Maximizing the battery life time of mobile devices and sensor nodes increasingly becomes a challenge. In many applications the energy consumed by the receiver is orders of magnitude larger than the energy consumed by the transmitter. We address the challenge of achieving the highest possible throughput per Watt of available receiver circuit power. Our closed form solution allows us to formalize the relation between adjacent channel interference power and achievable throughput for a given available receiver circuit power budget. We conclude that for a given adjacent channel interference level, there is an optimum receiver power that needs to be applied to operate the link at optimum efficiency in terms of bits per Joule. If the receiver has ...
textIn this dissertation, we study energy efficient transmission in wireless communication networks....
We consider wireless power transfer, realized by means of resonant reactive magnetic coupling, betwe...
Abstract—In this paper, optimal power control policies for an interference channel with two energy h...
Maximizing the battery life time of mobile devices and sensor nodes increasingly becomes a challenge...
In many wireless systems, the energy consumed by the receiver is significantly larger than the energ...
Maximizing the battery life time of mobile devices and sensor nodes increasingly becomes a challenge...
Abstract—Maximizing the battery life time of mobile devices and sensor nodes increasingly becomes a ...
Most wireless battery-operated devices spend more energy receiving than transmitting. Hence, minimiz...
We propose the conditions for maximum overall efficiency at the constraint of satisfying asymmetric ...
Given the growing concern over energy consumption and associated global warming, green communication...
LOW power operation for wireless radio receivers has been gaining importance lately on account of th...
This letter studies the transmit power allocation in downlink coordinated multi-cell systems with th...
10.1109/JSAC.2014.141212IEEE Journal on Selected Areas in Communications322322-332ISAC
The problem of determining the optimal loads for realizing maximum power transfer...
Energy harvesting has emerged as a powerful technology for complementing current battery-powered com...
textIn this dissertation, we study energy efficient transmission in wireless communication networks....
We consider wireless power transfer, realized by means of resonant reactive magnetic coupling, betwe...
Abstract—In this paper, optimal power control policies for an interference channel with two energy h...
Maximizing the battery life time of mobile devices and sensor nodes increasingly becomes a challenge...
In many wireless systems, the energy consumed by the receiver is significantly larger than the energ...
Maximizing the battery life time of mobile devices and sensor nodes increasingly becomes a challenge...
Abstract—Maximizing the battery life time of mobile devices and sensor nodes increasingly becomes a ...
Most wireless battery-operated devices spend more energy receiving than transmitting. Hence, minimiz...
We propose the conditions for maximum overall efficiency at the constraint of satisfying asymmetric ...
Given the growing concern over energy consumption and associated global warming, green communication...
LOW power operation for wireless radio receivers has been gaining importance lately on account of th...
This letter studies the transmit power allocation in downlink coordinated multi-cell systems with th...
10.1109/JSAC.2014.141212IEEE Journal on Selected Areas in Communications322322-332ISAC
The problem of determining the optimal loads for realizing maximum power transfer...
Energy harvesting has emerged as a powerful technology for complementing current battery-powered com...
textIn this dissertation, we study energy efficient transmission in wireless communication networks....
We consider wireless power transfer, realized by means of resonant reactive magnetic coupling, betwe...
Abstract—In this paper, optimal power control policies for an interference channel with two energy h...