论文信息 - User bandwidth usage-driven HNN neuron excitation method for maximum resource utilization within packet-switched communication networks

User bandwidth usage-driven HNN neuron excitation method for maximum resource utilization within packet-switched communication networks

Mobile and wireless systems beyond 3G are being designed under the user-centric paradigm. Dynamic resource allocation (DRA) is a topic on intensive research to address efficiently such paradigm. Hopfield neural networks (HNN) have proved useful in the past to solve this kind of complex optimization problems. Recently, various approaches have been proposed to realize HNN-based user-centric DRA. However, the initial algorithms suffer from severe instability problems impacting the overall performance. This letter analyses the source of the existing limitations and proposes an enhanced formulation, ensuring maximum resource utilization while optimizing the convergence of the neural network. The letter highlights the improved performance in terms of optimum convergence and bandwidth utilization.

David Gomez-Barquero | Jose F. Monserrat | Óscar Lázaro | Daniel Calabuig

[1] Chang Wook Ahn,et al. QoS provisioning dynamic connection-admission control for multimedia wireless networks using a Hopfield neural network , 2004, IEEE Transactions on Vehicular Technology.

[2] J. Pérez-Romero,et al. A User-Centric Approach for Dynamic Resource Allocation in CDMA systems based on Hopfield Neural Networks , 2005 .

[3] Xuemin Shen,et al. Dynamic fair scheduling with QoS constraints in multimedia wideband CDMA cellular networks , 2004, IEEE Transactions on Wireless Communications.

[4] J. J. Hopfield,et al. “Neural” computation of decisions in optimization problems , 1985, Biological Cybernetics.

[5] Seong-Jun Oh,et al. Optimal resource allocation in multiservice CDMA networks , 2003, IEEE Trans. Wirel. Commun..