1. Meikle, H. Modern Radar Systems (2nd Edition): Artech House; 2008. 712 p.
2. Barton, D. K., & Leonov, S. A. Radar Technology Encyclopedia: Artech House; 1998. 536 p.
3. Bezousek, P., & Schejbal, V. Bistatic and Multistatic Radar Systems. Radioengineering. 2008;17(3).
4. Skolnik, M. I. Radar Handbook (3er ed.): McGraw-Hill. 2008. 1328p.
5. Gungor, A. Clutter Detection in Pulse-Doppler Radar Systems. 2010.
6. Mixon, D. G. Doppler-Only Multistatic Radar. (Master of Science). Ohio: Air Force Institute of Technology, Wright-Patterson Air Force Base. 2006.
7. D’Addio, E., Farina, A., Conte, E., & Longo, M. Multistatic Detection of Radar Signals for Swerling Models of the Target. Revista Técnica Selenia, v 9. 1985. 11-17 p.
8. Hanle, E. Survey of Bistatic and Multistatic Radar. IEE Proceedings. 1986;133(7). 587-595 p.
9. Sarabandi, K., & Nashashibi, A. A Novel Bistatic Scattering Matrix Measurment Technique using a Monostatic Radar. IEEE Transactions on Antennas and Propagation. 1996;44(1).
41-50 p.
10. Palama, R., Greco, M., Stinco, P., & Gini, F. Statistical Analysis of Netrad High Resolution Sea Clutter. EUSIPCO. IEEE. 2013. 1-5 p.
11. Iannuzzelli, R. J., Schemm, C. E., & Marcotte, F. J. Aircraft Wake Detection using Bistatic Radar: Analysis of Experimental Results. Johns Hopkins APL Technical Digest. 1998;19(3). 299 p.
12. Masters, D. S. Surface Remote Sensing Applications of GNSS Bistatic Radar: Soil Moisture and Aircraft Altimetry. [Doctor of Philosophy]. [Colorado]: Faculty of the Graduate School of the University of Colorado. 2004.
13. Counts, T., Gurbuz, A. C., Scott, W. R., McClellan, J. H., & Kim, K. Multistatic Ground-Penetrating Radar Experiments. IEEE Transactions on Geoscience and Remote Sensing. 2007;45(8). 25544-2553 p.
14. Glennon, E. P., Dempster, A. G., & Rizos, C. Feasibility of Air Target Detection using GPS as a Bistatic Radar. Journal of Global Positioning Systems. 2006;5(1).
15. Krishnan, V., Swoboda, J., Yarman, C. E., & Yazici, B. Multistatic Synthetic Aperture Radar Image Formation. IEEE Transactions on Image Processing. 2010;19(5). 1290-1306 p.
16. Bruyere, D. P., & Goodman, N. A. Adaptive Detection and Diversity Order in Multistatic Radar. IEEE Transactions on Aerospace and Electronic Systems. 2008;44(4). 1615-1623 p.
17. Choi, S., Berger, C. R., Crouse, D., Willett, P., & Zhou, S. Target Tracking for Multistatic Radar with Transmitter Uncertainty. ECE Department, University of Connecticut. 2009.
74450M-74450M-12 p.
18. Liu, W., Yilong, L., & Fu, J. S. A Novel Threshold Optimization for Distributed OS-CFAR of Multistatic Radar Systems by Using the Genetic Algorithm. IEEE. 2001. 75-278 p.
19. Xu, S., Tang, C., Jing, P., & Chen, Z. Efficient Centralized Track Initiation Method for Multistatic Radar. 2011. 1-7 p.
20. Efe, M., & Soysal, G. Data Fusion in a Multistatic Radar Network using Covariance Intersection and Particle Filtering. Paper presented at the 14th International Conference on Information Fusion, Chicago. IEEE. 5-8 July 2011; Chicago, IL, USA: IEEE. 1-7 p.
21. Kay, S. Waveform Desing for Multistatic Radar Detection. Rhode Island: Dept. of Electrical, Computer, and Biomedical Engineering, University of Rhode Island. 2007; 45(3).
22. Liu, W., Lu, Y., & Fu, J. S. CFAR Data Fusion of Multistatic Radar System under Homogeneous and Nonhomogeneous Backgrounds. The Institution of Electrical Engineers. 2002. 248-252 p.
23. Bradaric, I., Caprarp, G. T., Weiner, D. D., & Wicks, M. C. A Framework for the Analysis of Multistatic Radar Systems with Multiple Transmitters. IEEE. 2007. 433-446 p.
24. Brooker, M. The Design and Implementation of a simulator for Multistatic Radar Systems. [Doctor of Philosophy]. [South Africa]: University of Cape Town. 2008.
25. Ling Lim, Y. The Modelling and Simulation of Passive Bistatic Radar. [Master of Philosophy]. [Australia]: The University of Adelaide. 2013.
26. Mahdi Naghsh, M., Modarres-Hashemi, M., ShahbazPanahi, S., Soltanalian, M., & Stoica,
P. Unified Optimization Framework for Multi-Static Radar Code Design using Information-Theoretic Criteria. IEEE Transactions on Signal Processing. 2013;61(21). 5401-5416 p.
27. Kumar Yadav, A., & Kant, L. Moving Target Detection using VI-CFAR Algorithm on MATLAB Platform. Paper presented at the International Journal of Advanced Research in Computer Science and Software Engineering. 2013;3(12) 915-918 p.
28. Santan, L. A. Análisis, estudio y simulación de los parámetros del radar en el programa MatLab. 2005.
29. Gibson, K. The Ovals of Cassini. Lecture Notes. 2007.
