Litcius/Paper detail

Knowledge‐enhanced graph neural networks for construction material quantity estimation of reinforced concrete buildings

Yifan Fei, Wenjie Liao, Xinzheng Lu, Hong Guan

2023Computer-Aided Civil and Infrastructure Engineering40 citationsDOIOpen Access PDF

Abstract

The construction material quantity (CMQ) is widely concerned in the structural design of reinforced concrete buildings and is often included among the objective functions of computer-aided optimization design techniques. To minimize construction cost and carbon emissions, an accurate and efficient CMQ estimation method is timely required. In this study, a novel graph neural network (GNN) is proposed, whose architecture and loss function are specifically designed for CMQ estimation. With a heterogeneous feature fusion mechanism, the GNN can automatically extract features from all CMQ-related information, in contrast to the existing data-driven methods that rely heavily on manually selected features. By further incorporating a prior knowledge inclusion strategy, the GNN can avoid fundamental errors that might be encountered by purely data-driven methods. To enrich the diversity of the CMQ dataset, a data augmentation method is proposed incorporating generative adversarial networks and parametric modeling. Numerical experiments and case studies show that the proposed CMQ estimation method is superior to the existing data-driven methods in terms of accuracy and is 500 times faster than typical commercial structural design software. This study is anticipated to benefit the objective evaluation of computer-aided design, thereby facilitating the promotion of low-cost and low-carbon-emission building designs.

Topics & Concepts

Computer scienceArtificial neural networkSoftwareParametric statisticsGraphData miningData-drivenMachine learningArtificial intelligenceStatisticsTheoretical computer scienceMathematicsProgramming languageInfrastructure Maintenance and MonitoringConcrete Corrosion and DurabilityAsphalt Pavement Performance Evaluation