Research Article
Analysis and Performance of Photonic Microwave Filters Based on Multiple Optical Carriers
@INPROCEEDINGS{10.1007/978-3-642-35615-5_70, author={Harish Kumar and Abhijeet Kumar and Abhishek Kumar and Ashwini Mathur and Venkat G. and D. Singh}, title={Analysis and Performance of Photonic Microwave Filters Based on Multiple Optical Carriers}, proceedings={Third International conference on advances in communication, network and computing}, proceedings_a={CNC}, year={2012}, month={12}, keywords={Microwave Photonics Photonic Microwave filter Transversal filter Wavelength Division Multiplexing (WDM) Optical Source}, doi={10.1007/978-3-642-35615-5_70} }- Harish Kumar
Abhijeet Kumar
Abhishek Kumar
Ashwini Mathur
Venkat G.
D. Singh
Year: 2012
Analysis and Performance of Photonic Microwave Filters Based on Multiple Optical Carriers
CNC
Springer
DOI: 10.1007/978-3-642-35615-5_70
Abstract
In this paper a Photonic microwave filters are photonics sub system design with aim of carrying equivalent tasks to those an supplementary advantage inherent to photonics such as low lass, high band width, immunity to electromagnetic inference (EMI), tunability, reconfigurability, reduced size and weight, and low and constant electrical loss. Many photonic microwave filter architectures have been proposed over the last years using a variety of fiber-optic devices. Some of them are based on using multiple optical carriers wavelength-division multiplexing (WDM)] and dispersive media to obtain a set of time-delayed samples of the RF input signal. In this paper, the statistical analysis of the performance of photonic microwave filter is based on multiple optical carriers (WDM) and a dispersive medium, with random errors in amplitude and wavelength spacing between optical carriers is presented.
