An Efficient Locally Reactive Controller for Safe Navigation in Visual Teach and Repeat Missions

Mattamala, Matías; Chebrolu, Nived; Fallon, Maurice

doi:10.1109/lra.2022.3143196

Cited by 11 publications

(5 citation statements)

References 34 publications

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“…Mattamala et al [11] explore the use of a locally reactive controller for completing visual teach-and-repeat missions in the presence of obstacles. Their research employs local elevation maps to compute vector representations of the environment and directly generate control twist commands using a Riemannian Motion Policies controller.…”

Section: A Path Planning In Teach and Repeatmentioning

confidence: 99%

Along Similar Lines: Local Obstacle Avoidance for Long-Term Autonomous Path Following

Sehn,

Wu,

Barfoot

2023

2023 20th Conference on Robots and Vision (CRV)

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We extend the behaviour of generic sample-based motion planners to support obstacle avoidance during longrange path following by introducing a new edge-cost metric paired with a curvilinear planning space. The resulting planner generates naturally smooth paths that avoid local obstacles while minimizing lateral path deviation to best exploit prior terrain knowledge from the reference path. In this adaptation, we explore the nuances of planning in the curvilinear configuration space and describe a mechanism for natural singularity handling to improve generality. We then shift our focus to the trajectorygeneration problem, proposing a novel Model Predictive Control (MPC) architecture to best exploit our path planner for improved obstacle avoidance. Through rigorous field robotics trials over 5 km, we compare our approach to the more common direct path-tracking MPC method and discuss the promise of these techniques for reliable long-term autonomous operations.

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Section: A Path Planning In Teach and Repeatmentioning

confidence: 99%

Along Similar Lines: Local Obstacle Avoidance for Long-Term Autonomous Path Following

Sehn,

Wu,

Barfoot

2023

2023 20th Conference on Robots and Vision (CRV)

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“…A median filter removed undesired noise and artifacts before the distance transform method [10] was used to obtain a Signed Distance Field (SDF), which represents the distance to the closest untraversable object. We implemented a local planner method based on Mattamala et al [23], which exploits the SDF and the local goal to generate a SE(2) twist command which drives the robot towards the goal while avoiding untraversable terrain. Finally, the twist command becomes the input to a robust learning-based locomotion controller based on the work by Miki et al [25], which is able to traverse rough terrain typically inaccessible to wheeled robots.…”

Section: B Local Planningmentioning

confidence: 99%

Fast Traversability Estimation for Wild Visual Navigation

Frey,

Mattamala,

Chebrolu

et al. 2023

Robotics: Science and Systems XIX

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Fig. 1: Wild Visual Navigation (WVN) learns to predict traversability from images via online self-supervised learning. Starting from a randomly initialized traversability estimation network without prior assumptions about the environment (a), a human operator drives the robot around areas that are traversable for the given platform (b). After a few minutes of operation, WVN learns to distinguish between traversable and untraversable areas (c), enabling the robot to navigate autonomously and safely within the environment (d).

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“…Post-processing the planned path heuristically [50] for smoothness still cannot be a complete solution to guarantee safety in local planning. Some works used reactive methods [37,30,18] with vector field representation for local obstacle avoidance, but they result in jerky and discrete command changes due to the lack of long horizon planning. Gilroy et al [11] and Li et al [35] used collocationbased trajectory optimization to handle long horizon planning, but the decoupled nature between the local planner and the command-tracking controller can still cause a collision in complex environments because the local planner cannot take into account the performance characteristics of the commandtracking controller.…”

Section: Related Workmentioning

confidence: 99%

Learning Forward Dynamics Model and Informed Trajectory Sampler for Safe Quadruped Navigation

Kim¹,

Kim²,

Hwangbo³

2022

Robotics: Science and Systems XVIII

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An Efficient Locally Reactive Controller for Safe Navigation in Visual Teach and Repeat Missions

Cited by 11 publications

References 34 publications

Along Similar Lines: Local Obstacle Avoidance for Long-Term Autonomous Path Following

Along Similar Lines: Local Obstacle Avoidance for Long-Term Autonomous Path Following

Fast Traversability Estimation for Wild Visual Navigation

Learning Forward Dynamics Model and Informed Trajectory Sampler for Safe Quadruped Navigation

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