Analysis of Influencing Factors of Fixed Distance System Based on MEMS Acceleration Sensor
DOI: 10.23977/mems.2020.010101 | Downloads: 11 | Views: 2106
Bingnan Liu 1, Liqing Fang 1, Deqing Guo 1
1 The Artillery Engineering Department, Army Engineering University, Shijiazhuang 050003, China
Corresponding AuthorLiqing Fang
Precise strike capability and high efficiency damage ability of ammunition are the core of modern war. Precision strike is achieved through the fixed distance system at present, but the accuracy of displacement measurement system is affected by many factors. If the error influencing factors are not controlled and intervened, the displacement measurement will be greatly affected. Even some factors may cause the projectile to deviate completely from the intended course. Firstly, a displacement measuring system based on MEMS acceleration sensor is introduced in this paper. Then analyze and elaborate the difference of influencing factors that may cause errors in each link. It has certain reference value for the research work to improve the accuracy of the system.
KEYWORDSMEMS, acceleration, accuracy, error analysis
CITE THIS PAPER
Bingnan Liu, Liqing Fang, Deqing Guo, Analysis of Influencing Factors of Fixed Distance System Based on MEMS Acceleration Sensor. Micro-Electro-Mechanical Systems (2020) 1: 1-7. DOI: http://dx.doi.org/10.23977/mems.2020.010101
 Xu Lei, Fang Liqing, Huo Ruikun, Guo Deqing. Application research of MEMS acceleration sensor in fuze [J]. Flying Missile, 2018 (05): 91-95.
 Yao Zewu, Cui Houbao, direction east. Analysis of Influencing Factors of Explosion Point Control of Counting Rotational Bomb [J]. Journal of Sichuan Armory Engineering, 2008 (01): 22-25.
 Cao Chengmao, Ding Libo. Research on design of small-caliber artillery-air-blast fuze based on counting revolutions and fixed distance [J]. Journal of Ballistics, 2004 (04): 82-86.
 Wang Zhongyuan, Zhang Bisheng, Shi Jinguang, Yi Wenjun. Analysis of influencing factors of the fixed distance of the number of rounds of the shell [J]. Journal of Ballistics, 2006 (04): 8-11.
 De Spirito J, Heavey K R.CFD Computation of Magnus Moment and Roll Damoping Moment of A Spinning Projectile,ARL-RP_131 [R]. Rhode Island: AIAA, 2006.
 Niu Weimeng, Fang Liqing, Li Xu, Huo Ruikun, Qi Ziyuan, Guo Deqing. Measurement method of outer ballistic acceleration of fuze [J]. Journal of Artillery Launching and Control, 2020, 41 (01): 93-98.
 Niu Weimeng, Fang Liqing, Qi Ziyuan, Guo Deqing. Displacement measurement system based on MEMS acceleration sensor [J]. Instrument Technology and Sensors, 2020 (03): 62-66+72.
 Zhou Yingjie. Acceleration test integral displacement algorithm and its application research [D]. Chongqing University, 2013.
 Rong Taiping, Shen Chenghu, Yuan Zhongping, Xu Songmei. The principle and error analysis of displacement measurement with acceleration sensor [J]. Journal of Huazhong University of Science and Technology, 2000 (05): 58-60.
 Chen Weizhen, Wang Bingwen, Hu Xiaoya. Acceleration signal processing based on time domain integration [J]. Journal of Huazhong University of Science and Technology (Natural Science Edition), 2010, 38 (01): 1-4.
 Chen Jun, Li Jie. Several methods of extracting trend items of vibration signal and their comparison [J]. Journal of Fuzhou University (Natural Science Edition), 2005 (S1): 42-45.
 Xu Han, Zeng Chao, Huang Qinghua. Research on Error Compensation of MEMS Gyroscope Based on Kalman Filter Algorithm (English) [J]. Journal of Sensor Technology, 2016, 29 (07): 962-965.
 Yang Huijuan, Huang Zheng, Huo Pengfei, Wang Chao. Dynamic error compensation method of axial acceleration based on Kalman filte r[J]. Journal of Ballistics, 2014, 26 (01): 103-106.
 Wang Yan, Lu Jianping, Ma Tiehua. Processing method of zero drift of penetration acceleration signal [J]. Journal of Sensor Technology, 2015, 28 (04): 510-514.
 Bar-Shalom Y, Binniwal K. Variable Dimension Filter For Maneuvering Target TRACking [J]. IEEE Transaction on Aerospace and Electronic Systems, 1982, 18 (5): 621-629.
 Gao Qingyi, Chang Lulu, Wang Binxing, Wen Zhongyuan. Analysis of Zero Drift of MEMS Acceleration Sensor in Explosion Impact Environment [J]. Journal of Testing Technology, 2020, 34 (04): 349-354.
 Yang Zhao. Research on missile-borne velocity measurement technology [D]. North University of China, 2007.
 Yang Zhao, Wang Li, Ji Xia. Research on the method of missile-borne self-test speed [J]. Journal of Projectiles, Rockets, and Guidance, 2006 (04): 179-180.
 Wang Weiqiang. Programmable fuze setting data link design and accuracy analysis [D]. Nanjing University of Science and Technology, 2018.
 Huang Xuegong. Muzzle induction setting fuze technology and experimental research [D]. Nanjing University of Science and Technology, 2005.
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