Journal ArticleDOI
Achieving Proportional Fairness for LTE-LAA and Wi-Fi Coexistence in Unlicensed Spectrum
TLDR
The analysis shows that LTE-LAA can maintain proportional fairness with WiFi by either tuning its initial backoff window size or sensing duration, and suggests optimal settings whereby LTE- LAA and WiFi nodes can achieve equal per-node airtime.Abstract:
LTE Licensed Assisted Access (LTE-LAA) is a promising solution for harmonious coexistence with WiFi in unlicensed spectrum. Although LTE-LAA employs a listen-before-talk approach similar to the distributed coordination function in IEEE 802.11, it uses different parameters and varying transmission durations . As a result, achieving fair coexistence between LTE-LAA and WiFi (by any definition) remains an open question, which in a pragmatic framework, devolves to: how LTE-LAA should select its parameters. To address this issue, a multi-group model is proposed for LTE-LAA and WiFi coexistence, as a function of respective initial backoff window sizes, sensing durations, maximum backoff stages, retry limits and transmission opportunities. The network steady-state point in saturated conditions is obtained, based on which the node airtime and total network airtime are derived as functions of system parameters of LTE-LAA and WiFi networks. The analysis shows that LTE-LAA can maintain proportional fairness with WiFi by either tuning its initial backoff window size or sensing duration. In particular, the optimal initial backoff window size and number of sensing slots of LTE-LAA are both derived and verified by simulation. The significance of our analysis is two-fold: a) it exposes the result that the current standard-proposed parameter settings will not generically achieve fairness and thereafter b) suggests optimal settings whereby LTE-LAA and WiFi nodes can achieve equal per-node airtime. It is further revealed that the initial backoff window size tuning of LTE-LAA could be a preferable option for achieving fairness between LTE-LAA and WiFi in practical scenarios as it requires less system information and achieves better precision.read more
Citations
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Journal ArticleDOI
Enhanced network sensitive access control scheme for LTE–LAA/WiFi coexistence: Modeling and performance analysis
TL;DR: This paper proposes an adaptive exponential backoff scheme for LTE eNB that dynamically updates the contention window (CW) size and transmission opportunity (TXOP) parameters according to network load variations and its performance is evaluated in terms of successful transmission probability, throughput, and delay according to the 3GPP and WiFi guidelines.
Journal ArticleDOI
Coordinated Allocation of Radio Resources to Wi-Fi and Cellular Technologies in Shared Unlicensed Frequencies
David Candal-Ventureira,Francisco J. González-Castaño,Felipe Gil-Castineira,Pablo Fondo-Ferreiro +3 more
TL;DR: In this article, the authors proposed two solutions for mobile network operators (MNOs) or service providers to dynamically divide (multiplex) the radio resources of a shared channel between a Wi-Fi basic service set (BSS) and one or several scheduled wireless networks, such as cellular technologies.
Journal ArticleDOI
Joint Time and Power Allocation for 5G NR Unlicensed Systems
TL;DR: In this paper, the authors proposed a fair coexistence algorithm for 5G New Radio in unlicensed channel spectrum (NR-U) to maximize the total throughput of both downlink and uplink in NR-U by jointly optimizing the time and power allocation during the maximum channel occupation time (MCOT).
Journal ArticleDOI
Performance-Fairness Trade-off for Wi-Fi and LTE-LAA Coexistence
TL;DR: In this article, an optimal communication policy is devised for LAA stations coexisting on a single unlicensed channel with Wi-Fi stations, where the inter-network collisions are avoided through non-overlapping transmission phases for Wi-FI and LAA networks.
Proceedings ArticleDOI
ChARM: NextG Spectrum Sharing Through Data-Driven Real-Time O-RAN Dynamic Control
TL;DR: The Channel-Aware Reactive Mechanism (ChARM), a data-driven O-RAN-compliant framework that allows sensing the spectrum to infer the presence of interference and reacting in real time by switching the distributed unit (DU) and radio unit (RU) operational parameters according to a specified spectrum access policy, is proposed.
References
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Proceedings ArticleDOI
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Journal ArticleDOI
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Journal ArticleDOI
Airtime Fairness for IEEE 802.11 Multirate Networks
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Journal ArticleDOI
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Lin Dai,Xinghua Sun +1 more
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