1. Geography 1010 Remote Sensing

2. Outline Last Lecture –Electromagnetic energy. –Spectral Signatures. Today’s Lecture –Spectral Signatures. –Satellite Remote Sensing.

3. Spectral signatures with TM bands

4. Band Selection and Colour Composite

5. Landsat MSS Launched in 1972 (just to try it out). Converted Geostationary bus. 1-3 are essentially the same system.

6. Landsat MSS 185 km swath width. Parallelogram shape to images. Repeat coverage every 18 days (at equator). Always crosses the equator at the same solar time. Across-track scanner.

7. Orbital Parameters Sun Synchronous 900 km altitude 9º from North Orbital period –103 minutes (14 per day) –6.46 km/sec

8. Landsat TM Sun synchronous orbit. 705 vs. 900 km (improve resolution and for potential recovery). Crosses equator at 9:45 am. 99 minute orbit. 14.5 orbits per day. 16 day repeat cycle.

9. Landsat TM 30m ground resolution. –Thermal is 120m. Bi-directional scanner. 7 bands (6 visible / IR 1 thermal). A/D converter produces 8-bit data (256 shades of grey).

10. Landsat ETM+ band 1 (0.45-0.52 µm, blue-green)

11. Landsat ETM+ band 2 (0.52-0.60 µm, green)

12. Landsat ETM+ band 3 (0.63-0.69 µm, red)

13. Landsat ETM+ band 4 (0.76-0.90 µm, near infrared)

14. Landsat ETM+ band 5 (1.55-1.75 µm, mid-infrared)

15. Landsat ETM+ band 6 (10.40-12.50 µm, thermal infrared)

16. Landsat ETM+ band 7 (2.08-2.35 µm mid-infrared)

17. Chernobyl.

18. SPOT Commercial orientation not experimental. Began in 1986. 20 metre multi spectral (XS). –IR, red, green. 10 metre panchromatic (HRV). Receiving station on campus.

19. SPOT Repeat coverage every 26 days. Off nadir viewing (reduces repeat time). 60 km swath for nadir 80 km for oblique (max 27°) 8-bit data 4.13° field of view

20. Spot Off nadir viewing creates image parallax.Off nadir viewing creates image parallax. Allows for the creation of digital elevation models.Allows for the creation of digital elevation models.

23. RADAR Principles Acronym for RAdio Detection And Ranging (although we rarely use radio frequencies (1 - 10 m) Active imaging system Transmits short pulses or bursts of microwave radiation and receives the reflection from the target. (Detection) Can tell where the target is by timing the pulse (Ranging)

24. RADAR Principles Reflections from the target are called echo or backscatter. Active system...Day - Night imaging Sends out single wavelengths of EMR Records the strength of the return –Good reflectors are bright –Poor reflectors are dark

26. How It Works Mirror sweeps laser beam across the ground. Range to target is determined by measuring time interval between transmission and return of reflected laser pulse. Aircraft position is determined using GPS phase differencing techniques. Data streams recorded and synchronized for post processing.