D2SR: Decentralized detection, de-synchronization, and recovery of LiDAR interference
We address the challenge of multi-LiDAR interference, an issue of growing importance as LiDAR sensors are embedded in a growing set of pervasive devices. We introduce a novel approach named D2SR, enabling decentralized interference detection, mitigation, and recovery without explicit coordination am...
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2024
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sg-smu-ink.sis_research-102272024-09-03T07:28:06Z D2SR: Decentralized detection, de-synchronization, and recovery of LiDAR interference RATHNAYAKE, Darshana SABBELLA, Hemanth RADHAKRISHNAN, Meera MISRA, Archan We address the challenge of multi-LiDAR interference, an issue of growing importance as LiDAR sensors are embedded in a growing set of pervasive devices. We introduce a novel approach named D2SR, enabling decentralized interference detection, mitigation, and recovery without explicit coordination among nearby LiDAR devices. D2SR comprises three stages: (a) Detection, which identifies interfered frames, (b) Mitigation, which performs time-shifting of a LiDAR’s active period to reduce interference, and (c) Recovery, which corrects or reconstructs the depth values in interfered regions of a depth frame. Key contributions include a lightweight interference detection algorithm achieving an F1-score of 92%, a simple yet effective decentralized de-synchronization mechanism, and a lightweight depth recovery pipeline that preserves high throughput processing on edge devices. Evaluation on Nvidia Jetson devices demonstrates D2SR’s efficacy: under static settings, D2SR accurately detects interference in 93% of cases (recall=82%) and reduces the depth estimation error by 27% (RMSE= 38.7 cm, compared to RMSE= 60.6 cm for a baseline without D2SR). Furthermore, D2SR is able to reduce the fraction of interfered frames by 75.1% and reduce the depth estimation error (for interfered frames) by 24.9% even for a moving robot scenario. 2024-10-01T07:00:00Z text application/pdf https://ink.library.smu.edu.sg/sis_research/9230 https://ink.library.smu.edu.sg/context/sis_research/article/10227/viewcontent/IROS2024_D2SR_Camera_Ready.pdf http://creativecommons.org/licenses/by-nc-nd/4.0/ Research Collection School Of Computing and Information Systems eng Institutional Knowledge at Singapore Management University LiDAR Interference Multi-Robot Systems Artificial Intelligence and Robotics Databases and Information Systems |
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LiDAR Interference Multi-Robot Systems Artificial Intelligence and Robotics Databases and Information Systems |
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LiDAR Interference Multi-Robot Systems Artificial Intelligence and Robotics Databases and Information Systems RATHNAYAKE, Darshana SABBELLA, Hemanth RADHAKRISHNAN, Meera MISRA, Archan D2SR: Decentralized detection, de-synchronization, and recovery of LiDAR interference |
| description |
We address the challenge of multi-LiDAR interference, an issue of growing importance as LiDAR sensors are embedded in a growing set of pervasive devices. We introduce a novel approach named D2SR, enabling decentralized interference detection, mitigation, and recovery without explicit coordination among nearby LiDAR devices. D2SR comprises three stages: (a) Detection, which identifies interfered frames, (b) Mitigation, which performs time-shifting of a LiDAR’s active period to reduce interference, and (c) Recovery, which corrects or reconstructs the depth values in interfered regions of a depth frame. Key contributions include a lightweight interference detection algorithm achieving an F1-score of 92%, a simple yet effective decentralized de-synchronization mechanism, and a lightweight depth recovery pipeline that preserves high throughput processing on edge devices. Evaluation on Nvidia Jetson devices demonstrates D2SR’s efficacy: under static settings, D2SR accurately detects interference in 93% of cases (recall=82%) and reduces the depth estimation error by 27% (RMSE= 38.7 cm, compared to RMSE= 60.6 cm for a baseline without D2SR). Furthermore, D2SR is able to reduce the fraction of interfered frames by 75.1% and reduce the depth estimation error (for interfered frames) by 24.9% even for a moving robot scenario. |
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text |
| author |
RATHNAYAKE, Darshana SABBELLA, Hemanth RADHAKRISHNAN, Meera MISRA, Archan |
| author_facet |
RATHNAYAKE, Darshana SABBELLA, Hemanth RADHAKRISHNAN, Meera MISRA, Archan |
| author_sort |
RATHNAYAKE, Darshana |
| title |
D2SR: Decentralized detection, de-synchronization, and recovery of LiDAR interference |
| title_short |
D2SR: Decentralized detection, de-synchronization, and recovery of LiDAR interference |
| title_full |
D2SR: Decentralized detection, de-synchronization, and recovery of LiDAR interference |
| title_fullStr |
D2SR: Decentralized detection, de-synchronization, and recovery of LiDAR interference |
| title_full_unstemmed |
D2SR: Decentralized detection, de-synchronization, and recovery of LiDAR interference |
| title_sort |
d2sr: decentralized detection, de-synchronization, and recovery of lidar interference |
| publisher |
Institutional Knowledge at Singapore Management University |
| publishDate |
2024 |
| url |
https://ink.library.smu.edu.sg/sis_research/9230 https://ink.library.smu.edu.sg/context/sis_research/article/10227/viewcontent/IROS2024_D2SR_Camera_Ready.pdf |
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