Title :
Neural modeling of link occupancy for wireless transmissions using Markov reward models
Author :
Lokshina, Izabella ; Bartolacci, Michael
Author_Institution :
Marketing & Inf. Syst., SUNY at Oneonta, Oneonta, NY, USA
Abstract :
The paper is devoted to neural modeling of link occupancy distribution. Multi-service (i.e., bandwidth sharing between different traffic classes) models of a single, possibly wireless transmission link for rigid, adaptive and elastic traffic are developed based on Markov reward models. Link occupancy distribution is introduced as embedded, discrete time Markov chain researched with vector quantization. Link occupancy performance is simulated as a combination of single queues with random distributions of arrival processes and holding times in service phases. Link occupancy probability density is determined using learning vector quantization in a two-layered neural structure. Simulation and numerical results are shown.
Keywords :
Markov processes; learning (artificial intelligence); neural nets; probability; radio links; telecommunication services; telecommunication traffic; vector quantisation; Markov reward models; bandwidth sharing; discrete time Markov chain; elastic traffic; learning vector quantization; link occupancy distribution; link occupancy performance; link occupancy probability density; multiservice models; neural modeling; neural structure; traffic classes; wireless transmission link; wireless transmissions; Adaptation models; Approximation methods; Bandwidth; Markov processes; Probability density function; Throughput; Vector quantization; Link Occupancy Distribution; Markov Reward Models; Neural Networks; Wireless Transmissions;
Conference_Titel :
Wireless Communications, Vehicular Technology, Information Theory and Aerospace & Electronic Systems (VITAE), 2014 4th International Conference on
Conference_Location :
Aalborg
Print_ISBN :
978-1-4799-4626-6
DOI :
10.1109/VITAE.2014.6934396
