Towards Robust Obstacle Avoidance for the Visually Impaired Person Using Stereo Cameras

Bismark Kweku Asiedu Asante, Hiroki Imamura
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Abstract

We propose a novel obstacle avoidance strategy implemented in a wearable assistive device, which serves as an electronic travel aid (ETA), designed to enhance the safety of visually impaired persons (VIPs) during navigation to their desired destinations. This method is grounded in the assumption that objects in close proximity and within a short distance from VIPs pose potential obstacles and hazards. Furthermore, objects that are farther away appear smaller in the camera’s field of view. To adapt this method for accurate obstacle selection, we employ an adaptable grid generated based on the apparent size of objects. These objects are detected using a custom lightweight YOLOv5 model. The grid helps select and prioritize the most immediate and dangerous obstacle within the user’s proximity. We also incorporate an audio feedback mechanism with an innovative neural perception system to alert the user. Experimental results demonstrate that our proposed system can detect obstacles within a range of 20 m and effectively prioritize obstacles within 2 m of the user. The system achieves an accuracy rate of 95% for both obstacle detection and prioritization of critical obstacles. Moreover, the ETA device provides real-time alerts, with a response time of just 5 s, preventing collisions with nearby objects.
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利用立体摄像机实现视障人士的鲁棒障碍物规避功能
我们提出了一种在可穿戴辅助设备中实施的新型障碍物规避策略,该设备可作为电子旅行辅助设备(ETA),旨在提高视障人士(VIP)在导航前往所需目的地过程中的安全性。这种方法基于这样一个假设,即距离视障人士较近和较短距离内的物体会构成潜在的障碍和危险。此外,较远的物体在摄像机的视野中看起来较小。为了使这种方法适用于准确的障碍物选择,我们采用了一种根据物体表面大小生成的可调整网格。这些物体是使用定制的轻量级 YOLOv5 模型检测到的。该网格有助于选择用户附近最直接、最危险的障碍物,并确定其优先级。我们还将音频反馈机制与创新的神经感知系统相结合,以提醒用户注意。实验结果表明,我们提出的系统可以检测到 20 米范围内的障碍物,并有效地优先处理用户 2 米范围内的障碍物。该系统在障碍物检测和关键障碍物优先级排序方面的准确率都达到了 95%。此外,ETA 设备还能提供实时警报,响应时间仅为 5 秒,可防止与附近物体发生碰撞。
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