Ai4mars: A dataset for terrain-aware autonomous driving on mars
Deep learning has quickly become a necessity for self-driving vehicles on Earth. In contrast,
the self-driving vehicles on Mars, including NASA's latest rover, Perseverance, which is …
the self-driving vehicles on Mars, including NASA's latest rover, Perseverance, which is …
A survey on path planning for autonomous ground vehicles in unstructured environments
N Wang, X Li, K Zhang, J Wang, D Xie - Machines, 2024 - mdpi.com
Autonomous driving in unstructured environments is crucial for various applications,
including agriculture, military, and mining. However, research in unstructured environments …
including agriculture, military, and mining. However, research in unstructured environments …
Autonomous closed-loop guidance using reinforcement learning in a low-thrust, multi-body dynamical environment
Onboard autonomy is an essential component in enabling increasingly complex missions
into deep space. In nonlinear dynamical environments, computationally efficient guidance …
into deep space. In nonlinear dynamical environments, computationally efficient guidance …
RoadRunner--Learning Traversability Estimation for Autonomous Off-road Driving
Autonomous navigation at high speeds in off-road environments necessitates robots to
comprehensively understand their surroundings using onboard sensing only. The extreme …
comprehensively understand their surroundings using onboard sensing only. The extreme …
Risk-averse trajectory optimization via sample average approximation
Trajectory optimization under uncertainty underpins a wide range of applications in robotics.
However, existing methods are limited in terms of reasoning about sources of epistemic and …
However, existing methods are limited in terms of reasoning about sources of epistemic and …
Self-supervised learning to guide scientifically relevant categorization of martian terrain images
Automatic terrain recognition in Mars rover images is an important problem not just for
navigation, but for scientists interested in studying rock types, and by extension, conditions …
navigation, but for scientists interested in studying rock types, and by extension, conditions …
SMars: Self-Supervised and Semi-Supervised Learning for Mars Segmentation
Deep learning has become a powerful tool for Mars exploration. Mars terrain segmentation
is an important Martian vision task, which is the base of rover autonomous planning and safe …
is an important Martian vision task, which is the base of rover autonomous planning and safe …
Learning physical characteristics like animals for legged robots
Physical characteristics of terrains, such as softness and friction, provide essential
information for legged robots to avoid non-geometric obstacles, like mires and slippery …
information for legged robots to avoid non-geometric obstacles, like mires and slippery …
Maars: Machine learning-based analytics for automated rover systems
MAARS (Machine leaning-based Analytics for Automated Rover Systems) is an ongoing JPL
effort to bring the latest self-driving technologies to Mars, Moon, and beyond. The ongoing AI …
effort to bring the latest self-driving technologies to Mars, Moon, and beyond. The ongoing AI …
Space applications of a trusted ai framework: Experiences and lessons learned
Artificial intelligence (AI), which encompasses machine learning (ML), has become a critical
technology due to its well-established success in a wide array of applications. However, the …
technology due to its well-established success in a wide array of applications. However, the …