ST-CORAbico: A Spatiotemporal Object-Based Bias Correction Method for Storm Prediction Detected by Satellite
Advances in near real-time rainstorm prediction using remote sensing have offered important opportunities for effective disaster management. However, this information is subject to several sources of systematic errors that need to be corrected. Temporal and spatial characteristics of both satellite...
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| Published in | Remote sensing (Basel, Switzerland) Vol. 12; no. 21; p. 3538 |
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| Main Authors | , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Basel
MDPI AG
01.11.2020
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2072-4292 2072-4292 |
| DOI | 10.3390/rs12213538 |
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| Abstract | Advances in near real-time rainstorm prediction using remote sensing have offered important opportunities for effective disaster management. However, this information is subject to several sources of systematic errors that need to be corrected. Temporal and spatial characteristics of both satellite and in-situ data can be combined to enhance the quality of storm estimates. In this study, we present a spatiotemporal object-based method to bias correct two sources of systematic error in satellites: displacement and volume. The method, Spatiotemporal Contiguous Object-based Rainfall Analysis for Bias Correction (ST-CORAbico), uses the spatiotemporal rainfall analysis ST-CORA incorporated with a multivariate kernel density storm segmentation for describing the main storm event characteristics (duration, spatial extension, volume, maximum intensity, centroid). Displacement and volume are corrected by adjusting the spatiotemporal structure and the intensity distribution, respectively. ST-CORAbico was applied to correct the early version of the Integrated Multi-satellite Retrievals for the Global Precipitation Mission (GPM-IMERG) over the Lower Mekong basin in Thailand during the monsoon season from 2014 to 2017. The performance of ST-CORABico is compared against the Distribution Transformation (DT) and Gamma Quantile Mapping (GQM) probabilistic methods. A total of 120 storm events identified over the study area were classified into short and long-lived storms by using a k-means cluster analysis method. Examples for both storm event types describe the error reduction due to location and magnitude by ST-CORAbico. The results showed that the displacement and magnitude correction made by ST-CORAbico considerably reduced RMSE and bias of GPM-IMERG. In both storm event types, this method showed a lower impact on the spatial correlation of the storm event. In comparison with DT and GQM, ST-CORAbico showed a superior performance, outperforming both approaches. This spatiotemporal bias correction method offers a new approach to enhance the accuracy of satellite-derived information for near real-time estimation of storm events. |
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| AbstractList | Advances in near real-time rainstorm prediction using remote sensing have offered important opportunities for effective disaster management. However, this information is subject to several sources of systematic errors that need to be corrected. Temporal and spatial characteristics of both satellite and in-situ data can be combined to enhance the quality of storm estimates. In this study, we present a spatiotemporal object-based method to bias correct two sources of systematic error in satellites: displacement and volume. The method, Spatiotemporal Contiguous Object-based Rainfall Analysis for Bias Correction (ST-CORAbico), uses the spatiotemporal rainfall analysis ST-CORA incorporated with a multivariate kernel density storm segmentation for describing the main storm event characteristics (duration, spatial extension, volume, maximum intensity, centroid). Displacement and volume are corrected by adjusting the spatiotemporal structure and the intensity distribution, respectively. ST-CORAbico was applied to correct the early version of the Integrated Multi-satellite Retrievals for the Global Precipitation Mission (GPM-IMERG) over the Lower Mekong basin in Thailand during the monsoon season from 2014 to 2017. The performance of ST-CORABico is compared against the Distribution Transformation (DT) and Gamma Quantile Mapping (GQM) probabilistic methods. A total of 120 storm events identified over the study area were classified into short and long-lived storms by using a k-means cluster analysis method. Examples for both storm event types describe the error reduction due to location and magnitude by ST-CORAbico. The results showed that the displacement and magnitude correction made by ST-CORAbico considerably reduced RMSE and bias of GPM-IMERG. In both storm event types, this method showed a lower impact on the spatial correlation of the storm event. In comparison with DT and GQM, ST-CORAbico showed a superior performance, outperforming both approaches. This spatiotemporal bias correction method offers a new approach to enhance the accuracy of satellite-derived information for near real-time estimation of storm events. |
| Author | Uijlenhoet, Remko Markert, Amanda Boonya-Aroonnet, Surajate Khem, Sothea Chaowiwat, Winai Jayasinghe, Susantha Solomatine, Dimitri P. Towashiraporn, Peeranan Saah, David Meechaiya, Chinaporn Laverde-Barajas, Miguel Poortinga, Ate Chishtie, Farrukh Son, Lam Hung Corzo, Gerald A. |
| Author_xml | – sequence: 1 givenname: Miguel orcidid: 0000-0002-6901-4019 surname: Laverde-Barajas fullname: Laverde-Barajas, Miguel – sequence: 2 givenname: Gerald A. orcidid: 0000-0002-2773-7817 surname: Corzo fullname: Corzo, Gerald A. – sequence: 3 givenname: Ate surname: Poortinga fullname: Poortinga, Ate – sequence: 4 givenname: Farrukh orcidid: 0000-0002-6392-6084 surname: Chishtie fullname: Chishtie, Farrukh – sequence: 5 givenname: Chinaporn surname: Meechaiya fullname: Meechaiya, Chinaporn – sequence: 6 givenname: Susantha surname: Jayasinghe fullname: Jayasinghe, Susantha – sequence: 7 givenname: Peeranan surname: Towashiraporn fullname: Towashiraporn, Peeranan – sequence: 8 givenname: Amanda orcidid: 0000-0001-5353-8929 surname: Markert fullname: Markert, Amanda – sequence: 9 givenname: David orcidid: 0000-0001-9999-1219 surname: Saah fullname: Saah, David – sequence: 10 givenname: Lam Hung surname: Son fullname: Son, Lam Hung – sequence: 11 givenname: Sothea surname: Khem fullname: Khem, Sothea – sequence: 12 givenname: Surajate surname: Boonya-Aroonnet fullname: Boonya-Aroonnet, Surajate – sequence: 13 givenname: Winai surname: Chaowiwat fullname: Chaowiwat, Winai – sequence: 14 givenname: Remko orcidid: 0000-0001-7418-4445 surname: Uijlenhoet fullname: Uijlenhoet, Remko – sequence: 15 givenname: Dimitri P. surname: Solomatine fullname: Solomatine, Dimitri P. |
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| CitedBy_id | crossref_primary_10_1016_j_wace_2021_100364 crossref_primary_10_3390_rs13010136 crossref_primary_10_2166_hydro_2024_225 |
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| SubjectTerms | accuracy area basins Bias bias correction Centroids Cluster analysis correlation density Dimensional analysis Disaster management disaster preparedness Displacement duration Emergency preparedness Error correction Error reduction estimation Hydrology information Landslides & mudslides Mekong River Methods monsoon season object-based method Performance evaluation Precipitation prediction Probabilistic methods Rain Rainfall Rainfall measurement Rainstorms Real time Remote sensing satellite-based precipitation Satellites seeds Segmentation Sensors spatiotemporal analysis storm events Storms Systematic errors Thailand volume Weather forecasting Wind |
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