Neuralgorithm.Org

業績リスト

(Index)

メディア情報

書籍

  1. 山崎匡 TBA.
  2. Masao Ito, Kazuhiko Yamaguchi, Soichi Nagao, Tadashi Yamazaki. Long-Term Depression as a Model of Cerebellar Plasticity. Progress in Brain Research, 210:1-30, 2014.

記念論文

山崎匡. 小脳の計算機構の完全理解とその応用を目指して. 日本神経回路学会創立20周年記念論文, 日本神経回路学会論文誌 16(4) 190-195, 2009. (優秀論文賞受賞)

学術論文

  1. Tadashi Yamazaki, Soichi Nagao, William Lennon, Shigeru Tanaka. Modeling memory consolidation during posttraining periods in cerebellovestibular learning. Proc Natl Acad Sci USA, 112(11): 3541-3546, 2015. (Open Access)
  2. William Lennon, Robert Hecht-Nielsen, Tadashi Yamazaki. A spiking network model of cerebellar Purkinje cells and molecular layer interneurons exhibiting irregular firing. Frontiers in Computational Neuroscience, 8, 157 (pp. 1-10), 2014 (Open Access).
  3. Leonard F. Koziol, Deborah Budding, Nancy Andreasen, Stefano D'Arrigo, Sara Bulgheroni, Hiroshi Imamizu, Masao Ito, Mario Manto, Cherie Marvel, Krystal Parker, Giovanni Pezzulo, Narender Ramnani, Daria Riva, Jeremy Schmahmann, Larry Vandervert, Tadashi Yamazaki. Consensus Paper: The Cerebellum's Role in Movement and Cognition. The Cerebellum, 13(1):151-177, 2014(Open Access).
  4. Tadashi Yamazaki, Jun Igarashi. Realtime Cerebellum: A large-scale spiking network model of the cerebellum that runs in realtime using a graphics processing unit. Neural Networks, 47: 103-111, 2013. (Open Access)
  5. Soichi Nagao, Takeru Honda, Tadashi Yamazaki. Transfer of memory trace of cerebellum-dependent motor learning in human prism adaptation: A model study. Neural Networks, 47: 72-80, 2013.
  6. Tadashi Yamazaki, Nagao Soichi. A computational mechanism for unified gain and timing control in the cerebellum. PLoS ONE 7(3): e33319, 2012 (pp. 1-12).
  7. Tadashi Yamazaki, Hidetoshi Ikeno, Yoshihiro Okumura, Shunji Satoh, Yoshimi Kamiyama, Yutaka Hirata, Keiichiro Inagaki, Akito Ishihara, Takayuki Kannon, Shiro Usui. Simulation Platform: A cloud-based online simulation environment. Neural Networks 24(7) 693-698, 2011.
