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GNSS Software-Defined Radio Receivers: Status and Perspectives
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GNSS Software-Defined Radio Receivers: Status and Perspectives

A special issue of Sensors (ISSN 1424-8220). This special issue belongs to the section "Remote Sensors".

Deadline for manuscript submissions: 31 October 2024 | Viewed by 6147

Special Issue Editors

Dr. Micaela Troglia Gamba

E-Mail Website
Guest Editor
Leonardo S.p.A., Strada Privata Aeroporto Caselle, San Maurizio Canavese 10077, TO, Italy
Interests: real-time GNSS; GNSS software receivers; signal processing; prototyping
Special Issues, Collections and Topics in MDPI journals
Dr. Mario Nicola

E-Mail Website
Guest Editor
Civitanavi Systems SpA, 63827 Pedaso, Italy
Interests: GNSS; GNSS software receivers; signal processing
Prof. Dr. Thomas Pany

E-Mail Website
Guest Editor
Institute of Space Technology and Space Applications, Universität der Bundeswehr München, Werner-Heisenberg-Weg 39, 85577 Neubiberg, Germany
Interests: navigation; GNSS; signal processing; inertial navigation
Special Issues, Collections and Topics in MDPI journals

Special Issue Information

Dear Colleagues,

In modern communications, the software-defined radio (SDR) provides a well-known approach that allows the implementation of receivers with a high flexibility level. Global navigation satellite system (GNSS) receivers make no exception to this fact, and, in recent years, several examples of software (SW) GNSS receivers have been published in the literature. The advantage is two-fold: not only can the GNSS SDR receiver be easily updated during its operational life, but it is an outstanding tool for prototyping innovative algorithms. In the last decade, considerable effort has been devoted by the GNSS scientific community to SDR developments and standardization, which has resulted in numerous open-source projects.

This Special Issue aims to collect the most recent GNSS SDR developments, including the implementation and prototyping of new digital architectures for GNSS receivers on different platforms, e.g., standard-PC (general-purpose processors), single board computers (SBCs), embedded boards, graphics processing units (GPUs), smartphones; GNSS receivers, including those with real-time capabilities, research tools, and snapshot receivers; and data collection systems, e.g., SDR GNSS front-ends (FEs). Special attention should be given to implementation choices and details, optimizations for real-time processing, computational burden analysis, and performance evaluation. All applications will be of interest.

Dr. Micaela Troglia Gamba
Dr. Mario Nicola
Prof. Dr. Thomas Pany
Guest Editors

Manuscript Submission Information

Manuscripts should be submitted online at www.mdpi.com by registering and logging in to this website. Once you are registered, click here to go to the submission form. Manuscripts can be submitted until the deadline. All submissions that pass pre-check are peer-reviewed. Accepted papers will be published continuously in the journal (as soon as accepted) and will be listed together on the special issue website. Research articles, review articles as well as short communications are invited. For planned papers, a title and short abstract (about 100 words) can be sent to the Editorial Office for announcement on this website.

Submitted manuscripts should not have been published previously, nor be under consideration for publication elsewhere (except conference proceedings papers). All manuscripts are thoroughly refereed through a single-blind peer-review process. A guide for authors and other relevant information for submission of manuscripts is available on the Instructions for Authors page. Sensors is an international peer-reviewed open access semimonthly journal published by MDPI.

Please visit the Instructions for Authors page before submitting a manuscript. The Article Processing Charge (APC) for publication in this open access journal is 2600 CHF (Swiss Francs). Submitted papers should be well formatted and use good English. Authors may use MDPI's English editing service prior to publication or during author revisions.

