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Bibliographic Details
Main Authors: Lanne, Markku, Luoto, Jani, Rybarczyk, Adam
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.22445
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author Lanne, Markku
Luoto, Jani
Rybarczyk, Adam
author_facet Lanne, Markku
Luoto, Jani
Rybarczyk, Adam
contents We propose a new approach to inference in tightly identified and large-scale structural vector autoregressions based on a reparameterization that enables imposing identifying inequality restrictions through continuously differentiable mappings. Permitted inequality restrictions include shape and ranking restrictions as well as bounds on economically relevant elasticities, and the approach is also able to accommodate zero restrictions in a straightforward manner. We implement a Hamiltonian Monte Carlo algorithm and show how the posterior density can be rapidly evaluated under the reparameterization, thus facilitating inference in high-dimensional settings. Two empirical applications demonstrate that our approach tends to result in lower serial dependence in Markov chains, larger effective sample sizes and reduced computation time relative to existing methods.
format Preprint
id arxiv_https___arxiv_org_abs_2604_22445
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Inference in Tightly Identified and Large-Scale Sign-Restricted SVARs
Lanne, Markku
Luoto, Jani
Rybarczyk, Adam
Econometrics
We propose a new approach to inference in tightly identified and large-scale structural vector autoregressions based on a reparameterization that enables imposing identifying inequality restrictions through continuously differentiable mappings. Permitted inequality restrictions include shape and ranking restrictions as well as bounds on economically relevant elasticities, and the approach is also able to accommodate zero restrictions in a straightforward manner. We implement a Hamiltonian Monte Carlo algorithm and show how the posterior density can be rapidly evaluated under the reparameterization, thus facilitating inference in high-dimensional settings. Two empirical applications demonstrate that our approach tends to result in lower serial dependence in Markov chains, larger effective sample sizes and reduced computation time relative to existing methods.
title Inference in Tightly Identified and Large-Scale Sign-Restricted SVARs
topic Econometrics
url https://arxiv.org/abs/2604.22445