Cellular mobile systems are evolving to offer enhanced packet data services at increased data rates.
In this tutorial paper, we present the application of well-known DSP techniques used in lower speed wireline and wireless applications, to high-speed optical communications.
We demonstrate a novel electronic compensation scheme for demodulator phase error in direct-detection 40-Gb/s DQPSK using a joint digital-signal-processing (DSP).
Digital signal processing has enabled the generation and detection of orthogonalfrequency-division-multiplexing based superchannels that advantageously leverage parallelism to achieve high data-rat
We review the principle and progress of sampled self-coherent optical receiver based on differentialdirect-detection and digital-signal-processing, showing promise of improving receiver sensitivity
We present a framework for publishing relational data in XML, with respect to a fixed DTD.
Routing in communication networks involves the indirection from a persistent name (ID) to a locator. The locator specifies how packets are delivered to a destination with a particular ID.
To extend the network coverage to rural and remote areas, there are different solutions with their advantages and disadvantages.
the IEEE 1588-2008 standard [ 1 ] introduces and specifies Boundary Clock (BC) and Transparent Clock (TC) concepts in order to address stringent time distribution requirements (e.g.
This dual-band radiating subarray concept has been developed under the EUCLID RTP 9.3 technological project managed by the West European Union.
