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Reference | Application | Technique |
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Aguirre et al., 2004 [50] | A field programmable transistor array (FPTA) | Inverted shrinkable Pareto archived evolution strategy (ISPAES) |
Reddy and Kumar, 2007 [51] | “Truss design (Palli, et al., 1999 [52])” “I-beam design (Yang et al., 2002 [53])” “Welded beam design (Deb et al., 2000 [54])” | MO particle swarm optimization (MOPSO) |
Kusiak et al., 2010 [55] | HVAC | MOPSO |
Van Sickel et al., 2008 [56] | Control optimization for power plant | Multiobjective evolutionary programming (MOEP) and MOPSO |
Heo et al., 2006 [57] | Control optimization for fuel power plant | PSO variants |
Song and Kusiak, 2010 [58] | Temporal process optimization | Hybrid data mining (DM) and evolutionary strategy algorithm |
Gunda and Acharjee, 2011 [59] | Economic/environmental dispatch problem | Pareto frontier DE (PFDE) |
King et al., 2005 [60] | Power generation | NSGA-II |
Kehinde et al., 2010 [61] | Economic/environmental dispatch | Hybrid convergence accelerator and the NSGA-II (Adra et al., 2009 [62]) |
El-Wahed et al., 2008 [63] | Economic/environmental dispatch | Hybrid ant colony optimization (ACO) and the modified SIMPLEX method |
Abido, 2003 [64] | Economic/environmental dispatch | Hybrid NSGA hierarchy clustering algorithm and the fuzzy theory |
Ganesan et al., 2011 [65] | Mould systems materials engineering | Hybrid NBI and GA |
Sankararao and Gupta., 2007 [66] | Industrial fluidized-bed catalytic cracking unit | Jumping gene MOSA or MOSA-Jg |
Rajesh et al., 2000 [67] | Steam reformer performance optimization | Hybrid NSGA |
Behroozsarand et al., 2009 [68] | Optimization of an industrial autothermal reformer | NSGA-II |
Martinsa and Costa., 2010 [36] | Optimization of a benzene production process | MO simulated annealing (MOSA) |
Salari et al., 2008 [37] | Optimization of an ethane thermal cracking reactor | NSGA-II |
Fiandaca and Fraga, 2009 [38] | Design optimization of pressure-swing adsorption | Multiobjective GA (MOGA) |
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