| [Japanese][English] Abstract[PDF] in alphabetic order - Mark AJ Chaplain (University of Dundee, UK) Lecture 1:Pattern generation in models of solid tumour growth: An overview Lecture 2:Pattern generation in models of cancer cell invasion of tissue - Yuzo Hosono (Kyoto Sangyo University, Japan) Traveling Fronts for the Reaction-Diffusion Epidemic Models with Nonlinear Incidence - Ryo Kobayashi (Hiroshima University, Japan) A Biologically Motivated Shortest Path Finding Algorithm - Shigeru Kondo (Nagoya University, Japan) Interactions among the pigment cells of zebrafish give rise to Turing Pattern - Steven R McDougall (Heriot-Watt University, UK) Mathematical Modelling of Dynamic Adaptive Tumour-Induced Angiogenesis - Atsushi Mochizuki(National Institute for Basic Biology, Japan) Self-organizing Mechanism for Development of Space-filling Neuronal Dendrites - Robert D Reed(University of California, Irvine, USA) Developmental variation and the evolution of butterfly wing patterns - Norikazu Saito (University of Toyama, Japan) Conservative finite-element method for the Keller-Segel system modeling chemotaxis - Hiroto Shoji (Kyoto Prefectural University of Medicine, Japan) Three-dimensional Turing Patterns - Cornelis J Weijer (University of Dundee, UK) Chemotactic cell movement during Dictyostelium development and chick gastrulation Organizers: Toshio Sekimura(Chubu University) Shigeru Kondo(Nagoya University) Yuzo Hosono(Kyoto Sangyo University) Akisato Kubo(Fujita Health University) Local Organizers: Akisato Kubo(Fujita Health University) akikubo@fujita-hu.ac.jp Hiroki Hoshino(Fujita Health University College) hhoshino@fujita-hu.ac.jp Eizou Umezawa (Fujita Health University) umezawa@fujita-hu.ac.jp |