摘要
Today,the most commonly used civil infrastructure inspection method is based on a visual assessment conducted by certified inspectors following prescribed protocols.However,the increase in aggressive environmental and load conditions,coupled with the achievement of many structures of the life-cycle end,has highlighted the need to automate damage identification and satisfy the number of structures that need to be inspected.To overcome this challenge,this paper presents a method for automating concrete damage classification using a deep convolutional neural network.The convolutional neural network was designed after an experimental investigation of a wide number of pretrained networks,applying the transfer-learning technique.Training and validation were conducted using a database built with 1352 images balanced between“undamaged”,“cracked”,and“delaminated”concrete surfaces.To increase the network robustness compared to images in real-world situations,different image configurations have been collected from the Internet and on-field bridge inspections.The GoogLeNet model,with the highest validation accuracy of approximately 94%,was selected as the most suitable network for concrete damage classification.The results confirm that the proposed model can correctly classify images from real concrete surfaces of bridges,tunnels,and pavement,resulting in an effective alternative to the current visual inspection techniques.