Hardware implementation of DCSK communication system using Xilinx system generator
Joint Authors
Ibrahim, Dua S.
Hasan, Fadil S.
Source
Journal of Engineering and Sustainable Development
Publisher
al-Mustansyriah University College of Engineering
Publication Date
2020-12-31
Country of Publication
Iraq
No. of Pages
17
Main Subjects
English Abstract
In this paper, the implementation of the non-coherent differential chaos shift-keying (DCSK) system over AWGN channel with different spread factor using Xilinx System Generator (XSG) are proposed.
Using XSG because it is more reliable and flexible and easy to update and modify the design system in addition to gives the perfect design for FPGA technicality for hardware design compared with the conventional FPGA design.
The hardware co-simulation of the DCSK system is performed on the SP605 xc6slx45t-3fgg484 evaluation board with clock frequency 27 MHZ.
The results of hardware simulation prove that the system is worked in the correct form.
The system is routed in successfully using ISE 14.5 program with maximum frequency 39.587, 41.592 MHZ in modulation, and demodulation respectively.
The Xilinx system generator (XSG) is most easier, flexible, and reliable and gives an optimum design for the FPGA technique comparing with conventional FPGA In this paper, the implementation of the non-coherent differential chaos shift-keying (DCSK) system over AWGN channel with different spread factor using Xilinx System Generator (XSG) are proposed.
Using XSG because it is more reliable and flexible and easy to update and modify the design system in addition to gives the perfect design for FPGA technicality for hardware design compared with the conventional FPGA design.
The hardware co-simulation of the DCSK system is performed on the SP605 xc6slx45t-3fgg484 evaluation board with clock frequency 27 MHZ.
The results of hardware simulation prove that the system is worked in the correct form.
The system is routed in successfully using ISE 14.5 program with maximum frequency 39.587, 41.592 MHZ in modulation, and demodulation respectively.
The Xilinx system generator (XSG) is most easier, flexible, and reliable and gives an optimum design for the FPGA technique comparing with conventional FPGA design.
Data Type
Conference Papers
Record ID
BIM-1263614
American Psychological Association (APA)
Ibrahim, Dua S.& Hasan, Fadil S.. 2020-12-31. Hardware implementation of DCSK communication system using Xilinx system generator. . Vol. 24, Special issue (2020), pp.206-222.Baghdad Iraq : al-Mustansyriah University College of Engineering.
https://search.emarefa.net/detail/BIM-1263614
Modern Language Association (MLA)
Ibrahim, Dua S.& Hasan, Fadil S.. Hardware implementation of DCSK communication system using Xilinx system generator. . Baghdad Iraq : al-Mustansyriah University College of Engineering. 2020-12-31.
https://search.emarefa.net/detail/BIM-1263614
American Medical Association (AMA)
Ibrahim, Dua S.& Hasan, Fadil S.. Hardware implementation of DCSK communication system using Xilinx system generator. .
https://search.emarefa.net/detail/BIM-1263614