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Conference Papers

    Abbreviations
  • Proc. IEEE-INNS IJCNN = Proceedings of the IEEE-INNS International Joint Conference on Neural Networks
  • Proc. IEEE ISCAS = Proceedings of the IEEE International Symposium on Circuits and Systems
  • Springer LNCS = Springer Lecture Notes in Computer Science
  • Proc. ICONIP = Proceedings of the International Conference on Neural Information Processing
  • Proc. ICANN = Proceedings of the International Conference on Artificial Neural Networks
  • Proc. ICCNS = Proceedings of the International Conference on Cognitive and Neural Systems
  • Proc. NOLTA = Proceedings of the International Symposium on Nonlinear Theory and its Applications
  • Proc. ICAND = Proceedings of the International Conference on Theory and Applications in Nonlinear Dynamics
  • Proc. NDES = Proceedings of the International IEEE Workshop on Nonlinear Dynamics of Electronic Systems
  1. Kentaro Takeda and Hiroyuki Torikai, A novel hardware-efficient CPG model based on asynchronous coupling of cellular automaton phase oscillators for a hexapod robot, Proc. IEEE-INNS IJCNN, 2020.
  2. Masato Ishikawa and Hiroyuki Torikai, A Novel Design Method of Multi-Compartment Soma-Dendrite-Spine Model having Nonlinear Asynchronous CA Dynamics and its Applications to STDP-based Learning and FPGA Implementation, Proc. IEEE-INNS IJCNN, 2020.
  3. Kentaro Takeda and Hiroyuki Torikai, Asynchronous cellular automaton neuromorphic circuit: design of nonlinear responses based on design of bifurcation phenomena, Proc. NOLTA, p.p. 324-325, 2019.
  4. Masato Ishikawa and Hiroyuki Torikai, Asynchronous cellular automaton soma-dendrite-spine model: propagations of action potentials and synaptic plasticity, Proc. NOLTA, p.p. 269-270, 2019.
  5. Takuya Yoshimoto, Shogo Shirafuji, and Hiroyuki Torikai, Analyses of bifurcations in an asynchronous cellular automaton gene network model, Proc. NOLTA, p. 45, 2019.
  6. Kentaro Takeda and Hiroyuki Torikai, A novel hardware-efficient CPG model for a hexapod robot based on nonlinear dynamics of coupled asynchronous cellular automaton oscillators, Proc. IEEE-INNS IJCNN, 2019.
  7. Kazuki Matsumoto, Hiroyuki Torikai, Kien Nguyen and Hiroo Sekiya, Wireless neural network coupled by infrared communications, Proc. 7th Japan-Korea Joint Workshop on Complex Communication Sciences (JKCCS2019), 2019.
  8. Kentaro Takeda and Hiroyuki Torikai, A novel hardware-efficient spiking neuron model based on asynchronous cellular automaton dynamics exhibiting various nonlinear response curves, Proc. IEEE-INNS IJCNN, pp. 5036-5043, 2018.
  9. Kentaro Takeda and Hiroyuki Torikai, Asynchronous cellular automaton models of biological systems, Proc. NOLTA, p. 427, 2018.
  10. Takuya Yoshimoto and Hiroyuki Torikai, Gene network models based on asynchronous cellular automaton, Proc. NOLTA, p. 480, 2018.
  11. Kazuki Matsumoto, Hiroyuki Torikai, and Hiroo Sekiya, XOR learning by spiking neural network with infrared communications Proc. 2018 Asia-Pacific Signal and Information Processing Association Annual Summit and Conference (APSIPA ASC2018), pp.1289-1292, 2018.
  12. Shohei Sugino, Kazuki Matsumoto, Hiroyuki Torikai, and Hiroo Sekiya, Reinforcement Learning for FPGA Spiking Neural Network coupled by LEDs Proc. 2018 International Workshop on Nonlinear Circuits, Communications and Signal Processing (NCSP2018), 2018.
  13. Kentaro Takeda and Hiroyuki Torikai, A Novel Hardware-Efficient CPG Model based on Nonlinear Dynamics of Asynchronous Cellular Automaton, Proc. ICONIP (Springer LNCS), pp. 812-820, 2017.
  14. Chiaki Matsuda and Hiroyuki Torikai, A Novel Design Method of Burst Mechanisms of a Piece-Wise Constant Neuron Model based on Bifurcation Analysis, Proc. ICONIP (Springer LNCS), pp. 796-803, 2017.
  15. Taiki Naka and Hiroyuki Torikai, Polychronization in an Asynchronous Cellular Automaton Model of Spiking Neural Network, Proc. NOLTA, p. 99, 2017.
  16. Takuya Yoshimoto and Hiroyuki Torikai, Bifurcations in an Asynchronous Cellular Automaton Model of Gene Network, Proc. NOLTA, p. 485, 2017.
