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Description
Advancements in technologies like the Internet of thing causes an increase in the presence of wireless transceivers. A cooperative communication between these transceivers opens a doorway for multiple novel applications. A mobile distributed transceiver architecture is a much more dynamic environment dictating the necessity of faster synchronization among the transceivers. A possibility of simultaneous synchronization in parallel with the communication will theoretically ensure a high-speed synchronization without affecting the data rate. One such system has been implemented using a Costas loop and an extension of such synchronization technique to the full-duplex model has also been addressed. The rise in spectral demand is hard to meet with the regular Time duplex and frequency duplex communication systems. A full-duplex system is theoretically expected to double the spectral efficiency. However it comes with tremendous challenges, This thesis works on one of those challenges in implementing full-duplex synchronization. A coherent full-duplex model is designed to overcome the issue of transmitter leakage modeled as injection pulling, A known solution for this effect has been used to resolve the issue and complete the coherent full-duplex model. This establishes the simultaneous synchronization and communication system.
ContributorsDhulipala, Sailesh (Author) / Zeinolabedinzadeh, Saeed (Thesis advisor) / Trichopoulos, Georgios C. (Committee member) / Allee, David (Committee member) / Arizona State University (Publisher)
Created2021