Smart Resilience-Oriented Integrated Innovation Design for Highway Toll Plaza Canopies

QI Lin; ZHAO Xinhua; LIU Chuanyong

doi:10.3724/j.gyjzG25030303

Volume 55 Issue 12

Dec. 2025

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QI Lin, ZHAO Xinhua, LIU Chuanyong. Smart Resilience-Oriented Integrated Innovation Design for Highway Toll Plaza Canopies[J]. INDUSTRIAL CONSTRUCTION, 2025, 55(12): 115-122. doi: 10.3724/j.gyjzG25030303

Citation:

QI Lin, ZHAO Xinhua, LIU Chuanyong. Smart Resilience-Oriented Integrated Innovation Design for Highway Toll Plaza Canopies[J]. INDUSTRIAL CONSTRUCTION, 2025, 55(12): 115-122. doi: 10.3724/j.gyjzG25030303

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Smart Resilience-Oriented Integrated Innovation Design for Highway Toll Plaza Canopies

doi: 10.3724/j.gyjzG25030303

Beijing General Municipal Engineering Design & Research Institute Co.，Ltd.，Beijing 100089，China

Received Date: 2025-03-03
Available Online: 2026-01-06
Publish Date: 2025-12-20

Abstract

Abstract

Addressing systemic flaws in domestic expressway toll facilities—inadequate disaster resilience， lagging adoption of smart technology， fragmented regional cultural context， and significant resource consumption—this study proposes a tripartite design system integrating “smart management， cultural translation， and low-carbon technologies” based on the resilient infrastructure theoretical framework. By establishing a multi-dimensional IoT sensing system for environmental factors and structural stress， real-time early warning and response to meteorological and structural conditions are achieved. Parametric algorithms translate regional cultural elements into spatial forms and decorative symbols， enhancing facility-environment harmony. Sponge city technology and wind-solar hybrid energy systems are integrated to construct a low-carbon operational model that synergizes “energy-water-materials” flows. Validated through the Jingxiong Expressway Fangshan North Station project， the system demonstrates comprehensive outcomes： timely extreme weather response， reduced whole-life-cycle energy consumption， and improved cultural integration scores. This research provides a systematic solution for enhancing resilience， preserving cultural continuity， and enabling sustainable operation of transportation infrastructure.
- resilience design,
- smart transportation facilities,
- regional cultural translation,
- low-carbon sponge technology,
- integrated innovation

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References(21)

References

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