Menaka Naazare scite author profile

Robotic systems performing end-user oriented autonomous exploration can be deployed in different scenarios which not only require mapping but also simultaneous inspection of regions of interest for the end-user. In this work, we propose a novel Next-Best-View (NBV) planner which can perform full exploration and user-oriented exploration with inspection of the regions of interest using a mobile manipulator robot. We address the exploration-inspection problem as an instance of Multi-Objective Optimization (MOO) and propose a weightedsum-based information gain function for computing NBVs for the RGB-D camera mounted on the arm. For both types of exploration tasks, we compare our approach with an existing state-of-the-art exploration method as the baseline and demonstrate our improvements in terms of total volume mapped and lower computational requirements. The real experiments with a mobile manipulator robot demonstrate the practicability and effectiveness of our approach outdoors.Index Terms-Field robots, environment monitoring and management, motion and path planning, reactive and sensor-based planning, robotics in hazardous fields.

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Simultaneous Exploration and Information Delivery Using Multiple Heterogeneous Robots Under Limited Communication

Naazare

Brüggemann

Schulz

2019

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Menaka Naazare

Application of Graph-based Path Planning for UAVs to Avoid Restricted Areas

Online Next-Best-View Planner for 3D-Exploration and Inspection With a Mobile Manipulator Robot

Simultaneous Exploration and Information Delivery Using Multiple Heterogeneous Robots Under Limited Communication

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