James Bockman scite author profile

James Bockman

2Publications

0Citation Statements Received

55Citation Statements Given

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Autonomy and Perception for Space Mining

Sachdeva¹,

Hammond²,

Bockman³

et al. 2021

Preprint

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Future Moon bases will likely be constructed using resources mined from the surface of the Moon. The difficulty of maintaining a human workforce on the Moon and communications lag with Earth means that mining will need to be conducted using collaborative robots with a high degree of autonomy. In this paper, we explore the utility of robotic vision towards addressing several major challenges in autonomous mining in the lunar environment: lack of satellite positioning systems, navigation in hazardous terrain, and delicate robot interactions. Specifically, we describe and report the results of robotic vision algorithms that we developed for Phase 2 of the NASA Space Robotics Challenge, which was framed in the context of autonomous collaborative robots for mining on the Moon. The competition provided a simulated lunar environment that exhibits the complexities alluded to above. We show how machine learning-enabled vision could help alleviate the challenges posed by the lunar environment. A robust multirobot coordinator was also developed to achieve long-term operation and effective collaboration between robots 1 .

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The Edge of Disaster: A Battle Between Autonomous Racing and Safety

Howe¹,

Bockman²,

Orenstein³

et al. 2022

Preprint

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Autonomous racing represents a uniquely challenging control environment where agents must act while on the limits of a vehicle's capability in order to set competitive lap times. This places the agent on a knife's edge, with a very small margin between success and loss of control. Pushing towards this limit leads to a practical tension: we want agents to explore the limitations of vehicle control to maximise speed, but inadvertently going past that limit and losing control can cause irreparable damage to the vehicle itself. We provide a model predictive control (MPC) baseline that is able to, in a single lap, safely adapt to an unseen racetrack and achieve competitive lap times. Our approaches efficacy is demonstrated in simulation using the Learn To Race Challenge's environment and metrics. (Herman et al., 2021)

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James Bockman

Autonomy and Perception for Space Mining

The Edge of Disaster: A Battle Between Autonomous Racing and Safety

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