Design of software defined radio of ground station for receiving NANO-satellites image data in S-band
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Eurasian Physical Technical Journal
Abstract
This paper presents results for design, production and implementation of a ground station for
transmitting and receiving information in the S-band for low-orbital nanosatellites for remote sensing of the
Earth. A distinctive feature of the solution is that it uses universal low-cost Software Defined Radio hardware
platforms based on programmable logic arrays and transceivers, such as the AD9361. Computational resources
are saved by usage of a FIR filter with real coefficients and a carrier signal with a symmetrical impulse response,
as well as a frequency converter using the CORDIC algorithm, which provides an efficient solution in terms of
field programmable gate arrays resources. This work computes total and useful data transfer rates, as well as the
required ratio of the energy of one message bit to the value of the power spectral density of the equivalent noise
when used for encoding and modulation of a standard DVB-S2 MODCOD signal. Evaluation of the parameters of
the Software Defined Radio field programmable gate arrays transceiver showed that it can be used in both the S
and X frequency bands without significant changes in hardware, which can significantly reduce the cost of the
ground station.
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Citation
Design of software defined radio of ground station for receiving NANO-satellites image data in S-band/ Baktybekov K.S. [et al.] // Eurasian Physical Technical Journal. – 2024. – Vol.21. – № 4(50). – pp.79-87.