Masashi Aono
青野 真士 アオノ マサシ

環境情報学部准教授
政策・メディア研究科委員
略歴1989年4月-1992年3月: 慶應義塾中等部 卒業
1992年4月-1995年3月: 慶應義塾高等学校 卒業
1995年4月-1999年3月: 慶應義塾大学 環境情報学部 卒業
1999年4月-2001年3月: 神戸大学大学院 自然科学研究科 地球惑星科学専攻 博士課程前期課程修了
2001年4月-2004年3月: 神戸大学大学院 自然科学研究科 情報メディア科学専攻 博士課程後期課程修了
2004年4月-2008年3月: 理化学研究所 フロンティア研究システム 局所時空間機能研究チーム 研究員
2008年4月-2013年3月: 理化学研究所 基幹研究所 揺律機能研究チーム 研究員
2013年4月-2013年10月: 東京工業大学 地球生命研究所 研究員
2013年10月-2017年3月: 科学技術振興機構 (JST) さきがけ研究者 (兼任)
2013年11月-2017年3月: 東京工業大学 地球生命研究所 特任准教授
2015年4月-2017年3月: 東京工業大学 地球生命研究所 准主任研究者
2016年4月: 平成28年度科学技術分野の文部科学大臣表彰「若手科学者賞」(粘菌アメーバに着想を得た革新的コンピュータの研究)
2017年4月-現在: 東京工業大学 地球生命研究所 フェロー
2017年4月-現在: 慶應義塾大学 環境情報学部 准教授
専門分野複雑系, 自然計算, ポスト・シリコン・コンピューティング, 生命の起源
所属学会・団体電子情報通信学会, 応用物理学会, 生物物理学会
主要著作・論文・作品主要論文 (査読有)
1) A. C. Fahrenbach, C. Giurgiu, C. P. Tam, L. Li, Y. Hongo, M. Aono, J. W. Szostak, "A common and potentially prebiotic origin for precursors of nucleotide synthesis and activation," Journal of American Chemical Society 39 (26), 8780-8783 (2017).
2) M. Naruse, S.-J. Kim, T. Takahashi, M. Aono, K. Akahane, M. D'Acunto, H. Hori, L. Thylen, M. Katori, M. Ohtsu, "Percolation of optical excitation mediated by near-field interactions," Physica A 471, 162-168 (2016).
3) S.-J. Kim, M. Naruse, M. Aono, H. Hori, T. Akimoto, "Random walk with chaotically driven bias," Scientific Reports 6, 38634 (2016).
4) S.-J. Kim, M. Naruse, M. Aono, "Harnessing the computational power of fluids for optimization of collective decision making," Philosophies 1(3), 245-260 (2016).
5) K. Chandru, A. Gilbert, C. Butch, M. Aono, H. J. Cleaves, "The abiotic chemistry of thiolated acetate derivatives and the origin of life," Scientific Reports 6, 29883 (2016).
6) G. Narangerel, N. Matsuzaki, Y. Nakazawa, R. Afrin, M. Aono, T. Yano, T. Hayashi, M. Hara, "Surface force analysis of pyrite: its reactivity to amino acid adsorption," Advances in Materials Physics and Chemistry 6, 167-176 (2016).
7) K. Iwayama, Y. Hirata, M. Aono, L. Zhu, M.Hara, K. Aihara, "Decision-making ability of Physarum polycephalum enhanced by its coordinated spatiotemporal oscillatory dynamics," Bioinspiration & Biomimetics 11, 036001 (2016).
8) S.-J. Kim, T. Tsuruoka, T. Hasegawa, M. Aono, K. Terabe, M. Aono, "Decision maker based on atomic switches," AIMS Materials Science 3(1), 245-259 (2016).
9) C. Scharf, N. Virgo, H. J. Cleaves, M. Aono, et al. (37 authors), "A strategy for origins of life research," Astrobiology 15(12), 1031-1042 (2015).
10) M. Naruse, M. Berthel, A. Drezet, S. Huant, M. Aono, H. Hori, S.-J. Kim, "Single-photon decision maker," Scientific Reports 5, 13253 (2015).
11) S.-J. Kim, M. Aono, E. Nameda, "Efficient decision-making by volume-conserving physical object," New Journal of Physics 17, 083023 (2015).
12) M. Aono, S. Kasai, S.-J. Kim, M. Wakabayashi, H. Miwa, M. Naruse, "Amoeba-inspired nanoarchitectonic computing implemented using electrical Brownian ratchets," Nanotechnology 26, 234001 (2015).
