Dynamic Spectrum Refarming with Overlay for Legacy Devices

TL;DR

This paper proposes a novel overlay method that allows LTE networks to efficiently refarm spectrum from 2G GSM while maintaining connectivity for legacy M2M devices, enabling dynamic spectrum sharing.

Contribution

It introduces a spectrum overlay technique reserving physical resource blocks for GSM within LTE, facilitating efficient spectrum refarming and coexistence.

Findings

Effective GSM overlay achieved with minimal resource reservation.

Dynamic spectrum sharing between LTE and GSM demonstrated.

Supports legacy M2M devices without extensive infrastructure changes.

Abstract

The explosive growth in data traffic is resulting in a spectrum crunch forcing many wireless network operators to look towards refarming their 2G spectrum and deploy more spectrally efficient Long Term Evolution (LTE) technology. However, mobile network operators face a challenge when it comes to spectrum refarming because 2G technologies such as Global System for Mobile (GSM) is still widely used for low bandwidth machine-to-machine (M2M) devices. M2M devices typically have long life cycles, e.g. smart meters, and it is expensive to migrate these devices to newer technology since a truck roll will typically be required to the site where a device is deployed. Furthermore, with cost of 2G modules several times less than that of LTE, even newly deployed M2M devices tend to adopt 2G technology. Nevertheless, operators are keen to either force their 2G M2M customers to migrate so that they can refarm the spectrum or set aside a portion of the 2G spectrum for continuing operating 2G and only refarm the rest for LTE. In this paper we propose a novel solution to provide GSM connectivity within an LTE carrier through an efficient overlay by reserving a few physical resource blocks for GSM. With this approach, operators can refarm their 2G spectrum to LTE efficiently while still providing some GSM connectivity to their low data rate M2M customers. Furthermore, spectrum can be dynamically shared between LTE and GSM. An approach similar to that proposed in this paper can also be applied for other narrow band technology overlays over LTE.