[26] Toru Kawanishi, Takamichi Sushida, Tony Y.-C. Tsai, Hiroyuki Takeda, Sean G. Megason, Formation control between leader and migratory follower tissues allows coordinated growth, Science Advances, 11(31), eads2310, 2025.
[25] Masaki Mori, Takamichi Sushida, Shintaro Kondo, Spatial properties of scintillating grid illusion by visual experiments and numerical simulations, Vision Research, Special issue: Mathematical and Computational Models in Vision, 228, 108560, 2025.
[24] Masaki Mori, Takamichi Sushida, Shintaro Kondo, Spatial comparison of disappearance and scintillation phenomena using a single-unit scintillating grid illusion, Perception, 54(3), 2025.
[23] Harunobu Kametani, Yue Tong, Atsuko Shimada, Hiroyuki Takeda, Takamichi Sushida, Masakazu Akiyama, Toru Kawanishi, Twisted cell flow facilitates three-dimensional somite morphogenesis in zebrafish, Cells and Development, 180, 203969, 2024 (Online First: 26 August 2024).
[22] Shintaro Kondo, Masaki Mori, Takamichi Sushida, Spatiotemporal kernel of a three-component differential equation model with self-control mechanism in vision, Journal of Mathematical Imaging and Vision, 65(6), pp. 894-914, 2023 (Online First: 17 July 2023).
[21] Takuro Uezono, Takamichi Sushida, Yoshikazu Yamagishi, Voronoi tiling and circle packing on spiral lattices with rotational symmetry, Japan Journal of Industrial and Applied Mathematics, 40(1), pp. 709-736, 2023 (Online First: 29 October 2022).
[20] Takashi Hayashi, Takeshi Tomomizu, Takamichi Sushida, Masakazu Akiyama, Shin-Ichiro Ei, Makoto Sato, Tiling mechanisms of the Drosophila compound eye through geometrical tessellation, Current Biology, 32(9), pp. 2101-2109, 2022.
[19] Shintaro Kondo, Masaki Mori, Takamichi Sushida, A differential equation model for the stage theory of color perception, Japan Journal of Industrial and Applied Mathematics, 39(1), pp. 283-318, 2022 (Online First: 01 November, 2021).
[18] Masashi Nakatani, Yasuaki Kobayashi, Kota Ohno, Masaaki Uesaka, Sayako Mogami, Zixia Zhao, Takamichi Sushida, Hiroyuki Kitahata, Masaharu Nagayama, Temporal coherence of mechanical stimulation modulates tactile form perception, Scientific Reports, 11(1), pp.11737-11737, 2021.
[17] Yoshikazu Yamagishi, Takamichi Sushida, Jean-Francois Sadoc, Area convergence of Voronoi cells on spiral lattices, Nonlinearity, 34(5), pp. 3163-3183, 2021.
[16] Sumire Ishida-Ishihara, Masakazu Akiyama, Kazuya Furusawa, Isao Naguro, Hiroki Ryuno, Takamichi Sushida, Seiichiro Ishihara, Hisashi Haga, Osmotic gradient induces stable dome morphogenesis on extracellular matrix, Journal of Cell Science, 133(14), 2020.
[15] Takamichi Sushida, Shintaro Kondo, Kokichi Sugihara, Masayasu Mimura, A differential equation model of retinal processing for understanding lightness optical illusions, Japan Journal of Industrial and Applied Mathematics, 35(1), pp. 117-156, 2018. (Online First: 12 October 2017)
[14] Yoshikazu Yamagishi, Takamichi Sushida, Archimedean Voronoi spiral tilings, Journal of Physics A: Mathematical and Theoretical, 51(4), 045203, 2018.
[13] Keisuke Matsuda, Hiroki Gotoh, Yuki Tajika, Takamichi Sushida, Hitoshi Aonuma, Teruyuki Niimi, Masakazu Akiyama, Yasuhiro Inoue, Shigeru Kondo, Complex furrows in a 2D epithelial sheet code the 3D structure of a beetle horn, Scientific Reports, 7, 13939, 2017.
