Hosaka R, Sakai Y, Ikeguchi T, Yoshizawa S (2006). A New Classification of Neuron Models for Random Inputs on Bifurcation Structures. Lecture notes in Computer Science 3980: 596-604.
Sakai Y, Okamoto H, Fukai T (2006). Computational algorithms and neuronal network models underlying decision processes. Neural Networks 19(8):1091-1105.
Hosaka R, Sakai Y, Ikeguchi T, Yoshizawa S (2006). BvP neurons exhibit a larger variety in statistics of inter-spike intervals than LIF neurons. J. Phys. Soc. Jpn. 75(12): 124007(1)-124007(7).
Kurashige H, Sakai Y. (2006) BCM-type synaptic plasticity model using a linear summation of calcium elevations as a sliding threshold, Lecture notes in Computer Science: 4232: 19-29.
2005
Okamoto H, Isomura Y, Takada M, Fukai T (2005). Combined modeling and extracellular recording studies of UP and DOWN transitions in awake or behaving monkeys. Basal Ganglia VIII (Advances in Behavioral Biology, vol. 56): 555-561.
Teramae J, Fukai T (2005). A cellular mechanism for graded persistent activity in a model neuron and its implications in working memory. Journal of Computational Neuroscience 18: 105-121.
2004
Sakai Y, Nakano K, Yoshizawa S (2004). Synaptic regulation on various STDP rules, Neurocomputing 58-60: 351-357.
Kitano K, Fukai T (2004). Temporal characteristics of the predictive synchronous firing modeled by spike-timing-dependent plasticity. Learning & Memory 11: 267-276.
Nomura M, Fukai T, Aoyagi T (2004). Gamma frequency synchronization in a local cortical network model, Neurocomputing 58-60: 173-178.
Okamoto H, Fukai T (2004). Propagation of quasi-stable activation in a chain of recurrent neural networks. Neurocomputing 58-60: 235-238.
Kang S, Kitano K, Fukai T (2004). Self-organized two-state membrane potential transitions in a network of realistically modeled cortical neurons, Neural Networks 17: 307-312.
Takekawa T, Aoyagi T, Fukai T (2004) Influences of synaptic location on the synchronization of rhythmic bursting neurons. Network: Comput. Neural Syst. 15: 1-12.
Fujii H, Tsuda I (2004). Neocortical gap junction-coupled interneuron systems may induce chaotic behavior itinerant among quasi-attractors exhibiting transient synchrony, Neurocomputing 58-60: 151-157.
Fujii H, Tsuda I (2004). Itinerant Dynamics of Class I Neurons Coupled by Gap Junctions, Computational Neuroscience: Cortical Dynamics, Lecture Notes in Computer Science 3146, E'rdi P, Esposito A, Marinaro M, Scarpetta S (Eds.): 140-160.
Tsuda I, Fujii H (2004). A Complex Systems Approach to an Interpretation of Dynamic Brain Activity I: 'Chaotic itinerancy can provide a mathematical basis for information processing in cortical transitory and nonstationary dynamics', Computational Neuroscience: Cortical Dynamics, Lecture Notes in Computer Science 3146, E'rdi P, Esposito A, Marinaro M, Scarpetta S (Eds.): 109-128.
Tsuda I, Fujii H, Tadokoro S, Yasuoka T, Yamaguti Y (2004). Chaotic Itinerancy as a Mechanism of Irregular Changes between Synchronization and Desynchronization in a Neural Network, J. Integrative Neuroscience 3: 159-182.
Fujii H, Aihara K, Tsuda I (2004). Functional Relevance of 'Excitatory' GABA Actions in Cortical Interneurons: a Dynamical Systems Approach, J. Integrative Neuroscience 3: 183-205.
2003
Amari S, Nakahara H, Wu S, Sakai Y (2003). Synfiring and Higher-Order Interactions in Neuron Pool, Neural Computation 15: 127-142.
Kitano K, Fukai T (2003). Predictive synchrony organized by spike-based Hebbian learning with time-representing synfire activities. (Book chapter) In: Neural Information Processing: Research and Development, Springer-Verlag.
Okamoto H, Fukai T (2003). Neural bases of accumulator models. Neurocomputing 52-54: 285-288.
Nomura M, Fukai T, Aoyagi T (2003). Synchrony of fast-spiking interneurons interconnected by GABAergic and electrical synapses. Neural Computation 15: 2179-2198.
Okamoto H, Fukai T (2003). Physiologically realistic modelling of a mechanism for neural representation of intervals of time, BioSystems 68: 229-233.
Kitano K, Okamoto H, Fukai T (2003) Time representing cortical activities: two models inspired by prefrontal persistent activity. Biological Cebernetics 88: 387-394.
Aoyagi T, Takekawa T, Fukai T (2003). Gamma rhythmic bursts: coherence control in networks of cortical pyramidal neurons. Neural Computation 15: 1035-1061.
