mc Grawhill Co Ltd.

3. Ganesan T.P., “Model Analysis of structures “University press Hyderabad.

4. Lakshmipathy M. “Experimental stress Analysis,” Lecture Notes Anna

University.

Prepared by Approved by Dr.M.LAKSHMIPATHY Dr.R.Annadurai HOD / CIVIL

Electives

LESSON PLAN ST 0702 Aseismic Design of Structures Lesson No Topics Reference Book No

1 Introduction to Engineering Seismology 1,2 2 Various theories 2,3 3 Theory of structural vibration 1,2,3 4 Response spectrum 2,4 5 Past earthquakes in India and world 1,3 6 structural disasters 2,3,4 7 Performance of structural materials under

cyclic loading- masonry –steel –concrete -soil

4,5

8 Various structural systems in steel and concrete for horizontal load transfer

2,3,4

9 Structural systems behavior and limitations 3,4,5 10 Braced frame –rigid frame –shear walls-

Wall framed systems- 1,2,3

11,12,13,14 Seismic design philosophy - Design spectrum - ductility based analysis - capacity design concepts - pushover analysis concepts

3,4,5

15,16,17 Energy based system-Layout and planning of buildings in seismic zones

2,3

18,19,20 Load calculation by different methods- regular and irregular buildings - centre of rigidity and

1,2,3

21,22,23 centre of mass - torsion. Computing storey shear - drift - using provisions of Bureau of Indian Standards (BIS) codes.

2,3

24,25 Ductility based design 3,4 26,27 Detailing for seismic performance 4,5 28,29 Provisions of IS: 13920 for RCC structural

elements, frames 1,2,3

30 shear walls - design of shear walls. 2,3,4 31 Seismic retrofitting and isolation 1,2,3 32 Base Isolation techniques 2,3,4

33 Active and Passive control devices 2,3,4 34,35 Damage Assessment techniques 1,2,3

36,37,38 safety analysis and rating 2,3 39,40,41 Reliability assessment 3,4,5

42,43 Retrofitting techniques 2,4,5 44,45 materials 1,2,3

Reference books

1.Paulay, T. and Priestly, M.N.J., "Aseismic Design of Reinforced Concrete and Masonry Building", John Wiley and Sons, 1987

2. Course Notes, "Structural Design for Dynamic Loads", SRM Engineering College, 2002

3. Allen.R.T., and Edwards.S.C, "Repair of Concrete Structures" Blackie and Sons, U.K. 1987

4. Lecture Notes, "Health Monitoring of Structures - A Proactive Strategy", ISTE Sponsored course held at SRMEC, Jan 2003

5. Guidelines for - "Improving Earthquake Resistance of Housing", Building Materials and Technology Promotion Council, Ministry Of Urban Development and Poverty Alleviation, Department of Urban Employment and Poverty Alleviation, Government of India, New Delhi, 1999 - 2000

Prepared By Approved By Dr.S.Elavenil Dr.R.Annadurai. HOD / CIVIL

M.Tech I year - Construction Engineering and Management - II Semester

SRM University Faculty of Engineering & Technology

Department Of Civil Engineering M.Tech Construction Engineering and Management

CN0502 Construction Planning,Scheduling and Control 3 2 0 4

Lesson Plan

Sl.No Topics To Be Covered No Of Hrs

Reference

UNIT I 1 Basic Concepts In the Development of Construction

Plans 2 1,2

2 , Choice of Technology and Construction Method , 2 1,2 3 Defining Work Tasks , Defining Precedence

Relationships Among Activities 2 1

4 Estimating Activity Duration. Estimating Resource Requirements for Work Activities ,Coding Systems

2 1

UNIT II 5 Relevance of Construction Schedules , The Critical

Path Method , Calculations for Critical Path Scheduling ,

4 1,2

6 Activity Float and Schedules ,Presenting Project Schedules Critical Path Scheduling for Activity-on-Node and with Leads. Lags. And Windows .

3 1

7 Calculations for Scheduling with Leads, Lags and Windows , Resource Oriented

3 1

8 Scheduling , Scheduling with Resource Constraints and Preceedences

3 1

9 Use of Advanced Scheduling Techniques , Scheduling with Uncertain Duration

2 1

UNIT III 10 The Cost Control Problem ,The Project Budget ,

2 1

11 Forecasting for Activity Cost Control , Financial Accounting Systems and Cost Accounts ,

2 1

12 Control of Project Cash Flows , Schedule Control ,Schedule and Budget Updates , Relating Cost and Schedule Information.

2 1

UNIT IV 13 Quality and Safety Concerns in Construction

,Organizing for Quality and Safety , Work and Material Specifications ,

2 1

14 Total Quality Control ,Quality Control by Statistical Methods ,

2 1

15 Statistical Quality Control with Sampling by attributes , Statistical Quality Control with Sampling by Variables , Safety.

