We present the LIFETEL project, whose aim is trying to increase the device lifetime in telecommunication networks by exploiting energy-efficient techniques. In particular, we show that the lifetime of a device might increase when it is put in sleep mode. However, the device lifetime might decrease when power state variations (from sleep mode to full power) occur very frequently. Thus, there is a trade-off between the duration of sleep mode and its frequency. Moreover, we report a lifetime analysis for cellular and backbone devices, showing that the electricity saving may be exceeded by the costs due to the fact that devices fail more frequently compared to the situation in which they are always powered on. Thus, we claim that energy-aware n...
§Co-primary authors Abstract—WiFi usage significantly reduces the battery lifetime of handheld devic...
We study the impact of power state transitions on the lifetime of base stations (BSs) in mobile netw...
We consider the main costs and gains for the management of a Long Term Evolution (LTE) cellular netw...
trying to increase the device lifetime in telecommunication net-works by exploiting energy-efficient...
We present a novel framework to optimize the lifetime of telecommunication networks exploiting sleep...
We study the impact of sleep modes capabilities on the lifetime of backbone devices. We first define...
We consider the problem of extending device lifetime in backbone networks by exploiting sleep modes....
We target the problem of managing the Base Stations (BSs) lifetime and their ene...
In this paper, we investigate the problem of managing the lifetime in backbone networks by imposing ...
This article analyzes the impact that sleep mode (SM)-based green strategies have on the reliability...
We consider the problem of controlling the rate of failures triggered by fatigue processes of Base S...
We consider the problem of controlling the rate of failures triggered by fatigue processes of Base S...
We study the impact of power state transitions on the lifetime of base stations (BSs) in mobile netw...
We study the impact of power state transitions on the lifetime of base stations (BSs) in mobile netw...
§Co-primary authors Abstract—WiFi usage significantly reduces the battery lifetime of handheld devic...
We study the impact of power state transitions on the lifetime of base stations (BSs) in mobile netw...
We consider the main costs and gains for the management of a Long Term Evolution (LTE) cellular netw...
trying to increase the device lifetime in telecommunication net-works by exploiting energy-efficient...
We present a novel framework to optimize the lifetime of telecommunication networks exploiting sleep...
We study the impact of sleep modes capabilities on the lifetime of backbone devices. We first define...
We consider the problem of extending device lifetime in backbone networks by exploiting sleep modes....
We target the problem of managing the Base Stations (BSs) lifetime and their ene...
In this paper, we investigate the problem of managing the lifetime in backbone networks by imposing ...
This article analyzes the impact that sleep mode (SM)-based green strategies have on the reliability...
We consider the problem of controlling the rate of failures triggered by fatigue processes of Base S...
We consider the problem of controlling the rate of failures triggered by fatigue processes of Base S...
We study the impact of power state transitions on the lifetime of base stations (BSs) in mobile netw...
We study the impact of power state transitions on the lifetime of base stations (BSs) in mobile netw...
§Co-primary authors Abstract—WiFi usage significantly reduces the battery lifetime of handheld devic...
We study the impact of power state transitions on the lifetime of base stations (BSs) in mobile netw...
We consider the main costs and gains for the management of a Long Term Evolution (LTE) cellular netw...