  8. Takeru Honda*, Tadashi Yamazaki*, Shigeru Tanaka, Soichi Nagao, Tetsuro Nishino. Stimulus-dependent state transition between synchronized oscillation and randomly repetitive burst in a spiking model of the cerebellar granular layer, PLoS Computational Biology 7(7): e1002087, 2011 (pp. 1-15). (* Equally contributed.)
  9. 本多武尊、山崎匡、田中繁、西野哲朗. 小脳スパイキングネットワークモデルにおける条件刺激強度依存性タイミング制御, 情報処理学会論文誌数理モデル化と応用3(2) 1-10, 2010.
  10. Tadashi Yamazaki and Shigeru Tanaka. Robust reservoir generation by correlation-based learning, Advances in Articial Neural Networks, Vol. 2009, Article ID 467128, 2009 (pp. 1-7).
  11. 本多武尊、山崎匡、田中繁、西野哲朗. 小脳顆粒層をモデル化したスパイキングネットワークの研究:NMDA 受容体を介した同期発火状態と時間表現状態の遷移, 電子情報通信学会 論文誌D, J91-D(11) 2709-2718, 2008.
  12. Tadashi Yamazaki and Shigeru Tanaka. A spiking network model for passage-of-time representation in the cerebellum, European Journal of Neuroscience, 26(8) 2279-2292, 2007.
  13. Tadashi Yamazaki and Shigeru Tanaka. The cerebellum as a liquid state machine, Neural Networks 20(3) 290-297, 2007.
  14. Shigeru Tanaka, Toshiki Tani, Jerome Ribot and Tadashi Yamazaki. Chronically mountable goggles for persistent exposure to single orientation, Journal of Neuroscience Methods, 160(2) 206-214, 2007.
  15. 真鍋秀聡、西野哲朗、山崎匡、田中繁. インターナルクロックモデルに基づくロボット制御法の実現, 情報処理学会論文誌数理モデル化と応用, 48(SIG19) 139-154, 2007.
  16. Tadashi Yamazaki and Shigeru Tanaka. Neural modeling of an internal clock, Neural Computation, 17(5) 1032-1058, 2005.
  17. Tadashi Yamazaki and Shigeru Tanaka. A neural network model for trace conditioning, International Journal of Neural Systems, 15(1&2) 23-30, 2005.
  18. Vassiliy Tsytsarev, Tadashi Yamazaki, Jerome Ribot, and Shigeru Tanaka. Sound frequency representation in cat auditory cortex, NeuroImage, 23(4) 1246-1255, 2004.
  19. Tadashi Yamazaki. Mathematical analysis of a correlation-based model for orientation map formation, Neural Networks, 16(1) 47-54, 2003.
  20. Tadashi Yamazaki. A mathematical analysis of development of oriented receptive fields in Linsker's model, Neural Networks, 15(2) 125-131, 2002.

