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==== Evolutionary multi-tasking ====
'''Evolutionary multi-tasking''' has been explored as a means of exploiting the [[implicit parallelism]] of population-based search algorithms to simultaneously progress multiple distinct optimization tasks. By mapping all tasks to a unified search space, the evolving population of candidate solutions can harness the hidden relationships between them through continuous genetic transfer. This is induced when solutions associated with different tasks crossover.<ref name=mfo/><ref name=cognitive>Ong, Y. S., & Gupta, A. (2016). [http://www.cil.ntu.edu.sg/mfo/downloads/MultitaskOptimization_manuscript.pdf Evolutionary multitasking: a computer science view of cognitive multitasking]. Cognitive Computation, 8(2), 125-142.</ref> Recently, modes of knowledge transfer that are different from direct solution [[Crossover (genetic algorithm)|crossover]] have been explored.<ref>{{cite journal | doi=10.1109/TCYB.2018.2845361 | title=Evolutionary Multitasking via Explicit Autoencoding | year=2019 | last1=Feng | first1=Liang | last2=Zhou | first2=Lei | last3=Zhong | first3=Jinghui | last4=Gupta | first4=Abhishek | last5=Ong | first5=Yew-Soon | last6=Tan | first6=Kay-Chen | last7=Qin | first7=A. K. | journal=IEEE Transactions on Cybernetics | volume=49 | issue=9 | pages=3457–3470 | pmid=29994415 | s2cid=51613697 }}</ref><ref>{{Cite journal |last1=Jiang |first1=Yi |last2=Zhan |first2=Zhi-Hui |last3=Tan |first3=Kay Chen |last4=Zhang |first4=Jun |date=January 2024 |title=Block-Level Knowledge Transfer for Evolutionary Multitask Optimization
==== Game-theoretic optimization ====
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