Abstract
With the continuous development of the Beidou satellite navigation system, the Beidou satellite navigation terminal has been transformed from “bus slot + board card” to modularized and chip-based. Its functions, performance and practicability have been continuously improved, and it has been more and more widely used in military and civil fields. The effectiveness evaluation of the Beidou navigation terminal can accurately grasp the capabilities of the equipment in the process of use, and can provide an important basis for the design demonstration, appraisal and finalization of Beidou navigation terminal equipment. Effectiveness evaluation indicator system for BeiDou equipment is constructed based on the function of the equipment, and index weights are calculated through AHP method. Considering the randomness and uncertainty of the BeiDou equipment effectiveness evaluation, an integrated evaluation method which feasibility is studied by an example, is given using backward cloud and integrated cloud. The evaluation example and result analysis show that this method combining qualitative and quantitative analysis, is not only reduces the subjective factors in the evaluation, but also gets overall and visualized evaluation results, which provides a new way for effectiveness evaluation of BeiDou user equipment.
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References
Li Zhimeng, X., Peide, R.C., et al.: Effectiveness Evaluation Theory and Application of Weapon System. National Defense Industry Press, Bei**g (2016)
Qinglong, W., Zhixue, W., Hongyue, H., et al.: Modeling and analysis method to C4ISR system for efficiency requirements based on fuzzy cloud model. Syst. Eng. Electron. 38(9), 2065–2071 (2016)
Wei, L., **angyu, P.: Effectiveness evaluation of long-range air to air missile weapon system based on cloud model. AERO WEAPONRY 3, 69–73 (2017)
Guo, J., Li, T., Li, C.: Research on comprehensive effectiveness evaluation index system of ship-based navigation equipment. Modern Electron. Tech. 37(17), 140–143 (2014)
Guo, J., Li, T., Huang, Q.: Effectiveness evaluation method of shipborne navigation equipment based on cloud theory. J. Dalian Maritime Univ. 41(4), 24–28 (2015)
Miao, D., Hu, S.: Uncertainty analysis based on granular computing. J. Northwest Univ. (4), 44–47 (2019)
Li, D., Liu, C.: On the universality of forward cloud model. Eng. Sci. 6(8), 28–34 (2004)
Li, D., Meng, H., Shi, X.: Membership cloud and membership cloud generator. J. Comput. Res. Dev. 32(6), 15–20 (1995)
Wu, J., Wu, F., Wu, F.: Qualitive evaluation for vector map data based on cloud model. Geomatics Sci. Eng. 31(2), 23–26 (2011)
Luo, J., Xue, Q., Zhang, G., et al.: Application and research on operational effectiveness evaluation of C4ISR system based on cloud theory. J. Syst. Simul. 24(1), 212–215 (2012)
Guo, R., **a, J., Dong, S., et al.: A multiple attribute comprehensive evaluation method based on multidimensional cloud model. Comput. Sci. 37(11), 75–77 (2010)
Liu, J., Wang, J., Wang, Y.: A system effectiveness evaluation method based on multidimensional cloud model. Shipboard Electronic Countermeasure 36(2), 85–88 (2013)
Zhou, Y., Wang, L.: Multiple level fuzzy comprehensive evaluation method based on cloud model theory. Comput. Simul. 33(12), 390–395 (2016)
**, C., **ang, Z., Kunhong, Z., et al.: Evaluation of army troop logistics support equipment system effectiveness. Command Control Simul. 40(5), 57–61 (2018)
Hong, Z., **anqi, C.: Research on effectiveness evaluation method of operational information support of navigation and positioning satellites. J. Inst. Command Technol. 12(5), 26–28 (2001)
Wang **aowei, Y., Dewei, K.W.: Analysis on operational effectiveness of navigation satellite system. Global Positioning Syst. 32(2), 36–40 (2007)
Jun, Y.: Research on comprehensive effectiveness evaluation of navigation satellite system based on fuzzy theory. J. Astronautics. 25(2), 147–151 (2004)
Duan, Y., Wu, C., Li, C.: An improved effectiveness evaluation model of navigation satellite system. Fire Control Command Control 33(5), 133–136 (2008)
Hua, W., Yang, G., Yehua, Q., et al.: Effectiveness evaluation of BeiDou receivers based on fuzzy analytic hierarchy process. Geomatics Sci. Eng. 36(4), 64–68 (2016)
Guokuang, W., Deyi, L., Yiyu, Y., et al.: Cloud Model and Granular Computing. Science Press, Bei**g (2018)
Yuhua, C., Qiaoli, L., et al.: Systematism Equipment Test and Evaluation. National Defense Industry Press, Bei**g (2019)
Wu, J.: Research on the Methods of Vector Map Data Quality Assessment Based on the Cloud Model. PLA Information Engineering University (2011)
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Wu, J., Jia, X., Zang, T. (2021). BeiDou Satellite Navigation Terminal Effectiveness Evaluation Based on Cloud Theory. In: Yang, C., **e, J. (eds) China Satellite Navigation Conference (CSNC 2021) Proceedings. Lecture Notes in Electrical Engineering, vol 774. Springer, Singapore. https://doi.org/10.1007/978-981-16-3146-7_47
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DOI: https://doi.org/10.1007/978-981-16-3146-7_47
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