Introductory overview of identifiability analysis: A guide to evaluating whether you have the right type of data for your modeling purpose

Joseph H.A. Guillaume; John D. Jakeman; Stefano Marsili-Libelli; Michael Asher; Philip Brunner; B. Croke; Mary C. Hill; Anthony J. Jakeman; Karel J. Keesman; S. Razavi; Johannes D. Stigter

doi:10.1016/j.envsoft.2019.07.007

Introductory overview of identifiability analysis: A guide to evaluating whether you have the right type of data for your modeling purpose

Joseph H.A. Guillaume^*, John D. Jakeman, Stefano Marsili-Libelli, Michael Asher, Philip Brunner, B. Croke, Mary C. Hill, Anthony J. Jakeman, Karel J. Keesman, S. Razavi, Johannes D. Stigter

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

122 Citations (Scopus)

Abstract

Identifiability is a fundamental concept in parameter estimation, and therefore key to the large majority of environmental modeling applications. Parameter identifiability analysis assesses whether it is theoretically possible to estimate unique parameter values from data, given the quantities measured, conditions present in the forcing data, model structure (and objective function), and properties of errors in the model and observations. In other words, it tackles the problem of whether the right type of data is available to estimate the desired parameter values. Identifiability analysis is therefore an essential technique that should be adopted more routinely in practice, alongside complementary methods such as uncertainty analysis and evaluation of model performance. This article provides an introductory overview to the topic. We recommend that any modeling study should document whether a model is non-identifiable, the source of potential non-identifiability, and how this affects intended project outcomes.

Original language	English
Pages (from-to)	418-432
Number of pages	15
Journal	Environmental Modelling and Software
Volume	119
DOIs	https://doi.org/10.1016/j.envsoft.2019.07.007
Publication status	Published - Sept 2019

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Guillaume, J. H. A., Jakeman, J. D., Marsili-Libelli, S., Asher, M., Brunner, P., Croke, B., Hill, M. C., Jakeman, A. J., Keesman, K. J., Razavi, S., & Stigter, J. D. (2019). Introductory overview of identifiability analysis: A guide to evaluating whether you have the right type of data for your modeling purpose. Environmental Modelling and Software, 119, 418-432. https://doi.org/10.1016/j.envsoft.2019.07.007

@article{1570caab327b4987985dd7f0a8a10071,

title = "Introductory overview of identifiability analysis: A guide to evaluating whether you have the right type of data for your modeling purpose",

abstract = "Identifiability is a fundamental concept in parameter estimation, and therefore key to the large majority of environmental modeling applications. Parameter identifiability analysis assesses whether it is theoretically possible to estimate unique parameter values from data, given the quantities measured, conditions present in the forcing data, model structure (and objective function), and properties of errors in the model and observations. In other words, it tackles the problem of whether the right type of data is available to estimate the desired parameter values. Identifiability analysis is therefore an essential technique that should be adopted more routinely in practice, alongside complementary methods such as uncertainty analysis and evaluation of model performance. This article provides an introductory overview to the topic. We recommend that any modeling study should document whether a model is non-identifiable, the source of potential non-identifiability, and how this affects intended project outcomes.",

keywords = "Derivative based methods, Emulation, Hessian, Identifiability, Non-uniqueness, Response surface, Uncertainty",

author = "Guillaume, {Joseph H.A.} and Jakeman, {John D.} and Stefano Marsili-Libelli and Michael Asher and Philip Brunner and B. Croke and Hill, {Mary C.} and Jakeman, {Anthony J.} and Keesman, {Karel J.} and S. Razavi and Stigter, {Johannes D.}",

note = "Publisher Copyright: {\textcopyright} 2019 Elsevier Ltd",

year = "2019",

month = sep,

doi = "10.1016/j.envsoft.2019.07.007",

language = "English",

volume = "119",

pages = "418--432",

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Guillaume, JHA, Jakeman, JD, Marsili-Libelli, S, Asher, M, Brunner, P, Croke, B, Hill, MC, Jakeman, AJ, Keesman, KJ, Razavi, S & Stigter, JD 2019, 'Introductory overview of identifiability analysis: A guide to evaluating whether you have the right type of data for your modeling purpose', Environmental Modelling and Software, vol. 119, pp. 418-432. https://doi.org/10.1016/j.envsoft.2019.07.007

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T2 - A guide to evaluating whether you have the right type of data for your modeling purpose

AU - Guillaume, Joseph H.A.

AU - Jakeman, John D.

AU - Marsili-Libelli, Stefano

AU - Asher, Michael

AU - Brunner, Philip

AU - Croke, B.

AU - Hill, Mary C.

AU - Jakeman, Anthony J.

AU - Keesman, Karel J.

AU - Razavi, S.

AU - Stigter, Johannes D.

PY - 2019/9

Y1 - 2019/9

N2 - Identifiability is a fundamental concept in parameter estimation, and therefore key to the large majority of environmental modeling applications. Parameter identifiability analysis assesses whether it is theoretically possible to estimate unique parameter values from data, given the quantities measured, conditions present in the forcing data, model structure (and objective function), and properties of errors in the model and observations. In other words, it tackles the problem of whether the right type of data is available to estimate the desired parameter values. Identifiability analysis is therefore an essential technique that should be adopted more routinely in practice, alongside complementary methods such as uncertainty analysis and evaluation of model performance. This article provides an introductory overview to the topic. We recommend that any modeling study should document whether a model is non-identifiable, the source of potential non-identifiability, and how this affects intended project outcomes.

AB - Identifiability is a fundamental concept in parameter estimation, and therefore key to the large majority of environmental modeling applications. Parameter identifiability analysis assesses whether it is theoretically possible to estimate unique parameter values from data, given the quantities measured, conditions present in the forcing data, model structure (and objective function), and properties of errors in the model and observations. In other words, it tackles the problem of whether the right type of data is available to estimate the desired parameter values. Identifiability analysis is therefore an essential technique that should be adopted more routinely in practice, alongside complementary methods such as uncertainty analysis and evaluation of model performance. This article provides an introductory overview to the topic. We recommend that any modeling study should document whether a model is non-identifiable, the source of potential non-identifiability, and how this affects intended project outcomes.

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KW - Emulation

KW - Hessian

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KW - Non-uniqueness

KW - Response surface

KW - Uncertainty

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SP - 418

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JO - Environmental Modelling and Software

JF - Environmental Modelling and Software

ER -

Introductory overview of identifiability analysis: A guide to evaluating whether you have the right type of data for your modeling purpose

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