Daniel A. Fishman

Automatic compensation of first order polarization mode dispersion in a 10 Gb/s transmission system

We demonstrate a novel, adaptive optical polarization mode dispersion equalizer in a 10-Gb/s transmission experiment. The equalizer comprises a fast electrooptic polarization transformer an adjustable differential polarization delay line, and a simple electric distortion analyzer for automatic feedback control.

The rollout of optical networking: LambdaXtreme® national network deployment

The LambdaXtreme® Transport System was designed to enable all-optical transmission for unprecedented distances, without regeneration and with ultra-high capacity. In this paper, we provide a detailed view into what was done before, during, and after a nationwide deployment to ensure that the network builds would be completed on time and perform as designed.

Transmission in optically transparent core networks

Optical fiber transmission systems have become critical in facilitating the rapid growth in high-speed services in the consumer and commercial markets. It is apparent that as higher-speed services, such as IPTV, become available there will be even greater demand for capacity in the distribution and core transport networks. Hence, it is no wonder that underlying optical transport infrastructures need to be scalable and robust to reliably and economically support these services. Service providers have long recognized the importance of transmission capacity in the design of their networks. However, technological limitations often obscure the role of transparency in meeting their requirements. We review and clarify the critical role that optical transparency will have in facilitating the types of optical infrastructures required to support future services and highlight the technologies that enable it. In particular, we summarize recent advances in broadband Raman amplification, transmitter and receiver technologies with advanced modulation formats, dispersion management, signal processing, reconfigurable optical add-drop multiplexing, and dense wavelength-division-multiplexed transmission with mixed 10, 40, and potential 100Gbits/s channels. Network planning tools that facilitate fast and optimal deployment of optical transport systems are also discussed.