Abstract: In a WDM optical network, optical components of optical add/drop multiplexers (OADMS) at different nodes are made independent of the optical channel wavelengths to be dropped and added. Groups of optical channels each comprise a respective channel in each of a plurality of optical bands of channels having adjacent wavelengths, and the OADMs use tunable optical filters to drop and add channels in a selected group. A remote source supplies unmodulated optical carriers at channel wavelengths via an optical carrier fiber to each node, and at least one, conveniently all, of the optical carriers in a respective optical band is/are modulated with a signal to be transmitted via the add filter.

Abstract: Methods, systems, computer readable media are provided which facilitate the selection of multiple paths through a network represented by a network topology which take into account shared risk which may exist between network resources. The method involves identifying a first path through the network topology from a source node to a destination node, the first path comprising a first sequence of network resources. For at least one shared risk group, a determination is made if any of the at least one shared risk group includes any of the first sequence of network resources, a shared risk group being a group of network resources within the network topology which have a shared risk. A topology transformation is performed of the network topology into a virtual topology which discourages the use of network resources in any shared risk group determined. A second path through the virtual topology is identified from the source node to the destination.

Abstract: A noise reduction apparatus used to increase the signal-to-noise ratio (SNR) of an optical signal is provided. The structure of the noise reduction apparatus may be based on the Mach-Zehnder interferometer. To increase the SNR, the noise reduction apparatus makes use of the coherence of a coherent component of an optical signal having a coherent signal power and the incoherence of an incoherent component of the optical signal having an incoherent signal power. The optical signal is split in two path signals with each path signal having the same intensity but a different phase. The phase difference is tuned in a manner which produces a main output optical signal containing most of the coherent signal power and containing a fraction of the incoherent signal power, with the remaining incoherent signal power being diverted to one or more subsidiary outputs.

Abstract: A switchable dynamic gain-flattened optical amplifier with wide adjustable gain range is provided. Optical signals are amplified through common amplification such that the gain is approximately common to all optical signals. Further, gain specific amplification is then achieved through distinct amplification wherein the optical signal is routed through one of N parallel amplification paths each having its well-designed gain. The amplifier makes use of a control circuit to self-adjust quickly and respond to changes in input conditions, operating conditions of the optical amplifier and gain requirements while maintaining gain flatness and a low noise figure (NF) over a broad optical bandwidth and a wide range of gain levels. The optical amplifier is highly desirable in dense wavelength-division-multiplexed (DWDM) systems for responding to changes in operating conditions due to link loss, pump deterioration, channel add/drop, and network reconfigurations.

Abstract: In order to probe digital signals within a Printed Circuit Board (PCB) a sensor apparatus is implemented adjacent to a signal trace. The sensor apparatus receives crosstalk signalling from the signal trace and is coupled to a probing node capable of being probed by a test apparatus. Hence, in essence, the signal trace itself can be probed via the sensor apparatus and the probing node. The probing node can be implemented on the same layer of the PCB as its corresponding sensor apparatus or on a different layer that is more convenient for probing purposes. Further, the sensor apparatus could be implemented on the same layer within the PCB as its corresponding signal trace or alternatively could be implemented on an adjacent layer that still allows the sensor apparatus to receive crosstalk signalling from the signal trace.