TY - GEN
T1 - Maximizing sustainability of ecosystem model through socioeconomic policies derived from multivariable optimal control theory
AU - Doshi, Rohan
AU - Diwekar, Urmila
AU - Benavides, Pahola T.
AU - Yenkie, Kirti M.
AU - Cabezas, Heriberto
PY - 2014
Y1 - 2014
N2 - Current practices in natural resources consumption are unsustainable and may eventually lead to ecosystem extinction. Sustainable ecosystem management is necessary to ensure that human and ecological needs of the present are satisfied without compromising the ability of future generations to meet their own. This paper uses a simple mathematical model of an integrated ecological and economic system representing our planet's sectors, including, but not limited to, natural, industrial, housing, and energy production sectors. The aim of the project is to maximize the sustainability of this system, using Fisher Information as a statistical measure as a measure of sustainability, and derive socio-economic policies using optimal control techniques. By controlling six policy parameters, we were able to sustain all the ecological mass compartments (which were not sustainable in the consumption increase scenario of the future), thus significantly increasing the lifespan of all the species in the model.
AB - Current practices in natural resources consumption are unsustainable and may eventually lead to ecosystem extinction. Sustainable ecosystem management is necessary to ensure that human and ecological needs of the present are satisfied without compromising the ability of future generations to meet their own. This paper uses a simple mathematical model of an integrated ecological and economic system representing our planet's sectors, including, but not limited to, natural, industrial, housing, and energy production sectors. The aim of the project is to maximize the sustainability of this system, using Fisher Information as a statistical measure as a measure of sustainability, and derive socio-economic policies using optimal control techniques. By controlling six policy parameters, we were able to sustain all the ecological mass compartments (which were not sustainable in the consumption increase scenario of the future), thus significantly increasing the lifespan of all the species in the model.
UR - https://www.scopus.com/pages/publications/84961956398
UR - https://www.scopus.com/pages/publications/84961956398#tab=citedBy
M3 - Conference contribution
AN - SCOPUS:84961956398
T3 - Environmental Division 2014 - Core Programming Area at the 2014 AIChE Annual Meeting
SP - 532
EP - 545
BT - Environmental Division 2014 - Core Programming Area at the 2014 AIChE Annual Meeting
PB - AIChE
T2 - Environmental Division 2014 - Core Programming Area at the 2014 AIChE Annual Meeting
Y2 - 16 November 2014 through 21 November 2014
ER -