JOURNAL ARTICLE
Commutative quaternion and multistate Hopfield neural networks
Abstract
This paper explores two types of multistate Hopfield neural networks, based on commutative quaternions that are similar to Hamilton's quaternions but with commutative multiplication. In one type of the networks, the state of a neuron is represented by two kinds of phases and one real number. The other type of the networks adopts the decomposed form of commutative quaternion, i.e., the state of a neuron consists of a combination of two complex values. We have investigated the stabilities of these networks, i.e., the energies monotonically decreases with respect to the changes of the network states.
Keywords:
Quaternion Commutative property Artificial neural network Multiplication (music) Monotonic function Type (biology) State (computer science) Hopfield network Mathematics Computer science Pure mathematics Algorithm Artificial intelligence Mathematical analysis Combinatorics Geometry
Metrics
67
Cited By
1.20
FWCI (Field Weighted Citation Impact)
31
Refs
0.84
Citation Normalized Percentile
Is in top 1%
Is in top 10%
Citation History
Topics
Neural Networks and Applications
Physical Sciences → Computer Science → Artificial Intelligence
Neural Networks Stability and Synchronization
Physical Sciences → Computer Science → Computer Networks and Communications
Topological and Geometric Data Analysis
Physical Sciences → Computer Science → Computational Theory and Mathematics
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