The optimal population size under pollution and migration externalities: a spatial control approach
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Publication:5229627
DOI10.1051/MMNP/2019004zbMath1457.91300OpenAlexW2931903200MaRDI QIDQ5229627
Simone Marsiglio, Danilo Liuzzi, Davide La Torre
Publication date: 16 August 2019
Published in: Mathematical Modelling of Natural Phenomena (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1051/mmnp/2019004
Environmental economics (natural resource models, harvesting, pollution, etc.) (91B76) Mathematical geography and demography (91D20)
Related Items (5)
Sustainability and spatial spillovers in a multicriteria macroeconomic model ⋮ Unnamed Item ⋮ Transboundary pollution externalities: think globally, act locally? ⋮ From firm to global-level pollution control: the case of transboundary pollution ⋮ Distributed optimal control models in environmental economics: a review
Cites Work
- Unnamed Item
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- Unnamed Item
- The green golden rule
- On a spatial Solow model with technological diffusion and nonconcave production function
- Diffusion-induced instability and pattern formation in infinite horizon recursive optimal control
- Pollution diffusion and abatement activities across space and over time
- Pattern formation, spatial externalities and regulation in coupled economic-ecological systems
- Optimal population size and endogenous growth
- Land use dynamics and the environment
- Optimal control and long-run dynamics for a spatial economic growth model with physical capital accumulation and pollution diffusion
- Dynamics and optimal control in a spatially structured economic growth model with pollution diffusion and environmental taxation
- Sustainability and intertemporal equity: a multicriteria approach
- Spatial dynamics and convergence: the spatial AK model
- On the dynamics of capital accumulation across space
- BRIDGING THE GAP BETWEEN GROWTH THEORY AND THE NEW ECONOMIC GEOGRAPHY: THE SPATIAL RAMSEY MODEL
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