解説論文

  1. 山﨑 匡. 小脳内部時計とタイミング制御. 神経内科 78(6):635-641, 2013.
  2. 山崎匡. 小脳内部時計の神経機構と機能的役割. 臨床神経学 52(11) 990-993, 2012.
  3. 永雄総一, 山崎匡. まだ解かれていない七つの小脳の基本的研究課題. 生体の科学 63(1): 3-10, 2012.
  4. 山崎匡. 現代の小脳パーセプトロン仮説. 日本神経回路学会論文誌18(1) 22-30, 2011.
  5. Tadashi Yamazaki, Shigeru Tanaka. Computational models of timing mechanisms in the cerebellar granular layer. The Cerebellum 8(4) 423-432, 2009.
  6. 山崎匡. 万能シミュレータとしての小脳は非線形性をどのように活用しているか. 科学 11月号1224-1227 岩波書店, 2008.

国際会議

  1. Tadashi Yamazaki. Modeling the cerebellum: Top-down approach and bottom-up approach. 38th Annual Meeting of the Japan Neuroscience Society Symposium "Integration of top-down and bottom-up approaches in cerebellar research", July 28-31, 2015, Kobe.
  2. Tadashi Yamazaki. TBA. JNNS Workshop "Data-driven approach for understanding cerebellar mechanisms on eye movement control". August 1, 2015, UEC Tokyo, Chofu.
  3. Tadashi Yamazaki. Building a 1 mm^3 cerebellar module on a computer (Invited). Workshop3 "Neuromorphic Computing and Challenges", INCF Congress Neuroinformatics 2015. Aug 20-22, 2015, Cairns, Australia.
  4. Masato Gosui, Tadashi Yamazaki. Realtime simulation of memory consolidation in a large-scale cerebellar model. INCF Congress Neuroinformatics 2015. Aug 20-22, 2015, Cairns, Australia.
  5. Tadashi Yamazaki. Code generator for spatial neuron model simulation with graphics processing units. Neuroscience 2015, October 17-21, 2015, Chicago, USA.
  6. Ohki Katakura, Tadashi Yamazaki. A theoretical model for robust representation of the passage of time by feedback signals. Neuroscience 2015, October 17-21, 2015, Chicago, USA.
  7. Daisuke Ichimura, Tadashi Yamazaki. Computer simulation of a brain-musculoskeletal dynamical model for bipedal walking towards personalized rehabilitation. Neuroscience 2015, October 17-21, 2015, Chicago, USA.
  8. William Lennon, Robert Hecht-Nielsen, Tadashi Yamazaki. A simulation of cerebellar function with learning at parallel fiber – molecular layer interneurons. Program No. 341.09. 2014 Neuroscience Meeting Planner. Washington DC: Society for Neuroscience, 2014. Online. 44th Annual Meeting of Society for Neuroscience, Nov 15-19, Washington DC, USA.
  9. Tadashi Yamazaki. Realtime simulation of one-million spiking neurons in a realistic cerebellar model using multiple GPUs (Oral presentation). Advances in Neuroinformatics (AINI2014), Sep 25,26, 2014, RIKEN Brain Science Institute.
  10. JunWen Luo, Graeme Coapes, Terrence Mak, Tadashi Yamazaki, Chung Tin, Patrick Degenaar. A Scalable FPGA-based Cerebellum for Passage-of-Time Representation. 36th Annual International Conference of the IEEE Engineering in Medicine and Biological Society (EMBC’14), Aug 26-30, 2014, Chicago, USA.
  11. Masato Gosui, Tadashi Yamazaki, Yoko Yamaguchi. Accelerating NEURON Simulator by GPU. GPU Technology Conference (GTC14), Mar 24-27, 2014, San Jose, California, USA.
  12. William C Lennon Jr, Tadashi Yamazaki, Robert Hecht-Nielsen. A computational model of the cerebellum with learning at parallel fiber - Basket cell synapses. Program No. 469.18. 2013 Neuroscience Meeting Planner. San Diego, CA: Society for Neuroscience, 2013. Online. 43rd Annual Meeting of Society for Neuroscience, Nov 9-13, San Diego, California, USA.
  13. Tadashi Yamazaki, Jun Igarashi, Soichi Nagao. Real-life time computer simulation of long-term cerebellar motor learning. Program No. 469.22. 2013 Neuroscience Meeting Planner. San Diego, CA: Society for Neuroscience, 2013. Online. 43rd Annual Meeting of Society for Neuroscience, Nov 9-13, San Diego, California, USA.
