SWAM: SDN-based Wi-Fi Small Cells with Joint Access-Backhaul and Multi-Tenant Capabilities

TL;DR

SWAM is a Wi-Fi-based small cell system enabling multi-tenancy, mobility, and integrated access-backhaul, designed for flexible, cost-effective 5G network deployment using commodity hardware.

Contribution

The paper introduces SWAM, a novel system that leverages commodity Wi-Fi routers with multi-interface capabilities to support multi-tenancy and integrated access-backhaul in 5G small cell deployments.

Findings

Prototype validated in an office testbed.

Supports multi-tenancy and mobility effectively.

Demonstrates cost-effective deployment of small cells.

Abstract

Dense deployments of Small Cells are required to deliver the capacity promised by 5G networks. In this paper we present SWAM, a system that builds on commodity Wi-Fi routers with multiple wireless interfaces to provide a wireless access infrastructure supporting multi-tenancy, mobility, and integrated wireless access and backhaul. An infrastructure provider can deploy inexpensive SWAM nodes to cover a given geographical area, and re-sell this capacity to provide on-demand connectivity for Mobile Network Operators. Our main contribution is the design of the SWAM datapath and control plane, which are inspired by the overlay techniques used to enable multi-tenancy in data-center networks. We prototype SWAM in an office wireless testbed, and validate experimentally its functionality.