13) M. Aono, N. Kitadai, Y. Oono, "A principled approach to the origin problem," Origins of Life and Evolution of Biospheres 45 (3), 327-338 (2015).
14) M. Aono, M. Wakabayashi, "Amoeba-inspired heuristic search dynamics for exploring chemical reaction paths," Origins of Life and Evolution of Biospheres 45 (3), 339-345 (2015).
15) M. Aono, S.-J. Kim, S. Kasai, H. Miwa, M. Naruse, "Amoeba-inspired spatiotemporal dynamics for solving the satisfiability problem," In: Special Issue of Advances in Science, Technology and Environmentology Vol. B11, Waseda University, pp. 37-40 (2015.3).
16) S.-J. Kim, M. Aono, "Decision maker using coupled incompressible-fluid cylinders," In: Special Issue of Advances in Science, Technology and Environmentology Vol. B11, Waseda University, pp. 41-46 (2015.3).
17) M. Aono, S.-J. Kim, S. Kasai, H. Miwa, M. Naruse, "Amoeba-inspired heuristic search for NP-complete problem solution at the nanoscale," Proceedings of NOLTA 2014, Luzern, Switzerland, 499-502 (2014).
18) M. Naruse, W. Nomura, M. Aono, M. Ohtsu, Y. Sonnefraud, A. Drezet, S. Huant, S.-J. Kim, "Decision making based on optical excitation transfer via near-field interactions between quantum dots," Journal of Applied Physics 116, 154303; DOI:10.1063/1.4898570 (2014).
19) M. Naruse, S.-J. Kim, M. Aono, H. Hori, and M. Ohtsu, "Chaotic oscillation and random-number generation based on nanoscale optical-energy transfer," Scientific Reports 4, 6039; DOI:10.1038/srep06039 (2014).
20) M. Aono, S.-J. Kim, M. Hara, T. Munakata, "Amoeba-inspired tug-of-war algorithms for exploration-exploitation dilemma in extended bandit problem," BioSystems 117, 1-9 (2014).
21) W. Nomura, M. Naruse, M. Aono, S.-J. Kim, T. Kawazoe, T. Yatsui, M. Ohtsu, "Demonstration of controlling the spatiotemporal dynamics of optical near-field excitation transfer in Y-junction structure consisting of randomly distributed quantum dots," Advances in Optical Technologies, Vol. 2014, Article ID 569684 (2014).
22) S.-J. Kim, M. Aono, "Amoeba-inspired algorithm for cognitive medium access," Nonlinear Theory and Its Applications, IEICE, 5(2), 198-209 (2014).
23) S. Kasai, M. Aono, M. Naruse, "Amoeba-inspired computing architecture implemented using charge dynamics in parallel capacitance network," Applied Physics Letters 103, 163703 (2013).
24) M. Naruse, M. Aono, S.-J. Kim,, "Nanoscale photonic network for soluton searching and decision making problems," IEICE Transactions on Communications 1E96-B, 2724-2732 (2013).
25) S.-J. Kim, M. Naruse, M. Aono, M. Ohtsu, M. Hara, "Decision maker based on nanoscale photo-excitation transfer," Scientific Reports 3, 2370, doi:10.1038/srep02370 (2013).
26) M. Aono, M. Naruse, S.-J. Kim, M. Wakabayashi, H. Hori, M. Ohtsu, M. Hara, "Amoeba-inspired nanoarchitectonic computing: Solving intractable computational problems using nanoscale photoexcitation transfer dynamics," Langmuir 29, 7557-7564 (2013).
27) M. Naruse, N. Tate, M. Aono, M. Ohtsu, "Information physics fundamentals of nanophotonics," Reports on Progress in Physics 76, 056401 (2013).
28) L. Zhu, M. Aono, S.-J. Kim, M. Hara, "Amoeba-based computing for traveling salesman problem: Long-term correlations between spatially separated individual cells of Physarum polycephalum," BioSystems 112, 1-10 (2013).
29) M. Naruse, M. Aono, S.-J. Kim, T. Kawazoe, W. Nomura, H. Hori, M. Hara, M. Ohtsu, "Spatiotemporal dynamics in optical energy transfer on the nanoscale and its application to constraint satisfaction problems," Physical Review B 86, 125407 (2012).
30) M. Aono, S.-J. Kim, L. Zhu, M. Naruse, M. Ohtsu, H. Hori, M. Hara, "Amoeba-inspired SAT Solver," Proceedings of NOLTA 2012, Majorca, Spain, 586-589 (2012).
