Robustness Analysis on Dual Neural Network-based kWTA with Input Noise

Ruibin Feng; Chi-Sing Leung; John Sum

doi:10.1109/TNNLS.2016.2645602

Robustness Analysis on Dual Neural Network-based kWTA with Input Noise

Ruibin Feng, Chi-Sing Leung^*, John Sum

^*Corresponding author for this work

Department of Electrical Engineering

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

32 Citations (Scopus)

Abstract

This paper studies the effects of uniform input noise and Gaussian input noise on the dual neural networkbased kWTA (DNN-kWTA) model. We show that the state of the network (under either uniform input noise or Gaussian input noise) converges to one of the equilibrium points. We then derive a formula to check if the network produce correct outputs or not. Furthermore, for the uniformly distributed inputs, two lower bounds (one for each type of input noise) on the probability that the network produces the correct outputs are presented. Besides, when the minimum separation amongst inputs is given, we derive the condition for the network producing the correct outputs. Finally, experimental results are presented to verify our theoretical results. Since random drift in the comparators can be considered as input noise, our results can be applied to the random drift situation.

Original language	English
Pages (from-to)	1082-1094
Journal	IEEE Transactions on Neural Networks and Learning Systems
Volume	29
Issue number	4
Online published	6 Feb 2017
DOIs	https://doi.org/10.1109/TNNLS.2016.2645602
Publication status	Published - Apr 2018

Research Keywords

Convergence
dual neural network-based kWTA (DNN-kWTA)
minimum separation
winner-take-all (WTA)

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title = "Robustness Analysis on Dual Neural Network-based kWTA with Input Noise",

abstract = "This paper studies the effects of uniform input noise and Gaussian input noise on the dual neural networkbased kWTA (DNN-kWTA) model. We show that the state of the network (under either uniform input noise or Gaussian input noise) converges to one of the equilibrium points. We then derive a formula to check if the network produce correct outputs or not. Furthermore, for the uniformly distributed inputs, two lower bounds (one for each type of input noise) on the probability that the network produces the correct outputs are presented. Besides, when the minimum separation amongst inputs is given, we derive the condition for the network producing the correct outputs. Finally, experimental results are presented to verify our theoretical results. Since random drift in the comparators can be considered as input noise, our results can be applied to the random drift situation. ",

keywords = "Convergence, dual neural network-based kWTA (DNN-kWTA), minimum separation, winner-take-all (WTA)",

author = "Ruibin Feng and Chi-Sing Leung and John Sum",

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T1 - Robustness Analysis on Dual Neural Network-based kWTA with Input Noise

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AU - Leung, Chi-Sing

AU - Sum, John

PY - 2018/4

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N2 - This paper studies the effects of uniform input noise and Gaussian input noise on the dual neural networkbased kWTA (DNN-kWTA) model. We show that the state of the network (under either uniform input noise or Gaussian input noise) converges to one of the equilibrium points. We then derive a formula to check if the network produce correct outputs or not. Furthermore, for the uniformly distributed inputs, two lower bounds (one for each type of input noise) on the probability that the network produces the correct outputs are presented. Besides, when the minimum separation amongst inputs is given, we derive the condition for the network producing the correct outputs. Finally, experimental results are presented to verify our theoretical results. Since random drift in the comparators can be considered as input noise, our results can be applied to the random drift situation.

AB - This paper studies the effects of uniform input noise and Gaussian input noise on the dual neural networkbased kWTA (DNN-kWTA) model. We show that the state of the network (under either uniform input noise or Gaussian input noise) converges to one of the equilibrium points. We then derive a formula to check if the network produce correct outputs or not. Furthermore, for the uniformly distributed inputs, two lower bounds (one for each type of input noise) on the probability that the network produces the correct outputs are presented. Besides, when the minimum separation amongst inputs is given, we derive the condition for the network producing the correct outputs. Finally, experimental results are presented to verify our theoretical results. Since random drift in the comparators can be considered as input noise, our results can be applied to the random drift situation.

KW - Convergence

KW - dual neural network-based kWTA (DNN-kWTA)

KW - minimum separation

KW - winner-take-all (WTA)

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JO - IEEE Transactions on Neural Networks and Learning Systems

JF - IEEE Transactions on Neural Networks and Learning Systems

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ER -

Robustness Analysis on Dual Neural Network-based kWTA with Input Noise

Abstract

Research Keywords

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