UNIT V MISCELLANEOUS TOPICS 9
Visual Interpretation of Satellite Images – Elements of Interpretation - Interpretation Keys Characteristics of Digital Satellite Image – Image enhancement – Filtering – Classification - Integration of GIS and Remote Sensing – Application of Remote Sensing and GIS – Urban Applications- Integration of GIS and Remote Sensing – Application of Remote Sensing and GIS – Water resources – Urban Analysis – Watershed Management – Resources Information Systems. Global positioning system – an introduction.
TOTAL : 45
TEXT BOOKS
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M.G. Srinivas(Edited by), Remote Sensing Applications, Narosa Publishing House, 2001. (Units 1 & 2).
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Anji Reddy, Remote Sensing and Geographical Information Systems, BS Publications 2001 (Units 3, 4 & 5).
REFERENCES
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Jensen, J.R., Remote sensing of the environment, Prentice Hall, 2000.
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Kang-Tsung Chang,”Introduction to Geograhic Information Systems”, TMH, 2002
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Lillesand T.M. and Kiefer R.W., “Remote Sensing and Image Interpretation”, John Wiley and Sons, Inc, New York, 1987.
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Janza.F.J., Blue, H.M., and Johnston, J.E., "Manual of Remote Sensing Vol. I., American Society of Photogrammetry, Virginia, U.S.A, 1975.
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Burrough P A, “Principle of GIS for land resource assessment”, Oxford
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Mischael Hord, "Remote Sensing Methods and Applications", John Wiley & Sons, New York, 1986.
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Singal, "Remote Sening", Tata McGraw-Hill, New Delhi, 1990.
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Floyd F. Sabins, Remote sensing, “Principles and interpretation”, W H Freeman and Company 1996.
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http://www.research.umbc.edu/
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http://rst.gsfc.nasa.gov/start.html
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IEEE Transactions on Geo-science and Remote sensing.
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Manual of Remote Sensing – American society of photogrammetry & remote sensing, 1993.
EC1022 OBJECT ORIENTED PROGRAMMING 3 0 0 100
AIM
To present the concept of object oriented programming and discuss the important elements of C++ and Java.
OBJECTIVES
Since C++ and Java play a predominant role in software development it is felt that the following objectives can be achieved after studying this subject.
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Understand the concepts of Object oriented Programming.
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Write simple applications using C++ and Java.
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Compare and contrast features of C++ and Java.
UNIT I 9
Why Object-Oriented Programming in C++?- Native Types and Statements -Functions and Pointers-Implementing ADTs in the Base Language-
UNIT II 9
Data Hiding and Member Functions- Object Creation and Destruction-AdHoc Polymorphism-Visitation: Iterators and Containers.
UNIT III 9
Templates, Generic Programming, and STL-Inheritance-Exceptions-OOP Using C++
UNIT IV 9
An overview of Java, data types, variables and arrays, operators, control statements, classes, objects, methods – Inheritance
UNIT V 9
Packages and Interfaces, Exception handling, Multithreaded programming, Strings, Input/Output
TOTAL : 45
TEXTBOOK
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Ira Pohl, “Object-Oriented Programming Using C++”, Pearson Education Asia, 2003.
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Herbert Schildt, "The Java 2: Complete Reference", Fourth edition, TMH, 2002 (Chapters 1-11,13,17)
REFERENCES
-
Bjarne Stroustrup, “The C++ Programming Language”, Pearson Education, 2004.
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Stanley B. Lippman and Josee Lajoie , “C++ Primer”, Pearson Education, 2003.
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K.R.Venugopal, Rajkumar Buyya, T.Ravishankar, "Mastering C++", TMH, 2003.
4. H.M.Deitel, P.J.Deitel, "Java : how to program", Fifth edition, Prentice Hall of India private limited, 2003.
EC1023 ENGINEERING ACOUSTICS 3 0 0 100
AIM
This course aims at providing an overview of engineering acoustics.
OBJECTIVE
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To provide mathematical basis for acoustics waves
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To introduce the concept of radiation reception absorption and attenuation of acoustic waves.
