OPTICAL DISPERSION COMPENSATION USING DIFFERENT MODULATION FORMATS

Optical dispersion is the main impediment to optimal utilization of optical fiber backbone ability to satisfy the capacity need of today’s emerging telecommunication networks. In this paper, the investigation of post - and symmetrical dispersion compensation fibers (DCF) have been examined in a 16 and 32 channel 40Gbps dense wavelength division multiplexing (DWDM) system using different modulation formats. Simulation results obtained show a significant improvement in the quality factor and bit error rate when DCF is used. The performance of the methods however shows dependency on the number of channels in the system, the modulation, and the channel condition

A SMART SYSTEM FOR MONITORING OIL PIPELINE INSTALLATIONS USING FIBER OPTIC SENSORS

Oil Pipeline installations are national infrastructures of high economic value. This makes monitoring and protection of such installations against the threat of economic saboteurs a national issue for any government. In this paper, a system for smart monitoring of oil pipeline using optical fiber cable is presented as a solution to the inadequacy of the traditional human and/or animal physical monitoring. The designed system employs fiber optic as sensor laid along the oil pipeline installation and a software that analyses the optical signal generated to determine the occurrence of threat to the installations. The smart system takes advantage of the effect of environmental phenomenon on optical signal traversing the optical fiber sensor in the automated monitoring of oil pipeline installations. On the basis of the mathematical relationship between light intensity and applied pressure, the system is able to determine (against a pre-set threshold), an attempt or the actual vandalization of oil pipeline installation

HATA, COST - 231, EGLI and ILORIN - A PERFORMANCE ASSESMENT

Information carried through the wireless medium are subject to impairments due to several events along the route of transmission, leading to path losses. For effective network planning therefore, these events and their effects on radio propagation need to be known and accounted for.  In this work, we studied the radio propagation profile, along selected routes in Ilorin, Kwara State due to transmissions from the NTA, Ilorin, the Harmony FM and the University of Ilorin FM transmitters. Each of the routes are divided into segments, as seen, in the figures. The measurements were made, using the N9432C Agilent spectrum analyzer. Analysis, of obtained data, showed that the nature of the environment, affects radio propagation. Even within the same route and all other conditions the same, the models’ relative performances vary, from one segment to the other. The performances of the models corroborate the notion that empirical models are environment-specific