Add to ORKGWe review a large multidisciplinary effort to develop a family of autonomous robots capable of rapid, agile maneuvers in and around natural and artificial vertical terrains such as walls, cliffs, caves, trees and rubble. Our robot designs are inspired by (but not direct copies of) biological climbers such as cockroaches, geckos, and squirrels. We are incorporating advanced materials (e.g., synthetic gecko hairs) into these designs and fabricating them using state of the art rapid prototyping techniques (e.g., shape deposition manufacturing) that permit multiple iterations of design and testing with an effective integration path for the novel materials and components. We are developing novel motion control techniques to support dexterous cli...
Figure 12. An adhesive microbot pulls a weight while climbing a vertical surface. As we bring robots...
The interest in the development of climbing robots is growing rapidly. Motivations are typically to ...
Figure 12. An adhesive microbot pulls a weight while climbing a vertical surface. As we bring robots...
We review a large multidisciplinary effort to develop a family of autonomous robots capable of rapid...
We review a large multidisciplinary effort to develop a family of autonomous robots capable of rapid...
We review a large multidisciplinary effort to develop a family of autonomous robots capable of rapid...
©2005 SPIE--The International Society for Optical Engineering. One print or electronic copy may be m...
This paper presents an integrated, systems-level view of several novel design and control features a...
A new approach for climbing hard vertical surfaces has been developed that allows a robot to scale c...
This paper presents the design of a novel robot capable of climbing on vertical and rough surfaces, ...
Our goal is to use intelligent biological inspiration to develop robots that capture the capacity of...
© Springer Nature Switzerland AG 2019. The inchworm-style climbing robot present in current literatu...
As mobile robots become increasingly prevalent in society, there is a need to design robots to be ro...
The interest in the development of climbing robots is growing rapidly. Motivations are typically to ...
© 2008 MIT PressPresented at the third Robotics: Science and Systems Conference, 2007, Atlanta, GATh...
Figure 12. An adhesive microbot pulls a weight while climbing a vertical surface. As we bring robots...
The interest in the development of climbing robots is growing rapidly. Motivations are typically to ...
Figure 12. An adhesive microbot pulls a weight while climbing a vertical surface. As we bring robots...
We review a large multidisciplinary effort to develop a family of autonomous robots capable of rapid...
We review a large multidisciplinary effort to develop a family of autonomous robots capable of rapid...
We review a large multidisciplinary effort to develop a family of autonomous robots capable of rapid...
©2005 SPIE--The International Society for Optical Engineering. One print or electronic copy may be m...
This paper presents an integrated, systems-level view of several novel design and control features a...
A new approach for climbing hard vertical surfaces has been developed that allows a robot to scale c...
This paper presents the design of a novel robot capable of climbing on vertical and rough surfaces, ...
Our goal is to use intelligent biological inspiration to develop robots that capture the capacity of...
© Springer Nature Switzerland AG 2019. The inchworm-style climbing robot present in current literatu...
As mobile robots become increasingly prevalent in society, there is a need to design robots to be ro...
The interest in the development of climbing robots is growing rapidly. Motivations are typically to ...
© 2008 MIT PressPresented at the third Robotics: Science and Systems Conference, 2007, Atlanta, GATh...
Figure 12. An adhesive microbot pulls a weight while climbing a vertical surface. As we bring robots...
The interest in the development of climbing robots is growing rapidly. Motivations are typically to ...
Figure 12. An adhesive microbot pulls a weight while climbing a vertical surface. As we bring robots...