Abstract
In recent years, topics like autonomous driving increased the demand on robust environmental sensors. Depth sensors are most commonly used. Solid state Light Detection And Ranging (LiDAR) sensors are well suited for these applications. The measurement principle is based on measuring the phase and consequently the delay of emitted and reflected light. Problems arise if strong reflectors, like street-signs, impair the measurement. In this paper, we present a novel algorithm for depth calculation, based on indirect Time-of-Flight (ToF) data. With this approach it is possible to separate multiple reflectors in the scenery. This allows the generation of multiple depth images. In our approach an arbitrary number of different code sequences are applied as modulation signal. With these code sequences we generate a so called ToF-matrix. With this ToFmatrix, the measured environmental response can be mapped to a distance. As our evaluation shows, our method is able to achieve results with more information compared to conventional ToF-imaging. We demonstrate the separation of the reflection of a street-sign, from a target. This algorithm enables the usage of indirect ToF in automotive areas. We believe that this versatile calculation approach can increase the benefit of indirect LiDAR application for autonomous driving.
Original language | English |
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Pages | 919-925 |
Number of pages | 7 |
DOIs | |
Publication status | Published - 8 Jan 2021 |
Event | 31st IEEE Intelligent Vehicles Symposium, IV 2020 - Virtual, Las Vegas, United States Duration: 19 Oct 2020 → 13 Nov 2020 |
Conference
Conference | 31st IEEE Intelligent Vehicles Symposium, IV 2020 |
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Country/Territory | United States |
City | Virtual, Las Vegas |
Period | 19/10/20 → 13/11/20 |
Keywords
- Coded Modulation
- LiDAR
- multi-reflector
- solid-state LiDAR
- Time-of-Flight
- ToF
ASJC Scopus subject areas
- Computer Science Applications
- Automotive Engineering
- Modelling and Simulation