  14. Tadashi Yamazaki, Jun Igarashi, Soichi Nagao. Computer simulation of cerebellar motor learning in real-world time. Gordon research conference (GRC) on cerebellum, Aug 11-16 2013, New Hampshire, USA.
  15. Tadashi Yamazaki. Realtime Cerebellum: GPU-accelerated numerical simulation of a cerebellar spiking network model in realtime. Workshop on Computations in the cerebellar circuit: advances on the modeling front (Invited), Computational Neuroscience (CNS) 2013 Paris, Jul 17-18 2013, Paris, France.
  16. Manabu Inaba, Tadashi Yamazaki. An Actor-Critic Model of Saccade Adaptation. Computational Neuroscience (CNS) 2013 Paris, Jul 14-16 2013, Paris, France. (旅費の一部は電気通信大学創立80周年記念学術交流基金の助成を受けた)
  17. Mamoru Kubota, Tadashi Yamazaki, Tetsuro Nishino. Brain-Inspired Motion Programming for Hobby-Use Humanoid Robots. 14th IEEE/ACIS International Conference on Software Engineering, Artificial Intelligence, Networking and Parallel/Distributed Computing (SNPD 2013), Jul 1-3 2013, Honolulu, Hawaii, USA.
  18. Tadashi Yamazaki. Building the artificial cerebellum on a computer. Neuro2013 Satellite Symposium "The cerebellum - from molecular biology to cognitive science" (Invited). Kyoto, Jun 22, 2013.
  19. Tadashi Yamazaki. Realtime simulation of a cerebellar spiking network model using a GPU. Open Source Brain Kickoff Meeting (Invited), May 13-15 2013, Sardina, Italy.
  20. Tadashi Yamazaki. Realtime simulation of a cerebellar spiking network model towards neuroprosthesis. AAAI Spring Symposium Series "Data driven wellness: From Self-Tracking to Behavior Change", Mar 25-27 2013, Palo Alto, CA, USA.
  21. Tadashi Yamazaki, Soichi Nagao. Modeling Post-training Memory Transfer in Cerebellar Motor Learning. T. Huang et al. (Eds.): ICONIP 2012, Part III, LNCS 7665, pp. 417-424. 2012. Nov 12-15, Doha, Qatar.
  22. Tadashi Yamazaki, Soichi Nagao. Theoretical study on importance of a post-training period for memory transfer in cerebellar motor learning. Program No. 379.12. 2012 Neuroscience Meeting Planner. New Orleans, LA: Society for Neuroscience, 2012. Online. 42nd Annual Meeting of Society for Neuroscience, Oct 13-17, New Orleans, Louisiana, USA.
  23. Tadashi Yamazaki, Jun Igarashi. Realtime Cerebellum: Realtime Simulation of a Realistic Cerebellar Model using a GPU for Real-World Engineering Applications. GPU Technology Conference 2012, May 13-19 2012, San Jose, California, USA.
  24. Hidetoshi Ikeno, Tadashi Yamazaki, Yoshihiro Okumura, Shunji Satoh, Yoshimi Kamiyama, Yutaka Hirata, Keiichiro Inagaki, Akito Ishihara, Takayuki Kannon, Shiro Usui. Simulation Platform: Quick and easy access environment of model simulation in computational neuroscience Neuroinformatics 2011. Boston, USA, September 4-6, 2011.
  25. Tadashi Yamazaki, Hidetoshi Ikeno, Yoshihiro Okumura, Shunji Satoh, Yoshimi Kamiyama, Yutaka Hirata, Keiichiro Inagaki, Akito Ishihara, Kannon Takayuki, Shiro Usui. Simulation Platform: Cloud-computing meets computational neuroscience. Twentieth Annual Computational Neuroscience Meeting (CNS*2011). Stockholm, Sweden, July 23-28, 2011.
  26. Shiro Usui, Tadashi Yamazaki, Hidetoshi Ikeno, Yoshihiro Okumura, Shunji Satoh, Yoshimi Kamiyama, Yutaka Hirata, Keiichiro Inagaki, Akito Ishihara, Takayuki Kannon, Nilton Liuji Kamiji, Fumihiko Akazawa. Simulation Platform: Model simulation on the cloud. Neuroinformatics 2010. Front. Neurosci. doi: 10.3389/conf.fnins.2010.13.00100. Kobe, Aug 30-Sep 1, 2010.
  27. Takeru Honda, Tadashi Yamazaki, Shigeru Tanaka and Tetsuro Nishino. A spiking network model of the cerebellar granular layer shows stimulus-dependent state transition between synchronized oscillation and randomly repetitive burst. 7th Forum of European Neuroscience. Program No. 052.17. Amsterdam, The Neitherlands, July 3-7, 2010.
