Abstract
Requirements of equipment performance improve continually as the combat power generation mode keeps transmitting. It becomes more and more significant to improve reliability, maintainability and supportability (RMS) level of newly-developed equipment. Aiming at the optimization and design of newly-developed armored equipment RMS indexes, this paper analyses the relationship between RMS indexes and system effectiveness, life cycle cost, respectively. On condition of the certain life cycle cost, it sets up an RMS indexes optimization model of armored equipment to maximize system effectiveness. By using parameter time-varying particle swarm optimization (PSO), this paper attains a series of RMS indexes value, which provides methods and gist for armored equipment RMS argumentation and design in future.
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Gan MZ, Kang JS (2005) Military equipment maintenance engineering. National Defence Industry Press, Beijing
Xiao HX, Wang JB (2008) Study on system effectiveness evaluation model of weapons and equipment based on RMS characteristics. Fire Control Command Control 33(5):130–132
Yu Y et al (2007) Efficiency evaluation model of weapons and equipments in use phase based on R&M&S. Armament Autom 26(3):6–7
Li JZ, Wang NC (2010) RMS research based on three dmiension model of support system with simulation method for military aircraft. J Beijing Univ Aeronaut Astronaut 36(12):1485–1489
Ping DF, Liu ZY (2013) Effectiveness evaluation of airborne ECM system based on the ADC model. Aerosp Electron Warf 1:34–37
Peng WH, Wang MH (2007) Study of influence on naval gun system efficiency by RMS. Ship Electron Eng 27(4):192–194
Han K, He CM (2014) Trade-off analysis of reliability/maintainability/supportability/testability of armored vehicle based on system effectiveness. Acta Armamentarii 35(2):268–272
Du HD, Wu W (2013) Simulation research for RMS indexes of armored equipment based on system effectiveness analysis. J Syst Simul 25(8):1947–1950
Geng JB, Jin JS, Zhang J (2010) Tradeoff analysis for RMS of equipment based operation availability and life cycle cost. Int J Plant Eng Manag 15(1):18–21
Ebeling CE (2010) Reliability and maintainability engineering. Tsinghua University Press, Beijing
Qiao SB et al (2012) Warship’s RMS based on LCC of balance technology analysis. Equip Manuf Technol 1:90–93
EberHart RC, Kennedy J (1995) A new optimizer using particle swarm theory. In: Proceedings on 6th international symposium on micromachine and human science, pp 39–43
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Wang, Z., Wang, L., Du, B., Guo, X. (2018). Research on Armored Equipment RMS Indexes Optimization Method Based on System Effectiveness and Life Cycle Cost. In: Zuo, M., Ma, L., Mathew, J., Huang, HZ. (eds) Engineering Asset Management 2016. Lecture Notes in Mechanical Engineering. Springer, Cham. https://doi.org/10.1007/978-3-319-62274-3_26
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DOI: https://doi.org/10.1007/978-3-319-62274-3_26
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Online ISBN: 978-3-319-62274-3
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