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Adaptive neural learning system 원문보기

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • G06F-015/18
출원번호 US-0455251 (1999-12-06)
발명자 / 주소
  • Francisco Jose Ayala
대리인 / 주소
    Ditthavong & Carlson, P.C.
인용정보 피인용 횟수 : 25  인용 특허 : 26

초록

An adaptive integration network includes a plurality of interconnected neurons that are configured to fire when their excitation level, which is responsive to weighted input signals, is greater than or equal to a threshold. When two neurons fire in close temporal proximity, the weight of the connect

대표청구항

1. A method of training a neural network, comprising:presenting an input data set to the neural network to produce an output; and increasing a number of firing neurons in the neural network until the output changes to a desired output.

이 특허에 인용된 특허 (26)

  1. Yamaguchi Isao,JPX ; Ichikawa Kazuhisa,JPX ; Okamoto Hiroshi,JPX, Associative storage and associative storing method.
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  2. Alkon Daniel L. (Bethesda MD) Vogl Thomas P. (Bethesda MD) Blackwell Kim L. (Rockville MD), Dynamically stable associative learning neural system.
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  3. Toomarian Nikzad (Encino CA) Barhen Jacob (La Crescenta CA), Fast temporal neural learning using teacher forcing.
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  4. Guha Aloke (Minneapolis MN) Harp Steven A. (St. Paul MN) Samad Tariq (Minneapolis MN), Genetic algorithm synthesis of neural networks.
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  5. Harvey Robert L. (Lexington MA), Genetic algorithm technique for designing neural networks.
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  6. Yatsuzuka Youtaro,JPX ; Enomoto Masaru,JPX, Learning procedure for multi-level neural network.
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  7. Black Christopher Lee, Method and system for training an artificial neural network.
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  8. Muller Robert U., Method for generating a representation of an environment.
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  9. Motomura Shuji (Yokahama) Furuta Toshiyuki (Yokahama) Eguchi Hirotoshi (Yokahama), Neural network and method for training the neural network.
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  10. Sakiyama Shiro (Osaka JPX) Maruyama Masakatsu (Osaka JPX) Nakahira Hiroyuki (Osaka JPX) Kouda Toshiyuki (Nara JPX) Maruno Susumu (Osaka JPX), Neural network circuit for adaptively controlling the coupling of neurons.
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  11. Rozmus J. Michael, Neural network for classification of patterns with improved method and apparatus for ordering vectors.
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  12. Duranton Marc (Boissy-Saint-Leger FRX) Gobert Jean (Maisons Alfort FRX) Sirat Jacques-Ariel (Limeil-Brevannes FRX), Neural network system and circuit for use therein.
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  13. Toomarian Nikzad ; Barhen Jacob, Neural network training by integration of adjoint systems of equations forward in time.
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  14. Shima Takeshi (Kanagawa JPX), Neural network with learning function based on simulated annealing and Monte-Carlo method.
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  15. Hiraiwa Atsunobu (Kanagawa JPX), Neural network with normalized learning constant for high-speed stable learning.
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  16. Jabri Marwan Anwar (Sydney AUX) Flower Barry Glen (Sydney AUX), Neural network with training by perturbation.
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  17. Sutherland John (27 Ontario Avenue Apartment 3 Hamilton ; Ontario CAX), Neural networks.
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  18. Steimle Andre,FRX ; Tannhof Pascal,FRX ; Paillet Guy,FRX, Neural semiconductor chip and neural networks incorporated therein.
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  19. Osawa Akira (Kanagawa-ken JPX), Pattern learning method.
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  20. Duvoisin ; III Herbert ; Beck Hal E. ; Brown Joe R. ; Bower Mark, Perceptive system including a neural network.
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  21. Watanabe Takao,JPX ; Kimura Katsutaka,JPX ; Itoh Kiyoo,JPX ; Kawajiri Yoshiki,JPX, Semiconductor integrated circuit device comprising a memory array and a processing circuit.
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  22. Furuta Toshiyuki (Yokohama JPX) Kitaguchi Takashi (Yokohama JPX) Eguchi Hirotoshi (Yokohama JPX), Signal processing apparatus having at least one neural network.
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  23. Huang Hsin-Hao (Kaohsiung TWX) Lin Shui-Shun (Tallahassee FL) Knapp Gerald M. (Baton Rouge LA) Wang Hsu-Pin (Tallahassee FL), Supervised training of a neural network.
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  24. Hirotsu Kenichi (Kyoto GA JPX) Brooke Martin A. (Atlanta GA), System and method for a learning neural network for generating random directions for weight changes.
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  25. Feldgajer Oleg,CAX, System and method for dynamic learning control in genetically enhanced back-propagation neural networks.
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  26. Shigematsu Yukifumi (Tsukuba JPX) Matsumoto Gen (Tsukuba JPX), Temporal learning neural network.
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  1. Nugent, Alex, Adaptive neural network utilizing nanotechnology-based components.
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  2. Nugent,Alex, Application of hebbian and anti-hebbian learning to nanotechnology-based physical neural networks.
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  3. Shetty, Ravindra K.; Thyagarajan, Venkatesan, Combinatorial approach for supervised neural network learning.
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  4. Repici, Dominic John, Feedback-tolerant method and device producing weight-adjustment factors for pre-synaptic neurons in artificial neural networks.
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  5. Nugent, Alex, Fractal memory and computational methods and systems based on nanotechnology.
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  7. Nugent, Alex, Hierarchical temporal memory methods and systems.
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  9. Campos, Marcos M.; Yarmus, Joseph Sigmund, Intelligent sampling for neural network data mining models.
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  10. Nugent, Alex, Memristive neural processor utilizing anti-hebbian and hebbian technology.
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  11. Terasawa,Takafumi, Method and apparatus for analyzing input information.
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  13. Ayala,Francisco J., Method, system and computer program for developing cortical algorithms.
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  14. Nugent, Alex, Methodology for the configuration and repair of unreliable switching elements.
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  17. Adams,Paul; Cox,Kingsley J. A.; Pinezich,John D., Neural network device for evolving appropriate connections.
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  18. Nugent,Alex, Pattern recognition utilizing a nanotechnology-based neural network.
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  19. Nugent,Alex, Physical neural network liquid state machine utilizing nanotechnology.
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  20. Nugent,Alex, Plasticity-induced self organizing nanotechnology for the extraction of independent components from a data stream.
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  21. Nugent,Alex, Temporal summation device utilizing nanotechnology.
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  24. Nugent,Alex, Utilized nanotechnology apparatus using a neutral network, a solution and a connection gap.
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