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Analysis of the interannual variation characteristics of the northernmost drift position of the green tide in the Yellow Sea 期刊论文
ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH, 2020, 页码: 11
作者:  Li, Dongxue;  Gao, Zhiqiang;  Zheng, Xiangyang;  Wang, Nanyu
收藏  |  浏览/下载:38/0  |  提交时间:2021/06/21
基于闭环点位置控制的硅微梳齿式加速度计温漂抑制方法 期刊论文
2016, 2016
徐哲; 刘云峰; 董景新; XU Zhe; LIU Yun-feng; DONG Jing-xin
收藏  |  浏览/下载:7/0
Design of motion adjusting system for space camera based on ultrasonic motor (EI CONFERENCE) 会议论文
International Symposium on Photoelectronic Detection and Imaging 2011: Space Exploration Technologies and Applications, May 24, 2011 - May 26, 2011, Beijing, China
Xu K.; Jin G.; Gu S.; Yan Y.; Sun Z.
收藏  |  浏览/下载:75/0  |  提交时间:2013/03/25
Drift angle is a transverse intersection angle of vector of image motion of the space camera. Adjusting the angle could reduce the influence on image quality. Ultrasonic motor (USM) is a new type of actuator using ultrasonic wave stimulated by piezoelectric ceramics. They have many advantages in comparison with conventional electromagnetic motors. In this paper  some improvement was designed for control system of drift adjusting mechanism. Based on ultrasonic motor T-60 was designed the drift adjusting system  which is composed of the drift adjusting mechanical frame  the ultrasonic motor  the driver of Ultrasonic Motor  the photoelectric encoder and the drift adjusting controller. The TMS320F28335 DSP was adopted as the calculation and control processor  photoelectric encoder was used as sensor of position closed loop system and the voltage driving circuit designed as generator of ultrasonic wave. It was built the mathematic model of drive circuit of the ultrasonic motor T-60 using matlab modules. In order to verify the validity of the drift adjusting system  was introduced the source of the disturbance  and made simulation analysis. It designed the control systems of motor drive for drift adjusting system with the improved PID control. The drift angle adjusting system has such advantages as the small space  simple configuration  high position control precision  fine repeatability  self locking property and low powers. It showed that the system could accomplish the mission of drift angle adjusting excellent. 2011 SPIE.  
Design of motion compensation mechanism of satellite remote sensing camera (EI CONFERENCE) 会议论文
International Symposium on Photoelectronic Detection and Imaging 2011: Space Exploration Technologies and Applications, May 24, 2011 - May 26, 2011, Beijing, China
Gu S.; Yan Y.; Xu K.; Jin G.
收藏  |  浏览/下载:42/0  |  提交时间:2013/03/25
With the development of aerospace remote sensing technology  the ground resolution of remote sensing camera enhances continuously. Since there is relative motion between camera and ground target when taking pictures  the target image recorded in recording media is moved and blurred. In order to enhance the imaging quality and resolution of the camera  the image motion had to be compensated. In order to abate the effect of image motion to image quality of space camera and improve the resolution of the camera  the compensation method of image motion to space camera is researched. First  the reason of producing drift angle and adjustment principle are analyzed in this paper. This paper introduce the composition and transmission principle of image motion compensation mechanism. Second  the system adopts 80C31 as controller of drift angle  and adopts stepping motor for actuators  and adopts absolute photoelectric encoder as the drift Angle measuring element. Then the control mathematical model of the image motion compensation mechanism are deduced  and it achieve the closed-loop control of the drift angle position. At the last  this paper analyses the transmission precision of the mechanism. Through the experiment  we measured the actual precision of the image motion compensation mechanism  and compared with the theoretical analysis. There are two major contributions in this paper. First  the traditional image motion compensation mechanism is big volume and quality heavy. This has not fit for the development trend of space camera miniaturization and lightweight. But if reduce the volume and quality of mechanism  it will bring adverse effects for the precision and stiffness of mechanism. For this problem  This paper designed a image motion compensation that have some advantages such as small size  light weight at the same time  high precision  stiffness and so on. This image motion compensation can be applicable to the small optics cameras with high resolution. Second  the traditional mechanism control need to corrected  fitting and iterative for the control formula of mechanism. Only in this way  we can get the optimal control mathematical model. This paper has high precision of the control formula derived. It can achieve the high precision control without fitting  It also simplify the difficulty of control mathematical model establishment. This paper designed the range of adjusting of image motion compensation mechanism between -5 +5. Based on choosing-5  -4  -3  -2  -1  0  +1  +2  +3  +4  +4 as the expectation value of the imaginary drift angle  we get ten groups of the fact data in adjusting drift angle measured. The test results show that the precision of the drift angle control system can be achieved in 1. It can meet the system requirements that the precision of the control system is less than 3'  and it can achieve the high-precision image motion compensation. 2011 SPIE.  
