A novel and efficient method for calculating beam shadows on exterior surfaces of buildings in dense urban contexts

To address the challenges associated with the efficiency of calculating beam shadows on building exterior surfaces in dense urban contexts being low, a novel neighbourhood shading building surfaces determination criterion is proposed. The criterion was applied to the beam shadow calculation methods to evaluate its effectiveness in two case studies, one fictitious and simplified and the other real and complex. The results show that the novel criterion can efficiently and precisely determine the neighbourhood building surfaces that may shade the target buildings compared with the existing one. In addition, the efficiency of calculating beam shadows on building exterior surfaces in dense urban contexts is significantly enhanced after applying the novel determination criterion. Compared with the shadow calculation methods without neighbourhood judgement, the calculation accuracy is similar, while the total shadow calculation time is reduced by approximately 92% when the proposed criterion is integrated. Compared with the shadow calculation methods using the existing neighbourhood judgement criterion, both the calculation accuracy and efficiency are improved when the proposed criterion is integrated, showing a 68% reduction in the total shadow calculation time. It is also demonstrated that the analytical method (i.e., the polygon clipping method) integrated with the new criterion is more efficient and accurate for calculating beam shadows on exterior surfaces of buildings in dense urban contexts.

Automated summary

A novel neighbourhood shading building surfaces determination criterion is proposed to improve the efficiency and accuracy of calculating beam shadows on building exterior surfaces in dense urban contexts. The criterion was evaluated in two case studies, showing that it efficiently determines the neighbourhood building surfaces and significantly enhances the efficiency of shadow calculation. The integration of the criterion with the polygon clipping method is more efficient and accurate for calculating beam shadows in dense urban contexts.