We present a novel framework to optimize the lifetime of telecommunication networks exploiting sleep mode (SM) strategy as an outcome of the LIFETEL project. We first consider the main effects impacting the device lifetime, showing that the transitions between active mode (AM) and SM may drastically reduce the device lifetime. We then propose a methodology to limit the impact on the device lifetime when SM states are exploited. Additionally, we report the main outcomes obtained from cellular and backbone scenarios. Results show that a lifetime-aware approach is of fundamental importance for limiting the impact of failures on network devices, while at the same time allowing adequate energy saving. Finally, we discuss the main challenges that...
We propose a framework to manage the link lifetime in an IP backbone network by exploiting the sleep...
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...
We present a novel framework to optimize the lifetime of telecommunication networks exploiting sleep...
We present the LIFETEL project, whose aim is trying to increase the device lifetime in telecommunica...
trying to increase the device lifetime in telecommunication net-works by exploiting energy-efficient...
In this paper, we investigate the problem of managing the lifetime in backbone networks by imposing ...
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...
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...
This article analyzes the impact that sleep mode (SM)-based green strategies have on the reliability...
We propose a framework to manage the link lifetime in an IP backbone network by exploiting the sleep...
We propose a framework to manage the link lifetime in an IP backbone network by exploiting the sleep...
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...
We present a novel framework to optimize the lifetime of telecommunication networks exploiting sleep...
We present the LIFETEL project, whose aim is trying to increase the device lifetime in telecommunica...
trying to increase the device lifetime in telecommunication net-works by exploiting energy-efficient...
In this paper, we investigate the problem of managing the lifetime in backbone networks by imposing ...
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...
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...
This article analyzes the impact that sleep mode (SM)-based green strategies have on the reliability...
We propose a framework to manage the link lifetime in an IP backbone network by exploiting the sleep...
We propose a framework to manage the link lifetime in an IP backbone network by exploiting the sleep...
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...