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To present the characteristic behaviour of sound in pipes, resonators and filters.
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To introduce the properties of hearing and speech
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To describe the architecture and environmental inclusive of reverberation and noise.
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To give a detailed study on loud speakers and microphones.
UNIT I 9
Acoustics waves – Linear wave equation – sound in fluids – Harmonic plane waves – Energy density – Acoustics intensity – Specific acoustic impedance – spherical waves – Describer scales.
Reflection and Transmission:
Transmission from one fluid to another normal and oblique incidence – method of images.
UNIT II RADIATION AND RECEPTION OF ACOUSTIC WAVES 9
Radiation from a pulsating sphere – Acoustic reciprocity – continuous line source - radiation impedance - Fundamental properties of transducers.
Absorption and attenuation of sound
Absorption from viscosity – complex sound speed and absorption – classical absorption coefficient
UNIT III PIPES RESONATORS AND FILTERS 9
Resonance in pipes - standing wave pattern absorption of sound in pipes – long wavelength limit – Helmoltz resonator - acoustic impedance - reflection and transmission of waves in pipe - acoustic filters – low pass, high pass and band pass.
Noise, Signal detection, Hearing and speech
Noise, spectrum level and band level – combing band levels and tones – detecting signals in noise – detection threshold – the ear – fundamental properties of hearing – loudness level and loudness – pitch and frequency – voice.
UNIT IV ARCHITECTURAL ACOUSTICS: 9
Sound in endosure – A simple model for the growth of sound in a room – reverberation time - Sabine, sound absorption materials – measurement of the acoustic output of sound sources in live rooms – acoustics factor in architectural design.
Environmental Acoustics:
Weighted sound levels speech interference – highway noise – noise induced hearing loss – noise and architectural design specification and measurement of some isolation design of portions.
UNIT V TRANSDUCTION 9
Transducer as an electives network – canonical equation for the two simple transducers transmitters – moving coil loud speaker – loudspeaker cabinets – horn loud speaker, receivers – condenser – microphone – moving coil electrodynamics microphone piezoelectric microphone – calibration of receivers.
TOTAL : 45
TEXT BOOKS
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Lawerence E.Kinsler, Austin, R.Frey, Alan B.Coppens, James V.Sanders, Fundamentals of Acoustics, 4ht edition, Wiley, 2000.
REFERENCES
1. L.Berarek , “Acoustics” - McGraw-Hill
GE1301 PROFESSIONAL ETHICS AND HUMAN VALUES 3 0 0 100
Objective -
To create an awareness on Engineering Ethics and Human Values.
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To instill Moral and Social Values and Loyalty
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To appreciate the rights of Others
1. Human Values 10
Morals, Values and Ethics – Integrity – Work Ethic – Service Learning – Civic Virtue – Respect for Others – Living Peacefully – caring – Sharing – Honesty – Courage – Valuing Time – Co-operation – Commitment – Empathy – Self-Confidence – Character – Spirituality
2. Engineering Ethics 9
Senses of 'Engineering Ethics' - variety of moral issued - types of inquiry - moral dilemmas - moral autonomy - Kohlberg's theory - Gilligan's theory - consensus and controversy – Models of Professional Roles - theories about right action - Self-interest - customs and religion - uses of ethical theories.
3. Engineering as Social Experimentation 9
Engineering as experimentation - engineers as responsible experimenters - codes of ethics - a balanced outlook on law - the challenger case study
4. Safety, Responsibilities and Rights 9
Safety and risk - assessment of safety and risk - risk benefit analysis and reducing risk - the three mile island and chernobyl case studies.
Collegiality and loyalty - respect for authority - collective bargaining - confidentiality - conflicts of interest - occupational crime - professional rights - employee rights - Intellectual Property Rights (IPR) - discrimination.
5. Global Issues 8
Multinational corporations - Environmental ethics - computer ethics - weapons development - engineers as managers-consulting engineers-engineers as expert witnesses and advisors -moral leadership-sample code of Ethics like ASME, ASCE, IEEE, Institution of Engineers(India), Indian Institute of Materials Management, Institution of electronics and telecommunication engineers(IETE),India, etc.