Keywords

  • GNSS SDR developments
  • real-time GNSS SW receivers
  • research and teaching tools
  • snapshot receivers
  • data collection systems, e.g., SDR Fes
  • prototyping of new digital architectures for GNSS elaboration
  • implementation details and optimizations

Published Papers (5 papers)

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Research

16 pages, 13892 KiB  
Article
ZPD Retrieval Performances of the First Operational Ship-Based Network of GNSS Receivers over the North-West Mediterranean Sea
by Andrea Antonini, Luca Fibbi, Massimo Viti, Aldo Sonnini, Simone Montagnani and Alberto Ortolani
Sensors 2024, 24(10), 3177; https://doi.org/10.3390/s24103177 - 16 May 2024
Viewed by 313
Abstract
This work presents the design and implementation of an operational infrastructure for the monitoring of atmospheric parameters at sea through GNSS meteorology sensors installed on liners operating in the north-west Mediterranean Sea. A measurement system, capable of operationally and continuously providing the values [...] Read more.
This work presents the design and implementation of an operational infrastructure for the monitoring of atmospheric parameters at sea through GNSS meteorology sensors installed on liners operating in the north-west Mediterranean Sea. A measurement system, capable of operationally and continuously providing the values of surface parameters, is implemented together with software procedures based on a float-PPP approach for estimating zenith path delay (ZPD) values. The values continuously registered over a three year period (2020–2022) from this infrastructure are compared with the data from a numerical meteorological reanalysis model (MERRA-2). The results clearly prove the ability of the system to estimate the ZPD from ship-based GNSS-meteo equipment, with the accuracy evaluated in terms of correlation and root mean square error reaching values between 0.94 and 0.65 and between 18.4 and 42.9 mm, these extreme values being from the best and worst performing installations, respectively. This offers a new perspective on the operational exploitation of GNSS signals over sea areas in climate and operational meteorological applications. Full article
(This article belongs to the Special Issue GNSS Software-Defined Radio Receivers: Status and Perspectives)
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41 pages, 1927 KiB  
Article
Implementation of a High-Sensitivity Global Navigation Satellite System Receiver on a System-on-Chip Field-Programmable Gate Array Platform
by Marc Majoral, Javier Arribas and Carles Fernández-Prades
Sensors 2024, 24(5), 1416; https://doi.org/10.3390/s24051416 - 22 Feb 2024
Viewed by 833
Abstract
This paper presents the design, proof-of-concept implementation, and preliminary performance assessment of an affordable real-time High-Sensitivity (HS) Global Navigation Satellite System (GNSS) receiver. Specifically tailored to capture and track weak Galileo E1b/c signals, this receiver aims to support research endeavors focused on advancing [...] Read more.
This paper presents the design, proof-of-concept implementation, and preliminary performance assessment of an affordable real-time High-Sensitivity (HS) Global Navigation Satellite System (GNSS) receiver. Specifically tailored to capture and track weak Galileo E1b/c signals, this receiver aims to support research endeavors focused on advancing GNSS signal processing algorithms, particularly in scenarios characterized by pronounced signal attenuation. Leveraging System-on-Chip Field-Programmable Gate Array (SoC-FPGA) technology, this design merges the adaptability of Software Defined Radio (SDR) concepts with the the robust hardware processing capabilities of FPGAs. This innovative approach enhances power efficiency compared to conventional designs relying on general-purpose processors, thereby facilitating the development of embedded software-defined receivers. Within this architecture, we implemented a modular GNSS baseband processing engine, offering a versatile platform for the integration of novel algorithms. The proposed receiver undergoes testing with live signals, showcasing its capability to process GNSS signals even in challenging scenarios with a carrier-to-noise density ratio (C/N0) as low as 20 dB-Hz, while delivering navigation solutions. This work contributes to the advancement of low-cost, high-sensitivity GNSS receivers, providing a valuable tool for researchers engaged in the development, testing, and validation of experimental GNSS signal processing techniques. Full article
(This article belongs to the Special Issue GNSS Software-Defined Radio Receivers: Status and Perspectives)