Cateau H, Fukai T (2003). A stochastic method to predict the consequence of arbitrary forms of spike-timing-dependent plasticity. Neural Computation 15 (3) : 597-620.
2002
Sakai Y (2002). Spike independency in feed-forward networks, BioSystems 67: 221-227.
Shinomoto S, Sakai Y, Ohno H (2002). Recording site dependence of the neuronal spiking statistics, BioSystems 67: 259-263.
Cateau H, Kitano K, Fukai T (2002). An accurate and widely applicable method to determine the distribution of synaptic strength formed by the spike-timing-dependent plasticity. Neurocomputing 44-46: 343-351.
Fukai T, Kitano K, Aoyagi T, Kang Y (2002). Modeling the layer V cortical pyramidal neurons showing theta-rhythmic firing in the presence of muscarine. Neurocomputing 44-46: 103-108.
Kitano K, Cateau H, Fukai T (2002). Sustained activity with low firing rate in a recurrent network regulated by spike-timing-dependent plasticity. Neurocomputing 44-46: 473-478.
Kitano K, Cateau H, Fukai T (2002). Self-Organization of Memory Activity through Spike-Timing- Dependent Plasticity, NeuroReport 13: 795-798.
Aoyagi T, Kang Y, Terada N, Kaneko T, Fukai T (2002). The role of Ca(2+)-dependent cationic current in generating gamma frequency rhythmic bursts: modeling study. Neuroscience 115(4): 1127-1138.
Kitano K, Cateau H, Kaneda K, Nambu A, Takada M, & Fukai T (2002). Two-State Membrane Potential Transitions of Striatal Spiny Neurons as Evidenced by Numerical Simulations and Electrophysiological Recordings in Awake Monkeys. The Journal of Neuroscience 22: RC230: 1-6.
In Press
2006
Sakai Y, Fukai T (in press). The actor-critic learning is behind the matching law: Matching vs. optimal behaviors. Neural Computation.
Takekawa T, Aoyagi T, Fukai T (in press). Synchronization property of slow cortical oscillations. Progress of Theoretical Physics (suppl).
Tsuji S, Ueta T, Kawakami H, Fujii H, Aihara K (in press). Bifurcations in two-dimensionalHindmarsh-Rose type model, Int. J. Bifurcation & Chaos.
Mizuno M, Yamada H, Mori T (2006). A metod of collision prediction by binocular velosity pair under the condition of ego and object motion, SICE-ICASE International Joint Conference 2006, Oct.18-21,Bexco, Busan.
2005
Sakai Y (2005). Topological maps by STDP for input space of discrete and continuous features. Proceedings of International Symposium on Nonlinear Theory and its Applications, 230-33.
Hosaka R, Sakai Y, Ikeguchi T, Yoshizawa S (2005). Interspike interval statistics of modified Hindmarsh-Rose model. Proceedings of International Workshop on Nonlinear Circuits and Signal Processing, 383-386.
Fujii H, Tsuda I (2005). Interneurons: their cognitive roles - A perspective from dynamicalsystems view, Proceedings of 2005 4th IEEE International Conference on Developmentand Learning, 0-7803-9225-6/05/2005 IEEE, 43-48.
Takeuchi M (2005). MUltrasonic Micromanipulation of Liquid Droplets for a Lab-on-a-Chip, IEEE Ultrasonics Symp. Proc.
2004
Hosaka R, Sakai Y, Ikeguchi T, Yoshizawa S (2004). Difference of Higher order statistics of Inter-spike Intervals between LIF model and BVP model. Proceedings of International Workshop on Nonlinear Circuits and Signal Processing, 511-514.
Aihara K, Tsuda I, Fujii H (2004). Prologue - The Work of the Late Professor Gen Matsumoto, J. Integrative Neuroscience 3: 111-113.
Mori T (2004). First fixation point in the short stimulus presentation, Proc. of XXVIII International Congress of Psychology (ICP2004),2004August 8-13,1028.149.
Takeuchi M (2004). Ultrasonic Attenuation in Acoustic Touch Panels, IEEE Ultrasonics Symp. Proc.
2002
Sakai Y, Yamada M, Yoshizawa S (2002). Strange responses of the Hodgkin-Huxley model to highly fluctuating inputs. Proceedings of International Joint Conference on Neural Networks 2002 (IJCNN 2002): 1655-1660.
Hosaka R, Sakai Y, Ikeguchi T, Yoshizawa S (2002). Statistical Analysis on Response of BVP Neurons Stimulated by Colored Noise. Proceedings of International Symposium on Artificial Life and Robotics, 112-115.
Takeuchi M (2002). Rayleigh Waves on Love-Wave Substrates for Touch-Sensitive Panels, IEEE Ultrasonics Symp. Proc.