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Resource-Optimized Recursive Access Class Barring for Bursty Traffic in Cellular IoT Networks

Han Seung Jang, Hu Jin, Bang Chul Jung, Tony Q. S. Quek

2021IEEE Internet of Things Journal27 citationsDOI

Abstract

A massive number of Internet-of-Things (IoT) and machine-to-machine (M2M) communication devices generate various types of data traffic in cellular IoT networks: periodic or nonperiodic, bursty or sporadic, etc. In particular, bursty and nonperiodic traffic may cause an unexpected network congestion and temporary lack of radio resources. In order to effectively accommodate such bursty and nonperiodic traffic, we propose a novel recursive access class barring (R-ACB) technique to optimally utilize the available resources associated with the random access procedure (RAP) that consists of multiple steps in cellular IoT networks, while existing ACB schemes only considered the resource of the first step of RAP, i.e., the number of available preambles. The proposed R-ACB technique consists of two main parts: 1) online estimation of the number of active IoT/M2M devices who have data to transmit to an eNodeB and 2) adjustment of the ACB factor that indicates the probability that an active device sends a preamble to eNodeB. It is notable that the estimation and the adjustment recursively affect each other when R-ACB operates. In addition, we also propose mathematical models to analyze the performance of R-ACB in terms of total service time, average access delay, resource efficiency, and energy efficiency (EE). Through extensive computer simulations, we show that the proposed R-ACB technique outperforms the conventional ACB schemes.

Topics & Concepts

EnodeBComputer scienceComputer networkCellular networkRandom accessPreambleResource allocationDistributed computingUser equipmentBase stationChannel (broadcasting)IoT Networks and ProtocolsWireless Networks and ProtocolsEnergy Harvesting in Wireless Networks
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