  17. Kentaro Takeda, Chiaki Matsuda, and Hiroyuki Torikai, Design of Electronic Circuit Model of Neural System based on Hybrid Dynamical System, Proc. NOLTA, 628, 2017.
  18. Ryota Araki, Hiroyuki Torikai, and Takuya Yoshimoto A novel gene network model based on nonlinear dynamics of asynchronous cellular automaton, Proc. IEEE-INNS IJCNN, pp. 4488-4495, 2017.
  19. Chiaki Matsuda and Hiroyuki Torikai, Homoclinic bifurcations in a piece-wise constant neuron model, Proc. NOLTA, pp. 156-159, 2016. (Student Paper Award)
  20. Kentaro Takeda and Hiroyuki Torikai, Reproduction of nonlinear cochlea response by asynchronous bifurcation processor, Proc. NOLTA, pp. 279-282, 2016.
  21. Taiki Naka and Hiroyuki Torikai, Multi-compartment Neuron Model based on Asynchronous Bifurcation Processor Proc. NOLTA, pp. 489-492, 2016.
  22. A Hardware-Efficient Gene Network Model based on Asynchronous Bifurcation Processor, Takuya Yoshimoto and Hiroyuki Torikai, Proc. NOLTA, pp. 642-645, 2016.
  23. Kentaro Takeda and Hiroyuki Torikai, Design of Biomimetic Digital Hardware based on Asynchronous Bifurcation Processor, Proc. 5th Japan-Korea Joint Workshop on Complex Communication Sciences (JKCCS2016), p. 83, 2016. (Best Paper Award)
  24. Chiaki Matsuda and Hiroyuki Torikai, Design of Neuromorphic Analog Electronic Circuit based on Piece-wise Constant Nonlinear Vector Field, Proc. 5th Japan-Korea Joint Workshop on Complex Communication Sciences (JKCCS2016), p. 94, 2016.
  25. Hiroyuki Torikai, Kentaro Takeda, and Taiki Naka, Asynchronous Bifurcation Processor and its Applications to Neuromorphic Hardware Design, Proc. ICAND 2016 (Springer LNNS), pp.217-229.
  26. Narutoshi Jodai and Hiroyuki Torikai, A Hardware-Efficient Multi-Compartment Soma-Dendrite Model based on Asynchronous Cellular Automaton Dynamics Proc. IEEE-INNS IJCNN, pp. 219-226, 2016.
  27. Narutoshi Jodai and Hiroyuki Torikai, A Dendrite Model Based on Asynchronous Bifurcation Processor, Proc. NOLTA, 602-605, 2015.
  28. Kanata Isobe and Hiroyuki Torikai, A Hardware-Efficient Neural System Model Based on Asynchronous Bifurcation Processor, Proc. NOLTA, pp. 189-192, 2015.
  29. Souhei Takeda and Hiroyuki Torikai, Design of Homoclinic Bifurcation in PWC Neuron Model, Proc. NOLTA, 345-348, 2015.
  30. Masato Izawa and Hiroyuki Torikai, A Novel Hardware-Efficient Cochlea Model based on Asynchronous Cellular Automaton, Proc. IJCNN, paper ID 15745, 2015.
  31. Takashi Matsubara and Hiroyuki Torikai, Long-Term Spine Volume Dynamics Corresponds Partially with Multiplicative STDP, Proc. NOLTA, pp. 699-702 (2014.09)
  32. Hironori Ishimoto, Masato Izawa, and Hiroyuki Torikai, Nonlinear filter characteristics from an asynchronous cellular automaton oscillator, Proc. NOLTA, pp. 834-837 (2014.09)
  33. Naoki Shimada and Hiroyuki Torikai, Hybrid dynamical system perspective of asynchronous cellular automaton neuron model, Proc. NOLTA, pp. 894-897 (2014.09)
  34. Masato Izawa and Hiroyuki Torikai, Nonlinear responses of an asynchronous cellular automaton model of spiral ganglion cells, Proc. IJCNN, pp. 2483-2490 (2014.07)
  35. Takashi Matsubara, Hiroyuki Torikai, Tetsuya Shimokawa, Kenji Leibnitz and Ferdinand Peper, A Nonlinear Model of fMRI BOLD Signal Including the Trend Component, Proc. IJCNN, pp. 2579-2586 (2014.07)
