NASA’s long term plans involve a return to manned moon missions, and eventually sending humans to mars. The focus of this project is the use of autonomous mobile robotics to enhance these endeavors. This research details the creation of a system of terrain classification, energy of traversal estimation and low cost path planning for teams of inexpensive and potentially expendable robots. The first stage of this project was the creation of a model which estimates the energy requirements of the traversal of varying terrain types for a six wheel rocker-bogie rover. The wheel/soil interaction model uses Shibly’s modified Bekker equations and incorporates a new simplified rocker-bogie model for estimating wheel loads. In all but a single trial t...
Robotic rovers uniquely benefit planetary exploration- they enable regional exploration with the pre...
2014-2015 > Academic research: refereed > Refereed conference paperAccepted ManuscriptPublishe
Planetary exploration vehicles (rovers) can encounter with a great variety of situations. Most of t...
This paper introduces a path planning algorithm that takes into consideration different locomotion ...
This paper introduces a path planning algorithm that takes into consideration different locomotion ...
This thesis consists of two parts united by the theme of path/action planning for a mobile robot. Pa...
Driving energy consumption plays a major rolein the navigation of mobile robots in challenging envir...
Identifying robotic traverses on the surface of other celestial bodies is essential to assess the ca...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2009.This e...
This kind of robot is capable to perform many modes of locomotion. This skill allows them to adapt...
This kind of robot is capable to perform many modes of locomotion. This skill allows them to adapt...
For robotic applications, energy is a key resource that can both enable and limit the tasks that a r...
Over the past ve decades the use of mobile robotic rovers to perform in-situ scienti c investigatio...
For robotic applications, energy is a key resource that can both enable and limit the tasks that a r...
This thesis investigates the problem of multi-robot exploration of an unknown environment. The goal ...
Robotic rovers uniquely benefit planetary exploration- they enable regional exploration with the pre...
2014-2015 > Academic research: refereed > Refereed conference paperAccepted ManuscriptPublishe
Planetary exploration vehicles (rovers) can encounter with a great variety of situations. Most of t...
This paper introduces a path planning algorithm that takes into consideration different locomotion ...
This paper introduces a path planning algorithm that takes into consideration different locomotion ...
This thesis consists of two parts united by the theme of path/action planning for a mobile robot. Pa...
Driving energy consumption plays a major rolein the navigation of mobile robots in challenging envir...
Identifying robotic traverses on the surface of other celestial bodies is essential to assess the ca...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2009.This e...
This kind of robot is capable to perform many modes of locomotion. This skill allows them to adapt...
This kind of robot is capable to perform many modes of locomotion. This skill allows them to adapt...
For robotic applications, energy is a key resource that can both enable and limit the tasks that a r...
Over the past ve decades the use of mobile robotic rovers to perform in-situ scienti c investigatio...
For robotic applications, energy is a key resource that can both enable and limit the tasks that a r...
This thesis investigates the problem of multi-robot exploration of an unknown environment. The goal ...
Robotic rovers uniquely benefit planetary exploration- they enable regional exploration with the pre...
2014-2015 > Academic research: refereed > Refereed conference paperAccepted ManuscriptPublishe
Planetary exploration vehicles (rovers) can encounter with a great variety of situations. Most of t...
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