Coming soon
REMOTE SENSING GIS & GPS
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Course |
Course Outcomes (Cos) |
Learning & Teaching Strategies |
Assessment Strategies |
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24 GEO 143 |
Remote Sensing, GIS & GPS |
On completion of this course, the students will be able to: CO8: Students will able to understand the basic concept and significance of remote sensing and aerial photography from geographical point of view. CO9: Students will able to understand GIS and use of data model like raster and vector and DEM. CO10: Students will able to enhance their knowledge about uses of GPS, RS and GIS software, data input, geo- referencing and data handling. CO11: They will able to understand the use of GIS and RS in urban planning, water resources, soil identification and agriculture. CO12: Students will able to understand the use of GPS and GIS in Urban planning, rural planning, water resource, environment, land use and land cover mapping and Agriculture. CO13: Contribute effectively in course-specific interaction. |
Approach in Teaching:
Interactive lectures, Discussion, Tutorials, Reading assignments, Demonstrations, Summative and Formative assessments workshops, Mini video lessons, Digital modules
Learning activities for the students:
Self- learning assignments, effective questions, Seminar presentation. |
Class Test, Semester end examinations, Quiz, Solving problems in Tutorials, Assignments, Presentation, Individual and Group projects. |
· Introduction to Remote Sensing; Fundamental principles, Electromagnetic radiation,
· EMR spectrum, EMR interaction with atmosphere and earth surface features,
· Photogrammetry; Aerial photographs: Types Characteristics; Scale and Geometry
Aerial photographs, Relief displacement
· Definition and scope of GIS; Components of GIS; development of GIS.
· Map Projection
· Implications of spherical and planar coordinate systems and their transformations in
· GIS; Geo-referencing and implications of Earth’s shape and datum in GIS;
· Data model: Raster and Vector models for geographic data representation; GIS data
· standards—concepts and components;
Digital Elevation Model (DEM): process, derivatives and applications
- Introduction to GPS; GPS, Remote sensing and GIS integration;
- Mobile GIS and its application
- Open source Portal : Importance & Uses
- Graphic User Interface of RS Software – GIS Software
- Data Input: Spatial and Non-Spatial; Scanning, Digitizing; Data Import and Export;
- Data Registration, Georeferencing; Mosaic preparation
- Topology Building, Data Editing and Cleaning; Geo-Referencing
- Projection and Datum; Coordinate Transformation; Linking Spatial and Non-Spatial Data
- Data Base Creation; Attribute Handling
- GPS and GIS in Urban planning, rural planning, water resource, environment, land use and land cover mapping.
- Remote Sensing in Agriculture – An Overview, Principles of crop identification and
- Crop inventory, Soil morphology and classification
- Adrados, C., Girard, I., Gendner, J., &Janeau, G. (2002). Global Positioning System (GPS) location accuracy due to selective availability removal. C. R. Biologies, 325, 165-170.
- Arvanitis, L., Ramachandran, B., Brackett, D., Rasoul, H., & Du, X. (2000).
- Multiresource inventories incorporating GIS, GPS and database management systems: A conceptual model. Computers and Electronics in Agriculture, 28, 89-100.
- Basudeb Bhatta, Remote sensing and GIS, Oxford University Press, Nov 2011
- David L.Verbyla - Practical GIS Analysis
- Ellis, E. A., Nair, P. K. R., Linehan, P. E., Beck, H. W. & Blance, C. A. (2000). A GIS-based database management application for agroforestry planning and tree selection. Computers and Electronics in Agriculture, 27, 41-55.
- Lillesand, Remote Sensing And Image Interpretation, 5Th , John Wiley & Sons, 2007.
- Walsh, A. and J. C. Ollenburger, 2000: Essential Statistics for the Social and Behavioral Sciences: A Conceptual Approach. Prentice Hall, pp. 320. ISBN-13: 978-0130193391