Dynamic behavior of nanostructures on sustainable tourism: Safety and surface study based higher order AI and travel experience

Bian Ji , X. Wang , K. Kong , Zh. Yuan

Abstract

The use of nanotechnology in modern transportation systems currently used in the tourism industry for improving safety, comfort, and efficiency is discussed. To this end, considering the integration of a nanostructure as reinforce for the viewing platform in a tourist area, the dynamic behavior of such advanced nanostructures is investigated within the scope of a model for viewing platform and nanostructures for improving the safety. The mathematical model was established by adopting the higher-order shear deformation theory; with numerical methods, vibrational performance and passenger safety of transports used for tourists are estimated, while main parameters that may influence vibration isolation and energy absorption are comprehensively discussed. In these results, it is seen that nanostructured materials significantly enhance durability, energy efficiency, and vibration mitigation, especially under high-speed travel modes popular in tourism. It is expected that this research will provide new avenues for the application of advanced nanomaterials in modern travel systems, contributing ultimately to improving the safety, comfort, and energy efficiency of transport systems with a view to enhancing the overall tourist travel experience.

Key Words

dynamic response; higher order AI; nanostructures; sustainable tourism; travel experience

Address

Bian Ji — 1School of Tourism, Shandong Women's University, Ji'nan, 250300, Shandong, P. R. China
X. Wang, K. Kong and Zh. Yuan — Department of Civil Engineering, Dubai College of science, UAE

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