  28. Takeru Honda, Tadashi Yamazaki, Shigeru Tanaka and Tetsuro Nishino. A possible mechanism for controlling timing representation in the cerebellar cortex. Seventh International Symposium on Neural Networks (ISNN 2010). L. Zhang, B. L. Lu and J Kwok (Eds.), LNCS 6063, pp. 67-76. Shanghai, China, June 6-9, 2010.
  29. Tadashi Yamazaki and Soichi Nagao. A Role of Constraint in Cerebellar Learning and Memory Transfer. Program No. 367.7. 2009 Neuroscience Meeting Planner. Chicago, IL: Society for Neuroscience, 2009. Online. Chicago, IL, Oct 17-21, 2009.
  30. Takeru Honda, Tadashi Yamazaki, Shigeru Tanaka and Tetsuro Nishino. A spiking network model of the cerebellar granular layer: Stimulus-strength-dependent timing control. Program No. 367.3. 2009 Neuroscience Meeting Planner. Chicago, IL: Society for Neuroscience, 2009. Online. Chicago, IL, Oct 17-21, 2009.
  31. Tadashi Yamazaki and Soichi Nagao. A computational model of the cerebellum for motor memory transfer. 38th Annual Meeting of the Society for Neuroscience, Washington DC. November 15-19, 2008.
  32. Tadashi Yamazaki, Soichi Nagao. A spiking network model of the cerebellum for optokinetic response eye movements. 37th Annual Meeting of the Society for Neuroscience, San Diego CA, US. November 3-7, 2007.
  33. Tadashi Yamazaki, Shigeru Tanaka. Input-dependent transition between synchronized state and time-representing state in the model cerebellar granular layer. 36th Annual Meeting of the Society for Neuroscience, Atlanta GA, US. October 14-18, 2006.
  34. Tadashi Yamazaki, Shigeru Tanaka. Realistic modeling of the cerebellum. 35th Annual Meeting of the Society for Neuroscience, Washington DC, US. November 12-16, 2005.
  35. Tadashi Yamazaki, Shigeru Tanaka. Building the Cerebellum in a Computer. 15th International Conference on Artificial Neural Networks (ICANN 2005), Duch W et al. (Eds.), LNCS 3696, pp. 71-77. Warsaw, Poland, September 11-15, 2005.
  36. Tadashi Yamazaki, Shigeru Tanaka. A neural network model for trace conditioning, 11th International Conference on Neural Information Processing (ICONIP2004), N. R. Pal et al. (Eds.), LNCS 3316, pp. 288-293. Kolkata, India, November 22-25, 2004.
  37. Tadashi Yamazaki, Shigeru Tanaka. Neural modelling of an internal clock, Neuroscience Meeting, New Orleans, US, November 7-12,2003.
  38. Shigeru Tanaka, Tadashi Yamazaki. Computational Models for the Representation of Time and Sequence in the Brain. 2nd International Forum on Language, Brain and Cognition, Brain Imaging, Aphasiology, and Computational Modeling. Tohoku University, 2003.
  39. Tadashi Yamazaki. A Mathematical Analysis of a Correlation Based Model for the Orientation Map Formation. International Conference on Artificial Neural Networks, G. Dorffner, H. Bischof, Kurt Hornik (Eds), LNCS 2130, pp. 1121-1128. Vienna, Austria, August 21-25, 2001.
  40. Tadashi Yamazaki. On a Mathematical Analysis of Development of Oriented Receptive Fields in Linsker's model. International Workshop on Dynamical Neural Networks and Applications. Bielefeld, Germany, November 20-24, 2000.
  41. Tadashi Yamazaki, Shinichi Asakawa. On a Mathematical Analysis of Development of Oriented Receptive Fields in V1 cells. European Conference on Visual Perception (ECVP99). Trieste, Italy, Aug 20-24, 1999.
  42. Carlos Domingo, Osamu Watanabe, Tadashi Yamazaki. A Role of Constraint in Self-Organization, Randomization and Approximation Techniques in Computer Science, M. Luby, J. Rolim, M. Serna (Eds.), LNCS 1518, pp. 307-318. Barcelona, Spain, Oct 10-16, 1998.