31) S.-J. Kim, M. Aono, E. Nameda, M. Hara, "Tug-of-war Model for Competitive Multi-armed Bandit Problem: Amoeba-inspired Algorithm for Cognitive Medium Access," Proceedings of NOLTA 2012, Majorca, Spain, 590-593 (2012).
32) M. Aono, L. Zhu, S.-J. Kim, M. Hara, "Performance enhancement of amoeba-based neurocomputer for 8-city traveling salesman problem," Proceedings of NOLTA 2011, Kobe, Japan, 104-107 (2011).
33) L. Zhu, M. Aono, S.-J. Kim, M. Hara, "Problem-size scalability of amoeba-based neurocomputer for traveling salesman problem," Proceedings of NOLTA 2011, Kobe, Japan, 108-111 (2011).
34) S.-J. Kim, E. Nameda, M. Aono, M. Hara, "Adaptive tug-of-war model for two-armed bandit problem," Proceedings of NOLTA 2011, Kobe, Japan, 176-179 (2011).
35) M. Aono, L. Zhu, M. Hara, "Amoeba-based neurocomputing for 8-city traveling salesman problem," International Journal of Unconventional Computing 7, 463-480, (2011).
36) M. Aono, Y. Hirata, M. Hara, K. Aihara, "Greedy versus social: Resource-competing oscillator network as a model of amoeba-based neurocomputer," Natural Computing 10, 1219-1244 (2011).
37) S.-J. Kim, M. Aono, M. Hara, "Tug-of-war model for multi-armed bandit problem," Unconventional Computation 2010, LNCS 6079, Springer, 69-80 (2010).
38) S.-J. Kim, M. Aono, M. Hara, "Tug-of-war model for the two-bandit problem: Nonlocally-correlated parallel exploration via resource conservation," BioSystems 101, 29-36 (2010).
39) K. Ozasa, M. Aono, M. Maeda, M. Hara, "Simulation of neurocomputing based on the photophobic reactions of Euglena with optical feedback stimulation," BioSystems 100, 101-107 (2010).
40) Y. Hirata, M. Aono, M. Hara, K. Aihara, "Spontaneous mode switching in coupled oscillators competing for constant amounts of resources," Chaos 20, 013117 (2010).
41) M. Aono, Y. Hirata, M. Hara, K. Aihara, "A model of amoeba-based neurocomputer," Journal of Computer Chemistry, Japan 9 (3), 143-156 (2010).
42) M. Aono, M. Hara, K. Aihara, T. Munakata, "Amoeba-based emergent computing: Combinatorial optimization and autonomous meta-problem solving," International Journal of Unconventional Computing 6, 89-108 (2010).
43) M. Aono, Y. Hirata, M. Hara, K. Aihara, "Resource-competing oscillator network as a model of amoeba-based neurocomputer," Unconventional Computation 2009, LNCS 5715, Springer, 56-69 (2009).
44) K. Ozasa, M. Aono, M. Maeda, M. Hara, "Simulation of neurocomputing based on photophobic reactions of euglena: Toward microbe-based neural network computing," Unconventional Computation 2009, LNCS 5715, Springer, 209-218 (2009).
45) M. Aono, Y. Hirata, M. Hara, K. Aihara, "Amoeba-based chaotic neurocomputing: Combinatorial optimization by coupled biological oscillators," New Generation Computing 27, 129-157 (2009).
46) M. Aono, Y. Hirata, M. Hara, K. Aihara, "Combinatorial optimization by amoeba-based neurocomputer with chaotic dynamics," Natural Computing, PICT1, Springer, 1-15 (2008).
47) M. Aono, M. Hara, "Spontaneous deadlock breaking on amoeba-based neurocomputer," BioSystems 91, 83-93 (2008).
48) M. Aono, M. Hara, K. Aihara, "Amoeba-based neurocomputing with chaotic dynamics," Communications of the ACM 50(9), 69-72 (2007).
49) M. Aono, M. Hara, "Amoeba-based nonequilibrium neurocomputer utilizing fluctuations and instability," Unconventional Computation 2007, LNCS 4618, Springer, 41-54 (2007).
50) Y.-P. Gunji, K. Sasai, M. Aono, "Return map structure and entrainment in a time-state-scale re-entrant system," Physica D 234, 124-130 (2007).
51) M. Aono, M. Hara, "Dynamic transition among memories on neurocomputer composed of amoeboid cell with optical feedback," Proceedings of NOLTA 2006, Bologna, Italy, 763-766 (2006).
52) M. Aono, Y.-P. Gunji, "Material implementation of hyperincursive field on slime mold computer," CASYS 2003, AIP conference proceedings 718, 188-203 (2004).
