Memory models of adaptive behavior

Fabio Lorenzo Traversa; Yuriy V. Pershin; Massimiliano Di Ventra

doi:10.1109/TNNLS.2013.2261545

Memory models of adaptive behavior

Fabio Lorenzo Traversa, Yuriy V. Pershin, Massimiliano Di Ventra

Departament d'Enginyeria Electrònica

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Resum

Adaptive response to varying environment is a common feature of biological organisms. Reproducing such features in electronic systems and circuits is of great importance for a variety of applications. We consider memory models inspired by an intriguing ability of slime molds to both memorize the period of temperature and humidity variations and anticipate the next variations to come, when appropriately trained. Effective circuit models of such behavior are designed using: 1) a set of LC contours with memristive damping and 2) a single memcapacitive system-based adaptive contour with memristive damping. We consider these two approaches in detail by comparing their results and predictions. Finally, possible biological experiments that would discriminate between the models are discussed. In this paper, we also introduce an effective description of certain memory circuit elements. © 2012 IEEE.

Idioma original	Anglès
Número d’article	6525332
Pàgines (de-a)	1437-1448
Revista	IEEE Transactions on Neural Networks and Learning Systems
Volum	24
Número	9
DOIs	https://doi.org/10.1109/TNNLS.2013.2261545
Estat de la publicació	Publicada - 11 de juny 2013

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title = "Memory models of adaptive behavior",

abstract = "Adaptive response to varying environment is a common feature of biological organisms. Reproducing such features in electronic systems and circuits is of great importance for a variety of applications. We consider memory models inspired by an intriguing ability of slime molds to both memorize the period of temperature and humidity variations and anticipate the next variations to come, when appropriately trained. Effective circuit models of such behavior are designed using: 1) a set of LC contours with memristive damping and 2) a single memcapacitive system-based adaptive contour with memristive damping. We consider these two approaches in detail by comparing their results and predictions. Finally, possible biological experiments that would discriminate between the models are discussed. In this paper, we also introduce an effective description of certain memory circuit elements. {\textcopyright} 2012 IEEE.",

keywords = "Adaptive frequency, amoeba, dynamical systems, learning, memcapacitive system, memory, memristor, synchronization",

author = "Traversa, \{Fabio Lorenzo\} and Pershin, \{Yuriy V.\} and \{Di Ventra\}, Massimiliano",

year = "2013",

month = jun,

day = "11",

doi = "10.1109/TNNLS.2013.2261545",

language = "English",

volume = "24",

pages = "1437--1448",

number = "9",

}

TY - JOUR

T1 - Memory models of adaptive behavior

AU - Traversa, Fabio Lorenzo

AU - Pershin, Yuriy V.

AU - Di Ventra, Massimiliano

PY - 2013/6/11

Y1 - 2013/6/11

N2 - Adaptive response to varying environment is a common feature of biological organisms. Reproducing such features in electronic systems and circuits is of great importance for a variety of applications. We consider memory models inspired by an intriguing ability of slime molds to both memorize the period of temperature and humidity variations and anticipate the next variations to come, when appropriately trained. Effective circuit models of such behavior are designed using: 1) a set of LC contours with memristive damping and 2) a single memcapacitive system-based adaptive contour with memristive damping. We consider these two approaches in detail by comparing their results and predictions. Finally, possible biological experiments that would discriminate between the models are discussed. In this paper, we also introduce an effective description of certain memory circuit elements. © 2012 IEEE.

AB - Adaptive response to varying environment is a common feature of biological organisms. Reproducing such features in electronic systems and circuits is of great importance for a variety of applications. We consider memory models inspired by an intriguing ability of slime molds to both memorize the period of temperature and humidity variations and anticipate the next variations to come, when appropriately trained. Effective circuit models of such behavior are designed using: 1) a set of LC contours with memristive damping and 2) a single memcapacitive system-based adaptive contour with memristive damping. We consider these two approaches in detail by comparing their results and predictions. Finally, possible biological experiments that would discriminate between the models are discussed. In this paper, we also introduce an effective description of certain memory circuit elements. © 2012 IEEE.

KW - Adaptive frequency

KW - amoeba

KW - dynamical systems

KW - learning

KW - memcapacitive system

KW - memory

KW - memristor

KW - synchronization

UR - https://www.scopus.com/pages/publications/84882903671

U2 - 10.1109/TNNLS.2013.2261545

DO - 10.1109/TNNLS.2013.2261545

M3 - Article

SN - 2162-237X

VL - 24

SP - 1437

EP - 1448

JO - IEEE Transactions on Neural Networks and Learning Systems

JF - IEEE Transactions on Neural Networks and Learning Systems

IS - 9

M1 - 6525332

ER -

Memory models of adaptive behavior

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