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(1) Wavelets Application
As a very powerful tool in solving many difficult problems, the wavelets have attracted many researchers and development societies, ranging from mathematics and computer sciences to physics and engineering. Recently, the wavelets have been widely used in various industrial fields such as fluid engineering, numerical computation, image and signal processing, data presentation, control system, biological phenomena, medicine, measurements, literature, economics, psychology etc. In near future, the wavelet analysis is expected to become an analysis and visualization tool like Fourier transform and will play an important role solving many different problems.
(2) Smart Visualization of Information Processing
An image visualized as a standard axis of a physics parameter is a discretization value. For example, images captured by a digital video camera are series of discretization values called a frame along time. The key idea of smart visualization information processing technology is to convert the picture information visualized along a physics parameter into a continuation system by means of Helmholtz's equation that is the compilation of classic physics. In other words, a parameter depending on variation between frames is extracted as elements of state transition matrix led by Helmholtz's equation. As a result, for example, dominant rule whether the physics system is non-linear or linear, is found. As the final achievement, the casual sequence is elucidated for the purpose of forming a natural law. The application of smart visualization information processing is to extract the essence of the physical phenomenon from image information, resulting in creation of new science field from visualization information. An application study of wavelets is comparatively prosperous in Europe and American countries. However, an application study of intellectual visualization information processing is comparatively few in the world. Therefore, WSV research group established by the visualization society of Japanese significantly contributes to science and technical creation toward the new 21st century.
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(1)Four times academic meetings and panel discussions are held in a year to exchange the information.
(2)An organized session, a workshop, and a seminar are held in international and domestic academic conferences.
(3)A handbook and educational software are published.
Chief:Akira RINOSHIKA (Yamagata University)
Kohei ARAI (Saga University)
Tatsuya DOI (Ashikaga Technology University)
Kiyoyuki HORII (Shirayuri college)
Akiyoshi IIDA (Kogakuin University)
Chieko KATO (Oita Prefectural College of Arts and Culture)
Motoaki KIMURA (Nihon University)
Sawa MATSUYAMA (Hosei University)
Hitoshi MIYAMOTO (Kobe University)
Yoshifuru SAITO (Hosei University)
Takahide TABATA (Kagoshima National College of Technology)
Masahiro TAKEI (Nihon University)
Nobuatsu TANAKA (Ibaraki University)
Takuya TSUJI (Osaka University)
Masaki YAMAGISHI (Nagaoka National College of Technology)
Iliana MARINOVA (Technical University of Sofia, Bulgaria)
Yu ZHOU (The Hong Kong Polytechnic University, Hong Kong)
Secretary:Masahiro TAKEI (Nihon University)
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