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Auteurs principaux: Anita, Sebastian, Capasso, Vincenzo, Scacchi, Simone
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2510.27393
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author Anita, Sebastian
Capasso, Vincenzo
Scacchi, Simone
author_facet Anita, Sebastian
Capasso, Vincenzo
Scacchi, Simone
contents In this paper investigations by the same authors on environmental issues concerning the control of the pollution produced by human activities have been extended to include costs related to environmental interventions. The proposed model consists of a spatially structured dynamic economic growth model which takes into account the level of pollution induced by production, a possible taxation based on the amount of produced pollution, and possible environmental interventions. It has been analyzed an optimal harvesting control problem with an objective function composed of four terms, namely the intertemporal utility of the decision maker, the space-time average of the level of pollution in the habitat, the disutility due to the imposition of taxation and the cost of environmental interventions. A specific novelty in the model proposed here is the localization of the possible interventions to a subregion of the whole habitat. Computational experiments have been carried out to exemplify the outcomes of the proposed model.
format Preprint
id arxiv_https___arxiv_org_abs_2510_27393
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Pollution control for a spatially structured economic growth system
Anita, Sebastian
Capasso, Vincenzo
Scacchi, Simone
Numerical Analysis
In this paper investigations by the same authors on environmental issues concerning the control of the pollution produced by human activities have been extended to include costs related to environmental interventions. The proposed model consists of a spatially structured dynamic economic growth model which takes into account the level of pollution induced by production, a possible taxation based on the amount of produced pollution, and possible environmental interventions. It has been analyzed an optimal harvesting control problem with an objective function composed of four terms, namely the intertemporal utility of the decision maker, the space-time average of the level of pollution in the habitat, the disutility due to the imposition of taxation and the cost of environmental interventions. A specific novelty in the model proposed here is the localization of the possible interventions to a subregion of the whole habitat. Computational experiments have been carried out to exemplify the outcomes of the proposed model.
title Pollution control for a spatially structured economic growth system
topic Numerical Analysis
url https://arxiv.org/abs/2510.27393