U‐Net Segmentation for the Detection of Convective Cold Pools From Cloud and Rainfall Fields

Hoeller, Jannik; Fiévet, Romain; Engelbrecht, Edward; Haerter, Jan O.

doi:10.1029/2023jd040126

Cited by 3 publications

(1 citation statement)

References 85 publications

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“…Moreover, as CoolDeTA considers dynamic CP signatures, the identified CP boundaries align with the cloud patterns associated with cold pools in satellite images or corresponding simulation output. CoolDeTA thus offers a systematic and objective ground truth labeling for artificial intelligence methods that detect cold pools from simulated cloud fields and that potentially pave the way for future satellite-based CP observations (Hoeller et al, 2024).…”

Section: Discussionmentioning

confidence: 99%

Detecting Cold Pool Family Trees in Convection Resolving Simulations

Hoeller,

Fiévet,

Haerter

2024

J Adv Model Earth Syst

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Recent observations and modeling increasingly reveal the key role of cold pools in organizing the convective cloud field. Several methods for detecting cold pools in simulations exist, but are usually based on buoyancy fields and fall short of reliably identifying the active gust front. The current cold pool (CP) detection and tracking algorithm (CoolDeTA), aims to identify cold pools and follow them in time, thereby distinguishing their active gust fronts and the “offspring” rain cells generated nearby. To accomplish these tasks, CoolDeTA utilizes a combination of thermodynamic and dynamical variables and examines the spatial and temporal relationships between cold pools and rain events. We demonstrate that CoolDeTA can reconstruct CP family trees. Using CoolDeTA we can contrast radiative convective equilibrium (RCE) and diurnal cycle CP dynamics, as well as cases with vertical wind shear and without. We show that the results obtained are consistent with a conceptual model where CP triggering of children rain cells follows a simple birth rate, proportional to a CP's gust front length. The proportionality factor depends on the ambient atmospheric stability and is lower for RCE, in line with marginal stability as traditionally ascribed to the moist adiabat. In the diurnal case, where ambient stability is lower, the birth rate thus becomes substantially higher, in line with periodic insolation forcing—resulting in essentially run‐away mesoscale excitations generated by a single parent rain cell and its CP.

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Section: Discussionmentioning

confidence: 99%

Detecting Cold Pool Family Trees in Convection Resolving Simulations

Hoeller,

Fiévet,

Haerter

2024

J Adv Model Earth Syst

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Autoencoder Framework for General Forecasting

Fister,

Peláez-Rodríguez,

Cornejo-Bueno

et al. 2024

Lecture Notes in Computer Science

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Characteristics of Station‐Derived Convective Cold Pools Over Equatorial Africa

Hoeller,

Haerter,

Da Silva

2024

Geophysical Research Letters

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Due to their potential role in organizing tropical mesoscale convective systems, a better understanding of cold pool (CP) dynamics in such regions is critical, particularly over land where the diurnal cycle further concentrates convective activity. Numerical models help disentangle the processes involved but often lack observational benchmarks. To close this gap, we analyze nearly 43 years of five‐minute resolution near‐surface timeseries, recorded from 12 automatic weather stations across equatorial Africa during 2019–2023. We identify 4,218 CPs based on criteria for temperature and wind. The identified CP gust fronts, which exhibit respective median temperature and specific humidity decreases of 5.3 K and 2.8 g kg−1, closely correlate with satellite‐observed brightness temperature discontinuities. Despite weak diurnal variation in precipitation, observed CP occurrence shows a pronounced diurnal cycle with an afternoon peak — a feature we attribute to low‐level moisture conditions. Our findings can serve as observational benchmark to improve simulations of CP organization.

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U‐Net Segmentation for the Detection of Convective Cold Pools From Cloud and Rainfall Fields

Cited by 3 publications

References 85 publications

Detecting Cold Pool Family Trees in Convection Resolving Simulations

Detecting Cold Pool Family Trees in Convection Resolving Simulations

Autoencoder Framework for General Forecasting

Characteristics of Station‐Derived Convective Cold Pools Over Equatorial Africa

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