Publicly Offered Research, 2024FY

Publicly Offered Research

Mathematical and geographical modelling for cities and roads

Principal investigator
Takaaki AokiFaculty of Data Science

Detail
Analysis of Proto-Intelligence in Oligodendrocyte Precursor Cells Using Brain Slice as a Diorama Environment

Principal investigator
Yasuhiro IshiharaProgram of Biomedical Science, Graduate School of Integrated Sciences for Life, Hiroshima University

Detail
Steering Dynamics of Rotating Stress Fibers in Amoeba Cells

Principal investigator
IWADATE YoshiakiDepartment of Biology, Yamaguchi University

Detail
The Exploration of the Emergent Principles of Learning and Decision-Making Mechanisms in Unicellular Organisms

Principal investigator
Keiichi UedaFaculty of Science, Academic Assembly, University of Toyama

Detail
Data-Driven Study of Amoeboid Motion and Deformation Strategies in Response to Environmental Changes

Principal investigator
Masahito UwamichiDepartment of Basic Science, College of Arts and Sciences, The University of Tokyo

Detail
Development of a mechanical model of sperm chemotaxis based on hydrodynamics

Principal investigator
Toshihiro OmoriTohoku University

Detail
Sculpting under Swimming: Exploring the Dynamics of Cellular Movement during Organ Construction in a Rapidly Deforming Diorama Environment

Principal investigator
Soichiro KatoDepartment of Biological Sciences, Graduate School of Science, The University of Osaka

Detail
Control of local diorama environment using microwall plates and analysis of collective motion of microbe

Principal investigator
Masaru KojimaGraduate School of Engineering Science, Osaka University

Detail
Exploring "proto-intelligence” of marine yeast

Principal investigator
Gohta GoshimaSugashima Marine Biological Laboratory, Nagoya University

Detail
Optimization theory for proto-intelligence and its applications

Principal investigator
Tetsuya J. KobayashiInstitute of Industrial Science, the University of Tokyo

Detail
Exploration of the mechanism of plant cell elongation exhibited by the diorama environment.

Principal investigator
Yoshikatsu SatoInstitute of Transformative Bio-Molecules (WPI-ITbM), Nagoya University

Detail
Understanding of the mechanism of cell polarity maintenance in Arabidopsis root hairs using diorama environments

Principal investigator
Hiromasa ShikataDivision of Plant Environmental Responses, National Institute for Basic Biology, National Institutes of Natural Sciences

Detail
Cellular ethology in multicellular organisms shaped by interactions with diorama 3D topography

Principal investigator
Kei SugiharaKyushu University Graduate School of Medical Sciences

Detail
The reason why the “heavy” plankton can be a plankton

Principal investigator
Haruka TakagiAtmoephere and Ocean Research Institute, The University of Tokyo

Detail
Integrated understanding of the learning mechanism of slime molds by means of transport tube networks.

Principal investigator
Atsuko TakamatsuFaculty of Science and Engineering

Detail
Understanding and reconstructing the mechanism that defines the behavior algorithm of pollen tube cells

Principal investigator
Hidenori TakeuchiInstitute of Transformative Bio-Molecules (ITbM), Nagoya University

Detail
Mechanochemical modelling of cell crawling in diorama environment

Principal investigator
Mitsusuke TaramaDepartment of Physics, Kyushu University

Detail
Exploring Proto-Intelligence of Paramecium Through an All-Optical Virtual Diorama

Principal investigator
Tominaga, TakashiInstitute of Neuroscience, Tokushima Bunri University

Detail
Resilience of the shell construction behaviors of testate amoebae awakening in a diorama environment

Principal investigator
Mami NomuraYamagata University

Detail
Sperm motility patterns in diorama environment emulating sperm-storage tubules

Principal investigator
Mei MatsuzakiGraduate School of Integrated Sciences for Life, Hiroshima University

Detail
Awakening primitive intelligence of cells in a dynamic diorama environment with rotating strain field

Principal investigator
Takeo MATSUMOTODept of Mech Sys Eng, Grad Sch of Eng, Nagoya Univ

Detail
What defines network efficiency? – Chemotactic adaptation to optimize nutrient access

Principal investigator
Marcel BeierIAHE / Dept. Biol. Sci.; Hokkaido University

Detail
Understanding and generalization of photosymbiotic crosstalk algorithms using diorama environments

Principal investigator
Shiniciro MaruyamaGraduate School of Frontier Sciences, The University of Tokyo

Detail
Study on the molecular mechanisms of thermotaxis evoked by environmental factors in unicellular organisms

Principal investigator
Kenjiro YoshimuraGraduate School of Science, Kyoto University

Detail
Application of statistical mechanics theory to intelligence in single cell populations

Principal investigator
Akira YoshimoriDepartment of Physics, Niigata University

Detail
Verification of collective behavior based on chemotaxis in the green alga Chlamydomonas

Principal investigator
Ken-ichi WakabayashiFaculty of Life Sciences, Kyoto Sangyo University

Detail

Publicly Offered Research

Publicly Offered Research, 2024FY

Mathematical and geographical modelling for cities and roads

Analysis of Proto-Intelligence in Oligodendrocyte Precursor Cells Using Brain Slice as a Diorama Environment

Steering Dynamics of Rotating Stress Fibers in Amoeba Cells

The Exploration of the Emergent Principles of Learning and Decision-Making Mechanisms in Unicellular Organisms

Data-Driven Study of Amoeboid Motion and Deformation Strategies in Response to Environmental Changes

Development of a mechanical model of sperm chemotaxis based on hydrodynamics

Sculpting under Swimming: Exploring the Dynamics of Cellular Movement during Organ Construction in a Rapidly Deforming Diorama Environment

Control of local diorama environment using microwall plates and analysis of collective motion of microbe

Exploring "proto-intelligence” of marine yeast

Optimization theory for proto-intelligence and its applications

Exploration of the mechanism of plant cell elongation exhibited by the diorama environment.

Understanding of the mechanism of cell polarity maintenance in Arabidopsis root hairs using diorama environments

Cellular ethology in multicellular organisms shaped by interactions with diorama 3D topography

The reason why the “heavy” plankton can be a plankton

Integrated understanding of the learning mechanism of slime molds by means of transport tube networks.

Understanding and reconstructing the mechanism that defines the behavior algorithm of pollen tube cells

Mechanochemical modelling of cell crawling in diorama environment

Exploring Proto-Intelligence of Paramecium Through an All-Optical Virtual Diorama

Resilience of the shell construction behaviors of testate amoebae awakening in a diorama environment

Sperm motility patterns in diorama environment emulating sperm-storage tubules

Awakening primitive intelligence of cells in a dynamic diorama environment with rotating strain field

What defines network efficiency? – Chemotactic adaptation to optimize nutrient access

Understanding and generalization of photosymbiotic crosstalk algorithms using diorama environments

Study on the molecular mechanisms of thermotaxis evoked by environmental factors in unicellular organisms

Application of statistical mechanics theory to intelligence in single cell populations

Verification of collective behavior based on chemotaxis in the green alga Chlamydomonas