The content introduces PUMA, a decentralized multiagent trajectory planner that incorporates uncertainty-aware planning and image segmentation-based frame alignment. The approach focuses on collision avoidance and safe navigation in dynamic settings through implicit obstacle tracking and real-time frame alignment. Hardware experiments validate the effectiveness of the planner and alignment pipeline.
The paper discusses challenges in multiagent trajectory planning, emphasizing the importance of perception-awareness, obstacle avoidance, and scalability. It introduces an innovative approach to address uncertainties associated with dynamic obstacles and localization errors. The proposed method leverages advanced techniques like Extended Kalman Filters for uncertainty propagation and optimization formulations for safe navigation.
Key highlights include the comparison with existing planners like PANTHER*, showcasing PUMA's ability to balance known obstacles and unknown spaces effectively. Simulation results demonstrate the performance of the uncertainty-aware planner in various scenarios, highlighting its robustness in collision-free trajectory generation. The evaluation of the frame alignment pipeline shows accurate estimation of drifted states even under challenging conditions.
Hardware experiments confirm the real-time operation of the image segmentation-based pipeline for sparse mapping and frame alignment between agents. Results indicate successful synchronization of coordinate frames in a multi-agent setting, validating the effectiveness of the proposed approach.
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arxiv.org
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by Kota Kondo,C... ที่ arxiv.org 03-08-2024
https://arxiv.org/pdf/2311.03655.pdfสอบถามเพิ่มเติม