[12] Takamichi Sushida, Masakazu Akiyama, A mathematical model of cell polarity and cell migration, Mechanisms of Development, Special Issue: 18th International Congress of Developmental Biology 18-22 June, University Cultural Centre, National University of Singapore, 145, S41, 2017.
[11] Masakazu Akiyama, Takamichi Sushida, Sumire Ishida, Hisashi Haga, Mathematical model of collective cell migrations based on cell polarity, Development, Growth and Differentiation, Special issue: Mathematics, physics and engineering in biology, 59(5), pp. 470-491, 2017.
[10] Takamichi Sushida, Yoshikazu Yamagishi, Geometrical study of phyllotactic patterns by Bernoulli spiral lattices, Development, Growth and Differentiation, Special issue: Mathematics, physics and engineering in biology, 59(5), pp. 379-387, 2017. (Figure of this paper was selected as the cover page of Volume 59, Issue 5 of Development, Growth and Differentiation.)
[9] Kosuke Terada, Kota Kadoi, Sunao Tokura, Takamichi Sushida, Ichiro Hagiwara, The deformation mechanism on origami-based foldable structures, the International Journal of Vehicle Performance, 3(4), pp. 334-346, 2017.
[8] Yoshikazu Yamagishi, Takamichi Sushida, Spiral disk packings, Physica D: Nonlinear Phenomena, 345, pp. 1-10, 2017.
[7] Eri Nakayama, Takamichi Sushida, Ichiro Hagiwara, Mathematical modeling and simulation for origami tsunami pod, Josai Mathematical Monographs, 9, pp. 3-19, 2016.
[6] Takamichi Sushida, Akio Hizume, Yoshikazu Yamagishi, Design methods of origami tessellations for triangular spiral multiple tilings, Origami6: I. Mathematics, Proceedings of the Sixth International Meeting on Origami Science, Mathematics, and Education, pp. 241-251, 11pp, 2015.
[5] Yoshikazu Yamagishi, Takamichi Sushida, Akio Hizume, Voronoi spiral tilings, Nonlinearity, 28(4), pp. 1077-1102, 26pp, 2015. (Figure of this paper was selected as the cover page of Nonlinearity.)
[4] Akio Hizume, Takamichi Sushida, Yoshikazu Yamagishi, Voronoi phyllotaxis tiling on the Fermat spiral, Proceedings of Bridges 2014: Mathematics, Music, Art, Architecture, Culture, pp. 397-400, 4pp, 2014.
[3] Takamichi Sushida, Akio Hizume, Yoshikazu Yamagishi, Helical Voronoi tilings on the cylinder, RIMS Kokyuroku Bessatsu, B47, pp. 23-32, 10pp, 2014.
[2] Takamichi Sushida, Akio Hizume, Yoshikazu Yamagishi, Shape limit in triangular spiral tilings, Acta Physica Polonica A, 126(2), pp. 363-366, 4pp, 2014.
[1] Takamichi Sushida, Akio Hizume, Yoshikazu Yamagishi, Triangular spiral tilings, Journal of Physics A: Mathematical and Theoretical, 45(23), 235203, 22pp, 2012. (Figure of this paper was selected as the cover page of Journal of Physics A: Mathematical and Theoretical.)
[1] Yoshikazu Yamagishi, Takamichi Sushida, Akio Hizume, Shape limit in Voronoi tilings for Bernoulli spirals, Material Structure in Chemistry, Biology, Physics and Technology, 22(4), p.296, 2015.
[1] 寺田 耕輔, 門井 幸太, 戸倉 直, 須志田 隆道, 萩原 一郎, 折り畳み可能な構造体の変形メカニズム, 福島工業高等専門学校研究紀要, 56, pp. 1-5, 5pp, 2016.
[7] 須志田 隆道, 宇都木 修一, 情報工学科におけるプログラミング学習の実践例, 工学教育研究講演会講演論文集, 2021.
