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Publications (Japanese Materials)

Articles
  1. Ishida, F., Hirano, H., Fujimura, Y., Development of a Method for Gaze Estimation Based on Planar Approximations of Voltage Ratios Calculated from Multiple Electro-oculogram Signals," Advanced Biomedical Engineering, ol. 4, pp. 21-26, 2015. (DOI:10.14326/abe.4.21)
  2. Sakaguchi, Y., Ishida, F., Shimizu, T., Murata, A., “Time course of information representation of Macaque AIP neurons in hand manipulation task revealed by information analysis,” Journal of Neurophysiology, Vol. 104, pp.3625-3643, 2010.
  3. Ishida, F., Sasaki, T., Sakaguchi, Y., Shimai, H., “Reinforcement-learning agents with different temperature parameters explain the variety of human action-selection behavior in a Markov decision process task,” Neurocomputing, Vol. 72, pp.1979–1984, 2009.
  4. Riadh, M., Idesawa, M., Sakaguchi, Y, Ishida, F., “A computational model of perceptual grouping and 3D surface completion in the mime effect, ” Neural Networks, Vol. 21, No. 7, pp.936-944, 2008.
  5. Ishida, F., Karatsu, K., Sakaguchi, Y., “Muscle synergies extracted from human grasping movements,” International Congress Series 1301, pp.110–113, 2007.
  6. Ishida, F., Sawada, Y.E., “Semianalytical Transient Solution of a Delayed Differential Equation and its Application to the Tracking Motion in the Sensory-Motor System,” the January 15, 2007 issue of Virtual Journal of Biological Physics Research, 2007.
  7. Ishida, F., Sawada, Y.E., “Semianalytical Transient Solution of a Delayed Differential Equation and its Application to the Tracking Motion in the Sensory-Motor System,” Physical Review E, Vol.75, No. 1, 012901, 2007.
  8. Iguchi, N., Sakaguchi, Y., Ishida, F., “The minimum endpoint variance trajectory depends on the profile of the signal-dependent noise,” Biological Cybernetics, Vol. 92, pp.219–228, 2005.
  9. Ishida, F., Sawada, Y.E., “Human hand moves proactively to the external stimulus; an evolutional strategy for minimizing transient error,” the October 15, 2004 issue of Virtual Journal of Biological Physics Research, 2004.
  10. Ishida, F., Sawada, Y.E., “Human hand moves proactively to the external stimulus; an evolutional strategy for minimizing transient error,” Physical Review Letters, Vol. 93, No. 16, 168105, 2004. (Physical Revier Focus, vol. 14, st. 16, 2004, “The hand quicker than the eye”)


Proceedings/Abstracts
  1. Matsuura, T., Ishida, F., A virtual remote group experimental environment consisting of an electric circuit constructed using augmented reality and socket communication techniques, Proc. of The 6th International Symposium on Technology for Sustainability, pp.36-44, 2016.10. Yogyakarta.
  2. Ishida, F., Sawada, Y., “Complementarity between the Feedforward and Feedback Mechanisms is Necessary for Anticipatory Activity in Hand Tracking,” 2013 International Joint Conference on Awareness Science and Technology and Ubi-Media Computing (iCAST-UMEDIA), pp.310-316, 2013.11. Aizuwakamatsu. (DOI:10.1109/ICAwST.2013.6765455)
  3. Ishida, F., Ozawa, T., Takamatsu, S., Ito, M., Imai, H., Umemura, M., Tafu, M., Takada, E., Hongo, T., Intelectual Property Education at Toyama National College of Technology through MONODUKURI Hands-on Training Using Problem-Based Learning,” Proc. of International Symposium on Advances in Technology Education(ISATE 2013), p-04, 2013.9, Nara.
  4. Shimizu, T., Ishida, F., Murata, A., Sakaguchi, Y., “Information analysis of neuronal activities related to hand manipulation in the monkey parietal area AIP,” Neuroscience Research Vol.61, Suppl.1, p. S61(The 31th Annual Meeting of the Japan Neuroscience Society(Neuroscience2008),  O2-G10), 2008.7, Tokyo.
