Abstract
It is essential to provide reliable localization results to allow mobile robots to navigate autonomously. Even though many state-of-the-art localization schemes have so far shown satisfactory performance in various environments, localization has still been difficult under specific conditions, such as extreme environmental changes. Since many robots cannot diagnose for themselves whether the localization results are reliable, there can be serious autonomous navigation problems. To solve this problem, this study proposes a self-diagnosis scheme for the localization status. In this study, two indicators are empirically defined for the self-diagnosis of localization status. Each indicator shows significant changes when there are difficulties in light detection and ranging (LiDAR) sensor-based localization. In addition, the classification model of localization status is trained through machine learning using the two indicators. A robot can diagnose the localization status itself using the proposed classification model. To verify the usefulness of the proposed method, we carried out localization experiments in real environments. The proposed classification model successfully detected situations where the localization accuracy is significantly degraded due to extreme environmental changes.
Highlights
Various kinds of autonomous robots are used in the real world
An important issue remaining in the commercial use of mobile robots in the real world is to guarantee the reliability of autonomous navigation technology
The roles of people in many fields can be replaced by autonomous mobile robots
Summary
Various kinds of autonomous robots are used in the real world. Transportation robots [1]are used to improve work efficiency in environments such as factories and warehouses. Various kinds of autonomous robots are used in the real world. Are used to improve work efficiency in environments such as factories and warehouses. Service robots [2] provide room service in a hotel. Delivery robots [3] perform various tasks including food delivery service in outdoor environments. The prerequisite for achieving long-term autonomy of these robots in the real world is the development of reliable localization technology. The purpose of localization is to estimate a global pose or local pose of a robot using sensors such as a light detection and ranging (LiDAR) sensor, a vision sensor and so forth. Autonomous mobile robots move from their current location to the target location by considering the localization results
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