Stochastic event set generation for tropical cyclone using machine‐learning approach guided by environmental data

Bongirwar, Vishal

doi:10.1002/joc.6579

Intl Journal of Climatology

2020

DOI: 10.1002/joc.6579

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Stochastic event set generation for tropical cyclone using machine‐learning approach guided by environmental data

Vishal Bongirwar¹

Abstract: Tropical cyclone stochastic eventset is a critical component in any cyclone risk assessment model. In this study, a novel methodology is proposed for the development of basin wide tropical cyclone stochastic eventset. The proposed methodology utilizes the reanalysis data to represent the environmental conditions of cyclones, which in turn governs the cyclone behaviour and variability

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2024

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References 74 publications

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A Toy Model for the Global Annual Number of Tropical Cyclones

Zhou,

Lin

2024

Earth's Future

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The annual number of global tropical cyclones (TCs) has remained rather stable at ∼90 in the past decades, yet the underlying physics and mechanisms remain elusive. This study utilizes observational data to assess TC‐environment interactions, such as atmospheric drying, stabilization, and oceanic cooling, which occur after TC passage and inhibit subsequent TC formation. Focused on the recovery of TC‐induced hostile environment, we construct an idealized toy model incorporating the global main development region (MDR), recovery time and influencing radius. The model well captures the spatial and temporal characteristics of TC activity. Then we propose a new scaling of annual TC number, framed as a spatiotemporal packing problem determined by the total spatiotemporal area available for TC formation and the average area occupied by each TC. The recovery time is included as a new temporal constraint, and this scaling is validated by toy model simulations and offers insights into observations. Specifically, based on TC attributes in the current climate, the scaling yields an estimate of ∼100 TCs per year given a recovery time of 2–3 weeks. It also implies that a warming climate might lead to fewer TCs due to increased TC size and longer recovery times.

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A Toy Model for the Global Annual Number of Tropical Cyclones

Zhou,

Lin

2024

Earth's Future

View full text Add to dashboard Cite

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Stochastic event set generation for tropical cyclone using machine‐learning approach guided by environmental data

Cited by 1 publication

References 74 publications

A Toy Model for the Global Annual Number of Tropical Cyclones

A Toy Model for the Global Annual Number of Tropical Cyclones

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