基于仿生视觉传感器的夜视障碍物检测与避障

2020 IEEE Sensors Pub Date : 2020-10-25 DOI:10.1109/SENSORS47125.2020.9278914

J. Yasin, S. Mohamed, M. Haghbayan, J. Heikkonen, H. Tenhunen, M. Yasin, J. Plosila

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引用次数: 6

摘要

为了实现自动驾驶，无人驾驶汽车严重依赖于最先进的防撞系统(CAS)。然而，障碍物的检测仍然是一项具有挑战性的任务，特别是在夜间，因为照明条件不足以使传统相机正常工作。因此，我们利用基于事件的相机的强大属性来执行低光照条件下的障碍物检测。事件相机以高输出时间速率异步触发事件，动态范围高达120 dB。该算法利用鲁棒霍夫变换技术过滤背景活动噪声，提取目标。每个检测到的目标的深度是通过三角测量利用LC-Harris提取的2D特征来计算的。最后，采用异步自适应避碰算法(AACA)进行有效避碰。对事件摄像机和传统摄像机进行了定性评价比较。

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Night vision obstacle detection and avoidance based on Bio-Inspired Vision Sensors

Moving towards autonomy, unmanned vehicles rely heavily on state-of-the-art collision avoidance systems (CAS). However, the detection of obstacles especially during night-time is still a challenging task since the lighting conditions are not sufficient for traditional cameras to function properly. Therefore, we exploit the powerful attributes of event-based cameras to perform obstacle detection in low lighting conditions. Event cameras trigger events asynchronously at high output temporal rate with high dynamic range of up to 120 dB. The algorithm filters background activity noise and extracts objects using robust Hough transform technique. The depth of each detected object is computed by triangulating 2D features extracted utilising LC-Harris. Finally, asynchronous adaptive collision avoidance (AACA) algorithm is applied for effective avoidance. Qualitative evaluation is compared using event-camera and traditional camera.

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2020 IEEE Sensors

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