Abstract
Radio resource management and QoS provision in Mobile Ad hoc NETworks (MANETs) require the cooperation among different nodes and the design of distributed control mechanisms, imposed by the self-configuring and dynamic nature of these networks. In this context, in order to solve the tradeoff between QoS provision and an efficient resource utilization, a distributed admission control is required. This paper presents an adaptive admission procedure based on a cross-layer QoS Routing supported by an efficient end-to-end available bandwidth estimation. The proposed scheme has been designed to perform a flexible parameters configuration that allows to adapt the system response to the observed grade of mobility in the environment. The performance evaluation has shown the capability of the proposal to guarantee a soft-QoS provision thanks to a flexible resource management adapted to different scenarios.
This work was financed by the Spanish Government (Project TEC2004-04529/TCM from MEC and FEDER), Gobierno de Aragón for WALQA Technology Park and the European IST Project PULSERS Phase II (IST – 027142)
Please use the following format when citing this chapter: Canales, M., Ramón Gáliego, I., Hernández-Solana, Á., Valdovinos, A., 2007, in 1F1P International Federation for Information Processing, Volume 245, Personal Wireless Communications, eds. Simak, B., Bestak, R., Kozowska, E., (Boston: Springer), pp. 1–12.
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Keywords
- Medium Access Control
- Medium Access Control Protocol
- Effective Capacity
- Personal Wireless Communication
- Mobility Scenario
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
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Canales, M., Gállego, J.R., Hernández-Solana, Á., Valdovinos, A. (2007). Adaptive Admission Control for Mobile Ad Hoc Networks based on a Cross-layer Design. In: Bestak, R., Simak, B., Kozlowska, E. (eds) Personal Wireless Communications. IFIP — The International Federation for Information Processing, vol 245. Springer, Boston, MA. https://doi.org/10.1007/978-0-387-74159-8_1
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DOI: https://doi.org/10.1007/978-0-387-74159-8_1
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