Blanco Jauregi, Begoña

Datu pertsonalak

Blanco Jauregi, Begoña

Bulegoa: 13A3
Helbidea: Paseo Rafael Moreno
Emailbegona.blanco@ehu.es 
Telefonoa:  +34 94 601 4492
Faxa: +34 94 601 4300

 

Ikasketa-titulua

Unibertsitateko titulazioa

Titulua: Telekomunikazio Ingeniaritza
Areagotzea: Telematika
Espezializazioa: Telematika
Zentroa: Euskal Herriko Unibertsitatea
Lorpen-data: 2000

Doktoregoa

Egitarauaren titulua: Comunicaciones, Electrónica y Control (Komunikazioak, Elektronika eta Kontrola)
DEA lorpen data: 2008
Tesiaren titulua: Glocal Adaptive Routing Intelligence for Ad Hoc Networks
Lorpen data: (Amaiturik gabe)

Masterrak

Masterraren titulua: Postgrado en Redes, Servicios Telemáticos e Internet
Zentroa: ETSI/IGET - Bilbo
Lorpen-data: 2001

Artikuluak

Size-Based and Channel-Aware Scheduling Algorithm Proposal for Mean Delay Optimization in Wireless Networks

Egileak:
Ianire Taboada, Jose Oscar Fajardo, Fidel Liberal, Bego Blanco
Urtea:
2012
Aldizkaria:
IEEE ICC 2012 – Workshop on Smart Communication Protocols and Algorithms – Summer (ICC'12 WS - SCPA)
Deskribapena:

Ottawa, CANADA. June 10-15

This paper deals with the analysis of the impact of different scheduling algorithms on flow level mean delay performance of elastic traffic in a single cell wireless downlink data channel paradigm. An enhanced size-based and channelaware discipline is proposed, which is based on the sized-aware Gittins index approach applied to a time-varying channel context. In order to compare the proposed Opportunistic Gittins rule performance with well-known scheduling algorithms, several simulations have been performed for stochastically arriving flows with Pareto sizes under fading conditions, for different network loads and channel quality indicator reporting rates. As concluded, an approach that combines both flow size-awareness and channel awareness is the best option, which guarantees a trade–off between minimizing uplink overhead due to channel quality reports and improving scheduling performance aimed at reducing overall flow mean delay.

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