  5. Shimizu, T., Ishida, F., Murata, A., Sakaguchi, Y., “Information Analysis of Monkey AIP Neurons during Hand Manipulation Task,” Neuroscience Research Vol.58, Suppl.1, p. S92(The 30th Annual Meeting of the Japan Neuroscience Society(Neuroscience2007),  P1e-05), 2007.9, Yokohama.
  6. Takachi, Y., Ishida, F., Sawada, Y., “Enhancement of proactivity in hand tracking by the discretization of visual information,” Proc. of Third International Symposium on Measurement, Analysis and Modeling of Human Functions (ISHF2007), pp.219–225, 2007.6, Lisbon.
  7. Ishida, F., Karatsu, K., Sakaguchi, Y., “Muscle synergies extracted from human grasping movements,” Abst. of Brain-inspired Information Technology (BrainIT2006), p.54, 2006.9, Kitakyushu.
  8. Takachi, Y., Ishida, F., Sawada, Y., “Influences of target discrimination capability on hand tracking,” Proc. of International Joint Conference on Neural Networks 2004 pp.339–344, 2004.7, Bu- dapest.
  9. Takachi, Y., Ishida, F., Sawada, Y., “Hand motion precedes the target when discrimination capability of the target is poor,” Proc. of Eighth International Conference on Cognitive and Neural Systems, 2004.5, Boston.
  10. Iguchi, N., Sakaguchi, Y., Ishida, F., “The minimum end-point variance trajectories depends on the power parameter of the fluctuation of the motor command,” Proc. of 31st NIPS International Symposium, Multidisciplinary Approaches to Sensorimotor Integration —Old Questions Meet New Concepts—, p.138, 2004.3, Okazaki.
  11. Ishida, F., Kuramoto, Y., Sawada, Y., “Transition between position-matching control and rhythm-matching control in hand tracking task is explained by a phase model for hand motion,” Proc. of International Joint Conference on Neural Network 2003, vol.3, pp.2424–2427, 2003.7, Portland.
  12. Ishida, F., Y., Sawada, Y., “Precedence of tracking hand motion with respect to target motion: An error minimizing strategy embedded in human sensory-motor system,” Proc. of 7th International Conference on Cognitive and Neural Systems, p.45, 2003.5, Boston.
  13. Ishida, F., Kuramoto, Y., Sawada, Y., “Phase equation model for the transition between position matching and rhythm matching in hand tracking task,” Proc. of 9th International Conference on Neural Information Processing, vol.2, pp.801–804, 2002.11, Singapore.
  14. Ishida, F., Kuramoto, Y., Sawada, Y.,“Phase model for the mode transition at a critical frequency in hand tracking task”, CD-ROM Proc. of 2002 International Symposium on Nonlinear Theory and its Applications, N2-7-1, 2002.10, Xian.
  15. Haga, T., Ishida, F., Kinjo, M., Sato, S., Nakajima, K., “Learning algorithm for the threshold of nonmonotonic neurons composing a Boltzmann machine,” CD-ROM Proc. of 2002 International Symposium on Nonlinear Theory and its Applications, N7-7-3, 2002.10, Xian.
  16. Ishida, F., Ushioda, H., Sawada, Y., “Preceding motion in a hand tracking experiment,” Proc. of 8th International Conference on Neural Information Processing, vol.2, pp.971–974,2001.11, Shanghai.
  17. Ishida, F., Sawada, Y., “Precedence of hand motion in a tracking task: a model of sensory-motor control system,” Proc. of 2001 International Symposium on Nonlinear Theory and its Applica- tions, vol.2, pp.379–382, 2001.10, Zao Miyagi.
  18. Ishida, F., Sawada, Y., “Universal precedence of hand motion in a tracking task,” Abst. of 4th International Conference on Biological Physics, p.72, 2001.8, Kyoto.
  19. Ishida, F., Sawada, Y., “The Predictive Motion of Human Hand in Response to the Visual Input,” Abst. of the International Conference on Dynamical Aspects of Complex Systems from Cells to Brain, p.44, 2000.11, Sendai.
  20. Hayakawa, Y., Tomita, M., Souma, H., Ishida, F., Sawada, Y., “Structurization for Neural Network,” Proc. of 2nd R.I.E.C. International Symposium on Design and Architecture of Information Pro- cessing Systems Based on The Brain Information Principles, pp.205-208, 1998.3, Sendai.