| Maze-solving by an amoeboid organism T Nakagaki, H Yamada, Á Tóth Nature 407 (6803), 470-470, 2000 | 1270 | 2000 |
| Rules for biologically inspired adaptive network design A Tero, S Takagi, T Saigusa, K Ito, DP Bebber, MD Fricker, K Yumiki, ... Science 327 (5964), 439-442, 2010 | 1190 | 2010 |
| A mathematical model for adaptive transport network in path finding by true slime mold A Tero, R Kobayashi, T Nakagaki Journal of theoretical biology 244 (4), 553-564, 2007 | 519 | 2007 |
| Amoebae anticipate periodic events T Saigusa, A Tero, T Nakagaki, Y Kuramoto Physical review letters 100 (1), 018101, 2008 | 454 | 2008 |
| Path finding by tube morphogenesis in an amoeboid organism T Nakagaki, H Yamada, A Toth Biophysical chemistry 92 (1-2), 47-52, 2001 | 337 | 2001 |
| Obtaining multiple separate food sources: behavioural intelligence in the Physarum plasmodium T Nakagaki, R Kobayashi, Y Nishiura, T Ueda Proceedings of the Royal Society of London. Series B: Biological Sciences …, 2004 | 287 | 2004 |
| Physarum solver: A biologically inspired method of road-network navigation A Tero, R Kobayashi, T Nakagaki Physica A: Statistical Mechanics and its Applications 363 (1), 115-119, 2006 | 279 | 2006 |
| Smart behavior of true slime mold in a labyrinth T Nakagaki Research in Microbiology 152 (9), 767-770, 2001 | 246 | 2001 |
| Minimum-risk path finding by an adaptive amoebal network T Nakagaki, M Iima, T Ueda, Y Nishiura, T Saigusa, A Tero, R Kobayashi, ... Physical review letters 99 (6), 068104, 2007 | 241 | 2007 |
| Smart network solutions in an amoeboid organism T Nakagaki, H Yamada, M Hara Biophysical chemistry 107 (1), 1-5, 2004 | 228 | 2004 |
| Interaction between cell shape and contraction pattern in the Physarum plasmodium T Nakagaki, H Yamada, T Ueda Biophysical chemistry 84 (3), 195-204, 2000 | 212 | 2000 |
| Spatiotemporal Symmetry in Rings of Coupled Biological Oscillators of Physarum Plasmodial Slime Mold A Takamatsu, R Tanaka, H Yamada, T Nakagaki, T Fujii, I Endo Physical Review Letters 87 (7), 078102, 2001 | 201 | 2001 |
| Collective movement of epithelial cells on a collagen gel substrate H Haga, C Irahara, R Kobayashi, T Nakagaki, K Kawabata Biophysical journal 88 (3), 2250-2256, 2005 | 171 | 2005 |
| Flow-network adaptation in Physarum amoebae A Tero, K Yumiki, R Kobayashi, T Saigusa, T Nakagaki Theory in biosciences 127, 89-94, 2008 | 137 | 2008 |
| Analysis of fungal networks L Heaton, B Obara, V Grau, N Jones, T Nakagaki, L Boddy, MD Fricker Fungal Biology Reviews 26 (1), 12-29, 2012 | 134 | 2012 |
| Mathematical model for rhythmic protoplasmic movement in the true slime mold R Kobayashi, A Tero, T Nakagaki Journal of Mathematical Biology 53, 273-286, 2006 | 125 | 2006 |
| Mechanics of peristaltic locomotion and role of anchoring Y Tanaka, K Ito, T Nakagaki, R Kobayashi Journal of the Royal Society Interface 9 (67), 222-233, 2012 | 117 | 2012 |
| Fully decentralized control of a soft-bodied robot inspired by true slime mold T Umedachi, K Takeda, T Nakagaki, R Kobayashi, A Ishiguro Biological cybernetics 102, 261-269, 2010 | 113 | 2010 |
| Intelligent behaviors of amoeboid movement based on complex dynamics of soft matter T Nakagaki, RD Guy Soft matter 4 (1), 57-67, 2008 | 99 | 2008 |
| Traffic optimization in railroad networks using an algorithm mimicking an amoeba-like organism, Physarum plasmodium S Watanabe, A Tero, A Takamatsu, T Nakagaki Biosystems 105 (3), 225-232, 2011 | 97 | 2011 |
