The Projection Effectiveness Evaluation Via HMADM for the Electronic Warfare System under Complex Electromagnetism Environment
Author(s):
Z. F. Qi†, G. S. Wang‡*, & N. S. Charistos§
Affiliation(s):
†The State Key Laboratory of Complex Electromagnetic Environment Effects on Electronics and Information System (CEMEE), Luoyang, 471003, China, ‡Department of Control Engineering, Academy of Armored Forces Engineering, Beijing 100072, China, §Fluid Mechanics Laboratory., Mechanical Engineering and Aeronautics Department, University of Patras, Greece
ABSTRACT: The projection effectiveness evaluation algorithm based on hybrid multiple attribute decision making (HMADM) for the electronic warfare (EW) system under complex electromagnetism environment is investigated. First, the evaluation hierarchy structure of the EW system under complex electromagnetism environment is put forward and classified into three levels. Then, the model of hybrid multiple attribute decision making of the EW system under complex electromagnetism environment is given, where the attributes of the evaluated EW systems under complex electromagnetism environment are classified into an accurate scalar and a qualitative language. And then, the analytic hierarchy process (AHP) method is proposed to determine the weight of the hybrid multiple attributes’ in the EW system under complex electromagnetism environment. Based on the above results, the projection effectiveness evaluation algorithm based on HMADM is proposed. Finally, an example of three EW systems under complex electromagnetism environment and its simulation results show that the proposed projection effectiveness evaluation algorithm based on HMADM for the EW system under complex electromagnetism environment is simple and effective.
Keywords : Effectiveness evaluation; Electronic warfare (EW); Complex electromagnetism environment; Hybrid multiple attribute decision making (HMADM); Projection algorithm.
[2] H.Yu, G. X. Lu, Y. Chen and L. Zhou, Grey Hierarchy evaluation of operation effectiveness of EW system. Radio Engineering. 39, 61 (2009).
[3] G. Z. Chen and Y. F. Xue, Effectiveness evaluation of instructed EW system based on AHP. Electronic Warfare. 106, 26 (2006).
[4] Z. Y. Liu, D. F. Ping and L. Wang, Effectiveness evaluation of airborne ECM system based on Grey arrangement model. Ship Electronic Engineering. 32, 68 (2012).
[5] X. L. Zhu, Q. Cai and H. Z. Zhu, The evaluation of reconnaissance capabilities of ECM reconnaissance troops based on multilevel grey theory. Radar and ECM. 32, 15 (2012).
[6] G. S. Wang and Z. F. QI, AHP Effectiveness Evaluation of Electronic Warfare Command and Control System Under Complex Electromagnetic Environment. Advanced Materials Research. 989, 3212 (2014).
[7] Z. F. QI and G. S. Wang, Effectiveness evaluation of electronic warfare command and control system based on grey AHP method. Journal of Chemical and Pharmaceutical Research, 6, 535 (2014).
[8] Z. F. QI and G. S. Wang, Grey Synthetic Relational Analysis Method-based Effectiveness Evaluation of EWCC System with Incomplete Information. Applied Mechanics and Material. 638, 2409 (2014).
[9] G. H. Tzeng and J. J. Huang, Multiple attribute decision making, CRC Press, Boca Ratton (2011).