2 1

UNIT V 16 Types of Project Information , Accuracy and Use of

Information , 2 1

17 Computerized Organization and Use of Information ,Organizing Information in Databases

3 1

18 , Relational Mode of Databases ,Other Conceptual Models of Databases ,Centralized ,

2 1

19 Database Management Systems , Databases and Applications Programs ,Information , Transfer and Flow.

2 1

Reference Books

1. Chitkara. K.K. Construction Project Management: Planning Scheduling and Control Tata McGraw Hill Publishing Company, New Delhi, 1998

2. Calin M. Popescu, Chotchal Charoenngam, Project Planning, Scheduling and Control in Construction : An Encyclopedia of terms and Applications, Wiley, New York, 1995

3. Chris Hendrickson and Tung Au, Project Management for Construction - Fundamental Concepts for Owners, Engineers, Architects and Builders, Prentice Hall Pittsburgh, 2000

4. Moder, J., C. Phillips and E. Davis, Project Management with CPM, PERT and Precedence Diagramming, Van Nostrand Reinhold Company, Third Edition, 1983

5. Willis, E. M., Scheduling Construction Projects, John Wiley & Sons, 1986 6. Halpin, D. W. Financial and Cost Concepts for Construction Management, John

Wiley & Sons. New York, 1985

Prepared By Approved By Mrs.RenukaParameswari Dr.R.Annadurai HOD/Civil

LESSON PLAN for CE EGT4 - STRUCTURES ON EXPANSIVE SOIL PURPOSE To get exposure about various aspects expansive soil and structures especially constructed on expansive soil. INSTRUCTIONAL OBJECTIVES To know the occurrence and distribution of expansive soil To study the properties of expansive soil To understand various methods of prediction of heave To understand various methods of soil stabilization

Lecture

No TOPICS TO BE COVERED No. of

Hours Planned

REFERENCE

1. Introduction – Review of Type Soils 2 1,2

2. Geotechnical Problem - Introduction - Occurrence and distribution

2 1,2

3. Moisture equilibrium 2 1,2

4. Soil, structure, environmental interaction, distress symptoms

3 1,2

5. Case Studies 2 1,2

6. Expansive Soil Properties Clay mineralogy,

3 1,2

7. Swell potential 1 1,2

8. Field exploration 3 1,2

9. Laboratory tests for identification 2 1,2

10. Heave Prediction - Methods of prediction of heave

2 1,2

11. Empirical methods 2 1,2

12. Double oedometer tests 3 1,2

13. Soil moisture suction 2 1,2

14. Field observations, Shrinkage. 2 1,2

15. Foundation Design - Recommendations for type of

2 1,2

Reference Books:

1.Amer Ali Al-Rawas & Matheus F.A. Goosen - Expansive Soils – Recent Advances in Characterisation and treatment, Taylor & Francis Group, 2006

2.John D.Nelson and Debo J Miller, Expansive Soils : Problems and Practice in Foundation and Pavement Engineering, John Willy & Sons, INC.,1992.

3.K.R.Arora, Soil Mechanics and Foundation Engineering, Standard Publishers Distributors, 1997.

Prepared By Approved By Dr.P.T.Ravichandran Dr.R.Annadurai. Ms.S.Vidhyalakshmi HOD / CIVIL

foundation in expansive soils

16. Design considerations - Individual and continuous footings

3 1,2

17. Stiffened mats ,underreamed piles - Codal provisions

3 1,2

18. Stabilization - Methods - mechanical stabilization

3 3

19. Cement stabilization - Bituminous stabilization

3 3

20. Chemical stabilization - Thermal stabilization.

3 3

SRM UNIVERSITY, KATTANKULATHUR -603 203

Faculty of Engineering and Technology Department of Civil Engineering

Degree / Specialization : M.Tech / Construction Engineering & Management Year / Semester : I / II Subject Code / Title : CN 0504 / Construction Equipment Staff : V.R PRASATH KUMAR / Assistant Professor (O.G) / CIVIL

LESSON PLAN L T P C 3 2 0 4

SI.NO LESSON TOPIC Planned

Hour Actual Hour

Text book

1 To introduce various construction equipment like equipment for earthwork 2 1

2 material handling and other miscellaneous equipment 2 1

3

To study the working of the equipment mentioned above and apply scientific principles for effectively utilizing them 3 1

4 Identification -Planning. Equipment Management in Projects 2 2

5 Maintenance Management - Replacement 2 2

Cycle Test - 1 6 Cost Control of Equipment 2 2,3

7

Depreciation Analysis, Methods of calculation of depriciation- Safety Management 3 2,3

8

Fundamentals of Earth Work Operations - Earth Moving operations .Types of Earthwork Equipment 4 2,3

9

Tractors, Motor Graders, Scrapers, Front end Loaders, Ear1h Movers - capacity calculations. 4 1,3

Term Paper

10 Equipment for Dredging, Trenching, Tunneling, Drilling, Blasting. 3 4

11 Equipment for compaction - Erection Equipment 2 4

12

Types of pumps used in Construction - Equipment for Dewatering and Grouting 3 4

13 Foundation and Pile Driving Equipment 2 2

14 Forklifts and related equipment - Portable Material Bins - Conveyors 2 2,3

15 Hauling Equipment -equipment used in demolition - Chain Pulley Blocks. 3 2,3

16 Crushers - Feeders - Screening Equipment 2 2,3

17 Handling Equipment Batching and Mixing Equipment 2 4

18 Hauling, Pouring and Pumping Equipment -Transporters. 2 4

Total Hours 45

Reference Books1. Peurifoy, R.L., Ledbetter, W.B. and Schexnayder.C, Construction Planning Equipment and Methods, McGraw Hill. Singapore 1995 2. Sharma S.C. Construction Equipment and Management, Khanna Publishers, Delhi, 1988 3. Deodhar, S.V. Construction Equipment and Job Planning Khanna Publishers Delhi, 1988 4. Dr. Mahesh Varma, Construction Equipment and its planning and application, Metropolitan Book Company, New Delhi 1983 Prepared By Approved By Mr.V.R PRASATH KUMAR Dr.R.Annadurai HOD/Civil

Lesson plan

SEM II CN 0506 ADVACNCED CONSTRUCTION TECHNIQUES

L3 T2 P0 C4

Sl.no Topics covered Hrs

1 Box Jacking -pipe jacking – Under water construction of

diaphragm walls and Basement.

