Improving the synthetic data generation process in spatial microsimulation models
Improving the synthetic data generation process in spatial microsimulation models
Simulation models are increasingly used in applied research to create synthetic micro-populations and predict possible individual-level outcomes of policy intervention. Previous research highlights the relevance of simulation techniques in estimating the potential outcomes of changes in areas such as taxation and child benefit policy, crime, education, or health inequalities. To date, however, there is very little published research on the creation, calibration, and testing of such micro-populations and models, and little on the issue of how well synthetic data can fit locally as opposed to globally in such models. This paper discusses the process of improving the process of synthetic micropopulation generation with the aim of improving and extending existing spatial microsimulation models. Experiments using different variable configurations to constrain the models are undertaken with the emphasis on producing a suite of models to match the different sociodemographic conditions found within a typical city. The results show that creating processes to generate area-specific synthetic populations, which reflect the diverse populations within the study area, provides more accurate population estimates for future policy work than the traditional global model configurations
1251-1268
Smith, Dianna M.
e859097c-f9f5-4fd0-8b07-59218648e726
Clarke, Graham P.
fbf31d71-c7c3-44fa-a019-b21183aa46c4
Harland, Kirk
a0d6900c-1551-4075-a30d-215f965a84ec
May 2009
Smith, Dianna M.
e859097c-f9f5-4fd0-8b07-59218648e726
Clarke, Graham P.
fbf31d71-c7c3-44fa-a019-b21183aa46c4
Harland, Kirk
a0d6900c-1551-4075-a30d-215f965a84ec
Smith, Dianna M., Clarke, Graham P. and Harland, Kirk
(2009)
Improving the synthetic data generation process in spatial microsimulation models.
Environment and Planning A, 41 (5), .
(doi:10.1068/a4147).
Abstract
Simulation models are increasingly used in applied research to create synthetic micro-populations and predict possible individual-level outcomes of policy intervention. Previous research highlights the relevance of simulation techniques in estimating the potential outcomes of changes in areas such as taxation and child benefit policy, crime, education, or health inequalities. To date, however, there is very little published research on the creation, calibration, and testing of such micro-populations and models, and little on the issue of how well synthetic data can fit locally as opposed to globally in such models. This paper discusses the process of improving the process of synthetic micropopulation generation with the aim of improving and extending existing spatial microsimulation models. Experiments using different variable configurations to constrain the models are undertaken with the emphasis on producing a suite of models to match the different sociodemographic conditions found within a typical city. The results show that creating processes to generate area-specific synthetic populations, which reflect the diverse populations within the study area, provides more accurate population estimates for future policy work than the traditional global model configurations
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e-pub ahead of print date: 16 February 2009
Published date: May 2009
Organisations:
Population, Health & Wellbeing (PHeW)
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Local EPrints ID: 382511
URI: http://eprints.soton.ac.uk/id/eprint/382511
ISSN: 0308-518X
PURE UUID: baa969fb-44cc-421a-9974-6b96475e29c4
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Date deposited: 02 Nov 2015 12:15
Last modified: 15 Mar 2024 03:53
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Author:
Graham P. Clarke
Author:
Kirk Harland
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