Optimal signal amplification in weighted scale-free networks

Xiaoming Liang; Liang Zhao; Zonghua Liu

doi:10.1063/1.4718723

Optimal signal amplification in weighted scale-free networks

Xiaoming Liang^*
, Liang Zhao
, Zonghua Liu

^*Corresponding author for this work

School of Physics and Electronic Science

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

It has been revealed that un-weighted scale-free (SF) networks have an effect of amplifying weak signals [Acebrón et al., Phys. Rev. Lett. 99, 128701 (2007)]. Such a property has potential applications in neural networks and artificial signaling devices. However, many real and artificial networks, including the neural networks, are weighted ones with adaptive and plastic couplings. For this reason, here we study how the weak signal can be amplified in weighted SF networks by introducing a parameter to self-tune the coupling weights. We find that the adaptive weights can significantly extend the range of coupling strength for signal amplification, in contrast to the relatively narrow range in un-weighted SF networks. As a consequence, the effect of finite network size occurred in un-weighted SF networks can be overcome. Finally, a theory is provided to confirm the numerical results.

Original language	English
Article number	023128
Journal	Chaos
Volume	22
Issue number	2
DOIs	https://doi.org/10.1063/1.4718723
State	Published - 4 Apr 2012

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10.1063/1.4718723

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title = "Optimal signal amplification in weighted scale-free networks",

abstract = "It has been revealed that un-weighted scale-free (SF) networks have an effect of amplifying weak signals [Acebr{\'o}n et al., Phys. Rev. Lett. 99, 128701 (2007)]. Such a property has potential applications in neural networks and artificial signaling devices. However, many real and artificial networks, including the neural networks, are weighted ones with adaptive and plastic couplings. For this reason, here we study how the weak signal can be amplified in weighted SF networks by introducing a parameter to self-tune the coupling weights. We find that the adaptive weights can significantly extend the range of coupling strength for signal amplification, in contrast to the relatively narrow range in un-weighted SF networks. As a consequence, the effect of finite network size occurred in un-weighted SF networks can be overcome. Finally, a theory is provided to confirm the numerical results.",

author = "Xiaoming Liang and Liang Zhao and Zonghua Liu",

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AU - Liang, Xiaoming

AU - Zhao, Liang

AU - Liu, Zonghua

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N2 - It has been revealed that un-weighted scale-free (SF) networks have an effect of amplifying weak signals [Acebrón et al., Phys. Rev. Lett. 99, 128701 (2007)]. Such a property has potential applications in neural networks and artificial signaling devices. However, many real and artificial networks, including the neural networks, are weighted ones with adaptive and plastic couplings. For this reason, here we study how the weak signal can be amplified in weighted SF networks by introducing a parameter to self-tune the coupling weights. We find that the adaptive weights can significantly extend the range of coupling strength for signal amplification, in contrast to the relatively narrow range in un-weighted SF networks. As a consequence, the effect of finite network size occurred in un-weighted SF networks can be overcome. Finally, a theory is provided to confirm the numerical results.

AB - It has been revealed that un-weighted scale-free (SF) networks have an effect of amplifying weak signals [Acebrón et al., Phys. Rev. Lett. 99, 128701 (2007)]. Such a property has potential applications in neural networks and artificial signaling devices. However, many real and artificial networks, including the neural networks, are weighted ones with adaptive and plastic couplings. For this reason, here we study how the weak signal can be amplified in weighted SF networks by introducing a parameter to self-tune the coupling weights. We find that the adaptive weights can significantly extend the range of coupling strength for signal amplification, in contrast to the relatively narrow range in un-weighted SF networks. As a consequence, the effect of finite network size occurred in un-weighted SF networks can be overcome. Finally, a theory is provided to confirm the numerical results.

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SN - 1054-1500

VL - 22

JO - Chaos

JF - Chaos

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Optimal signal amplification in weighted scale-free networks

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