2

2 Tunneling techniques. piling techniques 2

3 driving well and caisson -sinking cofferdam -cable anchoring

and grouting - driving diaphragm walls sheet piles

3

4 laying operations for built up offshore system - shoring for deep

- well points

2

5 dewatering and stand by plant equipment for underground open

excavation - Trench less Technology

3

6 Tutorial class 5

7 Cycle test 2

8 Techniques of construction for continuous concreting operation

in tall buildings of various shapes and varying sections

launching techniques

3

9 Slip form techniques- suspended form work -.erection

techniques of tall structures

3

10 launching techniques for heavy decks 1

Surprise test - I

11 in situ prestressing in high rise structures, aerial transporting

handling erecting lightweight components on tall structures -

erection of lattice towers and rigging of transmission line

structures

5

12 Bow string bridges, cable stayed bridges 2

13 launching and pushing of box decks 2

14 construction sequence and methods in domes and prestressed 3

domes

15 Tutorial 5

Surprise test -II

16 Vacuum dewatering of concrete flooring 2

17 concrete paving technology- erection of articulated structures 5

18 Mud Jacking grout through slab foundation 2

19 micro piling for strengthening floor and shallow profile pipeline

laying

3

20 protecting sheet plies, screw anchors 2

21 sub grade water proofing under pinning advanced techniques

and sequence in demolition and dismantling.

5

22 Tutorial work 5

TOTAL 68 Reference Books

1.Robertwade Brown, Practical foundation engineering hand book, McGraw Hill Publications, 1995

2.Patrick Powers .J, Construction Dewatering: New Methods and Applications John Wiley & Sons, 1992

3.Jerry Irvine, Advanced Construction Techniques CA Rockers, 1984

Prepared by Approved by (ANANDH.KS) HOD/Civil Engg

SRM UNIVERSITY, KATTANKULATHUR -603 203

Faculty of Engineering and Technology

Department of Civil Engineering Degree / Specialization : M.Tech / Construction Engineering & Management Year / Semester : I / II Subject Code / Title : CN 0508 / Computer Application in Construction Management (Theory and Practice) Staff : L.KRISHNARAJ / Assistant Professor (O.G) / CIVIL

SI.NO LESSON TOPIC Planned

Hour Text book 1 Introduction to System Hardware - Languages 2 2 2 Data Base Management 2 2 3 Spread Sheets -Applications 1 1 4 Linear, Dynamic and Integer programming 4 1 Cycle Test – 1 5 Branch and Bound Techniques 2 1 6 Application to production Scheduling 2 1 7 Equipment Replacement 2 1 8 Material Transportation 2 1 Term Paper 9 Work Assignment Problems - Software Development. 2 1 10 PERT and CPM - Software Development - Use of PRIMAVERA 3 2,3 11 Decision Making - Bayes Theory 2 2,3 12 Simulation - Models - Genetic Algorithm 2 2,3 Total Hours 26 PRACTICE

13 STRUCTURAL ANALYSIS PROGRAM USING STAAD SOFTWARE Static analysis of Beams 4 1,2,7

14 STRUCTURAL ANALYSIS PROGRAM USING STAAD SOFTWARE Static analysis of Frames (2D) 4 1,2,4,7

15 PROJECT MANAGEMENT PROGRAMME Study and use of software MS Projects 8 3,5,6,7

16 PROJECT MANAGEMENT PROGRAMME Study and use of software 'PRIMAVERA' 8 3,5,6,7

17 Announced Quiz 1 18 UnAnnounced Quiz 1

Total Hours 26

Reference Books (Theroy) 1. Billy E.Giliet Introduction to Operation Research - Computer Oriented Algorithmic Approach, Tata McGraw Hill,1990 2. Paulson. B.R., Computer Applications in Construction, McGraw Hill, 1995 3. Feigenbaum.L., Construction Scheduling with Primavera Project Planner, Prentice Hall Inc., 1999 Reference Books (Practice) 1 C.S. Krishnamoorthy and S.Rajeev, Computer Aided Design, Narosa publishing house, New Delhi, 1991 2 . H.B. Harrison, Structural Analysis and Design, vol. I & II, Pergamon press, 1991 3. Billy E.Giliet Introduction to Operation Research - Computer Oriented Algorithmic 4. Approach, Tata McGraw Hill,1990 5. Paulson. B.R., Computer Applications in Construction, McGraw Hill, 1995 6. Feigenbaum.L., Construction Scheduling with Primavera Project Planner, Prentice Hall Inc., 1999 7. Lab Manual, Department of Civil Engineering

ELECTIVE DEPARTMENT OF CIVIL ENGINEERING, SRM KATTANKULATHUR.

