A strain gauge-based Bridge Weigh-In-Motion system using deep learning
Author:
Publisher
Elsevier BV
Subject
Civil and Structural Engineering
Reference34 articles.
1. Weigh-in-motion-based fatigue damage assessment;Iatsko;Transp Res Rec,2020
2. Weight estimation on static B-WIM algorithms: A comparative study;Carraro;Eng Struct,2019
3. Standardised Bridge Weigh-in-Motion data and its applications in bridge engineering;Qvisen,2021
4. Deep learning;Goodfellow,2016
5. BwimNet: a novel method for identifying moving vehicles utilizing a modified encoder-decoder architecture;Wu;Sensors,2020
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