Life is a chemical system that uses energy to keep itself from reaching chemical equilibrium.
Death is the moment when the system that maintains the far from equilibrium state ceases existence.
PhD, Information and Physical Sciences, Osaka University, 2022
- 2007.9∼2011.6, B.S., Applied mathematics, Hefei University of Technology.
- 2014.4∼2016.3, M.S., Information and Physical Sciences, Osaka University.
- 2017.10∼2022.3, Ph.D, Information and Physical Sciences, Osaka University.
- 2016.4∼2017.9, UI engineer, Seiko Epson Corporation.
- 2018.4∼2022.2, Teaching assistant for "Information Mathematical Science Seminar", Information and Physical Sciences, Osaka University.
- 2022.7∼present, Postdoctoral researcher, Labolatory for Life Integrated Fluid Engineering, Faculty of Systems Science and Technology, Akita Prefectural University.
- [Computational Foundation] Technology for Computing Revolution for Society 5.0,
2018.10∼2022.3,
Computing Technology Based on Spatiotemporal Dynamics of Photonic Neural Networks
Research Director:Hideyuki Suzuki
- [Multicellular interaction] Development of technology platforms for quantitative analysis of spatiotemporal multicellular interaction,
2022.7∼present,
Development of novel research strategy that integrates low dimensionalized bioinformation with multilevel modeling
Research Director:Minako Ueda
- 2019.4∼2020.3, Monbukagakusho Honors Scholarship for Privately-Financed International Students
- A viscoelastic-plastic deformation model of hemispherical tip growth in Arabidopsis zygotes
Zichen Kang, Tomonobu Nonoyama, Yukitaka Ishimoto, Hikari Matsumoto, Sakumi Nakagawa, Minako Ueda, Satoru Tsugawa
Quantitative Plant Biology, (submitted). - Coordinate Normalization of Live-Cell Imaging Data Reveals Growth Dynamics of the Arabidopsis Zygote
Zichen Kang, Hikari Matsumoto, Tomonobu Nonoyama, Sakumi Nakagawa, Yukitaka Ishimoto, Satoru Tsugawa, and Minako Ueda
Plant & Cell Physiology, 64(11), pp. 1279-1288, pcad020 (2023). - Personalized page-transition recommendation model based on contents and students' logs in digital textbooks
Zichen Kang, Chengjiu Yin
2023 International Conference on Artificial Intelligence and Education (ICAIE) (2023). - Optimizing input mask for maximum memory performance of time-delay reservoir subjected to state noise
Zichen Kang, Sho Shirasaka, and Hideyuki Suzuki
Nonlinear Theory and Its Applications, IEICE, Vol. 12, No. 4, pp. 662-673 (2021). - Improving noise robustness of time-delay reservoir computing
Zichen Kang
PhD Thesis, Graduate School of Information Science and Technology, Osaka University, January 2022. - An individual-based succession model of competition and coexistence between grass and trees
Zichen Kang
Master's Thesis, Graduate School of Information Science and Technology, Osaka University, June 2016.
- 康 子辰, 個体ベースモデルによる草と樹木の競争・共存に関する研究, ソフトバイオ研究会, 2022年11月17日.
- Zichen Kang, “膨圧による先端成長モデルに基づく形状解析,” 非平衡・多階層・複雑研究会(秋田), Aug. 2022.
- Zichen Kang, Sho Shirasaka, and Hideyuki Suzuki, “Memory Capacity of Reservoir Computers based on Coupled Time-delay Systems,” Proceedings of the 2020 International Symposium on Nonlinear Theory and its Applications (NOLTA2020), pp. 263, Nov. 2020.
- Zichen Kang, Sho Shirasaka, and Hideyuki Suzuki, “Prediction and Dynamical Reconstruction by Coupled Time-Delay Reservoirs,” OACIS symposium, Nov. 2019.
- Zichen Kang, Sho Shirasaka, and Hideyuki Suzuki, “A reservoir computing model for associative memory,” OACIS symposium, Nov. 2018.
- [Multicellular interaction] Development of technology platforms for quantitative analysis of spatiotemporal multicellular interaction,
Yong Researcher Challenge (YORC),
Fiscal Year 2024: ¥2,000,000,
Estimation of Difficult-to-Measure Mechanical Parameters of Plant Zygotes Using Reservoir Computing.
- [Multicellular interaction] Development of technology platforms for quantitative analysis of spatiotemporal multicellular interaction,
Support for Young Researchers 「SciFoS (Science For Society)」,
Fiscal Year 2022: ¥100,000,
Development of Image Analysis Techniques for Live-Cell Imaging Data.