Article Information  
Ranging and Doppler Localization Using Golay Codes as the Phase Coding Signal

Keywords: Correlation, Detection, Doppler Frequency, Golay Codes, Phase Coding, Range Estimation, Quadrature Phase Shift Keying, Side Lobe Suppression, Serial Search, Frequency Banks, Maximum Likelihood Estimation.

Mehran University Research Journal of Engineering & Technology

Volume 31 ,  Issue 1

Aamir   Hussain , Muhammad  Bilal Malik ,    ,

References
1. Barton, D.K., “Modern Radar System Analysis”, Artech House Inc., 1988.
2. Kay, S.M., “Fundamentals of Statistical Signal Processing: Estimation Theory”, Volume I, Chapter-7, pp. 157 Prentice- Hall, Upper Saddle River NJ, USA, 1993.
3. Kay, S.M., “Fundamentals of Statistical Signal Processing: Detection Theory”, Volume II, Chapter-7, pp. 260 Prentice- Hall, Upper Saddle River, NJ, USA, 1998.
4. Barkat, M., “Signal Detection and Estimation”, 2nd Edition, Chapter-10, pp. 533, Artech House Inc., 2005.
5. Hayes, M.H., “Statistical Digital Signal Processing and Modeling”, John Wiley & Sons (Asia) Pte. Ltd., Singapore, 2003.
6. Haykin, S., “Communication Systems”, 4th Edition, Chapter-6, pp. 354-364, John Wiley and Sons, 2001.
7. Ackroyd, M.H., and Ghani, F., "Optimum Mismatched Filters for Side Lobe Suppression", IEEE Transactions Aerospace & Electronic Systems, Volume 36, pp. 214-218, March, 1993.
8. Daniels, R.C., and Gregers-Hansen, V., "Code Inverse Filtering for Complete Side-Lobe Removal in Binary Pulse Compression Systems", IEEE International Radar Conference, pp. 256-261, 9-12 May, 2005.
9. Mudukutore, A.S., Chandrasekhar, V., and Keller, R., "Pulse Compression for Weather Radars", IEEE Transactions on Geoscience and Remote Sensing, Volume 36, No.1, pp. 125- 142, January, 1998.
10. Bucci, N.J., "Doppler Tolerant Range Side-Lobe Suppression for Pulse Compression Radars", Technical Reference MTMR-TR-001, GE Aerospace, Moorestown NJ, IEEE 1992 (Paper Downloaded from IEEE Explore).
11. Gurtz, K.J., "Generation of Uniform Amplitude Complex Code Sets with Low Correlation Side Lobes", IEEE Transactions on Signal Processing, Volume 40, No. 2, pp. 343-353, February, 1992.
12. Suto, R., and Shinriki, M., "Time Side Lobe Reduction Technique for Binary Phase Coded Pulse Compression", IEEE International Radar Conference, pp. 809-814, Alexendaria,VA, USA, 7-12 May, 2000.
13. Wu, X., Liu, W., Zhao, L., and Fu, J.S., "Chaotic Phase Code for Radar Pulse Compression", Proceedings of the IEEE Radar Conference, pp. 279-283, 1-3 May, 2001.
14. Kai, J., Wei-Dong, W., and Jin, W.D., "The Study of New Radar Wave form with High Range Resolution", IEEE International Conference on Signal Processing, pp. 1957- 1960, 2004.
15. Dall, J., and Kusk, A., "Azimuth Phase Coding for Range Ambiguity Suppression in SAR", IEEE International Geoscience and Remote Sensing Symposium, pp. 1734-1737, 20-24 September, 2004.
16. Chandrasekhar, V., Bharadivy, N., and George, J., "Waveform Coding for Dual Polarization Weather Radars", IEEE International Geoscience and Remote Sensing Symposium, pp. 3571-3574, 23-28 July, 2007.
17. Shen, H., Zhang, W., Kwak, K.S., "The Modified Chirp UWB Ranging System for Vehicular Applications", IEEE International Symposium on Communications and Information Technologies, pp.1038-1042, 17-19 October, 2007.
18. Jenshak, J.D., and Stils, J.M., "A Fast Method for Designing Optimal Transmit Codes for Radar", IEEE Radar Conference, pp.1038-1042, 26-30 May, 2008.
19. Anelson, S.R.J., "Random Noise Radar/Sonar with Ultra Wideband Waveforms", IEEE Transactions on Geo Science and Remote Sensing, Volume 45, No. 5, pp. 1099-1114, May, 2007.
20. Anelson, S.R.J., "Suppression of Noise Floor and Dominant Reflectors in Random Noise Radar", International Radar Symposium, pp. 1-6, 24-26 May, 2006.
21. Golay, M., "Complementary Series", IEEE Transactions on Information Theory, Volume 24, pp. 82-87, April, 1961.
22. Wei, S., and Wei, C., "On the High Speed Decoding of the (23, 12, 7) Golay Code", IEEE Transactions on Information Theory, Volume 36, pp. 692-695, May, 1990.
23. Hackett, C., “Correction to an Efficient Algorithm for Soft- Decision Decoding of the (24, 12) Extended Golay Code", IEEE Transactions on Communications, Volume 43, No. 234, pp. 812-816, February-April, 1995.
24. Ran, M., and Snyders, J., "Constraint Designs for Maximum Likelihood Soft Decoding of RM (2, M) and the Extended Golay Codes", IEEE Transactions on Communications, Volume 43, No. 234, pp. 169-176. February-April, 1995.
25. Harman, K., and Hodgins, B., "The Next Generation of Guidar Technology", IEEE Security Technology, IEEE 38th Annual International Conference, pp. 169-176, 11-14 Octotber, 2004.
26. Searle, S., and Howard, S., "A Novel Polyphase Code for Side-Lobe Suppression", IEEE Waveform Diversity & Design, pp. 377-381, 8th June, 2007.
27. Chio, R.Y., and Hao, X., "Coded Excitation for Diagonistic Ultrasound: A System Developers Perspective", IEEE Ultrasonics Symposium, pp. 437-448, 5-9 October, 2003.
28. Hussain, A., Rais, M., and Malik, M.B., "Golay Codes in Ranging Applications", 8th IASTED Conference on Wireless and Optical Communications, pp. 159-163, Quebec City, Canada, 28-30 May, 2008.
29. Hussain, A., and Malik, M.B., "Golay Code Based Carrier Phase Recovery", 4th IEEE International Conference on Computer and Emerging Technologies, pp. 92-97, 18-19 October, 2008.
30. Oppenheim, A.V., Schafer, R.W., and Buck, J.R., Discrete- Time Signal Processing” 2nd Edition, Chapter-2, pp. 11, Prentice Hall, 1999.