Vishwakarma Institute of Technology B.E. (Electronics)
Vishwakarma Institute of Technology B.E. (Electronics) Vishwakarma Institute of Technology B.E. (Electronics)
Bansilal Ramnath Agarwal Charitable Trust’s Vishwakarma Institute of Technology, Pune – 411 037 Department of Electronics Engineering FF No. : 654 EC4220 :: REMOTE SENSING Credits: 03 Teaching Scheme: - Tutorial 1 Hrs/Week Prerequisites: Electromagnetics Objectives: • To study remote sensing applications • To study radar technology • To study designing radar experiments • To study interpreting radar results • To study contemporary issues such as InSAR • Mapping with PEO : 1,2,3,6,7,8,9 1. Electromagnetic Wave Propagation 2. Interaction of Electromagnetic Waves with various media 3. Radar Range Equation 4. IPP, Time and Range Resolution 5. Pulse compression techniques 6. Antenna Parameters 7. Polarization and Antenna Arrays 8. Detection of signal in noise 9. Design of real world radar experiments – I 10. Design of real world radar experiments - II 11. Faraday Rotation 12. Radar Interferometry Text Books: 3) Introduction to Radar Systems by Merrill Skolnik 4) Radar Principles by Peyton Z. Peebles Structure & Syllabus of B.E (Electronics ) Program – Pattern ‘C11’, Rev01, dt. 2/4/2011 56
Bansilal Ramnath Agarwal Charitable Trust’s Vishwakarma Institute of Technology, Pune – 411 037 Department of Electronics Engineering FF No. : 654 EC42202 :: ARTIFICIAL INTELIGENCE Credits: 01 Objectives:- • To understand AI representations and applications • To get familiar with Statistical and Probabilistic Reasoning • To understand neural network architecture • To realize expert system using architecture and case studies • Mapping with PEO : 2,3,4,6,7,8,9 Teaching Scheme: - Tutorial 1 Hrs/Week List 1. T o study of any game playing using non heuristic search technique. 2. T o study of Eight tile puzzle. 3. T o study of heuristic search technique like A*. 4. T o study of heuristic search technique like AO*. 5. T o study of heuristic search technique like Hill Climbing. 6. Neural network architecture for character recognition.. 7. Neural network architecture for pattern classification or clustering application. 8. Build an Expert System. 9. Mini-project (Individual task). Text Books 1. Elain Rich and Kerin Knight, “Artificial Intelligence” 2. Roberts, “Artificial Intelligence” Structure & Syllabus of B.E (Electronics ) Program – Pattern ‘C11’, Rev01, dt. 2/4/2011 57
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Bansilal Ramnath Agarwal Charitable Trust’s<br />
<strong>Vishwakarma</strong> <strong>Institute</strong> <strong>of</strong> <strong>Technology</strong>, Pune – 411 037<br />
Department <strong>of</strong> <strong>Electronics</strong> Engineering<br />
FF No. : 654<br />
EC4220 :: REMOTE SENSING<br />
Credits: 03<br />
Teaching Scheme: - Tutorial 1 Hrs/Week<br />
Prerequisites: Electromagnetics<br />
Objectives:<br />
• To study remote sensing applications<br />
• To study radar technology<br />
• To study designing radar experiments<br />
• To study interpreting radar results<br />
• To study contemporary issues such as InSAR<br />
• Mapping with PEO : 1,2,3,6,7,8,9<br />
1. Electromagnetic Wave Propagation<br />
2. Interaction <strong>of</strong> Electromagnetic Waves with various media<br />
3. Radar Range Equation<br />
4. IPP, Time and Range Resolution<br />
5. Pulse compression techniques<br />
6. Antenna Parameters<br />
7. Polarization and Antenna Arrays<br />
8. Detection <strong>of</strong> signal in noise<br />
9. Design <strong>of</strong> real world radar experiments – I<br />
10. Design <strong>of</strong> real world radar experiments - II<br />
11. Faraday Rotation<br />
12. Radar Interferometry<br />
Text Books:<br />
3) Introduction to Radar Systems by Merrill Skolnik<br />
4) Radar Principles by Peyton Z. Peebles<br />
Structure & Syllabus <strong>of</strong> B.E (<strong>Electronics</strong> ) Program – Pattern ‘C11’, Rev01, dt. 2/4/2011<br />
56