Comparison Study of Multi-Beams Radar under Different Radar Cross Section and Different Transmitting Frequency

Author: Qaysar S.Mahdi1
1Ishik University, Erbil, Iraq

Abstract:  In this paper a comparison study is presented in order to evaluate the Simultaneous Multi – Beams radar under different radar cross section and different transmitting frequencies in order to evaluate the new radar performance under such complex environment. The results show that increasing the transmitting frequency will decrease the radar coverage and increasing the radar cross section will increase the radar coverage. Under such conditions the Simultaneous Multi–Beams radar offers good maneuverability and performance because it will choose the best type of beam according to the radar type, radar cross section, and target height and frequency diversity. Also it is concluded that the planner array will provide good beam forming and beam shaping techniques and it is possible to implement and construct a smart DSP processor which will choose the appropriate beam according to the target plat form and detection scenario for the new technology in addition to save time and cost.

Keywords: Component, Beam-Forming, Radar Coverage, Smart Processor

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doi: 10.23918/eajse.v3i3p1

Bassem, R. (2000). Radar Systems Analysis and Design using Matlab. Chapman and Hall/CRC.
Constantine, A. B., (2005). Antenna Theory: Analysis and Design. John Wiley Sons.
David, K. B. (1988). Modern Radar System Analysis. Boston: Artich House.
David, K. B. (1998). Radar Technology Encyclopedia. London: Artech House.
Henry, J. (1961). Antenna Engineering Handbook. The Institute of Radio Engineers President, New
York: Jasik Laboratories, Inc.
Kaiser, S. A. (1988). Modeling of Radar Wave Propagation. M.Sc.Thesis, MTC College.
Peyton, Z. (1998). Radar Principles. Wiley-Interscience Publication.
Qaysar, S. M. (2010). 3D Simultaneous Multi- Beams radar processing by using planner array
antennas. IEEE, Antennas and Propagation Conference (LAPC), Loughborough
Robert, M. (2010). Introduction to Radar System’s Lectures. IEEE AESS Society, New York, IEEE
New Hampshire Section.
Rohan, P. (1981). Surveillance Radar Performance Assessment by Mathematical Modeling. Ph.D.
Thesis, Dept. of Electrical Engineering. University of Adelaide.
Warren, L., & Gary, A. (2012). Antenna Theory and Design. Wiley.
Sabah, N. H. (1992). Tropospheric Refraction and Ground Reflection Effects on Microwave Links
and Tracking Radars. M.Sc. Thesis University of Technology.
SELEX, Systemi Integrati, A Finmeccanica Company (2010). Air Traffic Management & Airport
and control Systems. Technical Profile
Retrieved from http://www.airport
Thomas, F., & Van, N. (1994). Active Array Radar Systems Applied to Air Traffic Control. IEEE,
MTT-S Digest.
Xing, W. (2001). Design Considerations of a New Type all Solid-State Phased Array 3D Radar.
IEEE, Nanjing Research, Institute of Electronics Technology.