Add to ORKGIn this paper we present the complete system design for an aerial robot capable of autonomous exploration inside natural cave environments. Cave networks involve diverse and complicated topologies, complex geometries and degraded conditions rendering the process of robotic mapping a particularly daunting adventure. In response to these challenges, we outline the core algorithmic modules relating to localization and mapping, exploration path planning and control, alongside the developed perception and computing solutions onboard an aerial robot tailored to undertake such complex tasks given no prior information for the cave environments in which it is deployed. A set of extensive results is presented including both simulation studies in mult...
This work presents a field-hardened autonomous multimodal legged-aerial robotic system for subterran...
Autonomous exploration of subterranean environments constitutes a major frontier for robotic systems...
Abstract—d Caves on other planetary bodies offer sheltered habitat for future human explorers and nu...
Subterranean environments, such as cave networks and underground mines, often involve complex, large...
Deploying robots in unknown and complex areas for inspection tasks is becoming a real need for vario...
Autonomous exploration of subterranean environments remains a major challenge for robotic systems. I...
This paper presents a novel strategy for autonomous teamed exploration of subterranean environments ...
Cave mapping is far beyond surface mapping technologies because of the rugged terrain and the limite...
Abstract—Exploration of unknown environments is an im-portant aspect to fielding teams of robots. Wi...
Autonomous robotic exploration is expanding into an ever-increasing set of critical applications inc...
This paper addresses the problem of autonomous exploration and mapping of unknown environments by a ...
In this thesis, two deep learning-based path planning methods for autonomous exploration of subterra...
This work contributes a marsupial robotic system-of-systems involving a legged and an aerial robot c...
This paper addresses the problem of autonomous exploration and mapping of unknown environments by a ...
Summary. The need for reliable maps of subterranean spaces too hazardous for humans to occupy has mo...
This work presents a field-hardened autonomous multimodal legged-aerial robotic system for subterran...
Autonomous exploration of subterranean environments constitutes a major frontier for robotic systems...
Abstract—d Caves on other planetary bodies offer sheltered habitat for future human explorers and nu...
Subterranean environments, such as cave networks and underground mines, often involve complex, large...
Deploying robots in unknown and complex areas for inspection tasks is becoming a real need for vario...
Autonomous exploration of subterranean environments remains a major challenge for robotic systems. I...
This paper presents a novel strategy for autonomous teamed exploration of subterranean environments ...
Cave mapping is far beyond surface mapping technologies because of the rugged terrain and the limite...
Abstract—Exploration of unknown environments is an im-portant aspect to fielding teams of robots. Wi...
Autonomous robotic exploration is expanding into an ever-increasing set of critical applications inc...
This paper addresses the problem of autonomous exploration and mapping of unknown environments by a ...
In this thesis, two deep learning-based path planning methods for autonomous exploration of subterra...
This work contributes a marsupial robotic system-of-systems involving a legged and an aerial robot c...
This paper addresses the problem of autonomous exploration and mapping of unknown environments by a ...
Summary. The need for reliable maps of subterranean spaces too hazardous for humans to occupy has mo...
This work presents a field-hardened autonomous multimodal legged-aerial robotic system for subterran...
Autonomous exploration of subterranean environments constitutes a major frontier for robotic systems...
Abstract—d Caves on other planetary bodies offer sheltered habitat for future human explorers and nu...