| 1. | This is the third lecture in the lecture series " new era of planetary exploration "
这是太空馆行星探索新世代讲座系列的第三讲火星探索。 |
| 2. | The communication characteristics of a reconfigurable planetary exploration multi - robot system are analyzed
摘要分析了一种可重构星球探测系统中多机器人通信的特点。 |
| 3. | Both landing sites had been specifically chosen in the hope they would yield evidence for water . but the proof didn ' t come quite as expected ; nothing in planetary exploration ever does
两个着陆点的圈定,都以希望能发现水存在的证据为指导。但正如行星探索中常常发生的那样,证据的出现总让人异想不到。 |
| 4. | The last few decades have also witnessed flourishing developments in planetary exploration : unmanned automated probes were sent to study far - flung planets such as uranus and neptune , which are more than a billion kilometres from us
近数十年来,无人驾驶的太空探测器甚至飞越距离我们超过10亿公里的天王星及海王星。 |
| 5. | In recent years , mars become the hottest place for planetary exploration , as there are so many missions conducting on mars , in some aspect , we understand mars even better than our earth
近年火星成为太空探索的一个重点,因为众多的任务,在很多层面上,我们认识火星比地球还要多,因此在火星上的网络使我们对这行星的认识让我们未来人类踏足火星的梦想一步步贴近起来。 |
| 6. | Planetary exploration robots are becoming miniaturized and multi - robot cooperation of such small robots is the developing trend . fewer tasks will be performed with robots becoming smaller . thus , to maintain as many functions as possible while miniaturizing planetary robots is very important
行星探测机器人小型化、群体协作是未来的发展趋势,小型化后,机器人个体的功能会减弱,因此,在探测机器人小型化的同时,使其具有尽可能多的功能,是十分重要的。 |
