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Main Authors: Garrett, Robert C., Harris, Trevor, Wang, Zhuo, Li, Bo
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2307.08685
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author Garrett, Robert C.
Harris, Trevor
Wang, Zhuo
Li, Bo
author_facet Garrett, Robert C.
Harris, Trevor
Wang, Zhuo
Li, Bo
contents Climate model evaluation plays a crucial role in ensuring the accuracy of climatological predictions. However, existing statistical evaluation methods often overlook time misalignment of events in a system's evolution, which can lead to a failure in identifying specific model deficiencies. This issue is particularly relevant for climate variables that involve time-sensitive events such as the monsoon season. To more comprehensively evaluate climate fields, we introduce a new vector-valued metric, the sliced elastic distance, through kernel convolution-derived slices. This metric simultaneously and separately accounts for spatial and temporal variability by decomposing the total distance between model simulations and observational data into three components: amplitude differences, timing variability, and bias (translation). We use the sliced elastic distance to assess CMIP6 precipitation simulations against observational data, evaluating amplitude and phase distances at both global and regional scales. In addition, we conduct a detailed phase analysis of the Indian Summer Monsoon to quantify timing biases in the onset and retreat of the monsoon season across the CMIP6 models.
format Preprint
id arxiv_https___arxiv_org_abs_2307_08685
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Sliced Elastic Distance for Evaluating Amplitude and Phase Differences in Precipitation Models
Garrett, Robert C.
Harris, Trevor
Wang, Zhuo
Li, Bo
Methodology
Applications
Climate model evaluation plays a crucial role in ensuring the accuracy of climatological predictions. However, existing statistical evaluation methods often overlook time misalignment of events in a system's evolution, which can lead to a failure in identifying specific model deficiencies. This issue is particularly relevant for climate variables that involve time-sensitive events such as the monsoon season. To more comprehensively evaluate climate fields, we introduce a new vector-valued metric, the sliced elastic distance, through kernel convolution-derived slices. This metric simultaneously and separately accounts for spatial and temporal variability by decomposing the total distance between model simulations and observational data into three components: amplitude differences, timing variability, and bias (translation). We use the sliced elastic distance to assess CMIP6 precipitation simulations against observational data, evaluating amplitude and phase distances at both global and regional scales. In addition, we conduct a detailed phase analysis of the Indian Summer Monsoon to quantify timing biases in the onset and retreat of the monsoon season across the CMIP6 models.
title Sliced Elastic Distance for Evaluating Amplitude and Phase Differences in Precipitation Models
topic Methodology
Applications
url https://arxiv.org/abs/2307.08685