  36. Naoki Shimada and Hiroyuki Torikai, Reproduction of Forward and Backward Propagations on Dendrites by Multi-compartment Asynchronous Cell Automaton Neuron, Proc. IJCNN, pp. 2496-2503 (2014.07)
  37. Masato Izawa and Hiroyuki Torikai, Asynchronous Cellular Automaton Model of Spiral Ganglion Cell and its Parallel Spike Coding, Proc. NOLTA, pp. 256-259 (2013.09)
  38. Naoki Shimada and Hiroyuki Torikai, Multi-Compartment Asynchronous Cellular Automaton and its Application for Neuron Modeling, Proc. NOLTA, pp. 114-117 (2013.09) (Student Paper Award)
  39. Takashi Matsubara and Hiroyuki Torikai, A Nonlinear Circuit Network Toward Brain Voxel Modeling, Proc. NOLTA, pp. 421-424 (2013.09)
  40. Takashi Matsubara and Hiroyuki Torikai, A Novel Reservoir Network of Asynchronous Cellular Automaton based Neurons for MIMO Neural System Reproduction, Proc. IJCNN, pp. 1563-1569 (2013.08)
  41. Hiroyuki Torikai and Takashi Matsubara, Asynchronous cellular automaton based modeling of nonlinear dynamics of neuron, International Conference on Theory and Application in Nonlinear Dynamics (ICAND2012), Springer, pp. 101-112 (2013.08)
  42. Takumi Uramoto and Hiroyuki Torikai, A calcium-based simplified model for a large diversity of spike-timing dependent plasticity, Proceedings of International Conference on Soft Computing and Intelligent Systems and International Symposium on Advanced Intelligent Systems, pp. 1447-1450 (2012.11)
  43. Yutaro Yamashita and Hiroyuki Torikai, Bifurcation-based learning of a PWC spiking neuron model, Proc. NOLTA, pp. 570-573 (2012.10)
  44. Takashi Matsubara and Hiroyuki Torikai, A Novel Bifurcation-based Synthesis of Asynchronous Cellular Automaton Based Neuron, Proc. ICANN, Part I (Springer LNCS 7552), pp. 231-238 (2012.09)
  45. Takashi Matsubara and Hiroyuki Torikai, A Generalized Asynchronous Digital Spiking Neuron: Theoretical Analysis and Compartmental Model, Proc. IEEE-INNS IJCNN, pp. 185-192 (2012.06)
  46. Yutaro Yamashita and Hiroyuki Torikai, Bursting Analysis and Synapse Mechanism of A Piece-wise Constant Spiking Neuron Model, Proc. IEEE-INNS IJCNN, pp. 193-200 (2012.06)
  47. Takumi Uramoto and Hiroyuki Torikai, A calcium-based simple model of STDP, Proc. IEEE-INNS IJCNN, Abstract for Neuroscience and Neurocognition Track, (2012.06)
  48. Takashi Matsubara and Hiroyuki Torikai, Dynamic Response Behaviors of a Generalized Asynchronous Digital Spiking Neuron Model, Proc. ICONIP, Part III (Springer LNCS 7064), pp. 395-404 (2011.11)
  49. Yutaro Yamashita and Hiroyuki Torikai, Generalized PWC Analog Spiking Neuron Model and Reproduction of Fundamental Neurocomputational Properties, Proc. ICONIP, Part III (Springer LNCS 7064), pp. 405-415 (2011.11)
  50. Hirofumi Ijichi and Hiroyuki Torikai, Basic analysis of synchronous phenomena from coupled asynchronous sequential logic neurons, Proc. NOLTA, pp. 627-630 (2011.09)
  51. Takashi Matsubara and Hiroyuki Torikai, Basic Analysis of Generalized Asynchronous Digital Spiking Neuron Model, Proc. NOLTA, pp. 670-673 (2011.09)
  52. Takuya Noguchi and Hiroyuki Torikai, Ghost stochastic resonance in an asynchronous sequential logic neuron model, Proc. NOLTA, pp. 318-321 (2011.09)
  53. Yutaro Yamashita and Hiroyuki Torikai, Bifurcation based synthesis of a PWC analog spiking neuron model, Proc. NOLTA, pp. 184-187 (2011.09) (Student Paper Award).
