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Basic Principles of Aerial Photo Interpretation
Paper Code:
RES131
Credits:
3
Contact Hours:
90.00
Max. Marks:
100.00
Objective:
Students will be able to recognize and explain at basic level fundamental physical principles of remote sensing, including the electromagnetic spectrum; the emission, scattering, reflection, and absorption of electromagnetic (EM) radiation; how EM radiation interactions vary across a limited number of substances, geometries, and temperatures; and geometric properties of photographs and imagery.
18.00
Unit I:
Development of Aerial Photography
Introduction to Aerial Photography
Fundamental principles of Aerial photography
18.00
Unit II:
Types of Aerial Photography
Factors affecting photo images
Photo Mosaics and its significance
18.00
Unit III:
Stereoscopic vision and its conditions
Study of a Stereoscope
Application of the instrument
18.00
Unit IV:
Geometry of Aerial Photography
Basic principles of Photography
Relief displacement
Tilt distortion
18.00
Unit V:
Scale of Aerial photography
Introduction to Scale of Aerial Photography
Vertical Exaggeration
Flight planning
Essential Readings:
Cracknell, A and Hayes, L. (1990): Remote Sensing Year Book, Taylor and Francis, London
Curran Campbell, J. B. (2002): Introduction to Remote Sensing. 5th edition. Taylor and Francis, London.
Cracknell, P.J. (1985): Principles of Remote Sensing, Longman, London.
Deekshatulu, B.L. and Rajan, Y.S. (ed.) (1984): Remote Sensing. Indian Academy of Science, Bangalore.
Floyd, F. and Sabins, Jr. (1986): Remote Sensing: Principles and Interpretation, W.H.Freeman, New York.
Guham, P. K. (2003): Remote Sensing for Beginners. Affiliated East-West Press Private Ltd., New Delhi.
Lillesand, T.M. and Kiefer, R.W. (2000): Remote Sensing and Image Interpretation. 4th edition.
Hallert, B. (1960): Photogrammetry, McGraw Hill Book Company Inc., New York.
Academic Year: