Chu Kiong Loo scite author profile

This paper attempts to solve the typical problems of self-organizing growing network models, i.e. (a) an influence of the order of input data on the self-organizing ability, (b) an instability to high-dimensional data and an excessive sensitivity to noise, and (c) an expensive computational cost by integrating Kernel Bayes Rule (KBR) and Correntropy-Induced Metric (CIM) into Adaptive Resonance Theory (ART) framework. KBR performs a covariance-free Bayesian computation which is able to maintain a fast and stable computation. CIM is a generalized similarity measurement which can maintain a high-noise reduction ability even in a high-dimensional space. In addition, a Growing Neural Gas (GNG)-based topology construction process is integrated into the ART framework to enhance its self-organizing ability. The simulation experiments with synthetic and real-world datasets show that the proposed model has an outstanding stable self-organizing ability for various test environments.

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Divisive Hierarchical Clustering Based on Adaptive Resonance Theory

Yuna

Masuyama

Amako

et al. 2020

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Heuristics-Based Trust Estimation in Multiagent Systems Using Temporal Difference Learning

Rishwaraj

Ponnambalam

Loo

2017

IEEE Trans. Cybern.

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The application of multiagent system (MAS) is becoming increasing popular as it allows agents in a system to pool resources together to achieve a common objective. A vital part of the MAS is the teamwork cooperation through the sharing of information and resources among the agents to optimize their efforts in accomplishing given objectives. A critical part of the teamwork effort is the ability to trust each other when executing any task to ensure efficient and successful cooperation. This paper presents the development of a trust estimation model that could empirically evaluate the trust of an agent in MAS. The proposed model is developed using temporal difference learning by incorporating the concept of Markov games and heuristics to estimate trust. Simulation experiments are conducted to test and evaluate the performance of the developed model against some of the recently reported model in the literature. The simulation experiments indicate that the developed model performs better in terms of accuracy and efficiency in estimating trust.

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Chu Kiong Loo

Personalized Robot Interventions for Autistic Children: An Automated Methodology for Attention Assessment

A Kernel Bayesian Adaptive Resonance Theory with A Topological Structure

Divisive Hierarchical Clustering Based on Adaptive Resonance Theory

Heuristics-Based Trust Estimation in Multiagent Systems Using Temporal Difference Learning

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