AI-Driven Approach for Automated Real-Time Pothole Detection, Localization, and Area Estimation

Younis Matouq, Dmitry Manasreh, Munir D. Nazzal
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Abstract

Given the potential hazards and risks that potholes pose to road users, this study introduces an image-based system that utilizes a combination of a camera and GPS for real-time detection, georeferencing, and area estimation of potholes. The captured system data is processed in real-time using YOLOv8, a deep learning model proficient in object detection and segmentation. To enhance the precision and reduce the occurrence of false detections, the system is specifically trained to detect potholes, manholes, and patches. Additionally, the camera is calibrated to accurately estimate the area of identified potholes. The proposed system achieved a mean average precision of 91% in detecting potholes, 98% in detecting manholes, and 90% for detecting patches. A salient feature of this system is its capability to localize potholes with reference to pavement line lane markings. This ability could facilitate proactive lane closure planning by maintenance crews, further enhancing road safety measures. The study findings suggest that the system holds significant potential for practical implementation. Its deployment could assist transportation agencies in the prioritization of road repairs, resource allocation, and advance planning for lane closures, ultimately enhancing the efficiency of their maintenance workflows.
人工智能驱动的坑洞自动实时检测、定位和面积估算方法
鉴于坑洞对道路使用者构成的潜在危害和风险,本研究介绍了一种基于图像的系统,该系统利用摄像头和 GPS 的组合,对坑洞进行实时检测、地理参照和面积估算。捕捉到的系统数据使用 YOLOv8 进行实时处理,YOLOv8 是一个精通物体检测和分割的深度学习模型。为了提高精确度并减少错误检测的发生,该系统经过专门训练以检测坑洞、沙井和补丁。此外,还对相机进行了校准,以准确估算已识别坑洞的面积。该系统检测坑洞的平均精确度为 91%,检测沙井的平均精确度为 98%,检测补丁的平均精确度为 90%。该系统的一个显著特点是能够参照人行道线车道标记定位坑洞。这种能力有助于维护人员主动制定车道封闭计划,进一步加强道路安全措施。研究结果表明,该系统具有很大的实际应用潜力。该系统的部署可帮助交通机构确定道路维修的优先次序、资源分配和车道关闭的提前规划,最终提高其维护工作流程的效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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