On the use of field programmable gate arrays in light detection and ranging systems

This work aims to provide details on the latest technological developments regarding LiDAR (Light Imaging Detection And Ranging) systems, with particular reference to the techniques, architectures, and methodologies partially or entirely implemented by means of the FPGA (Field Programmable Gate Array) environment. Currently, LiDAR technology is considered of great interest as it is widely employed in a variety of application fields, such as automotive, seismology, archaeology, metrology, and military. For this reason, the required performances are gradually increasing, which leads to complex and stringent solutions. The growth in LiDAR systems' complexity suggests the use of high-end general-purpose computing units such as central processing units to perform very complex tasks and FPGAs to perform multiple tasks in real-time through the implementation of dedicated computational blocks. The latter, in recent architectures, are therefore used for the execution of specific tasks that require high computational speed and system flexibility. This paper reports some case studies recently applied in the LiDAR field, with the aim of illustrating the role of FPGA technology and its benefits. Published under an exclusive license by AIP Publishing.

Automated summary

This paper provides details on the latest technological developments in LiDAR systems, specifically focusing on techniques and methodologies implemented through FPGA. LiDAR technology is widely used in various fields, with increasing demand for performance leading to complex solutions. FPGAs are utilized for real-time execution of tasks requiring high computational speed and system flexibility in recent LiDAR architectures.