The Quest For "Always-On" Autonomous Mobile Robots

The Quest For "Always-On" Autonomous Mobile Robots

Joydeep Biswas

Proceedings of the Twenty-Eighth International Joint Conference on Artificial Intelligence
Early Career. Pages 6388-6392. https://doi.org/10.24963/ijcai.2019/893

Building ``always-on'' robots to be deployed over extended periods of time in real human environments is challenging for several reasons. Some fundamental questions that arise in the process include: 1) How can the robot reconcile unexpected differences between its observations and its outdated map of the world? 2) How can we scalably test robots for long-term autonomy? 3) Can a robot learn to predict its own failures, and their corresponding causes? 4) When the robot fails and is unable to recover autonomously, can it utilize partially specified, approximate human corrections to overcome its failures? We summarize our research towards addressing all of these questions. We present 1) Episodic non-Markov Localization to maintain the belief of the robot's location while explicitly reasoning about unmapped observations; 2) a 1,000km challenge to test for long-term autonomy; 3) feature-based and learning-based approaches to predicting failures; and 4) human-in-the-loop SLAM to overcome robot mapping errors, and SMT-based robot transition repair to overcome state machine failures.
Keywords:
Robotics: Localization, Mapping, State Estimation
Robotics: Dependable Robots
Robotics: Vision and Perception