Computer Vision and Machine Learning in Sustainable Mobility: The Case of Road Surface Defects - Sromona Chatterjee - Books - Cuvillier - 9783736972582 - August 31, 2020
In case cover and title do not match, the title is correct

Computer Vision and Machine Learning in Sustainable Mobility: The Case of Road Surface Defects

Sromona Chatterjee

Price
€ 65.49

Ordered from remote warehouse

Expected delivery Jan 6 - 15, 2025
Christmas presents can be returned until 31 January
Add to your iMusic wish list

Computer Vision and Machine Learning in Sustainable Mobility: The Case of Road Surface Defects

Road maintenance has traditionally been a time consuming, expensive, and manual process. Timely maintenance of roads helps in lowering rehabilitation costs, accidents, environmental pollution, while facilitating increased connectivity, trade, and growth. Easily acquirable front-view scene images are seen to be used lately for infrastructure management and road maintenance as they provide quicker, low-cost, and flexible solutions. Such scene images can easily be acquired using standard commodity cameras. In this dissertation, machine learning based approaches have been developed to analyze front-view scene images for detecting cracks automatically on road surfaces across different locations and under various conditions. This work thus contributes toward automated approaches to detect different kinds of cracks on road surfaces, thereby proposing a low-cost solution to road maintenance practices. As a result, different components are developed in this work which are sketched together to form a Decision Support System for the task of crack detection. In this study primarily three algorithmic approaches have been developed. Firstly, an unsupervised graph-based hierarchical clustering technique for road area segmentation has been developed, thus helping in detecting the road area in scene images. Secondly, a classifier and superpixel based supervised learning approach consisting of systematically identifying relevant features for detecting superpixels containing cracks has been developed. Thirdly, an unsupervised learning approach consisting of Gamma Mixture Fuzzy Model based clustering technique and keypoint matching mechanisms have been designed in this work for detecting which road pixels are crack pixels in images. Finally, this study integrates the findings and approaches to propose a Decision Support System for crack detection on road surfaces of easily acquirable front-view scene images. Evaluations performed on an experimentally collected diverse front-view scene


198 pages

Media Books     Paperback Book   (Book with soft cover and glued back)
Released August 31, 2020
ISBN13 9783736972582
Publishers Cuvillier
Pages 198
Dimensions 148 × 210 × 11 mm   ·   240 g
Language English