  54. Takashi Matsubara and Hiroyuki Torikai, A Novel Asynchronous Digital Spiking Neuron Model and its Various Neuron-like Bifurcations and Responses, Proc. IEEE-INNS IJCNN, pp. 741-748 (2011.07)
  55. Yutaro Yamashita and Hiroyuki Torikai, A Novel Piece-Wise Constant Analog Spiking Neuron Model and its Neuron-like Excitabilities, Proc. IEEE-INNS IJCNN, pp. 717-724 (2011.07)
  56. Hirofumi Ijichi and Hiroyuki Torikai, Theoretical Analysis of Various Synchronizations in Pulse-Coupled Digital Spiking Neurons, Proc. ICONIP (Springer LNCS 6433), pp. 107-115 (2010.11)
  57. Tetsuya Hishiki and Hiroyuki Torikai, Neural Behaviors and Nonlinear Dynamics of a Rotate-and-Fire Digital Spiking Neuron, Proc. IEEE-INNS IJCNN, pp. 2921-2928 (2010.07)
  58. Tetsuro Iguchi, Akira Hirata, and Hiroyuki Torikai, Integrate-and-Fire-Type Digital Spiking Neuron and its Learning for Spike-Pattern-Division Multiplex Communication, Proc. IEEE-INNS IJCNN, pp. 2425-2432 (2010.07)
  59. Hiroyuki Torikai and Sho Hashimoto, Nonlinear dynamical system approaches towards neural prosthesis, Proc. ICAND, pp. 78-87 (2010.08)
  60. Tetsuya Hishiki and Hiroyuki Torikai, Bifurcation analysis of a resonate-and-fire-type digital spiking neuron, Proc. ICONIP, Part II (Springer LNCS 5864), pp. 392-400 (2009.12)
  61. Kai Kinoshita and Hiroyuki Torikai, A pulse-coupled network of SOM, Proc. ICONIP, Part II (Springer LNCS 5864), pp. 367-375 (2009.12)
  62. Hiroyuki Torikai and Toru Nishigami, Basic Coding Functions of Paralleled Chaotic Spiking Neurons, Proc. NOLTA, pp.50-53 (2009.10)
  63. Kai Kinoshita and Hiroyuki Torikai, A spiking neuron model and its pulse-coupled network version of a self-organizing map, Proc. NOLTA, pp.30-33 (2009.10)
  64. Sho Hashimoto, Hishiki, Tetsuya Hishiki and Hiroyuki Torikai, Approximation of Neuron Dynamics by Discrete State Dynamics: An Approach Toward Reconfigurable Hardware Based Neural Prosthesis, Proc. NOLTA, pp.254-257 (2009.10).
  65. Tetsuya Hishiki and Hiroyuki Torikai, A Novel Resonate-and-Fire-Type Digital Spiking Neuron and its Bifurcation Analysis, Proc. NOLTA, pp. 531-534 (2009.10) (Student Paper Award).
  66. Hiroyuki Torikai and Toru Nishigami, A Novel Chaotic Spiking Neuron and its Paralleled Spike Encoding Function, Proc. IEEE-INNS IJCNN, pp. 3132-3139 (2009.06).
  67. Sho Hashimoto and Hiroyuki Torikai, Bifurcation Analysis of a Reconfigurable Hybrid Spiking Neuron and its Novel Online Learning Algorithm, Proc. IEEE-INNS IJCNN, pp. 1134-1141 (2009.06).
  68. Sho Hashimoto and Hiroyuki Torikai, A Novel Hybrid Spiking Neuron: response analysis and learning potential, Proc. ICONIP (Springer LNCS 5506), pp. 145-152 (2008.11)
  69. Hiroyuki Torikai and Toru Nishigami, A novel artificial model of spiral ganglion cell and its spike-based encoding function, Proc. ICONIP (Springer LNCS 5506), pp. pp. 208-215 (2008.11)
  70. Tohru Nishigami and Hiroyuki Torikai, Basic Analysis of a Leaky Spiking Oscillator with Two Periodic Inputs, Proc. NOLTA, pp. 624-627 (2008.09)
  71. Hiroyuki Torikai and Sho Hashimoto, A Hardware-oriented Learning Algorithm for a Digital Spiking Neuron, Proc. IEEE-INNS IJCNN, pp. 2472-2479 (2008.06)
  72. Akira Hirata and Hiroyuki Torikai, Learning of Digital Spiking Neurons for Ultra Wide Band Applications, Proc. ICCNS, p. 124 (2008.05)
  73. Hiroyuki Torikai, Fundamental analysis of a Digital Spiking Neuron for its spike-based coding, Proc. ICONIP (Springer LNCS 4985), pp. 87-96 (2007.11)
  74. Hiroyuki Torikai, Atsuo Funew and Toshimichi Saito, Approximation of Spike-trains by Digital Spiking Neuron, Proc. IEEE-INNS IJCNN, paper #1698 (2007.08)
  75. Tomohiro Inagaki, Toshimichi Saito and Hiroyuki Torikai, Response of chaotic spiking circuit to periodic/nonperiodic inputs, Proc. IEEE-INNS IJCNN, paper #1708 (2007.08)
  76. Hiroyuki Torikai, Analysis of Digital Spiking Neuron for development of its learning algorithm, Proc. NDES, pp.160-163 (2007.07)
  77. Hiroyuki Torikai and Toshimichi Saito, Basic Learning Characteristics of a Digital Spiking Neuron, Proc. ICCNS, p. 116 (2007.05)
  78. Hiroyuki Torikai and Toshimichi Saito, Digital s piking neuron and its learning potential, Proc. IEEE International Workshop on Nonlinear Circuit Networks, pp. 13-14 (2006.12).
  79. Masaru Takanashi, Hiroyuki Torikai and Toshimichi Saito, Fusion of Growing SOM and Radial-Basis ART, Proc. IEEE International Workshop on Nonlinear Circuit Networks, p. 17 (2006.12).
