Device-Centric Cooperation in Mobile Networks

TL;DR

This paper proposes a device-centric cooperation scheme for mobile networks that reduces control overhead and delay, enhancing throughput and quality of service for video streaming applications.

Contribution

It introduces DcC, a novel device-centric stochastic cooperation scheme that enables mobile devices to independently make optimal control decisions, improving efficiency over traditional source-centric methods.

Findings

DcC reduces control packet overhead over cellular links.

DcC decreases packet delay, improving quality of service.

Simulation results confirm the effectiveness of DcC.

Abstract

The increasing popularity of applications such as video streaming in today's mobile devices introduces higher demand for throughput, and puts a strain especially on cellular links. Cooperation among mobile devices by exploiting both cellular and local area connections is a promising approach to meet the increasing demand. In this paper, we consider that a group of cooperative mobile devices, exploiting both cellular and local area links and within proximity of each other, are interested in the same video content. Traditional network control algorithms introduce high overhead and delay in this setup as the network control and cooperation decisions are made in a source-centric manner. Instead, we develop a device-centric stochastic cooperation scheme. Our device-centric scheme; DcC allows mobile devices to make control decisions such as flow control, scheduling, and cooperation without loss of optimality. Thanks to being device-centric, DcC reduces; (i) overhead; i.e., the number of control packets that should be transmitted over cellular links, so cellular links are used more efficiently, and (ii) the amount of delay that each packet experiences, which improves quality of service. The simulation results demonstrate the benefits of DcC.