[6] 秋山 正和, 須志田 隆道, 細胞の極性形成と細胞群の運動に関する数理的アプローチ, 京都大学数理解析研究所(RIMS) 講究録, 2063, pp. 47-55, 2018.
[5] 秋山 正和, 須志田 隆道, 細胞極性に着目した細胞群の運動モデル, 日本計算工学会論文集, 22, 2017.
[4] 須志田 隆道, 秋山 正和, 集団細胞遊走を表現する自己駆動粒子モデル, 京都大学数理解析研究所(RIMS) 講究録, 2043, pp. 13-19, 2017.
[3] 須志田 隆道, 日詰 明男, 山岸 義和, 三角形螺旋タイリングの剛体折紙について, 機械力学・計測制御講演論文集 2014, 536, 12pp, 2014.
[2] 須志田 隆道, 日詰 明男, 山岸 義和, 三角形螺旋タイリングと折り紙, 数式処理, 20(1), pp. 31-40, 10pp, 2013.
[1] 須志田 隆道, Fibonacci Tornadoの折り紙展開図, MANIFOLD, 19, pp. 10-15, 6pp, 2009.
[3] Geometry of Phyllotactic Spiral Tilings (葉序的な螺旋タイリングの幾何学), 龍谷大学 大学院理工学研究科 数理情報学専攻 博士論文, 博士(理学), 2014年2月21日.
指導教員: 國府(岡) 宏枝 教授, 山岸 義和 講師 (当時)
[2] 葉序的および非葉序的な三角形の相似タイリングと折り紙, 龍谷大学 大学院理工学研究科 数理情報学専攻 修士論文, 修士(理学), 2011年2月16日.
指導教員: 國府(岡) 宏枝 教授, 山岸 義和 助教 (当時)
2010年度修士論文公聴会 ベストプレゼンテーション賞
[1] 極小曲面の発見をめざして, 龍谷大学 理工学部 数理情報学科 卒業論文, 学士(理学), 2009年2月4日.
指導教員: 山岸 義和 助教 (当時)
2008年度特別研究発表会 ベストプレゼンテーション賞
[3] 須志田 隆道, 編集後記 オンラインでの活動を乗り越えて, 日本応用数理学会 学会誌「応用数理」, 34(1), 2024.
[2] 須志田 隆道, 書評:幸谷 智紀著「Python数値計算プログラミング」(講談社, 2021), JSIAM ONLINE MAGAZINE 学術会合報告, J2104A, 2021.
[1] 須志田 隆道, 2014年度応用数学合同研究集会に参加して, JSIAM ONLINE MAGAZINE 学術会合報告, G1501A, 2015.
[5] 第17回錯視・錯聴コンテスト入賞, 瞬き誘導型主観色, 須志田 隆道, 森 将輝, 近藤 信太郎, 日本基礎心理学会第44回大会, 新潟大学, 2025年11月29日.
[4] 最優秀ポスター賞, 前田 楓太 (発表者), 須志田 隆道, 日本応用数理学会2022年度年会, 北海道大学, 2022年9月9日.
[3] Presentation Award, Takamichi Sushida (Presenter), The 5th Taiwan-Japan Joint Workshop for Young Scholars in Applied Mathematics, National Tsing Hua University, Taiwan, February, 28, 2014.
[2] 最優秀ポスター賞, 須志田 隆道 (発表者), 日詰 明男, 山岸 義和, 日本応用数理学会2012年度年会, 稚内全日空ホテル, 2012年8月30日.
[1] 若手優秀ポスター賞, 須志田 隆道 (発表者), 日詰 明男, 山岸 義和, 日本応用数理学会2010年度年会, 明治大学, 2010年9月7日.
[1] 山岸 義和, 日詰明男, 須志田 隆道, 三次元構造物, 特願2014-162851.
[2] 胚発生において「組織同士が協調的に伸長する仕組み」を解明, https://www.isct.ac.jp/ja/news/tt5r85277lwj
[1] 複眼のタイルパターンを決定する幾何学メカニズムの解明, https://research-er.jp/articles/view/109496