CN0711 CONSTRUCTION PERSONNEL MANAGEMENT – M.TECH (CEM) SEMESTER II LESSON PLAN FACULTY: Ms. M.RAJALAKSHMI ,

ASSISTANT PROFESSOR

S.NO TOPICS TO BE COVERED NO. OF HOURS

1 Introduction 1

2 Manpower Planning, Organizing, Staffing, directing, and controlling -Personnel Principles

2

3 Organization -Span of Control -Organization Charts -Staffing Plan 1

4 Development and Operation of human resources -Managerial Staffing -Recruitment -Selection - Placement,

2

5 Students’ presentation 1

6 Introduction to the field of people management -basic Individual psychology- motivation -job deign and performance management

2

7 Managing groups at work - self-managing work teams-Intergroup behavior and conflict in organizations 1

8 Leadership- Behavioral aspects of decision-making; and communication for people management 2

9 Compensation- Wages and Salary, Employee Benefits, employee appraisal and assessment 1

10 Students’ presentation 2

11 Employee services -Safety and Health -Discipline and discharge -Special Human resource problems, Performance appraisal

1

12 Employee hand book and personnel manual -Job descriptions and organization structure and human relation -Productivity of

2

13 Identification of training needs- training calendar- outsourcing for training- in-house training- training to overcome

1

14 Students’ presentation 2

Prepared By Approved By Ms.Rajalakshmi Dr.R.Annadurai

M.Tech I year- Environmental Engineering – II Semester

LESSON PLAN 2010-2011 SUBJECT CODE: EN 0502

SUBJECT: TRANSPORT OF WATER AND WASTE WATER

SL

NO TOPICS TO BE COVERED

LECTURE

NO REFERENCES

1 Fluid properties; fluid flow - continuity

principle –simple problems 1.,2,3,4 1,2

2 energy principle and momentum principle -

problems 5,6 1,2

3 frictional head loss in free and pressure flow,

major and minor heads loss- problems 7,8 1,2

4 formula for estimation of head loss -problems 9,10 1,2

5 pumping of fluids - selection of pumps 11 1,2,3

6 Flow measurement.-problems 12,13 1,2

7 Forecasting of population - Arithmetic

Increase -problem 14,15 3,6

8 Geometrical Increase - problem 16 3,6

9 Incremental Increase - Graphical Methods 17,18 3,6

10 Logistic Curve Method -problem 19,20 3,6

11

Per capita consumption - Design period -

Variation in demand - Factors Affecting per

capita consumption

21,22 3,6

12 Water transmission main design 23,24 3,4,6

13 pipe materials - economics 25 3

14 Water distribution pipe networks - methods

for analysis and optimization. 26,27,28 3,4,6

15 Laying and maintenance, insitu lining - 29,30 3

appurtenances.

16 Design of sanitary sewer; partial flow in

sewers 31,32,33 3,5,6

17 economics of sewer design 34 3,6

18 sewer appurtenances; material, construction,

inspection and maintenance of sewers 35,36 3,6

19 Design of sewer outfalls-mixing conditions 37,38 3,5,6

20 Conveyance of corrosive wastewaters. 39 3,6

21 Planning - run-off estimation 40,41 3,6

22 rainfall data analysis 42 3,6

23 storm water drain design 43,44 3,4,6

24 rain water harvesting 45 3

REFERENCES

1. P.N. Modi and S.M. Seth, Hydraulics and Fluid Mechanics, Standard Book House, 2005

2. R.K.Bansal, Fluid Mechanics and Hydraulic Machines, Laxmi Publications 2005

3. Garg .S.K. Environmental Engineering, Vol. I & II, Khannan Publishers, New Delhi, 1994

4. "Manual on water supply and Treatment", CPHEEO, Ministry of Urban Development, GoI, New Delhi, 1999

5. "Manual on Sewerage and Sewage Treatment", CPHEEO, Ministry of Urban Development, GoI, New Delhi, 1993

6. M.J.Hammer, "Water and Wastewater Technology",Regents/ Prentice Hall, New Jercy, 1991

Prepared By Approved By R.Raji Dr.R.Annadurai HOD/Civil

SRM UNIVERSITY,KATTANKULATHUR - 603 203

Faculty of Engineering and Technology Department of Civil Engineering

LESSON PLAN Sub Code / Title: EN0504 - Air & Water Quality Modeling Degree / Branch: M.Tech Environmental Engineering Year / Semester : I / II LECTURAL TUTORIAL PRACTICAL CREDIT 3 2 0 4 Lecturer number

Topics to be covered Number of hours as per planned

Reference

1. Introduction Model

2 1

2. definition - types - uses

2 1

3. systems and models

2 1,5

4. kinds of mathematical models

2 1,5

5. model development

2 1,5

6. water quality standards

2 1

7. ambient air quality standards.