TOTAL : 45 TEXT BOOKS -
Mike Martin and Roland Schinzinger, “Ethics in Engineering”, McGraw-Hill, New York, 1996.
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Govindarajan M, Natarajan S, Senthil Kumar V. S, “Engineering Ethics”, Prentice Hall of India, New Delhi, 2004.
REFERENCES -
Charles D. Fleddermann, “Engineering Ethics”, Pearson Education / Prentice Hall, New Jersey, 2004 (Indian Reprint)
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Charles E Harris, Michael S. Protchard and Michael J Rabins, “Engineering Ethics – Concepts and Cases”, Wadsworth Thompson Learning, United States, 2000 (Indian Reprint now available)
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John R Boatright, “Ethics and the Conduct of Business”, Pearson Education, New Delhi, 2003.
4. Edmund G Seebauer and Robert L Barry, “Fundamentals of Ethics for Scientists and Engineers”, Oxford University Press, Oxford, 2001.
MG1401 TOTAL QUALITY MANAGEMENT 3 0 0 100
OBJECTIVE
-
To understand the Total Quality Management concept and principles and the various tools available to achieve Total Quality Management.
-
To understand the statistical approach for quality control.
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To create an awareness about the ISO and QS certification process and its need for the industries.
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INTRODUCTION 9
Definition of Quality, Dimensions of Quality, Quality Planning, Quality costs - Analysis Techniques for Quality Costs, Basic concepts of Total Quality Management, Historical Review, Principles of TQM, Leadership – Concepts, Role of Senior Management, Quality Council, Quality Statements, Strategic Planning, Deming Philosophy, Barriers to TQM Implementation.
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TQM PRINCIPLES 9
Customer satisfaction – Customer Perception of Quality, Customer Complaints, Service Quality, Customer Retention, Employee Involvement – Motivation, Empowerment, Teams, Recognition and Reward, Performance Appraisal, Benefits, Continuous Process Improvement – Juran Trilogy, PDSA Cycle, 5S, Kaizen, Supplier Partnership – Partnering, sourcing, Supplier Selection, Supplier Rating, Relationship Development, Performance Measures – Basic Concepts, Strategy, Performance Measure.
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STATISTICAL PROCESS CONTROL (SPC) 9
The seven tools of quality, Statistical Fundamentals – Measures of central Tendency and Dispersion, Population and Sample, Normal Curve, Control Charts for variables and attributes, Process capability, Concept of six sigma, New seven Management tools.
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TQM TOOLS 9
Benchmarking – Reasons to Benchmark, Benchmarking Process, Quality Function Deployment (QFD) – House of Quality, QFD Process, Benefits, Taguchi Quality Loss Function, Total Productive Maintenance (TPM) – Concept, Improvement Needs, FMEA – Stages of FMEA.
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QUALITY SYSTEMS 9
Need for ISO 9000 and Other Quality Systems, ISO 9000:2000 Quality System – Elements, Implementation of Quality System, Documentation, Quality Auditing, TS 16949, ISO 14000 – Concept, Requirements and Benefits.
TOTAL : 45
TEXT BOOK
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Dale H.Besterfiled, et al., Total Quality Management, Pearson Education, Inc. 2003. (Indian reprint 2004). ISBN 81-297-0260-6.
REFERENCES
-
James R.Evans & William M.Lidsay, The Management and Control of Quality, (5th Edition), South-Western (Thomson Learning), 2002 (ISBN 0-324-06680-5).
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Feigenbaum.A.V. “Total Quality Management, McGraw Hill, 1991.
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Oakland.J.S. “Total Quality Management Butterworth – Hcinemann Ltd., Oxford. 1989.
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Narayana V. and Sreenivasan, N.S. Quality Management – Concepts and Tasks, New Age International 1996.
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Zeiri. “Total Quality Management for Engineers Wood Head Publishers, 1991.
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