Real-time assimilation of streamflow observations into a hydrological routing model: effects of model structures and updating methods

M. Mazzoleni; S.J. Noh; H. Lee; Y. Liu; D.-J. Seo; A. Amaranto; L. Alfonso; D.P. Solomatine

doi:10.1080/02626667.2018.1430898

Real-time assimilation of streamflow observations into a hydrological routing model: effects of model structures and updating methods

M. Mazzoleni
, S.J. Noh
, H. Lee
, Y. Liu
, D.-J. Seo
, A. Amaranto
, L. Alfonso
, D.P. Solomatine

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

© 2018 IAHS.This paper comparatively assesses the performance of five data assimilation techniques for three-parameter Muskingum routing with a spatially lumped or distributed model structure. The assimilation techniques used include direct insertion (DI), nudging scheme (NS), Kalman filter (KF), ensemble Kalman filter (EnKF) and asynchronous ensemble Kalman filter (AEnKF), which are applied to river reaches in Texas and Louisiana, USA. For both lumped and distributed routing, results from KF, EnKF and AEnKF are sensitive to the error specification. As expected, DI outperformed the other models in the case of lumped modelling, while in distributed routing, KF approaches, particularly AEnKF and EnKF, performed better than DI or nudging, reflecting the benefit of updating distributed states through error covariance modelling in KF approaches. The results of this work would be useful in setting up data assimilation systems that employ increasingly abundant real-time observations using distributed hydrological routing models.

Original language	English
Pages (from-to)	386-407
Journal	Hydrological Sciences Journal
Volume	63
Issue number	3
DOIs	https://doi.org/10.1080/02626667.2018.1430898
Publication status	Published - 17 Feb 2018
Externally published	Yes

Funding

This research was funded in the framework of the European FP7 Project WeSenseIt: Citizen Observatory of Water [grant agreement no. 308429]. Support for Seongjin Noh and Dong-Jun Seo was provided by the National Science Foundation under Grant CyberSEES-1442735 (Dong-Jun Seo, University of Texas at Arlington, PI), and by NOAA/OAR/OWAQ/JTTI under Grant NA17OAR4590174. This support is gratefully acknowledged; Directorate for Computer and Information Science and Engineering [CyberSEES-1442735]; Seventh Framework Programme [308429].

Funders	Funder number
OWAQ
National Oceanic and Atmospheric Administration
Seventh Framework Programme	308429
National Science Foundation	CyberSEES-1442735
JTTI	NA17OAR4590174

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title = "Real-time assimilation of streamflow observations into a hydrological routing model: effects of model structures and updating methods",

abstract = "{\textcopyright} 2018 IAHS.This paper comparatively assesses the performance of five data assimilation techniques for three-parameter Muskingum routing with a spatially lumped or distributed model structure. The assimilation techniques used include direct insertion (DI), nudging scheme (NS), Kalman filter (KF), ensemble Kalman filter (EnKF) and asynchronous ensemble Kalman filter (AEnKF), which are applied to river reaches in Texas and Louisiana, USA. For both lumped and distributed routing, results from KF, EnKF and AEnKF are sensitive to the error specification. As expected, DI outperformed the other models in the case of lumped modelling, while in distributed routing, KF approaches, particularly AEnKF and EnKF, performed better than DI or nudging, reflecting the benefit of updating distributed states through error covariance modelling in KF approaches. The results of this work would be useful in setting up data assimilation systems that employ increasingly abundant real-time observations using distributed hydrological routing models.",

author = "M. Mazzoleni and S.J. Noh and H. Lee and Y. Liu and D.-J. Seo and A. Amaranto and L. Alfonso and D.P. Solomatine",

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T1 - Real-time assimilation of streamflow observations into a hydrological routing model

T2 - effects of model structures and updating methods

AU - Mazzoleni, M.

AU - Noh, S.J.

AU - Lee, H.

AU - Liu, Y.

AU - Seo, D.-J.

AU - Amaranto, A.

AU - Alfonso, L.

AU - Solomatine, D.P.

PY - 2018/2/17

Y1 - 2018/2/17

N2 - © 2018 IAHS.This paper comparatively assesses the performance of five data assimilation techniques for three-parameter Muskingum routing with a spatially lumped or distributed model structure. The assimilation techniques used include direct insertion (DI), nudging scheme (NS), Kalman filter (KF), ensemble Kalman filter (EnKF) and asynchronous ensemble Kalman filter (AEnKF), which are applied to river reaches in Texas and Louisiana, USA. For both lumped and distributed routing, results from KF, EnKF and AEnKF are sensitive to the error specification. As expected, DI outperformed the other models in the case of lumped modelling, while in distributed routing, KF approaches, particularly AEnKF and EnKF, performed better than DI or nudging, reflecting the benefit of updating distributed states through error covariance modelling in KF approaches. The results of this work would be useful in setting up data assimilation systems that employ increasingly abundant real-time observations using distributed hydrological routing models.

AB - © 2018 IAHS.This paper comparatively assesses the performance of five data assimilation techniques for three-parameter Muskingum routing with a spatially lumped or distributed model structure. The assimilation techniques used include direct insertion (DI), nudging scheme (NS), Kalman filter (KF), ensemble Kalman filter (EnKF) and asynchronous ensemble Kalman filter (AEnKF), which are applied to river reaches in Texas and Louisiana, USA. For both lumped and distributed routing, results from KF, EnKF and AEnKF are sensitive to the error specification. As expected, DI outperformed the other models in the case of lumped modelling, while in distributed routing, KF approaches, particularly AEnKF and EnKF, performed better than DI or nudging, reflecting the benefit of updating distributed states through error covariance modelling in KF approaches. The results of this work would be useful in setting up data assimilation systems that employ increasingly abundant real-time observations using distributed hydrological routing models.

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JO - Hydrological Sciences Journal

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Real-time assimilation of streamflow observations into a hydrological routing model: effects of model structures and updating methods

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