Abstract
Manhole covers, which are a key element of urban infrastructure management, have a direct impact on travel safety. At present, there is no automatic, safe, and efficient system specially used for the intelligent detection, identification, and assessment of manhole covers. In this work, we developed an automatic detection, identification, and assessment system for manhole covers. First, we developed a sequential exposure system via the addition of multiple cameras in a symmetrical arrangement to realize the joint acquisition of high-precision laser data and ultra-high-resolution ground images. Second, we proposed an improved histogram of an oriented gradient with symmetry features and a support vector machine method to detect manhole covers effectively and accurately, by using the intensity images and ground orthophotos that are derived from the laser points and images, respectively, and apply the graph segmentation and statistical analysis to achieve the detection, identification, and assessment of manhole covers. Qualitative and quantitative analyses are performed using large experimental datasets that were acquired with the modified manhole-cover detection system. The detected results yield an average accuracy of 96.18%, completeness of 94.27%, and F-measure value of 95.22% in manhole cover detection. Defective manhole-cover monitoring and manhole-cover ownership information are achieved from these detection results. The results not only provide strong support for road administration works, such as data acquisition, manhole cover inquiry and inspection, and statistical analysis of resources, but also demonstrate the feasibility and effectiveness of the proposed method, which reduces the risk involved in performing manual inspections, improves the manhole-cover detection accuracy, and serves as a powerful tool in intelligent road administration.
Highlights
IntroductionAn increasing number of urban manhole covers are being used in road administration (e.g., for electricity and gas supply, fire control, water supply and draining, communication, and sewage discharge) as rapid urban development in the digital age promotes constant growth, city planning improvements, and road construction
An increasing number of urban manhole covers are being used in road administration as rapid urban development in the digital age promotes constant growth, city planning improvements, and road construction
A sequential exposure scheme using multiple cameras in a symmetric arrangement is proposed as a modification and upgrade to the original acquisition design for manhole cover detection
Summary
An increasing number of urban manhole covers are being used in road administration (e.g., for electricity and gas supply, fire control, water supply and draining, communication, and sewage discharge) as rapid urban development in the digital age promotes constant growth, city planning improvements, and road construction. The mobile mapping system is a new-generation multi-platform and multi-band mobile information acquisition system, this system is mounted on a carrier vehicle and integrated with various sensors, such as a laser scanner, inertial navigation system, global navigation and positioning system, and digital camera [4,5,6,7,8,9,10,11,12,13] It offers a high-precision and high-efficiency means of acquiring large quantities of three-dimensional (3D) point cloud and image data in real-world environments, and has become an indispensable component in the evolution of digital cities, providing long-term support in promoting the construction and management of modern cities and the transformation to digital management and operation. It presents new possibilities and methods for the automated location, extraction, and identification of urban manhole covers
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