With the accelerating development of hydrophobic structured surfaces for a variety of applications including self-cleaning, condensation heat transfer enhancement, and anti-icing, the need for more
FTTx monitors with sophisticated hardware need 0.7 µW of electrical power when controlled through a special protocol.
The amount of traffic that is generated by users and services will continue to rise dramatically, affecting the performance of core networks, increasing their consumed energy and possibly constrain
We propose a new approach for jointly scheduling deep sleep and allocating pilot and data transmit power in small cells with the aim of minimising energy consumption while maximising user utility w
In this paper, we investigate the energy-aware data- offloading of mobile user (MU) which schedules its traffic demand to a macro Base Station (BS) and a small-cell access point (AP) simultaneously
In this paper we investigate the opportunity for network energy savings via rate adaptation and routing optimization.
A key problem in the control of packet-switched data networks is to schedule the data so that the queue sizes remain bounded over time.
A branch of green networking research is consolidating. It aims at routing traffic with the goal of reducing the network energy consumption. It is usually referred to as Energy-Aware Routing.
The valence-band offset ( DELTA E sub V) has been determined to be ~2.6 eV at the Ga sub 2 O sub 3 (Gd sub 2 O sub 3 )-GaAs interface, and ~1.1 eV at the Ga sub 2 O sub 3 (Gd sub 2 ) sub 3 )-GaN in
The Load-Balanced Router architecture has received a lot of attention because it does not require centralized scheduling at the internal switch fabrics.