53) M. Aono, Y.-P. Gunji, "Resolution of infinite-loop in hyperincursive and nonlocal cellular automata: Introduction to slime mold computing," CASYS 2003, AIP conference proceedings 718, 177-187 (2004).
54) Y.-P. Gunji, T. Takahashi, M. Aono, "Dynamical infomorphism: Form of endo-perspective," Chaos, Solitons & Fractals 22, 1077-1011 (2004).
55) S. Tsuda, M. Aono, Y.-P. Gunji, "Robust and emergent Physarum logical-computing," Biosystems 73, 45-55 (2004).
56) M. Aono, Y.-P. Gunji, "Beyond input-output computings: Error-driven emergence with parallel non-distributed slime mold computer," BioSystems 71, 257-287 (2003).
57) Y.-P. Gunji, Y. Kusunoki, M. Aono, "Interface of global and local semantics in a self-navigating system based on the concept lattice," Chaos, Solitons & Fractals 13, 261-284 (2002).
58) M. Aono, Y.-P. Gunji, "Local semantics for the part-whole problem: An alternative CA system based on unserializable parallel processing," CASYS 2002, AIP conference proceedings 627, 71-84 (2002).
59) M. Aono, Y.-P. Gunji, "Autonomous selection and indefinite goals: A system using Bezier curves as dynamically re-defined transition rules," CASYS 2001, AIP conference proceedings 573, 242-256 (2001).

和文著書/総説
1) 青野真士,"自然計算から拡張生命へ (招待論文)," 電子情報通信学会誌 (創立100周年記念特集「基礎・境界」が支えた100年, これからの100年), Vol.100 (6), pp.499-505 (2017).
2) 青野真士, "粘菌計算," 「自然計算へのいざない」小林聡, 萩谷昌己, 横森貴 編著 (ナチュラルコンピューティング・シリーズ 第0巻), 近代科学社, 第6章, 167-194 (2015).
3) 青野真士, 金成主, Liping Zhu, 行田悦資, 原正彦, "粘菌コンピュータと確率探索アルゴリズム," 「システム/制御/情報(ISCIE)」 第55巻 第12号 「システム制御情報における確率論の先端応用」特集号, 526-531 (2011).
4) 青野真士, 金成主, 原正彦, "粘菌を組み込んだバイオコンピュータ," バイオサイエンスとインダストリー 68 (5), 346-349 (2010).
5) 青野真士, "真性粘菌アメーバの時空間振動ダイナミクスによる自己組織的計算," 電気化学および工業物理化学 78 (9), 779-782 (2010).
6) 青野真士, 原正彦, "真性粘菌ニューロコンピュータ," 自己組織化ハンドブック: 基礎編第4章6節1項, NTS出版, 428-433 (2009).
7) 青野真士, 原正彦, "創発的粘菌コンピュータによる創造的問題解決,"バイオインダストリー10月号, シーエムシー出版, 82-94 (2007).

特許
1) 特願2017-140272, 竹内尚輝, 青野真士, "解探索装置," 出願日: 2017年7月19日.
2) 特願2017-063895, 青野真士, "クロスバー構造および最適化問題解探索システム," 出願日: 2017年3月28日.
3) 特願2016-008632, 金成主, 鶴岡徹, 長谷川剛, 青野正和, 青野真士, "意思決定装置," 出願日: 2016年1月20日.
4) 特願2014-059133, 青野真士, 若林政光, "物質探索システム及び方法,物質探索プログラム", 出願日:2014年3月20日.
5) 特願2013-066768, 金成主, 青野真士, 行田悦史, 原正彦, "解探索システム及び方法、解探索プログラム", 出願日:2013年3月27日.
6) 特願2012-232402, 青野真士, 金成主, 原正彦, 若林政光, "解探索システム及び方法、解探索プログラム," 出願日:2012年10月19日.
7) US13/898335; 特願2012-116725, 青野真士, 金成主, 原正彦, 成瀬誠, 川添忠, 大津元一, "量子ドットによる解探索システム," 出願日:2012年5月22日.
8) 特許第4572745号, 特願2005-164281, 青野真士, 原正彦, "協同現象を示す細胞又は細胞群を用いた情報処理システム," 出願日:2005年6月3日, 確定日:2010年8月27日.
学生諸君へ一言独自の道を往け!
個人ウェブページhttp://web.sfc.keio.ac.jp/~aono/
連絡先〒252-0882 神奈川県藤沢市遠藤 5322
慶應義塾大学湘南藤沢キャンパス ο305(内線:53335)
TEL : 0466-49-3532
FAX : 0466-49-3532
aono [ at ] sfc.keio.ac.jp
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