Syed Waqar Shah
- Super User
- Friday, 04 October 2013 06:17
Syed Waqar Shah was born in Lakki Marwat, Pakistan in 1969. He received his B.Sc Degree in Electrical Engineering from University College of Engineering and Technology (UCET), Mirpur, Azad Jammu and Kashmir in 1994. He completed his Masters Degree in 2000 from University of Engineering and Technology, Peshawar, Pakistan. He obtained PhD Degree in 2005 from University of Strathclyde, Glasgow, UK. He received University Gold Medal as Best Graduate. He joined the Department of Electrical Engineering, University of Engineering and Technology, Peshawar, Pakistan as a lecturer in 1995.
Dr. Syed Waqar Shah has more than 30 Publications in reputable Engineering Conferences and Journals. He is also a member of IEEE USA.
Currently, he is working as a Proferror in Deptt. of Electrical Engineering, University of Engineering and Technology, Peshawar, Pakistan. Alongwith this he is also working as Director, Postgraduate Studies, in the same University. His research interests include Coordination in Mobile Agent Environment, Channel Estimation/Equalization of Wireless channels, Error Correction etc.
Title: Armstrong’s Indirect Method of Conversion of Narrowband FM (NBFM) to Wideband FM (WBFM)"
Abstract- A novel algorithm is presented to calculate the most appropriate frequency multipliers for the conversion of NBFM to WBFM. This algorithm makes the communication system designer job easier and calculates most accurately the best possible frequency multiplying factors in least possible time. The carrier frequency and frequency deviation of NBFM signal can be increased by the application of these frequency multipliers. The algorithm is implemented in C++ programming language and is applied to 4 practical design cases. The best possible results are generated with least possible errors. The algorithm can be used for either frequency Doublers or frequency Triplers or frequency Quintuplers or 1000* frequency or combination of them like frequency Doublers and Triplers, frequency Doublers and Quintuplers, frequency Triplers and frequency Quintuplers etc.