Interactive evolutionary computation: Difference between revisions

The number of evaluations that IEC can receive from one human user is limited by user fatigue which was reported by many researchers as a major problem. In addition, human evaluations are slow and expensive as compared to fitness function computation. Hence, one-user IEC methods should be designed to converge using a small number of evaluations, which necessarily implies very small populations. Several methods were proposed by researchers to speed up convergence, like interactive constrain evolutionary search (user intervention) or fitting user preferences using a [[convex function]].<ref>{{cite journal|author=Takagi, H.|year=2001|title=Interactive Evolutionary Computation: Fusion of the Capacities of EC Optimization and Human Evaluation|journal=Proceedings of the IEEE |volume=89|issue=9|pages=1275–1296|url=http://www.design.kyushu-u.ac.jp/~takagi/TAKAGI/IECpaper/ProcIEEE_3.pdf|doi=10.1109/5.949485|hdl=2324/1670053|hdl-access=free}}</ref> IEC [[human-computerhuman–computer interface]]s should be carefully designed in order to reduce user fatigue. There is also evidence that the addition of computational agents can successfully counteract user fatigue.<ref>{{cite journal|author1=Kruse, J. |author2=Connor, A.M.|year=2015|title=Multi-agent evolutionary systems for the generation of complex virtual worlds|journal=EAI Endorsed Transactions on Creative Technologies |volume=15|issue=5|pages=150099|doi=10.4108/eai.20-10-2015.150099|arxiv=1604.05792|s2cid=12670076}}</ref>

IEC methods include interactive [[evolution strategy]],<ref>Herdy, M. (1997), Evolutionary Optimisation based on Subjective Selection – evolving blends of coffee. Proceedings 5th European Congress on Intelligent Techniques and Soft Computing (EUFIT’97); pp 2010-644.</ref> interactive genetic algorithm,<ref>*Caldwell, C. and Johnston, V.S. (1991), Tracking a Criminal Suspect through "Face-Space" with a Genetic Algorithm, in Proceedings of the Fourth International Conference on Genetic Algorithm, Morgan Kaufmann Publisher, pp.416-421, July 1991</ref><ref>{{cite journal|author=Milani, A.|year=2004|title=Online Genetic Algorithms|journal=International Journal of Information Theories and Applications|volume=11|pages=20–28|url=http://sci-gems.math.bas.bg/jspui/bitstream/10525/838/1/ijita11-1-p04.pdf}}

</ref> interactive [[genetic programming]],<ref>*{{cite journal |last=Sims, |first=K. (|year=1991), [http://citeseerx.ist.psu.edu/viewdoc/download?doi|title=10.1.1.226.7450&rep=rep1&type=pdf Artificial Evolution for Computer Graphics]. |journal=Computer Graphics |volume=25( |issue=4), Siggraph|pages=319–328|doi=10.1145/127719.122752 '91 Proceedings, July 1991, pp|citeseerx=10.319-3281.1.226.7450 }}</ref><ref>Sims, K. (1991), Interactive Evolution of Dynamical Systems. First European Conference on Artificial Life, MIT Press

</ref><ref>Unemi, T. (2000). SBART 2.4: an IEC tool for creating 2D images, Movies and Collage, Proceedings of 2000 Genetic and Evolutionary Computational Conference workshop program, Las Vegas, Nevada, July 8, 2000, p.153</ref> and [[human-based genetic algorithm]].,<ref>{{cite book|author=Kosorukoff, A.|yeartitle=2001|url=https://ieeexplore IEEE International Conference on Systems, Man and Cybernetics.ieee E-Systems and e-Man for Cybernetics in Cyberspace (Cat.org/document/972056No.01CH37236) |titleyear=2001|chapter=Human- based Geneticgenetic Algorithmalgorithm|journalpublisher=IEEE Transactions on Systems, Man, and Cybernetics |volume=5|pages=3464–3469|doi=10.1109/ICSMC.2001.972056|isbn=978-0-7803-7087-6|s2cid=13839604}}</ref>

An interactive genetic algorithm (IGA) is defined as a [[genetic algorithm]] that uses human evaluation. These algorithms belong to a more general category of Interactive evolutionary computation. The main application of these techniques include domains where it is hard or impossible to design a computational fitness function, for example, evolving images, music, various artistic designs and forms to fit a user's aesthetic preferences.<ref>{{cite journal | last1= khan | first1= Shahroz | last2 = Gunpinar | first2 = Erkan |last3 = Sener | first3=Bakir | title= GenYacht: An interactive generative design system for computer-aided yacht hull design | journal= Ocean Engineering | volume= 191|pages= 106462 |year=2019|doi= 10.1016/j.oceaneng.2019.106462| s2cid= 204150911 | url= https://strathprints.strath.ac.uk/70007/ | url-access= subscription }}</ref> Interactive computation methods can use different representations, both linear (as in traditional [[genetic algorithms]]) and tree-like ones (as in [[genetic programming]]).

*[[Human-computerHuman–computer interaction]]

*{{cite web|url=http://EndlessFormsendlessforms.com/|title=EndlessForms.com, Collaborative interactive evolution allowing you to evolve 3D objects and have them 3D printed|access-date=2011-06-18|archive-date=2018-11-14|archive-url=https://web.archive.org/web/20181114121019/http://endlessforms.com/|url-status=dead}}

*{{cite web|url=http://eartweb.vanhemert.co.uk/|title=Art by Evolution on the Web Interactive Art Generator|access-date=2010-04-09|archive-date=2018-04-15|archive-url=https://web.archive.org/web/20180415092047/http://eartweb.vanhemert.co.uk/|url-status=dead}}

*{{cite web|url=http://www.derrickcheng.com/Project/HBGA|title=Interactive one-max problem allows to compare the performance of interactive and human-based genetic algorithms|access-date=2006-12-03|archive-url=https://web.archive.org/web/20110709014211/http://derrickcheng.com/Project/HBGA/|archive-date=2011-07-09|url-status=dead}}.

*{{cite web|url=http://picbreeder.org/|title=Picbreeder service, Collaborative interactive evolution allowing branching from other users' creations that produces pictures like faces and spaceships|access-date=2007-08-02|archive-date=2011-07-25|archive-url=https://web.archive.org/web/20110725072615/http://picbreeder.org/|url-status=dead}}