[1] 王大轶,符方舟,孟林智,等. 深空探测器自主控制技术综述[J]. 深空探测学报(中英文),2019,6(4):317-327
WANG D Y,FU F Z,MENG L Z,et al. Research of autonomous control technology for deep space probes[J]. Journal of Deep Space Exploration,2019,6(4):317-327
[2] 王琼,贾阳,陶灼,等. 火星移动智能体技术探讨[J]. 航天器工程,2015,24(4):27-32
WANG Q,JIA Y,TAO Z,et al. Discuss on Mars mobile agent technologies[J]. Spacecraft Engineering,2015,24(4):27-32
[3] 李丽娇,石然,严丹,等. 一种适用于星载太阳翼的驱动控制器设计[J]. 空间控制技术与应用,2018,44(6):22-31
LI L J,SHI R,YAN D,et al. Design of a drive controller for satellite-borne solar wing[J]. Aerospace Control and Applicant,2018,44(6):22-31
[4] 宋斌,齐永龙. 一种卫星通信天线伺服机构设计[J]. 国外电子测量技术,2014,33(2):49-52
SONG B,QI Y L. Design of satellite communication servo mechanism[J]. Foreign Electronic Measurement Technology,2014,33(2):49-52
[5] 刘宏,蒋再男,刘业超. 空间机械臂技术发展综述[J]. 载人航天,2015,21(5):435-443
LIU H,JIANG Z N,LIU Y C. Review of space manipulator technology[J]. Manned Spaceflight,2015,21(5):435-443
[6] 张旺军,申振荣,李群智,等. 月球巡视器的系统设计优化方法研究[J]. 航天器工程,2014,23(3):4-11
ZHANG W J,SHEN Z R,LI Q Z,et al. Study on system design and optimization method of lunar rover[J]. Spacecraft Engineering,2014,23(3):4-11
[7] 贾阳,张建利,李群智,等. 嫦娥三号巡视器遥操作系统设计与实现[J]. 中国科学技术科学,2014,44(5):470-482
JIA Y,ZHANG J L,LI Q Z,et al. Design and realization for teleoperation system of the Chang’e-3 rover[J]. Science China Technological Sciences,2014,44(5):470-482
[8] 申振荣,张伍,贾阳,等. 嫦娥三号巡视器及其技术特点分析[J]. 航天器工程,2015,24(5):8-13
SHEN Z R,ZHANG W,JIA Y,et al. System design and technical characteristics analysis of Chang’e-3 lunar rover[J]. Spacecraft Engineering,2015,24(5):8-13
[9] 邹大力,杨雷,曲广吉. 主动悬架星球车移动系统姿态控制研究[J]. 空间控制技术与应用,2008,34(3):12-16
ZOU D L,YANG L,QU G J. Research on the attitude control of active suspension rover[J]. Aerospace Control and Application,2008,34(3):12-16
[10] 陶灼,陈百超. 火星车在松软地面上的蠕动步态研究[J]. 航天器环境工程,2016,33(3):262-268
TAO Z,CHEN B C. The inching locomotion of a martian rover on loose soil[J]. Spacecraft Environment Engineering,2016,33(3):262-268
[11] 彭松,陈百超,张建利. 月面巡视器定向天线对地指向规划方法研究[J]. 航天器工程,2013,22(3):41-46
PENG S,CHEN B C,ZHANG J L. Research on the method of lunar rover antenna direction planning[J]. Spacecraft Engineering,2013,22(3):41-46
[12] 赵葵银,寻大勇,唐勇奇. 基于AD2S80A的永磁同步电动机高精度位置检测系统[J]. 低压电器,2006,9:25-27
ZHAO K Y,XUN D Y,TANG Y Q. High accuracy position measuring system based on AD2S80A for permanent magnet synchronous motor[J]. Low Voltage Application,2006,9:25-27
[13] 郑力,卢刚,李声晋. 基于AD2S80A的双路RDC测角系统及接口设计[J]. 微特电机,2009(8):12-18
ZHENG L,LU G,LI S J. Design of double channel angle measuring system based on AD2S80A and its interface circuit[J]. Small & Special Electrical Machines,2009(8):12-18
[14] 徐建萍,施未勋. 一种基于MSK4300的无刷直流电机伺服控制系统设计[J]. 自动化应用,2013(4):50-55
XU J P,SHI W X. A brushless DC motor servo control system based on MSK4300[J]. Automation Application,2013(4):50-55
[15] 林芳,王煜,付毅宾,等. 基于FPGA的星载步进电机控制电路设计[J]. 中国空间科学技术,2017,37(3):77-84
LIN F,WANG Y,FU Y B,et al. Design of stepper motor control circuit for satellite based on FPGA[J]. Chinese Space Science and Technology,2017,37(3):77-84
[16] 郭闯强,倪风雷,孙敬颞,等. 空间机械臂关节容错控制系统研究[J]. 电机与控制学报,2011,15(2):76-83
GUO C Q,NI F L,SUN J T,et al. Design of the faulttolerant control system for space robotic joint[J]. Electric Machines and Control,2011,15(2):76-83
[17] 李清,吴昊,冯立墨,等. 三余度机电伺服机构及其故障隔离与重构技术[J]. 微电机,2014,47(12):40-44
LI Q,WU H,FENG L M,et al. Technology of reconstitution and fault isolation for trebleredundancy of mechanical and electrical servo mechanism[J]. Micro Motors,2014,47(12):40-44