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On a modular approach to the design of integrated social surveys

On a modular approach to the design of integrated social surveys
On a modular approach to the design of integrated social surveys
This article considers a modular approach to the design of integrated social surveys. The approach consists of grouping variables into ‘modules’, each of which is then allocated to one or more ‘instruments’. Each instrument is then administered to a random sample of population units, and each sample unit responds to all modules of the instrument. This approach offers a way of designing a system of integrated social surveys that balances the need to limit the cost and the need to obtain sufficient information. The allocation of the modules to instruments draws on the methodology of split questionnaire designs. The composition of the instruments, that is, how the modules are allocated to instruments, and the corresponding sample sizes are obtained as a solution to an optimisation problem. This optimisation involves minimisation of
respondent burden and data collection cost, while respecting certain design constraints usually encountered in practice. These constraints may include, for example, the level of precision required and dependencies between the variables. We propose using a random search algorithm to find approximate optimal solutions to this problem. The algorithm is proved to fulfil conditions that ensure convergence to the global optimum and can also produce an
efficient design for a split questionnaire.
Efficient design, split questionnaire, simulated annealing, sample allocation, respondent burden
0282-423X
259-286
Ioannidis, Evangelos
0758255c-b6e5-451b-b9ea-8ab81f20b2ca
Merkouris, Takis
86d9af6f-9357-402f-af4c-e48f1f8f00ed
Zhang, Li-Chung
a5d48518-7f71-4ed9-bdcb-6585c2da3649
Karlberg, Martin
d02623ab-af60-47ec-b521-f66fb8105a30
Petrakos, Michalis
aef76566-f805-4f2e-8b51-58901b11bb88
Reis, Fernando
9399d245-417a-4e2a-9d41-02090ae7e47b
Stavropoulos, Photis
fa637cdc-ac24-444e-9f7c-7529be0d53d0
Ioannidis, Evangelos
0758255c-b6e5-451b-b9ea-8ab81f20b2ca
Merkouris, Takis
86d9af6f-9357-402f-af4c-e48f1f8f00ed
Zhang, Li-Chung
a5d48518-7f71-4ed9-bdcb-6585c2da3649
Karlberg, Martin
d02623ab-af60-47ec-b521-f66fb8105a30
Petrakos, Michalis
aef76566-f805-4f2e-8b51-58901b11bb88
Reis, Fernando
9399d245-417a-4e2a-9d41-02090ae7e47b
Stavropoulos, Photis
fa637cdc-ac24-444e-9f7c-7529be0d53d0

Ioannidis, Evangelos, Merkouris, Takis, Zhang, Li-Chung, Karlberg, Martin, Petrakos, Michalis, Reis, Fernando and Stavropoulos, Photis (2016) On a modular approach to the design of integrated social surveys. Journal of Official Statistics, 32 (2), 259-286. (doi:10.1515/JOS-2016-0013).

Record type: Article

Abstract

This article considers a modular approach to the design of integrated social surveys. The approach consists of grouping variables into ‘modules’, each of which is then allocated to one or more ‘instruments’. Each instrument is then administered to a random sample of population units, and each sample unit responds to all modules of the instrument. This approach offers a way of designing a system of integrated social surveys that balances the need to limit the cost and the need to obtain sufficient information. The allocation of the modules to instruments draws on the methodology of split questionnaire designs. The composition of the instruments, that is, how the modules are allocated to instruments, and the corresponding sample sizes are obtained as a solution to an optimisation problem. This optimisation involves minimisation of
respondent burden and data collection cost, while respecting certain design constraints usually encountered in practice. These constraints may include, for example, the level of precision required and dependencies between the variables. We propose using a random search algorithm to find approximate optimal solutions to this problem. The algorithm is proved to fulfil conditions that ensure convergence to the global optimum and can also produce an
efficient design for a split questionnaire.

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More information

Accepted/In Press date: 1 October 2015
e-pub ahead of print date: 28 May 2016
Published date: June 2016
Keywords: Efficient design, split questionnaire, simulated annealing, sample allocation, respondent burden
Organisations: Social Statistics & Demography

Identifiers

Local EPrints ID: 411028
URI: http://eprints.soton.ac.uk/id/eprint/411028
ISSN: 0282-423X
PURE UUID: 27aa8fd8-5feb-4010-a3ef-5f5da37c63c2
ORCID for Li-Chung Zhang: ORCID iD orcid.org/0000-0002-3944-9484

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Date deposited: 13 Jun 2017 16:32
Last modified: 16 Mar 2024 04:13

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Contributors

Author: Evangelos Ioannidis
Author: Takis Merkouris
Author: Li-Chung Zhang ORCID iD
Author: Martin Karlberg
Author: Michalis Petrakos
Author: Fernando Reis
Author: Photis Stavropoulos

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