2 1, 2

8. Test - 1

2

9. Historical development of water quality models

2 1

10. rivers water quality modelling

2 1

11. Problems

2 1

12. streams water quality modelling

2 1

13. river hydrology and flow

1 1

14. Problems

2 1

15. low flow analysis

1 1

16. dispersion and mixing flow, depth, and velocity

2 1

17. Estuaries - estuarine transport

2 1

18. estuary dispersion coefficient

2 1,3

19. Problems

2 1

20. Lakes and impoundments

1 1

21. Problems

2 1

22. water quality response

1 1,3

23. water quality modeling process

2 1,3

24. model sensitivity

2 1

25. assessing model performance

2 1

26. Test - II

2

27. Transport and dispersion of air pollutants

2 1

28. wind velocity, wind speed turbulence

2 1

29. Term paper

2

30. estimating concentrations from point sources

2 1

31. Gaussian Equation

2 1,4

32. atmospheric stability

2 1,2

33. Air pollution modelling and prediction

2 1,2

34. Problem 3 1

35. Plume rise, modelling techniques.

2 1,2

36. Problem

2 1

37. Exposure to computer models

2 1

38. surface water quality

2 1,4

39. Exposure to computer models for air quality.

2 1,2

TOTAL HOURS = 75

Reference Books

1. Steven C.Chapra, "Surface Water quality modeling", The McGraw-Hill-Companies Inc., New York, 1997

2. R.W.Boubel, D.L. Fox, D.B. Turner & A.C.Stern, "Fundamentals of Air Pollution", Academic Press, New York, 1994

3. Ralph A.Wurbs, "Water Management Models - A Guide to Software", Prentice Hall PTR, New Jersey, 1995

4. John Wainwright and Mark Mulligan, Environmental Modelling Finding Simplicity in Complexity, John Wiley and sons Ltd, USA, 2004

5. Dynamic Modeling of Environmental Systems by Deaton and Wine brake, Wiley&sons, 2002

Prepared By Approved By Mr.G.Venkatasamy Dr.R.Annadurai HOD/Civil

SRM UNIVERSITY,KATTANKULATHUR - 603 203 Faculty of Engineering and Technology

Department of Civil Engineering

LESSON PLAN Sub Code / Title: EN0506 - Design and Operation of Water and Waste Water Degree / Branch: M.Tech Environmental Engineering Year / Semester : I / II LECTURAL TUTORIAL PRACTICAL CREDIT 3 2 0 4 Lecturer number

Topics to be covered Number of hours as per planned

Reference

1 Design of conventional water treatment units

1 1, 5,7

2 Aeration, chemical dosing tanks

2 1, 5,7

3 Flash mixers,

2 1, 5,7

4 Flocculators

2 1, 5,7

5 Sedimentation tanks

2 1, 5,7

6 Clariflocculators

2 1, 5,7

7 filter beds, disinfection units

2 1, 5,7

8 Hydraulic profile and

2 1, 5,7

9 layout of conventional treatment units

1 1, 5,7

10 upgrading of existing plants

2 1, 5,7

11 Residue management.

1 1, 5,7

12 Test- I

2

13 Design of sewage treatment plant units

1 2, 6

14 screen chamber

2 2, 6

15 Grit chamber with proportional flow weir

2 2, 6

16 sedimentation tank

1 2, 6

17 Trickling filters

2 2, 6,7

18 Rotating Biological contactor

1 2, 6

19 activated sludge process & variations 2 2, 6 20 aerated lagoons, waste stabilization

ponds 2 2, 6

21 Term Paper

2

22 reclamation and reuse

1 2, 6

23 Flow charts layout, hydraulic profile.

2 2, 6

24 Attached and suspended growth, Design of units

2 2, 6,7

25 Upflow Aanaerobic Sludge Blanket

2 2, 6,7

26 up flow filters

2 2, 6,7

27 Fluidised beds

2 2, 6

28 septic tank and disposal

2 2, 6

29 Layout and Hydraulic profile - Recent advances

2 2, 6

30 Test - II

2

31 Design of Sludge management facilities

2 2, 6

32 sludge thickening

2 2, 6

33 sludge digestion

2 2, 6

34 Biogas generation

2 2, 6

35 sludge dewatering (mechanical and gravity)

2 2, 6

36 Upgrading existing plants 2 2,6 37 ultimate residue disposal, Recent

Advances

2 2, 4

38 Operational problems - Trouble shooting

2 4

39 Planning, Organising and Controlling of plant operations

2 4

40 capacity building, Case studies on sewage treatment plants

2 3, 4

41 sludge management facilities

2 3, 4

TOTAL HOURS = 75 REFERENCE BOOKS: 1 Manual on "Water Supply and Treatment", CPHEEO, Ministry of Urban

Development, GOI, New Delhi, 1999. 2 Manual on "Sewerage and sewage Treatment", CPHEEO, Ministry of Urban

Development, GOI, New Delhi, 1999. 3 Arceivala, S.J., Wastewater treatment for pollution control, TMH, New Delhi,

1998. 4 Qasim, S.R, Wastewater Treatment Plant, Planning, Design & Operation

Technomic Publications, New York, 1994. 5 R.Pannirselvam, "Water Supply and Treatment" Environmental Engineering,

Volume I, 6 R.Pannirselvam, "Sewerage and sewage Treatment" Environmental Engineering,

Volume II. 7 METCALF & EDDY, INC. 'Wastewater Engineering, Treatment and Reuse.

Third Edition, Tata McGraw-Hill Publishing Company Limited, New Delhi, 2003.

