Power penalties in bit error rate due to limited transmission bandwidth are studied theoretically and experimentally.
The present paper gives a brief discussion of some of the more important problems connected with the supplying of power to telephone offices, and developments which are being perfected to bring abo
We introduce a new approach to reducing FPGA power consumption. By exploiting the time varying nature of a systems environment, we are able to extract power consumption savings.
To reduce the power consumed in mobile base stations shows an important way to support the effort for energy reduction in communication systems.
Machine to Machine (M2M) services can provide promising applications via cellular networks to facilitate people's daily life a lot.
Massive number of devices must operate for a long time with very limited chance to contact energy sources in current Machine-to-Machine (M2M) networks, so power saving mechanism is very essential.
This document is a book chapter on M2M for Woodhead Publishing Ltd.
In designing access networks, reducing power consumption has become an increasingly important goal due to both increased concerns for global warming and network costs related to power consumption.
We evaluate the peak and average power savings due to relay deployments in cellular systems via a simulation study. The peak power savings translate to cost reduction in power amplifiers.
Small cell base stations (BSs) that form an overlay layer on the existing macrocell network offer tremendous potential in terms of satisfying high data rate traffic requirements and enabling breakt