High-temperature disaster risk measurement and resilience assessment in Chongqing: take the main city of Chongqing as an example

Mengni Yu; Yuyun Geng; Hongbo Ma; Hu Huilin; Chang Liu

doi:10.1117/12.3007387

30 August 2023 High-temperature disaster risk measurement and resilience assessment in Chongqing: take the main city of Chongqing as an example

Mengni Yu, Yuyun Geng, Hongbo Ma, Hu Huilin, Chang Liu

Author Affiliations +

Proceedings Volume 12797, Second International Conference on Geographic Information and Remote Sensing Technology (GIRST 2023); 127970W (2023) https://doi.org/10.1117/12.3007387
Event: 2nd International Conference on Geographic Information and Remote Sensing Technology (GIRST 2023), 2023, Qingdao, China

Abstract

Extreme weather events have increased in frequency as a result of recent, more severe global warming. Several Chinese cities, including Chongqing, were in "baking" mode in the summer of 2022 due to the intense heat waves that swept across the northern hemisphere. In this study, the main urban area of Chongqing is chosen as the research object. Field research and online questionnaire interviews are used to determine the risk assessment index of high-temperature disaster-causing factors, the sensitivity assessment index of disaster-preventing environments, and the vulnerability assessment index of the disaster-bearing body. A high-temperature disaster assessment model is created in light of these findings. The results of each district's resilience assessment are then computed, and the results of factors that can cause high-temperature disasters are combined to produce the disaster risk assessment. The results of each district's resilience assessment are compared horizontally and vertically in order to provide a strategy for boosting Chongqing's resilience in the face of high-temperature disasters.

(2023) Published by SPIE. Downloading of the abstract is permitted for personal use only.

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Mengni Yu, Yuyun Geng, Hongbo Ma, Hu Huilin, and Chang Liu "High-temperature disaster risk measurement and resilience assessment in Chongqing: take the main city of Chongqing as an example", Proc. SPIE 12797, Second International Conference on Geographic Information and Remote Sensing Technology (GIRST 2023), 127970W (30 August 2023); https://doi.org/10.1117/12.3007387

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KEYWORDS

Risk assessment

Environmental sensing

Power consumption

Temperature metrology

Temperature distribution

Meteorology

Hazard analysis

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