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Author: | Rajendraprakash, Anuraj |
Title: | Terrain mapping near the vehicle, SLAM and global map building for lunar rover |
Publication type: | Master's thesis |
Publication year: | 2013 |
Pages: | xv + 67 + liitt. (+7) Language: eng |
Department/School: | Sähkötekniikan korkeakoulu |
Main subject: | Space Robotics and Automation (AS3004) |
Supervisor: | Halme, Aarne ; Gustafsson, Thomas |
Instructor: | Terho, Sami |
Electronic version URL: | http://urn.fi/URN:NBN:fi:aalto-201311017767 |
OEVS: | Electronic archive copy is available via Aalto Thesis Database.
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Location: | P1 Ark Aalto 7506 | Archive |
Keywords: | Lunar-rover Terrain mapping SLAM LIDAR Point-cloud registration Iterative Closest Point(ICP) |
Abstract (eng): | There has been increasing interest to go back to the moon in the recent past because of various scientific and socio-economic reasons. In order to go back to the moon there is a need to study the lunar environment. Although having a permanent mission outpost on the moon is the final goal, it is better to send mobile rovers to the surface of the moon first to study lunar environment before starting the human missions to moon again. With the increasing autonomous mobility of the lunar rovers some aspects become increasingly important namely localization, navigation and mapping. Although the two-dimensional localization and mapping algorithms are becoming more and more mature for indoor mobile robotics, they cannot be used, as is, for autonomous lunar rovers. The terrain on the Moon is not even and would have various kinds of obstacles for the rovers to manoeuvre and traverse. Moreover, environmental features like walls and corners are not available in the environment in which the rovers would have to navigate. In such environments it becomes important for the rover to have the ability to map its surrounding in three dimensions. Although LIDAR based systems have not been widely used on actual lunar missions for mapping yet, they have the advantage of being more accurate and long-range. The focus of this thesis would be to develop and equip a lunar rover prototype with the three-dimensional terrain mapping ability using Light Detection and Ranging(LIDAR) sensor which would help the rover to traverse its environment without collisions. A three-dimensional point cloud was used to map the environment using the Iterative Closest Point(ICP) algorithm. |
ED: | 2013-12-02 |
INSSI record number: 48086
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