Optimal TDMA Frame Scheduling in Broadcasting Packet Radio Networks Using a Gradual Noisy Chaotic Neural Network

In this paper, we propose a novel approach called the gradual noisy chaotic neural network (G-NCNN) to find a collision-free time slot schedule in a time division multiple access (TDMA) frame in packet radio network (PRN). In order to find a minimal average time delay of the network, we aim to find...

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Published in	Advances in Natural Computation pp. 1080 - 1089
Main Authors	Shi, Haixiang, Wang, Lipo
Format	Book Chapter Conference Proceeding
Language	English
Published	Berlin, Heidelberg Springer Berlin Heidelberg 2005 Springer
Series	Lecture Notes in Computer Science
Subjects	Applied sciences Artificial intelligence Channel Utilization Computer science; control theory; systems Exact sciences and technology Frame Length Time Division Multiple Access Time Slot Travel Salesman Problem Chaos Hopfield neural nets Energy method Packet switching Energy function Neural network Time division multiple access Genetic algorithm Time average Delay time Radio networks Collision avoidance Hopfield model Radio communication
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ISBN	3540283234 9783540283232
ISSN	0302-9743 1611-3349
DOI	10.1007/11539087_145

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Abstract	In this paper, we propose a novel approach called the gradual noisy chaotic neural network (G-NCNN) to find a collision-free time slot schedule in a time division multiple access (TDMA) frame in packet radio network (PRN). In order to find a minimal average time delay of the network, we aim to find an optimal schedule which has the minimum frame length and provides the maximum channel utilization. The proposed two-phase neural network approach uses two different energy functions, with which the G-NCNN finds the minimal TDMA frame length in the first phase and the NCNN maximizes the node transmissions in the second phase. Numerical examples and comparisons with the previous methods show that the proposed method finds better solutions than previous algorithms. Furthermore, in order to show the difference between the proposed method and the hybrid method of the Hopfield neural network and genetic algorithms, we perform a paired t-test between two of them and show that G-NCNN can make significantly improvements.
AbstractList	In this paper, we propose a novel approach called the gradual noisy chaotic neural network (G-NCNN) to find a collision-free time slot schedule in a time division multiple access (TDMA) frame in packet radio network (PRN). In order to find a minimal average time delay of the network, we aim to find an optimal schedule which has the minimum frame length and provides the maximum channel utilization. The proposed two-phase neural network approach uses two different energy functions, with which the G-NCNN finds the minimal TDMA frame length in the first phase and the NCNN maximizes the node transmissions in the second phase. Numerical examples and comparisons with the previous methods show that the proposed method finds better solutions than previous algorithms. Furthermore, in order to show the difference between the proposed method and the hybrid method of the Hopfield neural network and genetic algorithms, we perform a paired t-test between two of them and show that G-NCNN can make significantly improvements.
Author	Wang, Lipo Shi, Haixiang
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Editor	Wang, Lipo Ong, Yew Soon Chen, Ke
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Keywords	Chaos Hopfield neural nets Energy method Packet switching Energy function Neural network Time division multiple access Genetic algorithm Time average Delay time Radio networks Collision avoidance Hopfield model Radio communication
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SubjectTerms	Applied sciences Artificial intelligence Channel Utilization Computer science; control theory; systems Exact sciences and technology Frame Length Time Division Multiple Access Time Slot Travel Salesman Problem
Title	Optimal TDMA Frame Scheduling in Broadcasting Packet Radio Networks Using a Gradual Noisy Chaotic Neural Network
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