Abstract
It is a challenging task to design a random access protocol that achieves the optimal throughput in multi-cell random access with decentralized transmission due to the difficulty of coordination. In this paper, we present a decentralized interference-aware opportunistic random access (IA-ORA) protocol that enables us to obtain the optimal throughput scaling in an ultra-dense multi-cell random access network with one access point (AP) and a number of users. In sharp contrast to opportunistic scheduling for cellular multiple access where users are selected by base stations, under the IA-ORA protocol, each user opportunistically transmits with a predefined physical layer (PHY) data rate in a decentralized manner if not only the desired signal power to the serving AP is sufficiently large but also the generating interference leakage power to the other APs is sufficiently small (i.e., two threshold conditions are fulfilled). As a main result, it is shown that the optimal aggregate throughput scaling (i.e., the MAC throughput of e/1 in a cell and the power gain) is achieved in a high signal-to-noise ratio regime if the number of per-cell users exceeds some level. Additionally, it is numerically demonstrated via computer simulations that under practical settings, the proposed IA-ORA protocol outperforms conventional opportunistic random access protocols in terms of aggregate throughput.
Highlights
The use of random access in wireless communications has received considerable attention along with the rapid development of machine-type communications (MTC) and Internet of Things (IoT) networks due to the necessity of a relatively low protocol overhead and high spectral efficiency [1], [2]
The decentralized interference-aware opportunistic random access (IA-opportunistic random access (ORA)) protocol operating with partial CAIT was presented in the ultra-dense
K -cell slotted ALOHA random access network, where no centralized coordination from the serving access point (AP) is required and the proposed protocol is appropriate for MTC or
Summary
The use of random access in wireless communications has received considerable attention along with the rapid development of machine-type communications (MTC) and Internet of Things (IoT) networks due to the necessity of a relatively low protocol overhead and high spectral efficiency [1], [2]. Along with the large increase in mobile users and their data packets in IoT networks, there has been a trend of network densification in ultra-dense networks (UDNs) with sufficiently many users [7], e.g., a network environment where a cell in which one access point (AP) covers contains a plenty of users. Such network configuration can be observed in a variety of future MTC and IoT applications.
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