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Energy-efficient FPGA-accelerated LiDAR-based SLAM for embedded robotics

Marcel Flottmann, Marc Eisoldt, Julian Gaal, Marc Rothmann, Marco Tassemeier, Thomas Wiemann, Mario Porrmann

发表年份
2021
引用次数
11

摘要

Being one of the fundamental problems in autonomous robotics, SLAM (Simultaneous Localization and Mapping) algorithms have gained a lot of attention. Although numerous approaches have been presented for determining 6D poses in 3D environments, one of the main challenges that remains is the required combination of real-time processing and high energy efficiency. In this paper, a combination of CPU and FPGA processing is used to tackle this problem, utilizing a reconfigurable SoC. We present a complete solution for embedded LiDAR-based SLAM that uses a global Truncated Signed Distance Function (TSDF) as map representation. A hardware-in-the-loop environment with ROS integration enables efficient evaluation of new variants of algorithms and implementations. Based on benchmark data sets and real-world environments, we show that our approach compares well to established SLAM algorithms. Compared to a software implementation on a state-of-the-art PC, the proposed implementation achieves a 7-fold speed-up and requires 18 times less energy when using a Xilinx UltraScale+ XCZU15EG.

关键词

Field-programmable gate arrayRoboticsBenchmark (surveying)Simultaneous localization and mappingComputer scienceArtificial intelligenceImplementationEfficient energy useEmbedded systemEnergy (signal processing)

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