This course will provide a thorough introduction to remote sensing theory, technology, and application. The emphasis in this course is on understanding the underlying principles of acquiring and interpreting data from imaging systems covering the electromagnetic spectrum from the ultraviolet, visible, infrared, thermal, to microwave and applying them. Remote sensing is now the technique of choice for mapping land, ocean, and atmosphere of Earth and for exploring other planets and their satellites (such as Mars and Moon).
Prerequisites: MAT 1073, and PHY 1603 or PHY 1943. Or consent of instructor
Instructor:
Office Hours:Dr. Hongjie Xie , Email: hongjie.xie@utsa.edu, Tel: 210-458-5445
Department of Geological Sciences at UTSA, http://www.utsa.edu/LRSGTeaching Assistant: David Prado (myu357@my.utsa.edu), Tel: 210-458-7815, Office at SB4.03.24.
Dr. Xie: Monday 3:30-6:30 pm or by appointment at room of SB 4:03:22Mr. Prado: Monday 2-3:45 pm and 5:30-7 pm, or by appointment at SB 4.03.22, through email at myu357@my.utsa.edu
Lecture and Lab:
Lecture and Lab: 7:00 - 9:30 pm, Monday at room SB 2.01.02You are required to attend all lectures and labs except you have a good excuse (you should let me know prior to the class).
Textbook:
Required:
Remote Sensing of the Environment: An Earth Resource Perspective (2nd edition), John R. Jensen, 2007, Prentice Hall press (ISBN number is 0131889508). You can get this book from UTSA Book Store or from online bookstores such as http://amazon.com and http://www.addall.com/
Supplemental:
Introduction to the physics and techniques of remote sensing (2nd edition), Elachi and van ZYL, 2006. Wiley Press (ISBN number is 0471475696).
Remote Sensing for GIS Managers, Stan Aronoff, 2005. ESRI Press (ISBN number is 1589480813).
Grade Policy:
The final grade will be determined as below:Lab exercises 40%
Midterm exam 15%Final exam 25%
Term project 20%
- Active class participation and exceptional performance in term project will be rewarded with extra credits. However, if you miss a class without permission (prior to the class), you will loss 1 point (based on 100 points) per missing class.
- Quizzes will be given occasionally (no prior notice) and will be extra credits (maximum 6 pts) towards to your final grade.
- Final grade will be 90-100 (A), 80-89 (B), 70-79 (C), 60-69 (D), and less than 60 (F).
- October 30 is the last day to drop an individual course or withdraw from all classes and receive an automatic grade of "W".
Lab exercise:
Lab exercise will be assigned on Monday and due right before the Monday class in the following week. Late exercise is unacceptable, unless you do have an good excuse. No make-up lab exercise. Email submission is unacceptable unless you have to miss the class (you should let me know in advance). All lab exercises should use MS Word or others, please no handwriting (it is difficult to read). Lab exercise is very important for you to actually understand the remote sensing concepts, to use image processing software package, and to prepare you to solve real world problems
Term project:
For graduate students, a fair portion (20%) of this class is a term project. You (or up to 2 persons) will submit a complete proposal (5%) (no less than 2 pages, double space, 12 font) on Nov 2, including a title, student name(s), introduction or question statement, data and methods to be used, and expecting results. Each student (or group) will have a 15 minutes class presentation (7%) and will submit a final project paper (8%) (no less than 5 pages, single space, 12 font). Instructor will also give some topics for your reference. More details will be given in the Term Project Assignment on Oct 19. You are always very welcome to discuss with me about your project. You are encouraged to review the class projects carried out by your fellow students who took this class before (PowerPoint presentations and final papers are all available through my teaching website).
For undergraduate students, a term project is to review paper(s) assigned by the instructor On Nov2. However, if you would like to do a real project (you can team up with a graduate student or undergraduates or by yourself), you are welcomed. You will also do a class presentation (15%) and final report (5%).
Academic dishonesty policy:
All works must be original. Plagiarizing or cheating in any form will be reported and a failing mark will be assigned.
Tentative Schedule:
|
Date |
Subject |
Lab |
Reading |
|
Aug30
(L1) |
Introduction to course structure, syllabus, lab, instructor, students, and introduction to Remote Sensing (ppt) |
1 | Chapter 1 |
| Sep6 | Labor Day Holiday (no class) | ||
|
Sep13
(L2) |
Some basic concepts of remote sensing (ppt) Starting ENVI |
2 |
Chapter 3 |
|
Sep20
(L3) |
Electromagnetic radiation (1) (ppt) (addition:
projection and datum) |
3 | Chapter 2 |
|
Sep27
(L4) |
Electromagnetic radiation (2) (cont') |
4 |
Chapter 2 Chapter 15 |
|
Oct4
(L5) |
Intro to digital image processing (ppt) Photogrammetry (ppt) |
5 |
Chapters 4,5,6 |
|
Oct11 (L6) |
Multispectral and Hyperspectral
remote sensing (ppt) |
6 | Chapter 7 |
|
Oct18
|
Continue Lecture 6; Thermal infrared remote sensing (ppt)
Term project assignment (pdf) |
7 | |
|
Oct25
|
Special talks on microwave RS of sea ice (1,2,3). Midterm exam |
working |
on proposal
|
|
Nov1
(L7) |
Demo of spectroradiomter and discussion of midterm exam Team and project proposal due |
8 |
Chapter 8 and paper
|
|
Nov8
(L8) |
Active microwave remote sensing (Radar) (ppt) | 9 | Chapter 9 (1) |
|
Nov15
(L9)
|
InSAR and Lidar remote sensing (ppt) |
10 |
Chapter 10
|
|
Nov22
(L10)
|
Passive microwave remote sensing (ppt) |
11 | Chapter 9 (2), papers 1, 2, 3, 4 |
|
Nov29 |
Final review (doc) Student presentations |
work on project and final paper | |
|
Dec6 |
Student Study Day (final paper due Dec 8, middle night) |
|
prepare for final |
| Dec13 | Final (8:00-10:30 pm) |