Signal acquisition for software-defined GPS receiver
By: Mane, Vijay.
Contributor(s): Awale, Rohan | Kulkarni, Pranesh.
Publisher: Chennai ICT Academy 2022Edition: Vol.13(1) - March.Description: 2640-2644p.Subject(s): Electronics & Computer Science (ECS)Online resources: Click here to access online In: ICTACT journal on communication technologySummary: Signal acquisition plays important role in the estimation of navigation solutions as precise values of code phase and carrier frequency yield more accurate results in positioning systems. Software-defined radios are computationally expensive so we need the solution to reduce the time complexity and processing power. In this paper, we have described and demonstrated the parallel code phase search acquisition method for software-defined GPS by using python. We have compared the computational requirements of the implemented method and other signal acquisition methods. The experimental result shows the difference between the acquisition output of the visible PRNs and invisible PRNs. Keywords: Acquisition, code phase parallel search, correlation, FFT, GPSItem type | Current location | Call number | Status | Date due | Barcode | Item holds |
---|---|---|---|---|---|---|
Articles Abstract Database | School of Engineering & Technology Archieval Section | Not for loan | 2022-1051 |
Signal acquisition plays important role in the estimation of navigation
solutions as precise values of code phase and carrier frequency yield
more accurate results in positioning systems. Software-defined radios
are computationally expensive so we need the solution to reduce the
time complexity and processing power. In this paper, we have described
and demonstrated the parallel code phase search acquisition method
for software-defined GPS by using python. We have compared the
computational requirements of the implemented method and other
signal acquisition methods. The experimental result shows the
difference between the acquisition output of the visible PRNs and
invisible PRNs.
Keywords:
Acquisition, code phase parallel search, correlation, FFT, GPS
There are no comments for this item.