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== Other applications of the Fly algorithnm ==
* Stereo-vision <ref>{{cite conference |title=L’algorithme des mouches : une stratégie d’évolution individuelle appliquée en stéréovision|last1=Louchet|first1=Jean|conference=Reconnaissance des Formes et Intelligence Artificielle (RFIA2000)|date=Feb 2000|}}</ref><ref>{{cite conference |title=Mobile robot sensor fusion using flies|last1=Boumaza|first1=Amine|last2=Louchet|first2=Jean|publisher=Springer|conference=European Conference on Genetic Programming (EuroGP 2003)|pages=357–367|date=Apr 2003|doi=10.1007/3-540-36605-9_33|isbn=978-3-540-00976-4|___location=Essex, UK|volume=2611|book-title=Lecture Notes on Computer Science|}}</ref><ref>{{cite conference |title=Stereo analysis using individual evolution strategy|last1=Louchet|first1=Jean|publisher=IEEE|conference=Proceedings of 15th International Conference on Pattern Recognition, 2000 (ICPR’00)|pages=908–911|date=Sep 2000|doi=10.1109/ICPR.2000.905580|isbn=0-7695-0750-6|___location=Barcelona, Spain|}}</ref><ref>{{cite journal |title=Using an Individual Evolution Strategy for Stereovision|last1=Louchet|first1=Jean|publisher=Kluwer Academic Publishers|pages=101–109|date=Jun 2001|doi=10.1023/A:1011544128842|volume=2|issue=2|journal=Genetic Programming and Evolvable Machines}}</ref>
* Obstacle avoidance <ref>{{cite book |title=Apprentissage Automatique et Evolution Artificielle|chapter=L’algorithme des mouches dynamiques: guider un robot par évolution artificielle en temps réel|last1=Louchet,|first1=Jean|last2=Guyon|first2=Maud|last3=Lesot|first3=Marie-Jeanne|last4=Boumaza|first4=Amine|publisher=Hermes Sciences Publications|pages=|date=Mar 2002|isbn=274620360X|language=French|url=http://jean.louchet.free.fr/publis/2001ECA.pdf|editor1-last=Lattaud|editor1-first=Claude}}</ref><ref>{{cite conference |title=Dynamic Flies: Using Real-time evolution in Robotics|last1=Boumaza|first1=Amine|last2=Louchet|first2=Jean|publisher=Springer|conference=Artificial Evolution in Image Analysis and Signal Processing (EVOIASP2001)|pages=288–297|date=Apr 2001|doi=10.1007/3-540-45365-2_30|isbn=978-3-540-41920-4|___location=Como, Italy|volume=2037|book-title=Lecture Notes on Computer Science|}}</ref><ref>{{cite journal |title=Dynamic Flies: a new pattern recognition tool applied to stereo sequence processing|last1=Louchet,|first1=Jean|last2=Guyon|first2=Maud|last3=Lesot|first3=Marie-Jeanne|last4=Boumaza|first4=Amine|publisher=Elsevier Science B.V.|pages=335–345|date=Jan 2002|doi=10.1016/S0167-8655(01)00129-5|volume=23|issue=1–3|journal=Pattern Recognition Letters|url=http://jean.louchet.free.fr/publis/2001PRL.pdf}}</ref>
* SLAM
* SPECT reconstruction <ref>{{cite conference |title=Fully Three-Dimensional Tomographic Evolutionary Reconstruction in Nuclear Medicine|last1=Bousquet|first1=Aurélie|last2=Louchet|first2=Jean-Marie|last3=Rocchisani|first3=Jean|publisher=Springer, Heidelberg|conference=Proceedings of the 8th international conference on Artificial Evolution (EA’07)|pages=231–242|date=Oct 2007|doi=10.1007/978-3-540-79305-2_20|isbn=978-3-540-79304-5|___location=Tours, France|volume=4926|book-title=Lecture Notes in Computer Science|url=http://jean.louchet.free.fr/publis/EA07Bousquet.pdf|}}</ref>
* PET reconstruction <ref>{{cite conference |title=Artificial evolution for 3D PET reconstruction|last1=Vidal|first1=Franck P.|last2=Lazaro-Ponthus|first2=Delphine|last3=Legoupil|first3=Samuel|first4=Jean|first5=Évelyne|first6=Jean-Marie|last4=Louchet|last5=Lutton|last6=Rocchisani|publisher=Springer, Heidelberg|conference=Proceedings of the 9th international conference on Artificial Evolution (EA’09)|pages=37–48|date=Oct 2009|doi=10.1007/978-3-642-14156-0_4|isbn=978-3-642-14155-3|___location=Strasbourg, France|volume=5975|book-title=Lecture Notes in Computer Science|url=http://fly4pet.fpvidal.net/pdf/Vidal2009EA.pdf|}}</ref>
<ref>{{cite conference |title=PET reconstruction using a cooperative coevolution strategy in LOR space|last1=Vidal|first1=Franck P.|last2=Louchet|first2=Jean|last3=Lutton|first3=Évelyne|last4=Rocchisani|first4=Jean-Marie|publisher=IEEE|conference=Medical Imaging Conference (MIC)|pages=3363–3366|date=Oct-Nov 2009|doi=10.1109/NSSMIC.2009.5401758|___location=Orlando, Florida|book-title=IEEE Nuclear Science Symposium Conference Record (NSS/MIC), 2009|}}</ref><ref>{{cite conference |title=New genetic operators in the Fly algorithm: application to medical PET image reconstruction|last1=Vidal|first1=Franck P.|last2=Louchet|first2=Jean|last4=Lutton|first4=Évelyne|last3=Rocchisani|first3=Jean-Marie|publisher=Springer, Heidelberg|conference=European Workshop on Evolutionary Computation in Image Analysis and Signal Processing (EvoIASP’10)|pages=292–301|date=Apr 2010|doi=10.1007/978-3-642-12239-2_30|isbn=978-3-642-12238-5|___location=Istanbul, Turkey|volume=6024|book-title=Lecture Notes in Computer Science|url=http://fly4pet.fpvidal.net/pdf/Vidal2010EvoIASP.pdf|}}</ref>
* Digital arts <ref>{{cite conference |title=Evolutionary Art Using the Fly Algorithm|last1=Ali Abbood|first1=Zainab|last2=Amlal|first2=Othman|last3=Vidal|first3=Franck P.|publisher=Springer|conference=Applications of Evolutionary Computation (EvoApplications 2017)|pages=455-470|date=Apr 2017|doi=10.1007/978-3-319-55849-3_30|___location=Amsterdam, The Netherlands|volume=10199|book-title=Lecture Notes in Computer Science|url=http://fly4pet.fpvidal.net/pdf/Abbood017EvoIASP.pdf|}}</ref>
* Hand gesture recognition
 
== See also ==
Retrieved from "https://en.wikipedia.org/wiki/Fly_algorithm"