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Charvat MIT Haystack DIY SAR
Transcript of Charvat MIT Haystack DIY SAR
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Build a High-Resolution Synthetic Aperture Radar
Imaging System in Your Backyard
byGregory L. Charvat
forMIT Haystack Observatory Open Lunch
12 May 2010
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Synthetic Aperture Radar (SAR) in Your Backyard
Learn about radar imaging systems by building one.
Discover why you were pulled-over.
Measure the RCS of your favorite model aircraft.
head lamps/tail lamps have greatest RCS on the 5.0 Mustang at X-band
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Outline
Make a rail SAR
Measured radar imagery
Summary
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Make a rail SAR1. Use a realistic architecture
2. Locate parts at hamfests.
3. Design radar sensor around available parts
4. Test radar sensor
5. Find a linear rail
6. Develop data acquisition system
7. Write SAR algorithm
8. Build outdoor range
9. Make images!4
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LFM ChirpSource (VCO)
90%
10%
10 dB Directional Coupler
Trig
ADC
LNA
MIxer
Video
Amplifier
Linear Rail
Stepper
Motor
Frequency Domain
Data
Rail Control
Antenna
Motion
x
Transmit
Antenna
Receive
Antenna
L z
Use this realistic architecture: FMCW rail SAR
Radar Image
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Locate/test parts and fabricate1. Microwave parts are difficult to find at low costs. Visit your local Hamfests
2. Test to see what actually works, let this drive your design
4. Complete radar system3. Fabrication in garage machine shop
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Radar sensor built from
hamfest parts
LFM stretch mode
Pulse compression
7.5-12.5 GHz chirp in 10 ms
+15 dBm TX Power
15 dBi horns, +- 25 deg E and H plane
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Test radar sensor
Range profile tests demonstrate functionality
Row of 0 dBsm point targets
Difficult test environment due to snow (February in East Lansing Michigan)
snow
0 dBsm pt. tarets
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Find a linear railLinear rails are expensive
The longer the better
typically $10K for an 8’ long rail
Low-cost substitute:
Genie screw-drive garage door opener
Cost = Free!
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Find a linear rail: low-cost stepper motor control
Torque required too high for largest low-cost stepper motor
Cordless drill planetary gear transmission reduced torque by 6
Enabled <2.5 A stepper motor to be used
Reduced stepper drive cost
2.5 A steppermotor
6:1 cordless drillplanetary gear drive
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Develop a data acquisition system(relatively) low-cost NI PCI-6014
16 bit 200 KSPS ADC
10 bit 10 KSPS DAC (use for LFM modulation)
Labview
rapid software integration
controls stepper motor drive
radar timing
acquisition/recording
GUI
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Develop algorithm
Preferred SAR algorithm for the rail SAR in Chapter 5:
W. G. Carrara, R. S. Goodman, R. M. Majewski, Spotlight Synthetic Aperture Radar Signal Processing Algorithms, Artech House Inc., Noowod MA, 1995.
Code this up in MATLAB
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Build an outdoor range
styrofoam tablefor holding up targets
open space (reduce aliasing and clutter)
mow the lawn to reduce clutter
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Lawn clutter mitigationMow the lawn
Use coherent background subtraction
Do not walk in front of target scene
footprints
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Radar imagery: 5.0 Mustang
100 cm
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Radar imagery: bike
50 cm
Cannondale M300
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Radar imagery: model aircraft
20 cm
1:32 Scale F141:48 Scale B52
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Low RCS imagery
-55 dBsm spheresGO STATE in pushpins:
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SummaryRadar built from junk at hamfests
Learn
radar system design
radar imaging techniques
what causes you to get pulled over
High performance at low-cost
Next steps? Build your own!
For more info goto www.mit.edu/~gr20603 (click on Synthetic Aperture Radar)
References:G. L. Charvat. "Low-Cost, High Resolution X-Band Laboratory Radar System for Synthetic Aperture Radar Applications." Austin Texas: Antennas Measurement Techniques Association conference, October 2006. G. L. Charvat, L. C. Kempel. “Low-Cost, High Resolution X-Band Laboratory Radar System for Synthetic Aperture Radar Applications.” East Lansing, MI: IEEE Electro/Information Technology Conference, May 2006.
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