国内発表

  1. 山﨑 匡. 人工小脳の構築を目指して (招待講演). 東海大学シンポジウム「若手研究者による小脳研究の最前線」, 2015年1月10日, 東海大学高輪キャンパス.
  2. 山﨑 匡, 市村 大輔. 人工小脳の更なる大規模化. 第7回アクセラレーション技術発表討論会, 2015年4月9-10日, 光産業創成大学, 浜松.
  3. Tadashi Yamazaki. TBA. 日本神経回路学会全国大会 企画セッション「HPC」. 2015年9月2-4日, 電気通信大学.
  4. 山﨑 匡. 前庭動眼反射の長期適応に関する小脳モデル. 第25回日本神経回路学会全国大会. 2015年9月2-4日, 電気通信大学.
  5. 五水井 柾人, 山﨑 匡. 小脳の記憶の定着における大規模実時間シミュレーション. 第25回日本神経回路学会全国大会. 2015年9月2-4日, 電気通信大学.
  6. 片倉央揮, 山﨑 匡. 時間情報処理のための大脳基底核モデル. 第25回日本神経回路学会全国大会. 2015年9月2-4日, 電気通信大学.
  7. 市村 大輔, 矢野 諭, 山﨑 匡. 脳-筋骨格系モデルによる2足歩行シミュレーション. 第25回日本神経回路学会全国大会. 2015年9月2-4日, 電気通信大学.
  8. Tadashi Yamazaki, Jun Igarashi. One-million spiking neuron simulation in realtime on multi GPUs. 第24回日本神経回路学会全国大会 (JNNS2014), 2014年8月27-29日, 公立はこだて未来大学.
  9. Ohki Katakura, Tadashi Yamazaki. Feedback signals improve robustness of the representation of time (口頭発表). 第24回日本神経回路学会全国大会 (JNNS2014), 2014年8月27-29日, 公立はこだて未来大学.
  10. 市村 大輔, 矢野 諭, 山﨑 匡. リハビリへの応用を目的とした脳数理モデルと筋骨格系動力学モデルのシミュレーション. 第8回モーターコントロール研究会, 2014年8月7-9日, 筑波大学.
  11. 山﨑 匡, 安室 脩星, 市村 大輔. 予測する小脳. 第6回アクセラレーション技術発表討論会, 2014年6月19,20日, 沖縄科学技術大学院大学.
  12. 山﨑 匡. 人工小脳の学習と予測に基づく小型ヒューマノイドロボットの運動制御. 第22回人工知能研究発表講演会 (招待講演). 2013年12月5日, 財団法人人工知能研究振興財団.
  13. 山﨑 匡. 小脳を作って小脳を理解する. 第87回Brain Club (招待講演). 2013年11月1日, 慶応大学.
  14. 山﨑 匡. 小脳のシミュレーション. 第3回情報数理工学セミナー. 2013年10月25日, 電気通信大学.
  15. 山﨑 匡. GPUによる小脳スパイキングネットワークモデルの実時間シミュレーション. 第5回アクセラレーション技術発表討論会「脳を超えよう!」(招待講演). 2013年9月5,6日, 会津大学.
  16. 久保田 守, 山﨑 匡, 西野哲朗. ヒューマノイドロボットのモーションデータにおける運動プリミティブの自己組織化. Neuro 2013, 2013年6月20-23日 京都国際会館.
  17. 稲葉 学, 山﨑 匡. 教師付学習のための教師信号の強化学習. Neuro 2013, 2013年6月20-23日 京都国際会館.
  18. 山﨑 匡, 五十嵐 潤, 永雄総一. 小脳運動学習における長期トレーニングの実世界時間シミュレーション. Neuro 2013, 2013年6月20-23日 京都国際会館.
  19. 山﨑 匡. コンピュータ上に小脳を創る. 第6回次世代医師・研究者交流会 (招待講演), 2013年2月19日 自治医科大学.
  20. 山崎 匡, 永雄 総一. 小脳運動学習におけるポストトレーニング時のメモリトランスファーの理論. 第22回日本神経回路学会全国大会 (JNNS2012), 2012年9月12-14日 名古屋工業大学.
  21. 山崎匡. 小脳内部時計の神経機構と機能的役割 (招待講演). シンポジウム「小脳症状とは何か」 第53回日本神経学会学術大会, 2012年5月23-25日 東京国際フォーラム.
  22. Tadashi Yamazaki. Some questions on cerebellar computation: I need you help! (招待講演) Inter-cultural communication via CompView, Student event "RA Day" affiliated by CompView GCOE @TITECH. Tokyo, Dec 1, 2010.
  23. Tadashi Yamazaki. Dynamic Walk for a Hobby-Use Commodity Robot, 28th Annual Conference of the Robotics Society of Japan (RSJ2010). Nagoya, Sep 22-24, 2010.
  24. Tadashi Yamazaki, Soichi Nagao. A Role of Constraint in Cerebellar Learning and Memory Transfer, Annual Meeting of Japanese Neural Network Society (JNNS2009), Tohoku University, Sendai, Sep 24-26, 2009.
  25. Takeru Honda, Tadashi Yamazaki, Shigeru Tanaka and Tetsuro Nishino. A spiking network model of the cerebellar granular layer: Stimulus-strength-dependent timing control. Annual Meeting of Japanese Neural Network Society (JNNS2009), Tohoku University, Sendai, Sep 24-26, 2009.
