SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1170536122> ?p ?o ?g. }

Showing items 1 to 100 of ±129 with 100 items per page.

W1170536122 endingPage "43" @default.
W1170536122 startingPage "27" @default.
W1170536122 abstract "This study contributes a stochastic, multi-objective adaptation of the classic environmental economics Lake Problem as a computationally simple but mathematically challenging benchmarking problem. The Lake Problem considers a hypothetical town by a lake, which hopes to maximize its economic benefit without crossing a nonlinear, and potentially irreversible, pollution threshold. Optimization objectives are maximize economic benefit, minimize phosphorus in the lake, maximize the probability of avoiding the pollution threshold, and minimize the probability of drastic phosphorus loading reductions in a given year. Uncertainty is introduced through a stochastic natural phosphorus inflow. We performed comprehensive diagnostics using six algorithms: the Borg multi-objective evolutionary algorithm (MOEA), MOEA/D, epsilon-MOEA, the Non-dominated Sorting Genetic Algorithm II (NSGAII), epsilon-NSGAII, and Generalized Differential Evolution 3 (GDE3) to evaluate their controllability, reliability, efficiency, and effectiveness. Our results show only the self-adaptive search of the Borg MOEA was capable of performing well on this nontrivial benchmarking problem." @default.
W1170536122 created "2016-06-24" @default.
W1170536122 creator A5051343054 @default.
W1170536122 creator A5072661874 @default.
W1170536122 creator A5077042612 @default.
W1170536122 creator A5083427626 @default.
W1170536122 date "2015-11-01" @default.
W1170536122 modified "2023-10-16" @default.
W1170536122 title "Confronting tipping points: Can multi-objective evolutionary algorithms discover pollution control tradeoffs given environmental thresholds?" @default.
W1170536122 cites W1540178064 @default.
W1170536122 cites W1547913678 @default.
W1170536122 cites W1595159159 @default.
W1170536122 cites W1644023502 @default.
W1170536122 cites W1679265603 @default.
W1170536122 cites W1915583101 @default.
W1170536122 cites W1978540718 @default.
W1170536122 cites W1981253394 @default.
W1170536122 cites W1981575601 @default.
W1170536122 cites W1989843961 @default.
W1170536122 cites W1995299836 @default.
W1170536122 cites W1997738271 @default.
W1170536122 cites W2007674050 @default.
W1170536122 cites W2010358969 @default.
W1170536122 cites W2017795107 @default.
W1170536122 cites W2026140793 @default.
W1170536122 cites W2028232808 @default.
W1170536122 cites W2030749048 @default.
W1170536122 cites W2038091980 @default.
W1170536122 cites W2047006371 @default.
W1170536122 cites W2058670254 @default.
W1170536122 cites W2063375245 @default.
W1170536122 cites W2089678632 @default.
W1170536122 cites W2097719924 @default.
W1170536122 cites W2098907614 @default.
W1170536122 cites W2101687942 @default.
W1170536122 cites W2105511939 @default.
W1170536122 cites W2106380636 @default.
W1170536122 cites W2106527522 @default.
W1170536122 cites W2107956015 @default.
W1170536122 cites W2108750696 @default.
W1170536122 cites W2109150240 @default.
W1170536122 cites W2109443480 @default.
W1170536122 cites W2115266682 @default.
W1170536122 cites W2120562032 @default.
W1170536122 cites W2121886948 @default.
W1170536122 cites W2126105956 @default.
W1170536122 cites W2133275519 @default.
W1170536122 cites W2136558239 @default.
W1170536122 cites W2136874743 @default.
W1170536122 cites W2137854332 @default.
W1170536122 cites W2146216407 @default.
W1170536122 cites W2154716121 @default.
W1170536122 cites W2156442555 @default.
W1170536122 cites W2158078084 @default.
W1170536122 cites W2163065403 @default.
W1170536122 cites W2165654898 @default.
W1170536122 cites W2167071076 @default.
W1170536122 cites W2167757882 @default.
W1170536122 cites W2261074312 @default.
W1170536122 cites W3124028004 @default.
W1170536122 cites W3125438129 @default.
W1170536122 doi "https://doi.org/10.1016/j.envsoft.2015.07.020" @default.
W1170536122 hasPublicationYear "2015" @default.
W1170536122 type Work @default.
W1170536122 sameAs 1170536122 @default.
W1170536122 citedByCount "28" @default.
W1170536122 countsByYear W11705361222016 @default.
W1170536122 countsByYear W11705361222017 @default.
W1170536122 countsByYear W11705361222018 @default.
W1170536122 countsByYear W11705361222019 @default.
W1170536122 countsByYear W11705361222020 @default.
W1170536122 countsByYear W11705361222021 @default.
W1170536122 countsByYear W11705361222022 @default.
W1170536122 countsByYear W11705361222023 @default.
W1170536122 crossrefType "journal-article" @default.
W1170536122 hasAuthorship W1170536122A5051343054 @default.
W1170536122 hasAuthorship W1170536122A5072661874 @default.
W1170536122 hasAuthorship W1170536122A5077042612 @default.
W1170536122 hasAuthorship W1170536122A5083427626 @default.
W1170536122 hasBestOaLocation W11705361221 @default.
W1170536122 hasConcept C111696304 @default.
W1170536122 hasConcept C11413529 @default.
W1170536122 hasConcept C126255220 @default.
W1170536122 hasConcept C159149176 @default.
W1170536122 hasConcept C162324750 @default.
W1170536122 hasConcept C187736073 @default.
W1170536122 hasConcept C28826006 @default.
W1170536122 hasConcept C33923547 @default.
W1170536122 hasConcept C41008148 @default.
W1170536122 hasConcept C48209547 @default.
W1170536122 hasConcept C68781425 @default.
W1170536122 hasConcept C74750220 @default.
W1170536122 hasConcept C86251818 @default.
W1170536122 hasConcept C8880873 @default.
W1170536122 hasConceptScore W1170536122C111696304 @default.
W1170536122 hasConceptScore W1170536122C11413529 @default.
W1170536122 hasConceptScore W1170536122C126255220 @default.
W1170536122 hasConceptScore W1170536122C159149176 @default.