Litcius/Paper detail

A Survey of FPGA-Based Robotic Computing

Zishen Wan, Yu Bo, Thomas Yuang Li, Jie Tang, Yuhao Zhu, Yu Wang, Arijit Raychowdhury, Shaoshan Liu

2021IEEE Circuits and Systems Magazine113 citationsDOI

Abstract

Recent researches on robotics have shown significant improvement, spanning from algorithms, mechanics to hardware architectures. Robotics, including manipulators, legged robots, drones, and autonomous vehicles, are now widely applied in diverse scenarios. However, the high computation and data complexity of robotic algorithms pose great challenges to its applications. On the one hand, CPU platform is flexible to handle multiple robotic tasks. GPU platform has higher computational capacities and easy-to-use development frameworks, so they have been widely adopted in several applications. On the other hand, FPGA-based robotic accelerators are becoming increasingly competitive alternatives, especially in latency-critical and power-limited scenarios. With specialized designed hardware logic and algorithm kernels, FPGA-based accelerators can surpass CPU and GPU in performance and energy efficiency. In this paper, we give an overview of previous work on FPGA-based robotic accelerators covering different stages of the robotic system pipeline. An analysis of software and hardware optimization techniques and main technical issues is presented, along with some commercial and space applications, to serve as a guide for future work.

Topics & Concepts

Computer scienceField-programmable gate arrayRoboticsPipeline (software)Embedded systemRobotArtificial intelligenceSoftwareComputationComputer architectureComputer engineeringOperating systemAlgorithmRobotic Path Planning AlgorithmsRobotics and Sensor-Based LocalizationModular Robots and Swarm Intelligence