Data assimilation (DA) is a methodology for combining mathematical models simulating complex systems (the background knowledge) and measurements (the reality or observational data) in order to improve the estimate of the system state (the forecast). The DA is an inverse and ill posed problem usually used to handle a huge amount of data, so, it is a large and computationally expensive problem. Here we focus on scalable methods that makes DA applications feasible for a huge number of background data and observations. We present a scalable algorithm for solving variational DA which is highly parallel. We provide a mathematical formalization of this approach and we also study the performance of the resulted algorithm
A scalable approach for Variational Data Assimilation / D'Amore, Luisa; R., Arcucci; Carracciuolo, Luisa; Murli, Almerico. - In: JOURNAL OF SCIENTIFIC COMPUTING. - ISSN 0885-7474. - 61:(2014), pp. 239-257. [10.1007/s10915-014-9824-2]
A scalable approach for Variational Data Assimilation
D'AMORE, LUISA;CARRACCIUOLO, LUISA;MURLI, ALMERICO
2014
Abstract
Data assimilation (DA) is a methodology for combining mathematical models simulating complex systems (the background knowledge) and measurements (the reality or observational data) in order to improve the estimate of the system state (the forecast). The DA is an inverse and ill posed problem usually used to handle a huge amount of data, so, it is a large and computationally expensive problem. Here we focus on scalable methods that makes DA applications feasible for a huge number of background data and observations. We present a scalable algorithm for solving variational DA which is highly parallel. We provide a mathematical formalization of this approach and we also study the performance of the resulted algorithmFile | Dimensione | Formato | |
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