We describe an analog electronic cochlea that decomposes sounds over 6 orders of magnitude in intensity into 117 channels over a frequency range of 100 Hz-10 khz while dissipating less than 0.5 mW.
The unprecedented growth of mobile video traffic is adding significant pressure to the energy drain at both the network and the end user.
This paper proposes the cascaded bit-interleaved optical network protocol, an energy-efficient solution aiming at low power consumption in converged optical access/in-building networks while provid
This paper proposes and experimentally evaluates the Cascaded Bit-interleaving architecture and protocol, an energy-efficient solution that aims to reduce the power consumption of integrated optica
Communication systems are traditionally designed with tight transmitter-receiver synchronization. This requirement has negligible overhead in the high-SNR regime.
Communication networks are often designed and analyzed assuming tight synchronization among nodes.
Due to the limited energy supplies of nodes, in many applications like wireless sensor networks energy-efficiency is crucial for extending the lifetime of these networks.
Device-to-device (D2D) communications facilitate promising solutions for service optimization and spectrum/capacity efficiency in the Third-Generation Partnership Project (3GPP) networks.
We introduce two novel data transfer primitives for weakly connected laptops that can be switched off frequently and have intermittent network access.
Communication can consume a significant fraction of the available energy for many simple sensor devices for which battery life is an important consideration in deployment.
