Proprioceptive Slip Detection for Planetary Rovers in Perceptually Degraded Extraterrestrial Environments

Abstract: Slip detection is of fundamental importance for the safety and efficiency of rovers driving on the surface of extraterrestrial bodies. Current planetary rover slip detection systems rely on visual perception on the assumption that sufficient visual features can be acquired in the environment. However, visual-based methods are prone to suffer in perceptually degraded planetary environments with dominant low terrain features such as regolith, glacial terrain, salt evaporites, and poor lighting conditions such as… Show more

“…In the absence of a loop-closure strategy such as, for example, periodic homing update, the localization error of the robotic system is likely to significantly increase due to the challenging terrain characteristics (i.e., steep slopes and low features), leading to wheel slippage and visual odometry (VO) failures ( Gonzalez et al., 2018 ; Strader et al., 2020 ; Kilic et al., 2022 ). Consequently, any localization inaccuracy issue can yield consecutive unsuccessful reports for the sensed volatiles.…”

Multi-robot cooperation for lunar In-Situ resource utilization

“…In the absence of a loop-closure strategy such as, for example, periodic homing update, the localization error of the robotic system is likely to significantly increase due to the challenging terrain characteristics (i.e., steep slopes and low features), leading to wheel slippage and visual odometry (VO) failures ( Gonzalez et al., 2018 ; Strader et al., 2020 ; Kilic et al., 2022 ). Consequently, any localization inaccuracy issue can yield consecutive unsuccessful reports for the sensed volatiles.…”

Multi-robot cooperation for lunar In-Situ resource utilization

Fully Proprioceptive Slip-Velocity-Aware State Estimation for Mobile Robots via Invariant Kalman Filtering and Disturbance Observer