  80. Takahiro Kabe, Hiroyuki Torikai and Toshimichi Saito, Synchronization via multiplex spike-trains in digital pulse-coupled networks, Proc. ICONIP, Part III (Springer LNCS 4234), pp. 1141-1149 (2006.10) (Student Paper Award)
  81. Tetsunari Oshime, Toshimichi Saito and Hiroyuki Torikai, ART-based parallel learning of growing SOMs and its application to TSP, Proc. ICONIP, Part I (Springer LNCS 4234), pp. 1004-1011 (2006.10)
  82. Hiroyuki Torikai, Yoshiaki Shimizu and Toshimichi Saito, A digital spiking neuron and its simple learning, Proc. NOLTA, pp. 263-266 (2006.09)
  83. Toshimichi Saito, Takeshi Ehara, Satoshi Suzuki and Hiroyuki Torikai, Growing Self-Organizing Maps for Network Construction, Proc. NOLTA, pp. 559-562 (2006.09)
  84. Yusuke Matsuoka, Hiroyuki Torikai, Toshimichi Saito, Chaotic Superstable Periodic Orbits in Nonlinear Circuits, Proc. ICSES (IEEE International Conference on Signals and Electronic Systems), pp. 67-70 (2006.09)
  85. Toshimitsu Ohtani, Yoshio Kon'no, Hiroyuki Torikai, Toshimichi Saito, Bifurcation of a spiking neuron with triangular input, Proc. NDES, pp. 135-138 (2006)
  86. Tomohiro Inagaki, Yusuke Matsuoka, Toshimichi Saito, Hiroyuki Torikai, A chaotic spiking circuit with period-2 spike-train input, Proc. NDES, pp. 53-57 (2006)
  87. Hiroyuki Torikai, Yoshiaki Shimizu and Toshimichi Saito, Various spike-trains from a digital spiking neuron: analysis of inter-spike intervals and their modulation, Proc. IEEE-INNS IJCNN, pp. 7591-7598 (2006.07)
  88. Takashi Yamamichi, Toshimichi Saito and Hiroyuki Torikai, Genetic learning of digital three-layer perceptrons for implementation of binary cellular automata, Proc. IEEE CEC (IEEE Congress on Evolutionary Computation), pp. 10309-10314 (2006.07)
  89. Satoshi Akatsu, Hiroyuki Torikai and Toshimichi Saito, Current-Mode Instantaneous State Setting Method and its application to H-Bridge Inverter, Proc. IEEE ISCAS, pp. 1683-1686 (2006.05)
  90. Yusuke Matsuoka, Toshimichi Saito and Hiroyuki Torikai, Complicated Superstable Behavior in a Piecewise Constant Circuit with Impulsive Switching, Proc. IEEE ISCAS, pp. 5523-5526 (2006.05)
  91. Aya Tanaka, Hiroyuki Torikai and Toshimichi Saito, A/D and D/A Converters by Spike-Interval Modulation of Simple Spiking Neurons, Proc. IEEE ISCAS, pp. 3113-3116 (2006.05)
  92. Hiroyuki Torikai and Toshimichi Saito, Digital spiking neuron: various inter-spike intervals and their coding, Proc. ICCNS, p. 52 (abstract) (2006.05)
  93. Masahide Ohki, Hiroyuki Torikai and Toshimichi Saito, A Simple Radial Basis ART Network: Basic Learning Characteristics and Application to Area Measurement, Proc. NOLTA, pp. 262-265 (2005.09)
  94. Yusuke Matsuoka, Toshimichi Saito and Hiroyuki Torikai, Complicated superstable periodic behavior in piecewise constant circuits with impulsive excitation, Proc. NOLTA, pp. 513-516 (2005.09)
  95. Takahiro Kabe, Hiroyuki Torikai and Toshimichi Saito, Rich Synchronization Phenomena of Digital Pulse-Coupled Networks, Proc. NDES (abstract) (2005.09)
  96. Satoshi Akatsu, Hiroyuki Torikai and Toshimichi Saito, Zero-cross instantaneous state setting for control of a bifurcating H-bridge inverter, Proc. NDES (abstract) (2005.09)
  97. Aya Tanaka, Toshimichi Saito, Hiroyuki Torikai and Daisuke Matsubara, Cyclic A/D/A Converters Based on Spiking Neuron Circuits, Proc. NDES (abstract) (2005.09)
  98. Toshimichi Saito, Yusuke Matsuoka, Takahiro Kabe, Yu'uki Ishikawa and Hiroyuki Torikai, Piecewise constant switched dynamical systems in power electronics, Proc. NDES (abstract) (2005.09)
  99. Hiroyuki Torikai, Hiroshi Hamanaka and Toshimichi Saito, Novel digital spiking neuron and its pulse-coupled network: spike position coding and multiplex communication, Proc. IEEE-INNS IJCNN, pp. 3249-3254 (2005.07)
  100. Toshimichi Saito, Yoshio Kon'no and Hiroyuki Torikai, Rich phenomena of pulse-coupled spiking neurons with triangular waveform input, Proc. IEEE-INNS IJCNN, pp. 400-404 (2005.07)
