ARTÍCULO
TITULO

A Motion-Based Conceptual Space Model to Support 3D Evacuation Simulation in Indoor Environments

Ruihang Xie    
Sisi Zlatanova    
Jinwoo (Brian) Lee and Mitko Aleksandrov    

Resumen

Three-dimensional (3D) indoor models are a crucial component to simulate pedestrian evacuations realistically in indoor environments. However, existing 3D indoor models cannot fully represent realistic indoor environments to enable the simulation of 3D pedestrian motions in evacuations because spaces above/below some physical components (e.g., desks, chairs) have been largely overlooked. Thus, this paper introduces a conceptual space model to advance a space identification and classification scheme that can fully capture 3D pedestrian motions. This paper first proposes the definition and parameterisation of different 3D pedestrian motions. Then, the definition and specifications of three categories of space components are elaborated on based on the motions. Finally, a voxel-based approach is introduced to identify and classify the space components, which are demonstrated by an illustrative example. This work contributes to advancing 3D indoor modelling to enable a more realistic simulation of 3D pedestrian motions.

 Artículos similares

       
 
Xuan Wang, Guoliang Chen, Mengyi Yang and Saizhou Jin    
Currently, pedestrian dead reckoning (PDR) is widely used in indoor positioning. Since there are restrictions on a device?s pose in the procedure of using a smartphone to perform the PDR algorithm, this study proposes a novel heading estimation solution ... ver más

 
Kai-Wei Chiang, Jhen-Kai Liao, Shih-Huan Huang, Hsiu-Wen Chang and Chien-Hsun Chu    

 
Jhen-Kai Liao, Kai-Wei Chiang and Zhi-Ming Zhou    
Revista: Inventions

 
Ahmed El-Geneidy, Lisa Kastelberger, Hatem T. Abdelhamid    
Indoor pedestrian pathways are increasingly common in cities worldwide. Montréal?s Indoor City is one of the most expansive indoor pedestrian networks in the world, extending for more than 32 kilometers (19.88 miles) and covering an area of twelve square... ver más