In the Self-Organizing Networks (SON) concept, self-healing functions are used to detect, diagnose and recover degraded states in the managed Network Functions (NFs) or other resources.
In the Self-Organizing Networks (SON) concept, self-healing functions are used to detect, diagnose and correct degraded states in the managed network functions or other resources.
We studied the thermal properties of submicron InP-InGaAs-InP double heterojunction bipolar transistors (DHBTs) with emitter dimensions of A = 0.25 x 4 mum(2).
We studied the thermal properties of submicron InP/InGaAs/InP double heterojunction bipolar transistors (DHBTs) with emitter dimensions of A=0.25 x 4 mum3.
This paper reports measurements of selfinterference (SI) channels in an in-band full-duplex (IBFD) relay scenario for millimeter-wave street-level backhauling.
This paper reports measurements of self-interference (SI) channels in an in-band full-duplex (IBFD) relay scenario for millimeter-wave street-level backhauling.
Self-learning approaches to facilitate the deployment of ML algorithms in real networks are analyzed and their performance evaluated through an illustrative use case.
We report self-mode-locked semiconductor lasers at 1.56 um operating at 40 GHz repetition rate.
The mode-locking mechanism of a single-section multi-spatial-mode Fabry-Perot semiconductor laser is analyzed by the additive pulse mode-locking (APM) master equation model.
We report on the generation of picosecond self-mode-locked pulses from midinfrared quantum cascade Lasers, at wavelengths within the important molecular fingerprint region.