ID - 131707066 TI - Unconventional Computation : 9th International Conference, UC 2010, Tokyo, Japan, June 21-25, 2010, Proceedings AU - Calude, Christian S. AU - Hagiya, Masami AU - Morita, Kenichi AU - Rozenberg, Grzegorz AU - Timmis, Jonathan PY - 2010 SN - 9783642135231 9783642135224 9783642135248 PB - Berlin, Heidelberg Springer DB - UniCat KW - Mathematical logic KW - Complex analysis KW - Biology KW - Computer science KW - Programming KW - Computer architecture. Operating systems KW - Artificial intelligence. Robotics. Simulation. Graphics KW - Computer. Automation KW - complexe analyse (wiskunde) KW - biologie KW - computers KW - programmeren (informatica) KW - wiskunde KW - algoritmen KW - KI (kunstmatige intelligentie) KW - logica KW - AI (artificiële intelligentie) UR - https://www.unicat.be/uniCat?func=search&query=sysid:131707066 AB - The 9th International Conference on Unconventional Computation, UC 2010, was organized under the auspices of EATCS and Academia Europaea, by the University of Tokyo (Tokyo, Japan), and the Center for Discrete Mathematics and Theoretical Computer Science (Auckland, New Zealand). It was held in Tokyoduring June 21–25,2010(seehttp://arn.local.frs.riken.jp/UC10/). The venue was the Sanjo (Hilltop) Conference Hall at Hongo Campus of the University of Tokyo. Hongo Campus was formerly the residence of the Maeda family, one of the richest feudal lords in the Edo period of Japan. The Japanese garden in the residence is partially preserved, including the pond and the hill on which the conference hall is located. Within walking distance from Hongo Campus are Ueno park with many museums, the Akihabara area, which is now the center of Japanesepop culture, and the Korakuenamusement park/baseball stadium. The International Conference on Unconventional Computation (UC) series (seehttp://www.cs.auckland.ac.nz/CDMTCS/conferences/uc/)isdevotedto all aspects of unconventional computation — theory as well as experiments and applications. Typical, but not exclusive, topics are: natural computing including quantum, cellular, molecular, membrane, neural, and evolutionary computing, as well as chaos and dynamical system-based computing, and various proposals for computational mechanisms that go beyond the Turing model. ER -