IEEE Access (Jan 2022)

Spatial-Importance-Based Computation Scheme for Real-Time Object Detection From 3D Sensor Data

  • Ryo Otsu,
  • Ryoichi Shinkuma,
  • Takehiro Sato,
  • Eiji Oki,
  • Daiki Hasegawa,
  • Toshikazu Furuya

DOI
https://doi.org/10.1109/ACCESS.2022.3140332
Journal volume & issue
Vol. 10
pp. 5672 – 5680

Abstract

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Three-dimensional (3D) sensor networks using multiple light-detection-and-ranging (LIDAR) sensors are good for smart monitoring of spots, such as intersections, with high potential risk of road-traffic accidents. The image sensors must share the strictly limited computation capacity of an edge computer. To have the computation speeds required from real-time applications, the system must have a short computation delay while maintaining the quality of the output, e.g., the accuracy of the object detection. This paper proposes a spatial-importance-based computation scheme that can be implemented on an edge computer of image-sensor networks composed of 3D sensors. The scheme considers regions where objects exist as more likely to be ones of higher spatial importance. It processes point-cloud data from each region according to the spatial importance of that region. By prioritizing regions with high spatial importance, it shortens the computation delay involved in the object detection. A point-cloud dataset obtained by a moving car equipped with a LIDAR unit was used to numerically evaluate the proposed scheme. The results indicate that the scheme shortens the delay in object detection.

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