A Survey on Multi-AP Coordination Approaches over Emerging WLANs: Future Directions and Open Challenges

TL;DR

This survey reviews multi-AP coordination approaches in upcoming WLAN standards like Wi-Fi 7 and WiGig, highlighting current techniques, challenges, and future research directions for high-throughput, low-latency wireless networks.

Contribution

It provides a comprehensive overview of MAP-Co features, analyzes their limitations, and discusses future directions and open challenges in emerging WLAN standards.

Findings

MAP-Co is crucial for high-throughput WLANs.

Current approaches face interference and scalability issues.

Future research should address open challenges in MAP-Co implementation.

Abstract

Recent advancements in wireless local area network (WLAN) technology include IEEE 802.11be and 802.11ay, often known as Wi-Fi 7 and WiGig, respectively. The goal of these developments is to provide Extremely High Throughput (EHT) and low latency to meet the demands of future applications like as 8K videos, augmented and virtual reality, the Internet of Things, telesurgery, and other developing technologies. IEEE 802.11be includes new features such as 320 MHz bandwidth, multi-link operation, Multi-user Multi-Input Multi-Output, orthogonal frequency-division multiple access, and Multiple-Access Point (multi-AP) coordination (MAP-Co) to achieve EHT. With the increase in the number of overlapping APs and inter-AP interference, researchers have focused on studying MAP-Co approaches for coordinated transmission in IEEE 802.11be, making MAP-Co a key feature of future WLANs. Moreover, similar issues may arise in EHF bands WLAN, particularly for standards beyond IEEE 802.11ay. This has prompted researchers to investigate the implementation of MAP-Co over future 802.11ay WLANs. Thus, in this article, we provide a comprehensive review of the state-of-the-art MAP-Co features and their shortcomings concerning emerging WLAN. Finally, we discuss several novel future directions and open challenges for MAP-Co.