Add to ORKGAutonomous exploration of subterranean environments constitutes a major frontier for robotic systems, as underground settings present key challenges that can render robot autonomy hard to achieve. This problem has motivated the DARPA Subterranean Challenge, where teams of robots search for objects of interest in various underground environments. In response, we present the CERBERUS system-of-systems, as a unified strategy for subterranean exploration using legged and flying robots. Our proposed approach relies on ANYmal quadraped as primary robots, exploiting their endurance and ability to traverse challenging terrain. For aerial robots, we use both conventional and collision-tolerant multirotors to explore spaces too narrow or otherwise un...
Autonomous exploration of subterranean environments remains a major challenge for robotic systems. I...
The task of planetary exploration poses many challenges for a robot system, from weight and size con...
Fully autonomous exploration and mobile manipulation in rough terrain are still beyond the state of ...
Autonomous exploration of subterranean environments constitutes a major frontier for robotic systems...
This article presents the CERBERUS robotic system-of-systems, which won the DARPA Subterranean Chall...
This work presents a field-hardened autonomous multimodal legged-aerial robotic system for subterran...
This thesis presents a multi-robot exploration path planning framework for underground environments,...
This paper presents a novel strategy for autonomous teamed exploration of subterranean environments ...
Subterranean environments, such as cave networks and underground mines, often involve complex, large...
This paper provides insight into the application of the quadrupedal robot ANYmal in outdoor missions...
Robotic technologies will continue to enter new applications in addition to automated manufacturing ...
Deploying robots in unknown and complex areas for inspection tasks is becoming a real need for vario...
This work contributes a marsupial robotic system-of-systems involving a legged and an aerial robot c...
Autonomous robotic exploration is expanding into an ever-increasing set of critical applications inc...
So far, mobile, robotic exploration of celestial bodies has been performed solely with wheeled syste...
Autonomous exploration of subterranean environments remains a major challenge for robotic systems. I...
The task of planetary exploration poses many challenges for a robot system, from weight and size con...
Fully autonomous exploration and mobile manipulation in rough terrain are still beyond the state of ...
Autonomous exploration of subterranean environments constitutes a major frontier for robotic systems...
This article presents the CERBERUS robotic system-of-systems, which won the DARPA Subterranean Chall...
This work presents a field-hardened autonomous multimodal legged-aerial robotic system for subterran...
This thesis presents a multi-robot exploration path planning framework for underground environments,...
This paper presents a novel strategy for autonomous teamed exploration of subterranean environments ...
Subterranean environments, such as cave networks and underground mines, often involve complex, large...
This paper provides insight into the application of the quadrupedal robot ANYmal in outdoor missions...
Robotic technologies will continue to enter new applications in addition to automated manufacturing ...
Deploying robots in unknown and complex areas for inspection tasks is becoming a real need for vario...
This work contributes a marsupial robotic system-of-systems involving a legged and an aerial robot c...
Autonomous robotic exploration is expanding into an ever-increasing set of critical applications inc...
So far, mobile, robotic exploration of celestial bodies has been performed solely with wheeled syste...
Autonomous exploration of subterranean environments remains a major challenge for robotic systems. I...
The task of planetary exploration poses many challenges for a robot system, from weight and size con...
Fully autonomous exploration and mobile manipulation in rough terrain are still beyond the state of ...