Digital signal-processing-based coherent optical communication systems are widely viewed as the most promising next-generation long-haul transport systems.
The real-time implementation of digital coherent receivers for 100 Gbit/s data rates and beyond pushes the limits of all the technologies involved.
The complete characterization of 40 Gb/s train of optical pulses is performed in real time using spectrograms.
Real-time database systems are expected to rely heavily on indexes to speed up data access and, thereby, help more transactions meet their deadlines.
We present here a new experimental tool for the direct observation of magnetic vortices in type-II superconductors.
Channel state information (CSI) is of pivotal importance as it enables wireless systems to adapt transmission parameters more accurately, thus improving the system's overall performance.
A high frequency moire interferometry technique to continuously monitor in-plane surface displacement is presented.
Any rigid body in motion has six degrees of freedom. To track a moving rigid body one needs only to track any three non-colinear points of the body under motion.
In this talk, we will discuss the principles of operation of such a system and describe some of the implementation aspects of this system.
Current Internet and intranet development is focusing attention on networked multimedia services involving the transport of real-time multimedia streams over IF.