Open AccessOPTIMAL CONTROL OF MULTIPLE‐USE PRODUCTS: THE CASE OF TIMBER, FORAGE AND WATER PRODUCTION
Author(s) -
STRANGE NIELS,
BRODIE JOHN DOUGLAS,
MEILBY HENRIK,
HELLES FINN
Publication year - 1999
Publication title -
natural resource modeling
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.28
H-Index - 32
eISSN - 1939-7445
pISSN - 0890-8575
DOI - 10.1111/j.1939-7445.1999.tb00016.x
Subject(s) - production (economics) , forage , function (biology) , nonlinear system , mathematical optimization , optimal control , quadratic equation , sensibility , computer science , control (management) , mathematics , agricultural engineering , economics , ecology , artificial intelligence , microeconomics , engineering , art , physics , geometry , literature , quantum mechanics , evolutionary biology , biology
. A thorough analysis of the optimal control of multiple‐use forest management at the stand level reveals that the results of earlier studies, which seem to contradict each other, are in fact part of a common solution space. We provide an explanation for this result by showing that it is caused by the growth function and the interaction between the timber and forage production functions. We discuss the sensibility of the results using this new knowledge. Most optimal control models focusing on multiple‐use forest management have applied production functions that are quadratic in the state variable. This makes explicit solutions easy because the first order derivative is linear. However, in reality, production is often better described by more complex nonlinear functions, but, unfortunately, such functions are difficult to handle in an optimal control framework. We illustrate how the convenience of the quadratic production function can be combined with better approximations to nonlinear production functions.