Efficient random access channel evaluation and load estimation in LTE-A with massive MTC

Luis Tello-Oquendo; Vicent Pla; Israel Leyva-Mayorga; Jorge Martinez-Bauset; Vicente Casares-Giner; Luis Guijarro

doi:10.1109/TVT.2018.2885333

Efficient random access channel evaluation and load estimation in LTE-A with massive MTC

Luis Tello-Oquendo^*, Vicent Pla, Israel Leyva-Mayorga, Jorge Martinez-Bauset, Vicente Casares-Giner, Luis Guijarro

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

30 Citations (Scopus)

Abstract

The deployment of machine-type communications (MTC) together with cellular networks has a great potential to create the ubiquitous Internet-of-Things environment. Nevertheless, the simultaneous activation of a large number of MTC devices (named UEs herein) is a situation difficult to manage at the evolved Node B (eNB). The knowledge of the joint probability distribution function (PDF) of the number of successful and collided access requests within a random access opportunity (RAO) is a crucial piece of information for contriving congestion control schemes. A closed-form expression and an efficient recursion to obtain this joint PDF are derived in this paper. Furthermore, we exploit this PDF to design estimators of the number of contending UEs in an RAO. Our numerical results validate the effectiveness of our recursive formulation and show that its computational cost is considerably lower than that of other related approaches. In addition, our estimators can be used by the eNBs to implement highly efficient congestion control methods.

Original language	English
Article number	8565923
Journal	IEEE Transactions on Vehicular Technology
Volume	68
Issue number	2
Pages (from-to)	1998-2002
Number of pages	5
ISSN	0018-9545
DOIs	https://doi.org/10.1109/TVT.2018.2885333
Publication status	Published - Feb 2019

Keywords

Cellular systems
machine-type communications (MTC)
random access channel (RACH)

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title = "Efficient random access channel evaluation and load estimation in LTE-A with massive MTC",

abstract = "The deployment of machine-type communications (MTC) together with cellular networks has a great potential to create the ubiquitous Internet-of-Things environment. Nevertheless, the simultaneous activation of a large number of MTC devices (named UEs herein) is a situation difficult to manage at the evolved Node B (eNB). The knowledge of the joint probability distribution function (PDF) of the number of successful and collided access requests within a random access opportunity (RAO) is a crucial piece of information for contriving congestion control schemes. A closed-form expression and an efficient recursion to obtain this joint PDF are derived in this paper. Furthermore, we exploit this PDF to design estimators of the number of contending UEs in an RAO. Our numerical results validate the effectiveness of our recursive formulation and show that its computational cost is considerably lower than that of other related approaches. In addition, our estimators can be used by the eNBs to implement highly efficient congestion control methods.",

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AU - Casares-Giner, Vicente

AU - Guijarro, Luis

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AB - The deployment of machine-type communications (MTC) together with cellular networks has a great potential to create the ubiquitous Internet-of-Things environment. Nevertheless, the simultaneous activation of a large number of MTC devices (named UEs herein) is a situation difficult to manage at the evolved Node B (eNB). The knowledge of the joint probability distribution function (PDF) of the number of successful and collided access requests within a random access opportunity (RAO) is a crucial piece of information for contriving congestion control schemes. A closed-form expression and an efficient recursion to obtain this joint PDF are derived in this paper. Furthermore, we exploit this PDF to design estimators of the number of contending UEs in an RAO. Our numerical results validate the effectiveness of our recursive formulation and show that its computational cost is considerably lower than that of other related approaches. In addition, our estimators can be used by the eNBs to implement highly efficient congestion control methods.

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Efficient random access channel evaluation and load estimation in LTE-A with massive MTC

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