The exponential growth of mobile data users and services places a heavy burden on the limited wireless bandwidth of cellular data networks.
As part of a MIMIC phase 1 team, AT&T Bell Labs is processing a variety of microwave circuits. One such circuit is a C-Band High Power Amplifier.
I N A perfect multi-channel carrier telephone system, each channel would be entirely free from interference produced by the energy present in the other channels.
In long term evolution (LTE), the component carriers in 5GHz are planned to be utilized without licenses, which obtains a new name for this feature of the LTE, i.e., licensed assisted access (LAA).
Elastic optical networks (EONs) have emerged as a promising technology to accommodate the high-capacity and dynamic bandwidth demands of next-generation wireless networks.
We propose a novel load-aware power-selection strategy for maximizing the transparent reach in dispersion-uncompensated flexible optical networks with coherent modulation formats, and we quantify t
We propose a novel load-aware power-selection strategy for maximizing the transparent reach in dispersion-uncompensated flexible optical networks with coherent modulation formats, and we quantify t
We present a novel and practical scheme for carrying dynamic data traffic over circuits at lower costs than existing architectures.
We demonstrate a load-balanced optical packet router that scales to 256 Tb/s.
Thermoelectric behavior in semiconductor materials is investigated for the purpose of converting thermal energy to electrical energy.