  101. Takashi Yamamichi, Toshimichi Saito, Keisuke Taguchi and Hiroyuki Torikai, Synthesis of binary cellular automata based on binary neural networks, Proc. IEEE-INNS IJCNN, pp. 1361-1364 (2005.07)
  102. Yusuke Matsuoka, Toshimichi Saito and Hiroyuki Torikai, A piecewise constant switched chaotic circuit with rect-rippling return maps, Proc. IEEE ISCAS, pp. 3411-3414 (2005.05)
  103. Yoshio Kon'no, Toshimichi Saito and Hiroyuki Torikai, Rich spike-synchronization phenomena of pulse-coupled bifurcating neurons, Proc. IEEE ISCAS, pp. 1297-1300 (2005.05)
  104. Hiroyuki Torikai, Masahide Ohki and Toshimichi Saito, Radial Basis ART network and robust measurement of input figure, Proc. ICCNS, p.83 (abstract) (2005.05)
  105. Tatsuro Maekawa, Hiroyuki Torikai and Toshimichi Saito, A Sawtooth Bifurcating Neuron with Double Encoding Function, Proc. NCSP (International Workshop on Nonlinear Circuit and Signal Processing), pp. 69-72 (2005.02)
  106. Takashi Yamamichi, Toshimichi Saito and Hiroyuki Torikai, A GA-based Fault-Containment Learning Algorithm for Binary Neural Networks, Proc. NOLTA, pp. 697-700 (2004.12)
  107. Takahiro Kabe, Toshimichi Saito and Hiroyuki Torikai, Analysis of piecewise constant models of power converters, Proc. NOLTA, pp. 71-74 (2004.12)
  108. Hiroshi Hamanaka, Hiroyuki Torikai and Toshimichi Saito, A spiking oscillator with quantized state and its pulse coding characteristics, Proc. ICONIP (Springer LNCS 3316), pp. 1123-1128 (2004.11)
  109. Hiroyuki Torikai, Hiroshi Hamanaka and Toshimichi Saito, Pulse codings of a spiking neuron having quantized states, Proc. KES (International Conference on Knowledge-based Intelligent Information Engineering Systems), pp. 1002-1009 (2004.09)
  110. Hiroshi Hamanaka, Hiroyuki Torikai and Toshimichi Saito, Spike position map with quantized state and its application to algorithmic A/D converter, Proc. IEEE ISCAS, Vol. IV, pp. 673-676 (2004.05)
  111. Toshimichi Saito, Jun'ya Shimakawa and Hiroyuki Torikai, D/A converters and iterated function systems, Proc. NDES, pp. 300-303 (2004.05)
  112. Yoshio Kon'no, Toshimichi Saito and Hiroyuki Torikai, Rich synchronization of simple spiking oscillators, Proc. NDES, pp. 210-213 (2004.05)
  113. Hiroyuki Torikai and Toshimichi Saito, Pulse-coupled network of spiking neurons having quantized states, Proc. ICCNS, p. 105 (2004.05)
  114. Masahide Ohki, Hiroyuki Torikai and Toshimichi Saito, Basic characteristics of a simple radial basis ART network and its application, Proc. ICCNS, p. 83 (2004.05)
  115. Hiroshi Shimazu, Toshimichi Saito and Hiroyuki Torikai, Analysis of conventional/improved delta modulators as switched dynamical systems, Proc. of IEEE IECON (IEEE Industrial Electronics Conference), pp. 1814-1817 (2003.11)
  116. Toshimichi Saito, Shintaro Tasaki and Hiroyuki Torikai, WTA-Based Interleaved Buck Converters for Low-Voltage High-Current Applications, Proc. of IEEE IECON (IEEE Industrial Electronics Conference), pp. 640-643 (2003.11)
  117. Hiroyuki Torikai and Toshimichi Saito, On a pulse-coupled network of spiking neurons having quantized state, Proc. IEEE-INNS IJCNN, pp. 1391-1395 (2003.07)
  118. Masanao Shimazaki, Hiroyuki Torikai and Toshimichi Saito, Synchronization Phenomena of a Mutually Pulse-Coupled Network of Integrate-and-Fire Circuits, Proc. IEEE-INNS IJCNN, pp. 2569-2573 (2003.07)
  119. Hiroyuki Torikai and Toshimichi Saito, Spiking neuron having quantized state and multiplex communications, Proc. ICCNS, 2-#18 (abstract) (2003.05)
  120. Hiroshi Hamanaka, Hiroyuki Torikai and Toshimichi Saito, Rich dynamics of pulse-coupled bifurcating neurons, Proc. NDES, pp. 101-104 (2003.05)
  121. Ryouhei Furumachi, Hiroyuki Torikai and Toshimichi Saito, A Quantized Chaotic Spiking Neuron and CDMA Coding, Proc. ICONIP, cr1517 (2002.11)
  122. Hiroyuki Torikai and Toshimichi Saito, Quantized system of chaotic pulse-train generator, Proc. NOLTA, pp. 813-816 (2002.10)
