The book systematizes numerical methods for modelling and synthesizing radio engineering and telecommunication systems in the microwave range of rectangular and circular waveguides. The author gives the theoretical foundations for the analysis and optimal synthesis of these systems and presents the results of new research. The book uses the HFSS complex to analyse, optimize, and synthesize microwave systems operating on E-type and H-type waves while providing the outcomes. As a result of analysis and synthesis, various microwave devices with improved technical and operational parameters have…mehr
The book systematizes numerical methods for modelling and synthesizing radio engineering and telecommunication systems in the microwave range of rectangular and circular waveguides. The author gives the theoretical foundations for the analysis and optimal synthesis of these systems and presents the results of new research. The book uses the HFSS complex to analyse, optimize, and synthesize microwave systems operating on E-type and H-type waves while providing the outcomes. As a result of analysis and synthesis, various microwave devices with improved technical and operational parameters have been developed, and on their basis a new system of waveguide paths is proposed that connects the transmitter and antenna in TV towers. The book is intended for engineers and scientists involved in the design of radio engineering and telecommunication systems.
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Autorenporträt
Islam Islamov graduated with honors from the Faculty of Radio Engineering of the Azerbaijan Technical University, majoring in radio equipment. From 2006 to 2011, he worked as the deputy dean for academic work of the Faculty of Radio Engineering and Telecommunication of the Azerbaijan Technical University, and in 2017-2019, he worked as the director of the Science and Innovation department of the Azerbaijan Technical University. In 2001, he defended his candidate's thesis, and in 2002, by the decision of the Higher Attestation Commission under the President of the Republic of Azerbaijan, he received the degree of candidate of technical sciences. In 2008, by the decision of the Higher Attestation Commission under the President of the Republic of Azerbaijan, he was awarded the academic title of assistant professor. He defended his doctoral dissertation on the specialty Telecommunications technology and received the degree of doctor of technical sciences, professor in 2022 by the decision of the Higher Attestation Commission under the President of the Republic of Azerbaijan. Currently, he is the author of more than 270 scientific and methodological works, including 5 textbooks, 4 monographs, and 11 textbooks.
Inhaltsangabe
Introduction.- Analysis and optimal synthesis of complex structural microwave radioengineering.- Modeling of complex structural microwave systems in a nonlinear environment.- Modeling, research, and results of complex structural microwave waveguide systems.- Modeling of microwave systems with complex structural mixed combinations.- Experimental study of complex structural microwave systems in a non-linear environment.- Optimal synthesis of complex structured microwave systems in a nonlinear environment.- Modeling of specially designed microwave systems.- Conclusion.
Introduction.- Analysis and optimal synthesis of complex structural microwave radioengineering.- Modeling of complex structural microwave systems in a nonlinear environment.- Modeling, research, and results of complex structural microwave waveguide systems.- Modeling of microwave systems with complex structural mixed combinations.- Experimental study of complex structural microwave systems in a non-linear environment.- Optimal synthesis of complex structured microwave systems in a nonlinear environment.- Modeling of specially designed microwave systems.- Conclusion.
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