Optimal harvesting in forestry: steady-state analysis and climate change impact
DOI10.1080/17513758.2012.733425zbMath1447.91111OpenAlexW1988583283WikidataQ30574805 ScholiaQ30574805MaRDI QIDQ3304525
Yuri Yatsenko, Renan-Ulrich Goetz, Angels Xabadia, Natali Hritonenko
Publication date: 3 August 2020
Published in: Journal of Biological Dynamics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1080/17513758.2012.733425
climate changeoptimal control of nonlinear partial differential equationssize-structured forestsustainable forestry
Environmental economics (natural resource models, harvesting, pollution, etc.) (91B76) Existence theories for optimal control problems involving partial differential equations (49J20) PDEs in connection with game theory, economics, social and behavioral sciences (35Q91)
Related Items (6)
Cites Work
- Sustainable dynamics of size-structured forest under climate change
- Maximum principle for a size-structured model of forest and carbon sequestration management
- Pontryagin's principle for control problems in age-dependent population dynamics
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- A model of physiologically structured population dynamics with a nonlinear individual growth rate
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- BANG-BANG, IMPULSE, AND SUSTAINABLE HARVESTING IN AGE-STRUCTURED POPULATIONS
- Age-Structured PDEs in Economics, Ecology, and Demography: Optimal Control and Sustainability
- Maximum Principle for Optimal Harvesting in Linear Size-Structured Population
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