Abstract
Large-scale spatial databases contain information of different objects in the public domain and are of great importance for many stakeholders. These data are not only used to inventory the different assets of the public domain but also for project planning, construction design, and to create prediction models for disaster management or transportation. The use of mobile mapping systems instead of traditional surveying techniques for the data acquisition of these datasets is growing. However, while some objects can be (semi)automatically extracted, the mapping of manhole covers is still primarily done manually. In this work, we present a fully automatic manhole cover detection method to extract and accurately determine the position of manhole covers from mobile mapping point cloud data. Our method rasterizes the point cloud data into ground images with three channels: intensity value, minimum height and height variance. These images are processed by a transfer learned fully convolutional neural network to generate the spatial classification map. This map is then fed to a simplified class activation mapping (CAM) location algorithm to predict the center position of each manhole cover. The work assesses the influence of different backbone architectures (AlexNet, VGG-16, Inception-v3 and ResNet-101) and that of the geometric information channels in the ground image when commonly only the intensity channel is used. Our experiments show that the most consistent architecture is VGG-16, achieving a recall, precision and F2-score of 0.973, 0.973 and 0.973, respectively, in terms of detection performance. In terms of location performance, our approach achieves a horizontal 95% confidence interval of 16.5 cm using the VGG-16 architecture.
Highlights
The mapping and inventory of the public domain is of great importance to many stakeholders
The mapping of manhole covers is of great importance, as manholes are used for many tasks such as rainwater collection, sewage discharge, electricity/gas supply and telecommunication cables
The 3D manhole positions can be used to create drainage system models to evaluate the interaction of the rainwater with the environment and identify high flood risk areas. While this mapping is still done manually using traditional surveying methods, the popularity of mobile mapping systems for the mapping of spatial databases has grown in recent years [3,4,5]
Summary
The mapping and inventory of the public domain is of great importance to many stakeholders. The mapping of manhole covers is of great importance, as manholes are used for many tasks such as rainwater collection, sewage discharge, electricity/gas supply and telecommunication cables This information allows utility companies and government authorities to create detailed networks of their underground infrastructure. The 3D manhole positions can be used to create drainage system models to evaluate the interaction of the rainwater with the environment and identify high flood risk areas While this mapping is still done manually using traditional surveying methods, the popularity of mobile mapping systems for the mapping of spatial databases has grown in recent years [3,4,5]. Automating this task reduces the overall costs, including the initial cost of a mobile mapping system, by 22% and results in a time saving of up to 91% compared to the traditional manual surveying techniques [6]
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