Prepared By Approved By Mr.G.Venkatasamy Dr.R.Annadurai HOD/Civil

Lesson Plan EN 0508 Industrial Waste Water Treatment

Semester II L -3 T- 0 P- 0 C- 3 Sl No Topics to be covered No. of Hrs Reference

1 Industrial scenario in India - Industrial activity and Environment 2 1,2,5 2 Uses of Water by industry - Sources and types of industrial

wastewater 2 1,2,5

3 Industrial wastewater and environmental impacts 2 1,2,5 4 Regulatory requirements for treatment of industrial wastewater -

Industrial waste survey 2 1,2,5

5 Industrial wastewater generation rates, characterization and variables

2 1,2,5

6 Population equivalent - Toxicity of industrial effluents and Bioassay tests.

1 1,2,5

Cycle Test- I 7 Prevention Vs Control of Industrial Pollution - Benefits and

Barriers 2 1,2,5

8 Source reduction techniques - Waste Audit 2 1,2,5 9 Evaluation of Pollution prevention options 2 1,2,5 Surprise Test I

10 Environmental statement as a tool for pollution prevention - Waste minimization Circles.

2 1,2,5

11 Equalisation - Neutralisation - Oil separation Flotation - Precipitation - Heavy metal Removal

3 1,2,5

12 Refractory organics separation by adsorption - Aerobic and anaerobic biological treatment

3 1,2,5

Cycle Test- II 13 Sequencing batch reactors - High Rate reactors - Chemical

oxidation 3 1,2,5

14 Ozonation - Photocatalysis - Wet Air Oxidation - Evaporation - Ion Exchange - Membrane Technologies - Nutrient removal.

3 1,2,5

15 Individual and Common Effluent Treatment Plants - Joint treatment of industrial wastewater

3 1,2,5

Surprise Test II 16 Zero effluent discharge systems - Quality requirements for

Wastewater reuse 3 1,2,5

17 Industrial reuse - Disposal on water and land - Residuals of industrial wastewater treatment

2 1,2,5

18 Quantification and characteristics of Sludge - Thickening, digestion, conditioning, dewatering and disposal of sludge - Management of RO rejects.

2 1,2,5

19 Industrial manufacturing process description, wastewater characteristics, source reduction options and waste treatment flow

2 1,2,5

sheet for Textiles 20 Tanneries - Pulp and paper - Petroleum Refining -

Pharmaceuticals 2 1,2,5

21 Sugar and Distilleries - Food Processing - fertilizers - Thermal Power Plants and Industrial Estates.

2 1,2,5

Total 45 Reference Books 1. Eckenfelder, W.W., "Industrial Water Pollution Control", McGraw-Hill, 1999 2. Arceivala, S.J., "Wastewater Treatment for Pollution Control", Tata McGraw-Hill, 1998 3. Frank Woodard Industrial waste treatment Handbook, Butterworth Heinemann, New Delhi, 2001 4. World Bank Group "Pollution Prevention and Abatement Handbook - Towards

Cleaner Production', World Bank and UNEP, Washington D.C.1998 5. Paul L. Bishop "Pollution Prevention: - Fundamentals and Practice", McGraw-

Hill International, 2000 Prepared By Approved By (K Prasanna) HOD/Civil

ELECTIVES

Prepared By Approved By J.S.SUDARSAN Dr.R.Annadurai

M.Tech I year – II Semester – Remote Sensing & Geographics Information System RS 0502 DIGITAL IMAGE PROCESSING AND TECHNIQUE LECTURE TUTORIAL PRACTICAL CREDITS L T P C 3 0 3 4

LESSON PLAN

Sl. No.

Topics to be covered Reference books

1 Digital image processing- Introduction 1,2 2 Data acquisition Data storage 1,2 3 Data retrieval and formats 1,2 4 Compression 1,2 5 Satellite system and products 1,2 6 Image display and Resolution 1,2 7 Spectral and spatial characters 1,2 8 Sensor model 1,2 9 Geometric distortion and correction 2,3 10 Radiometric distortion and correction 2,3 11 Univariate and multivariate statistics for satellite image 1,2 12 Histogram and noise model 1,2 13 Image quality and preprocessing 2,3 14 Cycle Test – I --- 15 Spectral signatures and image characters 2,3 16 Feature space and Scatterogram 2,3 17 Spatial filters and Spectral transform 1,2 18 Contrast transform and Fourier transform 1,2 19 Wavelet transform 1,2 20 Image registration, Multi image fusion 1,2 21 Area correlation 1,2 22 Orthorectification 1,2 23 Resampling 1,2 24 Spatial and spectral domain Fusion 1,2 25 Classification ,Feature extraction 1,2 26 Supervised classification 1,3 27 Unsupervised classification 1,3 28 Unannounced quiz ---

30 Hybrid classification 1,2 31 Non parametric and parametric classification 1 32 Subpixel classification 1 33 Pattern recognition and shape analysis 1 34 Textural Analysis 1 35 Announced quiz --- 36 Decision concepts 1,2 37 Fuzzy sets and evidential reasoning 1,4 38 Expert systems 1,4 39 Artificial Intelligence –Neural Network 1,4 40 Integration to IS 1,4 41 Model Examination --

Practical

1. Introduction to ERDAS Imagine 5 2. Digital data Information-Expert/Import 5 3. Georeferencing 5 4. AOI creation 5 5. Principal component Analysis 5 6. Filtering techniques 5 7. Supervised classification 5 8 Unsupervised classification 5 9 NDVI 5 10 Map composition 5

REFERENCE BOOKS 1. Thomas M Lillesand and Kiefer. R.W Remote sensing and Image interpretation John Wiley & Publications 2000 2. Sabins R.R. Jr. “Remote Sensing Principles and Image Interpretation, W.H. Freeman and Company, 1978. 3, Paul Curran P.J., Principles of Remote Sensing, 1983. 4. Anji Reddy, Textbook of Remote Sensing and Geographical Information, BS Publications, Hyderabad. ISBN : 81-7800-018-0. 5. ERDAS working Manual Prepared By Approved By Dr.R.Sivakumar Dr.R.Annadurai. HOD / CIVIL

RS0504 GIS AND ITS APPLICATIONS LECTURE TUTORIAL PRACTICAL CREDITS L T P C 3 0 3 4

LESSON PLAN Staff: S. Nanda

Lecture No.

