Author:
Lu Renchao,Gao Haibo,Liu Zhen,Yuan Runze,Deng Zongquan
Publisher
Springer Science and Business Media LLC
Reference42 articles.
1. Grotzinger J P, Crisp J, Vasavada A R, Anderson R C, Baker C J, Barry R, Blake D F, Conrad P, Edgett K S, Ferdowski B, Gellert R, Gilbert J B, Golombek M, Gómez-Elvira J, Hassler D M, Jandura L, Litvak M, Mahaffy P, Maki J, Meyer M, Malin M C, Mitrofanov I, Simmonds J J, Vaniman D, Welch R V, Wiens R C. Mars science laboratory mission and science investigation. Space Science Reviews, 2012, 170(1–4): 5–56
2. Lapotre M G A, Ewing R C, Lamb M P, Fischer W W, Grotzinger J P, Rubin D M, Lewis K W, Ballard M J, Day M, Gupta S, Banham S G, Bridges N T, Des Marais D J, Fraeman A A, Grant J A, Herkenhoff K E, Ming D W, Mischna M A, Rice M S, Sumner D Y, Vasavada A R, Yingst R A. Large wind ripples on Mars: a record of atmospheric evolution. Science, 2016, 353(6294): 55–58
3. Luo Z R, Shang J Z, Wei G W, Ren L. Module-based structure design of wheeled mobile robot. Mechanical Sciences, 2018, 9(1): 103–121
4. Ghotbi B, González F, Kövecses J, Angeles J. A novel concept for analysis and performance evaluation of wheeled rovers. Mechanism and Machine Theory, 2015, 83: 137–151
5. Bauer R, Leung W, Barfoot T. Experimental and simulation results of wheel-soil interaction for planetary rovers. In: Proceedings of 2005 IEEE/RSJ International Conference on Intelligent Robots and Systems. Edmonton: IEEE, 2005, 586–591