  123. Masanao Shimazaki, Hiroyuki Torikai, Toshimichi Saito, Master-Slave synchronization of bifurcating integrate-and-fire circuits, Proc. ITC-CSCC (International Technical Conference On Circuits/System, Computers and Communications), pp. 794-797 (2002.07)
  124. Ryouhei Furumachi, Hiroyuki Torikai, Toshimichi Saito, Basic characteristics of super-multi-stabilized chaotic pulse-trains, Proc. ITC-CSCC (International Technical Conference On Circuits/System, Computers and Communications), pp. 1996-1999 (2002.07)
  125. Hiroyuki Torikai and Toshimichi Saito, Analysis of mutually pulse-coupled network of chaotic integrate-and-fire neurons, Proc. ICCNS, 2-#5 (abstract) (2002.05)
  126. Hiroshi Imamura, Toshimichi Saito and Hiroyuki Torikai, An analog-to-digital converter with time-variant window, Proc. IEEE ISCAS, Vol. I pp. 505-508 (2002.05)
  127. Hiroyuki Torikai and Toshimichi Saito, A quantized chaotic spiking oscillator: analysis and implementation, Proc. IEEE ISCAS, Vol. II pp. 540-543 (2002.05)
  128. Toshimichi Saito, Masanori Yoshizawa, Hiroyuki Torikai and Shin'taro Tazaki, Analysis of interleaved converters with WTA-based switching, Proc. IEEE ISCAS, Vol. III pp. 405-408 (2002.05)
  129. Hiroyuki Torikai, Masanao Shimazaki and Toshimichi Saito, Novel synchronization phenomena from a pulse-coupled network of chaotic integrate-and-fire neurons, Proc. IEEE-INNS IJCNN, pp. 1269-1274 (2002.05)
  130. Hiroyuki Torikai and Toshimichi Saito, Synchronization with time delay from a pulse-coupled network of spiking oscillators, Proc. ICONIP, pp. 1259-1262, (2001.11)
  131. Masanori Yoshizawa, Hiroyuki Torikai and Toshimichi Saito, Parallel-Connected DC/DC Converter with WTA Function, Proc. ITC-CSCC (International Technical Conference On Circuits/System, Computers and Communications), pp.568-571 (2001.07)
  132. Hiroyuki Torikai and Toshimichi Saito, Quantized chaotic dynamics, pulse interval modulation and multiplex communications system, Proc. of International Conference on Advances in Communications and Control, p.53 (2001.06)
  133. Toshimichi Saito, Hiroyuki Torikai and Yoshinobu Kawasaki, Quantized chaotic systems and application, Proc. of Asia-Pacific Workshop on Chaos Control and Synchronization, p.46 (2001.06)
  134. Hiroyuki Torikai and Toshimichi Saito, Various synchronization patterns from a pulse-coupled neural network of chaotic spiking oscillators, Proc. IEEE-INNS IJCNN, pp.670-674 (2001.07)
  135. Hiroyuki Torikai and Toshimichi Saito, Various synchronization phenomena in pulse-coupled spiking oscillators, Proc. ICCNS, 1-#13 (abstract) (2001.05)
  136. Fumitaka Komatsu, Hiroyuki Torikai and Toshimichi Saito, Various superstable synchronous phenomena in switch-coupled relaxation oscillators, Proc. IEEE ISCAS, Vol. III pp. 696-699 (2001.05)
  137. Yoshinobu Kawasaki, Toshimichi Saito and Hiroyuki Torikai, Quantized chaotic dynamics and communications systems, Proc. IEEE ISCAS, Vol. III pp. 133-136 (2001.05)
  138. Hiroyuki Torikai and Toshimichi Saito, Pulse-coupled neural network of integrate-and-fire circuits and various synchronization phenomena, Proc. ICONIP, Vol. 2 pp. 964-969 (2000.11)
  139. Yoshinobu Kawasaki, Hiroyuki Torikai and Toshimichi Saito, On quantization function from a integrate-and-fire neuron with periodic inputs, Proc. ICONIP, Vol. 1 pp. 352-357 (2000.11)
  140. Hiroyuki Torikai and Toshimichi Saito, Pulse-coupled networks of non-autonomous integrate-and-fire oscillators and classification functions, Proc. IEEE-INNS IJCNN, Vol. 3, pp. 291-295 (2000.07)
  141. Hiroyuki Torikai and Toshimichi Saito, Classification function from Pulse-coupled Integrate-and-Fire Oscillators, Proc. ICCNS, 1-#37 (abstract) (2000.05)
  142. Fumitaka Komatsu, Hiroyuki Torikai and Toshimichi Saito, A network of relaxation oscillators based on Intermittently Coupled Capacitors, Proc. IEEE ISCAS, pp. 487-490 (2000.05)