Topics to be covered No. of hrs required

Reference books

1 Introduction of GIS and its applications 1 1,3 2 Agricultural Applications 2 1,3 3 Forestry applications 1 2 4 Water resources applications 1 2 5 Geology / Geomorphology – groundwater

applications 1 2

6 Environmental Science application 1 2 7 Disaster mitigation and management –

Cyclones, Hurricanes, Tsunami and Floods 2 2

8 Demographic applications 1 2 9 GIS Applications in automated mapping (AM) 2 1,2 10 Un Announced quiz 1 11 Facility management (FM) 2 1,2 12 Case studies of FM 2 1 13 Land information system (LIS) 2 2 14 Case studies of LIS 2 2 15 Cycle Test 2 16 Multi criteria evaluation using GIS –

Techniques 2 1,2

17 Case studies of multi criteria evaluation 2 1 18 Use of knowledge based tools with GIS 2 1,2,5 19 Expert system 1 1,2 20 Announced quiz 1 21 Data quality- Error, Accuracy, precision 2 2 22 Components of data quality 1 2 23 Meta data, Need for Meta data. 1 2 24 Object oriented GIS 1 2 25 Web based GIS 2 1,2 26 WEB based GIS Applications 2 1,2 27 Case studies 2 5,7 28 Model Test 3

Total hours 45 Practical

1 To Generate DEM from Contours (Toposheets)

6 5

2 To Generate Slope, Aspect, Drainage distribution pattern

3 5

3 To generate contour lines from slope map 3 5 4 Spatial model builder applications in Arc

View 6 5

5 Weighted overlay analysis 6 5 6 Drainage characteristics of watershed – to

find drainage density, relief aspect, slope aspect, bifurcation ratio and etc.

6 5

7 To Design database from MS-Access and linking with GIS

6 5

8 To develop information system using GIS 6 5 9 Final practical exam 3

Total hours 45

REFERENCES: 1. Burrogh P. A. Principles of Geographical Information Systems for Land

Resource Assessment, Oxford University Press. 2. Paul A. Longley, Michael F Good child, David J Magaine, David W Rhind,

Geographical Information System, 1999. 3. Reobert Laurini, Derek Thompson, Fundamentals of spatial Information

Systems, Academic Press, 1996. 4. Battra- Remote Sensing & GIS – Oxford University Press 5. Training Manual of Remote Sensing & GIS – GIS Institute, Centre for Spatial

Database Management & Solutions, G-4, Sector-39, Noida 6. WWW. GISinstitute.net and info@GISinsititute.net 7. www.gisdevlopment.net

Prepared By Approved By N.Sachikanthnada Dr.R.Annadurai HOD/Civil

RS 0506 GEOLOGICAL REMOTE SENSING AND TECHNIQUES L T P C 3 0 3 4

LESSON PLAN

Practical 1. Visual interpretation of Geological features 1,5 2. Structural interpretation and mapping 1,5 3. Lithological mapping 1,5 4. Lineament mapping 1,5 5. Fluvial geomorphologic mapping 1,5 6. Coastal geomorphic landform mapping 1,5 7. Denudational landform mapping 1,5 8 Mineral studies 1,5 9 Hydro-geological studies 1,5 10 GIS Integration 1,5 Sl. No.

Topics to be covered Reference books

1 Reflectance of properties rocks 1,2 2 Reflectance of properties Minerals 1,2 3 Geologic features study in Visible, NIR 1,2 4 Geologic features study MIR, SWIR 1,2 5 Microwave regions of EMS for geological studies 1,2 6 Spectral reflectance curve for rocks and minerals 1,2 7 Significance of landforms 1,2 8 Image interpretation characters 1,2 CYCLE TEST I - 24-02-10 9 Role of aerial photographs in geological mapping 2,3 10 Structural land form mapping 11 Lithological Mapping 12 Drainage mapping 13 Denudational land form mapping 14 Coastal Geomorphic features mapping 2,3 15 Ground data collection for geological studies - 16 Raster data and vector formats of geological data 1,2 Unannounced Quiz -24-03-10

17 Geophysical survey and GIS data creation-Introduction 2,3 18 Gravity survey and GIS analysis 2,3 19 Seismic survey and GIS 2,3 20 Magnetic survey data analysis in GIS 2,3 21 Electrical Resistivity data - 22 Assigning rank for applied geological fields 1,2 23 Assigning weightages for geological studies 1,2 24 Image interpretation for various geological mapping part I 1,2 25 Image interpretation for various geological mapping part II 1,2 Announced Quiz 08-04-10

26 Geological application and analysis 1,2 27 Quantitative determination of Geological data 1,2 28 Hydro- geological studies through Remote sensing - 30 Remote sensing for Mineral exploration 31 Remote sensing for Petroleum exploration 1,3 Model Test 21-04-10 -

