Resource data
Analog integrated circuits for the Lotka-Volterra competitive neural networks
Asai, Tetsuya
Ohtani, Masashiro
Yonezu, Hiroo
??, ??
Location:
http://hdl.handle.net/2115/5414
IEEE Transactions on Neural Networks. 10(5), 1999, 1222-1231
http://dx.doi.org/10.1109/72.788661
A subthreshold MOS integrated circuit (IC) is designed and fabricated for implementing a competitive neural network of the Lotka-Volterra (LV) type which is derived from conventional membrane dynamics of neurons and is used for the selection of external inputs. The steady-state solutions to the LV equation can be classified into three types, each of which represents qualitatively different selection behavior. Among the solutions, the winners-share-all (WSA) solution in which a certain number of neurons remain activated in steady states is particularly useful owing to robustness in the selection of inputs from a noisy environment. The measured results of the fabricated LV ICs agree well with the theoretical prediction as long as the influence of device mismatches is small. Furthermore, results of extensive circuit simulations prove that the large-scale LV circuit producing the WSA solution does exhibit a reliable selection compared with winner-take-all circuits, in the possible presence of device mismatches
Belongs to: Hokkaido University Collection of Scholarly and Academic Papers
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Detalles del recurso
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Analog integrated circuits for the Lotka-Volterra competitive neural networks
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| Id. |
5709497 |
| Idioma |
inglés
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| Titulo |
Analog integrated circuits for the Lotka-Volterra competitive neural networks |
| Autor(es) |
Asai, Tetsuya
Ohtani, Masashiro
Yonezu, Hiroo
??, ??
|
| Location |
http://hdl.handle.net/2115/5414
IEEE Transactions on Neural Networks. 10(5), 1999, 1222-1231
http://dx.doi.org/10.1109/72.788661
|
| Versión |
1.0 |
| Estado |
Final
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| Descripción |
A subthreshold MOS integrated circuit (IC) is designed and fabricated for implementing a competitive neural network of the Lotka-Volterra (LV) type which is derived from conventional membrane dynamics of neurons and is used for the selection of external inputs. The steady-state solutions to the LV equation can be classified into three types, each of which represents qualitatively different selection behavior. Among the solutions, the winners-share-all (WSA) solution in which a certain number of neurons remain activated in steady states is particularly useful owing to robustness in the selection of inputs from a noisy environment. The measured results of the fabricated LV ICs agree well with the theoretical prediction as long as the influence of device mismatches is small. Furthermore, results of extensive circuit simulations prove that the large-scale LV circuit producing the WSA solution does exhibit a reliable selection compared with winner-take-all circuits, in the possible presence of device mismatches
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| Tipo |
819463 bytes
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| Palabras clave |
549
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| Tipo de recurso |
article
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| Tipo de Interactividad |
Expositivo
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| Nivel de Interactividad |
muy bajo
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| Audiencia |
Estudiante
Profesor
Autor
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| Estructura |
Atomic |
| Coste |
no
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| Copyright |
sí
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©1999 IEEE. Personal use of this material is permitted. However, permission to reprint/republish this material for advertising or promotional purposes or for creating new collective works for resale or redistribution to servers or lists, or to reuse any copyrighted component of this work in other works must be obtained from the IEEE.
IEEE, "IEEE Transactions on Neural Networks", 10-5, 1999, 1222-1231 |
| Formatos |
819463 bytes
application/pdf
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| Requerimientos técnicos |
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| Fecha de contribución |
25-oct-2007 |
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