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Autores principales: Coskun, Adem, Cetinsel, Sevket, Kale, Izzet, Hughes, Robert, Angeletti, Piero, Ernst, Christoph
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2401.02927
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author Coskun, Adem
Cetinsel, Sevket
Kale, Izzet
Hughes, Robert
Angeletti, Piero
Ernst, Christoph
author_facet Coskun, Adem
Cetinsel, Sevket
Kale, Izzet
Hughes, Robert
Angeletti, Piero
Ernst, Christoph
contents This article presents a two-stage approach for the processing of frequency-stacked mobile subbands. The frequency stacking is performed in the analog domain to enable the use of a wideband analog-to-digital converter (ADC), instead of employing multiple narrowband ADCs, to support multiple antenna elements for digital satellite beamforming. This analog front end provides a common broadband digital interface to the on-board processor and can be configured to support multiple satellite missions, reducing the cost of commissioning a digital processor for individual satellite missions. This article proposes a framework on the specification of digital prototype filter for the analysis of frequency-stacked mobile subbands. The computational complexity of the analysis operation, with two digital filter alternatives, are evaluated. A series of results, taken from our European Space Agency sponsored project, are presented here to demonstrate the applicability of the proposed two stage approach, reporting on the savings in power consumption when an Nth-band all-pass-based recursive filter having an infinite impulse response is used as the digital prototype filter.
format Preprint
id arxiv_https___arxiv_org_abs_2401_02927
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Digital Prototype Filter Alternatives for Processing Frequency-Stacked Mobile Subbands Deploying a Single ADC for Beamforming Satellites
Coskun, Adem
Cetinsel, Sevket
Kale, Izzet
Hughes, Robert
Angeletti, Piero
Ernst, Christoph
Signal Processing
This article presents a two-stage approach for the processing of frequency-stacked mobile subbands. The frequency stacking is performed in the analog domain to enable the use of a wideband analog-to-digital converter (ADC), instead of employing multiple narrowband ADCs, to support multiple antenna elements for digital satellite beamforming. This analog front end provides a common broadband digital interface to the on-board processor and can be configured to support multiple satellite missions, reducing the cost of commissioning a digital processor for individual satellite missions. This article proposes a framework on the specification of digital prototype filter for the analysis of frequency-stacked mobile subbands. The computational complexity of the analysis operation, with two digital filter alternatives, are evaluated. A series of results, taken from our European Space Agency sponsored project, are presented here to demonstrate the applicability of the proposed two stage approach, reporting on the savings in power consumption when an Nth-band all-pass-based recursive filter having an infinite impulse response is used as the digital prototype filter.
title Digital Prototype Filter Alternatives for Processing Frequency-Stacked Mobile Subbands Deploying a Single ADC for Beamforming Satellites
topic Signal Processing
url https://arxiv.org/abs/2401.02927