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Priority Enabled Grant-Free Access With Dynamic Slot Allocation for Heterogeneous mMTC Traffic in 5G NR Networks

Thilina N. Weerasinghe, Vicente Casares‐Giner, Indika A. M. Balapuwaduge, Frank Y. Li

2021IEEE Transactions on Communications33 citationsDOIOpen Access PDF

Abstract

Although grant-based mechanisms have been a predominant approach for wireless access for years, the additional latency required for initial handshake message exchange and the extra control overhead for packet transmissions have stimulated the emergence of grant-free (GF) transmission. GF access provides a promising mechanism for carrying low and moderate traffic with small data and fits especially well for massive machine type communications (mMTC) applications. Despite a surge of interest in GF access, how to handle heterogeneous mMTC traffic based on GF mechanisms has not been investigated in depth. In this paper, we propose a priority enabled GF access scheme which performs dynamic slot allocation in each 5G new radio subframe to devices with different priority levels on a subframe-by-subframe basis. While high priority traffic has access privilege for slot occupancy, the remaining slots in the same subframe will be allocated to low priority traffic. To evaluate the performance of the proposed scheme, we develop a two-dimensional Markov chain model which integrates these two types of traffic via a pseudo-aggregated process. Furthermore, the model is validated through simulations and the performance of the scheme is evaluated both analytically and by simulations and compared with two other GF access schemes.

Topics & Concepts

SubframeComputer networkComputer scienceOverhead (engineering)Network packetAccess controlChannel (broadcasting)Time division multiple accessTelecommunications linkOperating systemIoT Networks and ProtocolsAdvanced Wireless Communication TechnologiesWireless Body Area Networks
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