  26. 山崎匡. 小脳の計算機構の完全理解とその応用を目指して (招待講演). シンポジウム「脳科学の夢と使命 "Dream and Mission of Brain Science"」. 第19 回日本神経回路学会全国大会. 東北大学. 2009 年9 月24--26 日.
  27. Tadashi Yamazaki. Cerebellar models for timing mechanisms. 3rd Motor Control Conference, National Institute for Physiological Sciences, Okazaki, May 28-30, 2009.
  28. 山崎匡. Large-scale computational model of the cerebellum for simultaneous control of timing and gain of movement. (招待講演) 平成20 年度ミニシンポジウム「小脳・脳幹による運動の制御と学習:神経生理,数理モデル,実機制御」, 文部科学省ハイテク・リサーチ・センター 整備事業「次世代先進計測基盤技術の開発と応用」. 中部大学. 2008 年11 月27 日.
  29. Tadashi Yamazaki, Soichi Nagao. A spiking network model of the cerebellum for motor memory transfer. Annual Conference of Japanese Neural Network Society (JNNS2008), Tsukuba, September 24-26, 2008.
  30. Takeru Honda, Tadashi Yamazaki, Shigeru Tanaka and Tetsuro Nishino. A study of timing mechanism and state transition in a spiking network model of the cerebellar granular layer. IEICE Technical Committee on Neurocomputing (NC), Hokkaido, January 15-16, 2008. IEICE Technical Report NC2007-95 (2008-1)
  31. Tadashi Yamazaki, Shigeru Tanaka. Realistic modeling of the cerebellum. Annual Conference of Japanese Neural Network Society (JNNS2005), September 20-22, 2005.
  32. Tadashi Yamazaki, Shigeru Tanaka. Building the Cerebellum in a Computer, CREST-RIKEN Workshop 2005.
  33. Tadashi Yamazaki, Shigeru Tanaka. Neural modeling of an internal clock, Annual Conference of Japanese Neural Network Society, September 8-10, 2003.
  34. Tadashi Yamazaki. Self-organization of visual neural network models. SOM Mini Workship, Saitama University, January 16, 2003.
  35. Tadashi Yamazaki. Mathematical Analysis of Neural Network Models for Emergence of Orientation Selectivity. Brain Research Symposium TITECH, November 2001.
  36. Tadashi Yamazaki. Mathematical Analysis of a Correlation-Based Model for Orientation Map Formation. Annual Conference of Japanese Neural Network Society, 2001.
  37. Tadashi Yamazaki. Mathematical Analysis of a Neural Network Model for Emergence of Orientation Selectivity. LA Symposium, 2001.
  38. Tadashi Yamazaki. A Mathematical Analysis of a Correlation-Based Model for Orientation Map Formation. NC Meeting in June, 2001.
  39. Tadashi Yamazaki. On a Mathematical Analysis of a Correlation Based Model of Orientation Selectivity. Annual Conference of Japanese Neural Network Society, 1999.
  40. Osamu Watanabe, Tadashi Yamazaki. Orientation Selectivity: A Mathematical Framework. LA Symposium, 1998.
  41. Osamu Watanabe, Tadashi Yamazaki. The Orientation Selectivity Problem: An Approach from Theoretical Computer Science. RIMS, Kyoto University, 1998.