|Verlagslink DOI:||10.1186/s13638-016-0598-0||Titel:||Data aggregation of mobile M2M traffic in relay enhanced LTE-A networks||Sprache:||English||Autor/Autorin:||Marwat, Safdar Nawaz Khan
|Schlagwörter:||Machine-to-machine;4G;5G;internet-of-things;3rd generation partnership project;long-term-evolution-advanced||Erscheinungsdatum:||2016||Verlag:||Springer||Quellenangabe:||EURASIP Journal on Wireless Communications and Networking 1 (2016): - (2016)||Zeitschrift oder Schriftenreihe:||EURASIP Journal on Wireless Communications and Networking||Zusammenfassung (englisch):||Machine-to-machine (M2M) communication is becoming an increasingly essential part of mobile traffic and thus also a major focus of the latest 4G and upcoming 5G mobile networks. M2M communication offers various ubiquitous services and is one of the main enablers of the Internet-of-things (IoTs) vision. Nevertheless, the concept of mobile M2M communication has emerged due to the wide range, coverage provisioning, high reliability as well as decreasing costs of future mobile networks. Resultantly, M2M traffic poses drastic challenges to mobile networks, particularly due to the expected large number of devices sending small-sized data. Moreover, mobile M2M traffic is anticipated to degrade the performance of traditional cellular traffic due to inefficient utilization of the scarce radio spectrum. This paper presents a novel data aggregation and multiplexing scheme for mobile M2M traffic and thus focuses on the latest 3GPP (3 r d Generation Partnership Project) tong-term-evolution-advanced (LTE-A) networks. 3GPP standardized layer 3 inband Relay Nodes (RNs) are used to aggregate uplink M2M traffic by sharing the Physical Resource Blocks (PRBs) among several devices. The proposed scheme is validated through extensive system level simulations in an LTE-A based implementation for the Riverbed Modeler simulator. Our simulation results show that besides coverage extensions, RNs serve approximately 40 % more M2M devices with the proposed data multiplexing scheme compared to the conventional without multiplexing approach. Moreover, in this paper an analytical model is developed to compute the multiplexing transition probabilities. In the end, the simulation and analytical results of multiplexing transition probabilities are compared in order to analyze the multiplexing scheme.||URI:||http://tubdok.tub.tuhh.de/handle/11420/1545||URN:||nbn:de:gbv:830-88218791||DOI:||10.15480/882.1542||ISSN:||1687-1499||Institut:||Kommunikationsnetze E-4||Dokumenttyp:||(wissenschaftlicher) Artikel|
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checked on 19.03.2018
checked on 19.03.2018
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