  143. Gousuke Izawa, Toshimichi Saito and Hiroyuki Torikai, A dependent switched capacitor A/D converter for Farey series approximation, Proc. IEEE ISCAS, pp. 681-684 (2000.05)
  144. Toshimichi Saito, Hiroyuki Torikai and Yoshikazu Nomoto, A buck-boost converter controlled by periodic inputs, Proc. IEEE ISCAS, pp. 507-510 (2000.05)
  145. Hiroyuki Torikai and Toshimichi Saito, Integrate-and-fire model with periodic inputs, Proc. IEEE-INNS IJCNN, Vol. 1, pp. 717-720 (1999.07)
  146. Hiroyuki Torikai and Toshimichi Saito, Basic functions from an integrate-and-fire circuit with plural inputs, Proc. ICCNS, 1-#19 (abstract) (1999.05)
  147. Fumitaka Komatsu, Hiroyuki Torikai and Toshimichi Saito, A chaotic network based on Intermittently Coupled Capacitors, Proc. IEEE ISCAS, pp. 414-417 (1999.05)
  148. Hiroyuki Torikai and Toshimichi Saito, Chaotic pulse-train separation and multiplex communication, Proc. of IEEE International Conference on Electronics, Circuits and Systems, pp. 115-118 (1998.09)
  149. Hiroyuki Torikai and Toshimichi Saito, Computer aided analysis of chaotic oscillators with periodic perturbation, Proc. NDES, pp. 75-78 (1998.07)
  150. Hiroyuki Torikai, Toshimichi Saito and Wolfgang Schwarz, Multiplex Communication Scheme based on Synchronization via Multiplex Pulse-trains, Proc. IEEE ISCAS, pp. 554-557 (1998.05)
  151. Takanori Matsushita, Toshimichi Saito and Hiroyuki Torikai, Synchronous phenomena from chaotic circuits with intermittently coupled capacitors, Proc. IEEE ISCAS, pp. 363-366 (1998.05)
  152. Hiroyuki Torikai and Toshimichi Saito, Taming Chaotic Oscillator with Higher Frequency Periodic Signal, Proc. of the 2nd RIEC International Symposium on Design and Architecture of Information Processing Systems Based on the Brain Information Principles, pp. 265-267 (1998.03)
  153. Hiroyuki Torikai, Toshimichi Saito and Wolfgang Schwarz, Taming Chaotic Circuits by Higher Frequency Periodic Perturbation, Proc. NOLTA, pp. 93-96 (1997.11)
  154. Ken'ichi Maeda, Takanori Matsushita, Hiroyuki Torikai and Toshimichi Saito, Breakdown of Chaos Synchronization in a Circuit with Instantaneous State Setting Method, Proc. NOLTA, pp. 545-548 (1997.11)
  155. Hiroyuki Torikai and Toshimichi Saito, A Multiplex Digital Communication System based on Chaotic Pulse-train Generator, Proc. NDES, pp. 203-208 (1997.06)
  156. Hiroyuki Torikai, Toshimichi Saito and Wolfgang Schwarz, A Chaotic Pulse Generator and Sawtooth Control for Information Processing, Proc. IEEE ISCAS, pp. 729-732 (1997.06)
  157. Hiroyuki Torikai and Toshimichi Saito, A Multiplex Communication System Using Chaotic Pulse-Train with Sawtooth Control, Proc. IEEE ISCAS, pp. 1065-1068 (1997.06)
  158. Hiroyuki Torikai, Wolfgang Schwarz and Toshimichi Saito, Instantaneous State Setting Method for Information Processing, Proc. NOLTA, pp. 69-72 (1996.10)
  159. Hiroyuki Torikai and Toshimichi Saito, A Novel Hysteresis Chaos Generator and Instantaneous Partial Copy Method for Synchronization of Chaos, Proc. NDES, pp. 229-234 (1996.06)
  160. Toshimichi Saito and Hiroyuki Torikai, Bifurcation from a Chaotic Network by Occasional Linear Connection, Proc. NDES, pp. 435-440 (1996.06)
  161. Hiroyuki Torikai and Toshimichi Saito, Spatiotemporal Pattern Generation by Control and Synchronization of Chaos, Proc. of the IEEE International Conference on Neural Networks, pp. 1574-1577 (1995.11)
  162. Hiroyuki Torikai, Toshimichi Saito and Kenya Jin'no, Switchings of Synchronized Chaos in an Artificial Neural Network, Proc. NDES, pp.291-294 (1995.07)
  163. Toshimichi Saito, Hiroyuki Torikai and Kenya Jin'no, Synchronization and Control of Chaos by Occasional Linear Connection, Proc. IEEE ISCAS, pp.1013-1016 (1995.05)
  164. Hiroyuki Torikai and Toshimichi Saito, On a Novel Synchronization Method of Chaotic Systems, Proc. NOLTA, pp.149-152 (1994.10)

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