REFERENCES

1. Pandey, S. N. Principles and applications of Photogeology, Wiley eastern. 1987 2. Drury, S. A. Image interpretation in Geology, 1993. Chapman and Hall, London 3. Mather, P. M. Computer Processing of Remotely sensed images, Second edition 4. Jean-yves scanvk, Aerospatial Remote Sensing in Geology, A.A. Balakarma,

Netherlands, 1997 5. Thomas M Lillesand and Kiefer. R.W Remote sensing and Image interpretation

John Wiley & Publications 2000 6. ERDAS manual

Prepared By Approved By Dr.R.Sivakumar Dr.R.Annadurai. HOD / CIVIL

RS 0508 DBMS LECTURE TUTORIAL PRACTICAL CREDITS L T P C 3 0 0 3

LESSON PLAN Staff : M. Nagarajan

Sl. No. Topics to be covered Reference books

1 Introduction of databases – softwares-DBMS 1 2 Data –Types- attributes-types 1 3 Hardware and Software requirements -Database Management Systems 1 4 Types of DBMS -Hierarchial, Network 1 5 Relational Models 1,4 6 Distributed Databases - Client Server Databases -Knowledge Based Systems 1,4 7 Geographic Databases- E-R diagram 1 8 File Organization -Sequential, Index Sequential- Random, Multikey file

Organisation -advantages 2

9 Normalization -First, Second, Third, Boyce-Codd, Fourth and Fifth normalizations. 2 10 Oracle Operators -Arithmetic, Comparison, Logical Operators 3 11 Cycle Test – I - 12 Oracle Operator Precedence -Privilege commands 3 13 SQL functions -Single row and data functions 1,4 14 Character and numeric functions -Group functions - Count functions 1,4 15 Triggers in Oracle 1,3,4 16 Un Announced quiz - 17 SQL – TCL, DDL, DML 1,4 18 Data types – basic constraints – change statements 1,4 19 Basic queries in SQL 1,4 20 Complex SQL queries – Nested, correlated Nested queries 1,4 21 Joined tables – Insert, Delete, update Statements in SQL. 1,4 22 Oracle forms 1,3,4 23 Announced quiz - 24 Object Navigator – Triggers 4 25 Hierarchical levels 4 26 Alerts – Blocks – Items – Editors 4 27 Record groups – LOVs – Object Groups 4 28 Menus – Query – Oracle reports 4 29 Data model Editor – Layout Editor 4 30 Model Test -

REFERENCE BOOKS

1. Remez Elmasri and Shamkant B. Navathe, Fundamentals of Database Systems, Fourth Edition, Published by Pearson Education (Singapore) Pvt. Ltd.. 2004.

2. Bipin C. Desai, An Introduction to Database Systems, Galgotia Publications PVT LTD First edit 1993

3. Michael Abbey and Michael J Corey, ORACLE 8 -A Beginner's Guide, Tata Mc.Graw Hill, 1998

4. C.J. Date, An Introduction to Database Systems, Addison Wesley, sixth edition, 1995

Prepared By Approved By Mr.M.Nagarajan Dr.R.Annadurai HOD/Civil

ELECTIVES

RS 0701 MICROWAVE REMOTE SENSING LECTURE TUTORIAL PRACTICAL CREDITS L T P C 3 0 0 3

LESSON PLAN

Sl. No.

Topics to be covered No. of hrs required

Reference books

1 Introduction to remote sensing 3 1 2 Fundamentals -EMR 1 1 3 Band designation 1 1 4 Microwave interaction with atmospheric

constituents 1 1

5 Earth's surface, vegetation, and ocean 3 1,4 6 Basics of active and passive microwave remote

sensing 2 1,4

7 Theory of Radiometry 2 1 8 Sensors applications in atmosphere 1 2 9 Sensors applications in ocean and land 3 2 10 System parameters 1 3 11 Un Announced quiz 1 - 12 Target parameters 1 3 13 Radar grammetry 1 1,4 14 Radar equation measurement and discrimination 2 1,4 15 Image processing, SAR Interferrometry 3 1,3,4 16 Cycle Test – I 2 - 17 Real and synthetic aperture radars 2 1,4 18 Different platforms and sensors.

2 1,4

19 Principles of SAR 1 1,4 20 Interpretation of microwave data 1 1,4 21 Physical mechanism and empirical models for

scattering and emission 3 1,4

22 volume scattering 1 1,3,4 23 Announced quiz 1 - 24 Geological interpretation of RADAR Images 1 5 25 Application in forestry 1 5 26 Application land use, and other disciplines 1 5 30 Model Test 3 -

Total hours 45 REFERENCE BOOKS

1. Fawaz. T. Ulaby, Richard K. Moore and Adrian K. Fung, Microwave remote sensing active and passive, Vol. 1, 2 and 3 Addison-Wesly publication company 1981, 1982, and 1986

2. Philip. N. Slater, Remote Sensing, optics and optical systems, 1980 3. Robert M. Haralick and Simmonett, Image processing for remote sensing 1983 4. Robert N. Colwell. Manual of Remote Sensing Volume 1, ASRSP, 1983 5. Travett. J. W. Imaging Radar for Resources Surveys. Chapman and Hall,

London 1986. Prepared By Approved By N.Sachikanthnada Dr.R.Annadurai HOD/Civil