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Estimation of the spatial weighting matrix for regular lattice data—An adaptive lasso approach with cross‐sectional resampling

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  • Miryam S. Merk
  • Philipp Otto

Abstract

Spatial autoregressive models typically rely on the assumption that the spatial dependence structure is known in advance and is represented by a deterministic spatial weights matrix, although it is unknown in most empirical applications. Thus, we investigate the estimation of sparse spatial dependence structures for regular lattice data. In particular, an adaptive least absolute shrinkage and selection operator (lasso) is used to select and estimate the individual nonzero connections of the spatial weights matrix. To recover the spatial dependence structure, we propose cross‐sectional resampling, assuming that the random process is exchangeable. The estimation procedure is based on a two‐step approach to circumvent simultaneity issues that typically arise from endogenous spatial autoregressive dependencies. The two‐step adaptive lasso approach with cross‐sectional resampling is verified using Monte Carlo simulations. Eventually, we apply the procedure to model nitrogen dioxide (NO2) concentrations and show that estimating the spatial dependence structure contrary to using prespecified weights matrices improves the prediction accuracy considerably.

Suggested Citation

  • Miryam S. Merk & Philipp Otto, 2022. "Estimation of the spatial weighting matrix for regular lattice data—An adaptive lasso approach with cross‐sectional resampling," Environmetrics, John Wiley & Sons, Ltd., vol. 33(1), February.
    • Handle: RePEc:wly:envmet:v:33:y:2022:i:1:n:e2705
    DOI: 10.1002/env.2705
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    Cited by:

    1. Quintaba Pablo Aníbal & Herrera Gómez Marcos, 2023. "Spatial Weighting Matrix Estimation through Statistical Learning: Analyzing Argentinean Salary Dynamics under Structural Breaks," Asociación Argentina de Economía Política: Working Papers 4688, Asociación Argentina de Economía Política.

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