Study of the online event filtering algorithm for BESIII 期刊论文
2010, 2010
Fu Cheng-Dong; Zou Jia-Heng; Mo Xiao-Hu; He Kang-Lin; Bian Jian-Ming; Cao Guo-Fu; Cao Xue-Xiang; Chen Shen-Jian; Deng Zi-Yan; Gao Yuan-Ning; He Miao; Hua Chun-Fei; Huang Bin; Huang Xing-Tao; Ji Xiao-Bin; Li Fei; Li Hai-Bo; Li Wei-Dong; Liang Yu-Tie; Liu Chun-Xiu; Liu Huai-Min; Liu Qiu-Guang; Liu Suo; Liu Ying-Jie; Ma Qiu-Mei; Ma Xiang; Mao Ya-Jun; Mao Ze-Pu; Pan Ming-Hua; Pang Cai-Ying; Ping Rong-Gang; Qin Gang; Qin Ya-Hong; Qiu Jin-Fa; Sun Sheng-Sen; Sun Yong-Zhao; Wang Ji-Ke; Wang Liang-Liang; Wen Shuo-Pin; Wu Ling-Hui; Xie Yu-Guang; Xu Min; Yan Liang; You Zheng-Yun; Yu Guo-Wei; Yuan Chang-Zheng; Yuan Ye; Zhang Bing-Yun; Zhang Chang-Chun; Zhang Jian-Yong; Zhang Xue-Yao; Zhang Yao; Zheng Yang-Heng; Zhu Ke-Jun; Zhu Yong-Sheng; Zhu Zhi-Li
收藏  |  浏览/下载:11/0
Software alignment of the BESIII main drift chamber using the Kalman filter method 期刊论文
2010, 2010
Wang Ji-Ke; Mao Ze-Pu; Bian Jian-Ming; Cao Guo-Fu; Cao Xue-Xiang; Chen Shen-Jian; Deng Zi-Yan; Fu Cheng-Dong; Gao Yuan-Ning; He Kang-Lin; He Miao; Hua Chun-Fei; Huang Bin; Huang Xing-Tao; Ji Xiao-Bin; Li Fei; Li Hai-Bo; Li Wei-Dong; Liang Yu-Tie; Liu Chun-Xiu; Liu Huai-Min; Liu Suo; Liu Ying-Jie; Ma Qiu-Mei; Ma Xiang; Mao Ya-Jun; Mo Xiao-Hu; Pan Ming-Hua; Pang Cai-Ying; Ping Rong-Gang; Qin Ya-Hong; Qiu Jin-Fa; Sun Sheng-Sen; Sun Yong-Zhao; Wang Liang-Liang; Wen Shuo-Pin; Wu Ling-Hui; Xie Yu-Guang; Xu Min; Yan Liang; You Zheng-Yun; Yuan Chang-Zheng; Yuan Ye; Zhang Bing-Yun; Zhang Chang-Chun; Zhang Jian-Yong; Zhang Xue-Yao; Zhang Yao; Zheng Yang-Heng; Zhu Ke-Jun; Zhu Yong-Sheng; Zhu Zhi-Li; Zou Jia-Heng
收藏  |  浏览/下载:5/0
Numerical analyses of design and assembly for main components of BESIII 期刊论文
2010, 2010
Zeng Pan; Lei Liping; Zhao Ruihai; Li Ying; Chen Yuanbo; Tang Xiao
收藏  |  浏览/下载:10/0
North seeker using single axis FOG 期刊论文
Zhongguo Guanxing Jishu Xuebao/Journal of Chinese Inertial Technology, 2010, 卷号: 18, 期号: [db:dc_citation_issue], 页码: 165-169
作者:  Jiang, Qing-Xian;  Chen, Xiao-Bi;  Ma, Xiao-Hui;  Wang, Hua
收藏  |  浏览/下载:2/0  |  提交时间:2019/12/10
A study of the calibration of wire positions for the BESIIIdrift chamber using physics data without magnetic field 期刊论文
中国物理C, 2008, 期号: 4, 页码: 264-268
作者:  Wu LH(伍灵慧);  Wang YF(王贻芳);  Chen YB(陈元柏);  Liu JB(刘建北);  Liu RG(刘荣光)
收藏  |  浏览/下载:11/0  |  提交时间:2015/12/21
A study of the calibration of wire positions for the BESIII drift chamber using physics data without magnetic field 期刊论文
CHINESE PHYSICS C, 2008, 卷号: 32, 期号: 4, 页码: #REF!
作者:  Wu LH(伍灵慧);  Wang YF(王贻芳);  Chen YB(陈元柏);  Liu JB(刘建北);  Liu RG(刘荣光)
收藏  |  浏览/下载:14/0  |  提交时间:2016/04/12

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