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18 pages, 6649 KiB  
Article
Software Defined Radio for GNSS Radio Frequency Interference Localization
by Fred Taylor, Evan Gattis, Lucca Trapani, Dennis Akos, Sherman Lo, Todd Walter and Yu-Hsuan Chen
Sensors 2024, 24(1), 72; https://doi.org/10.3390/s24010072 - 22 Dec 2023
Viewed by 1811
Abstract
The use of radio direction finding techniques in order to identify and reject harmful interference has been a topic of discussion both past and present for signals in the GNSS bands. Advances in commercial off-the-shelf radio hardware have led to the development of [...] Read more.
The use of radio direction finding techniques in order to identify and reject harmful interference has been a topic of discussion both past and present for signals in the GNSS bands. Advances in commercial off-the-shelf radio hardware have led to the development of new low-cost, compact, phase coherent receiver platforms such as the KrakenSDR from KrakenRF whose testing and characterization will be the primary focus of this paper. Although not specifically designed for GNSSs, the capabilities of this platform are well aligned with the needs of GNSSs. Testing results from both benchtop and in the field will be displayed which verify the KrakenSDR’s phase coherence and angle of arrival estimates to array dependent resolution bounds. Additionally, other outputs from the KrakenSDR such as received signal strength indicators and the angle of arrival confidence values show strong connections to angle of arrival estimate quality. Within this work the testing that will be primarily presented is at 900 MHz, with results presented from a government-sponsored event where the Kraken was tested at 1575.42 MHz. Finally, a discussion of calibration of active antenna arrays for angle of arrival is included as the introduction of active antenna elements used in GNSS signal collection can influence angle of arrival estimation. Full article
(This article belongs to the Special Issue GNSS Software-Defined Radio Receivers: Status and Perspectives)
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39 pages, 1286 KiB  
Article
A Flexible System-on-Chip Field-Programmable Gate Array Architecture for Prototyping Experimental Global Navigation Satellite System Receivers
by Marc Majoral, Carles Fernández-Prades and Javier Arribas
Sensors 2023, 23(23), 9483; https://doi.org/10.3390/s23239483 - 28 Nov 2023
Cited by 1 | Viewed by 1401
Abstract
Global navigation satellite system (GNSS) technology is evolving at a rapid pace. The rapid advancement demands rapid prototyping tools to conduct research on new and innovative signals and systems. However, researchers need to deal with the increasing complexity and integration level of GNSS [...] Read more.
Global navigation satellite system (GNSS) technology is evolving at a rapid pace. The rapid advancement demands rapid prototyping tools to conduct research on new and innovative signals and systems. However, researchers need to deal with the increasing complexity and integration level of GNSS integrated circuits (IC), resulting in limited access to modify or inspect any internal aspect of the receiver. To address these limitations, the authors designed a low-cost System-on-Chip Field-Programmable Gate Array (SoC-FPGA) architecture for prototyping experimental GNSS receivers. The proposed architecture combines the flexibility of software-defined radio (SDR) techniques and the energy efficiency of FPGAs, enabling the development of compact, portable, multi-channel, multi-constellation GNSS receivers for testing novel and non-standard GNSS features with live signals. This paper presents the proposed architecture and design methodology, reviewing the practical application of a spaceborne GNSS receiver and a GNSS rebroadcaster, and introducing the design and initial performance evaluation of a general purpose GNSS receiver serving as a testbed for future research. The receiver is tested, demonstrating the ability of the receiver to acquire and track GNSS signals using static and low Earth orbit (LEO)-scenarios, assessing the observables’ quality and the accuracy of the navigation solutions. Full article
(This article belongs to the Special Issue GNSS Software-Defined Radio Receivers: Status and Perspectives)
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14 pages, 3663 KiB  
Article
Ocean-Surface Wave Measurements Using Scintillation Theories on Seaborne Software-Defined GPS and SBAS Reflectometry Observations
by Lung-Chih Tsai, Hwa Chien, Shin-Yi Su, Chao-Han Liu, Harald Schuh, Mohamad Mahdi Alizadeh and Jens Wickert
Sensors 2023, 23(13), 6185; https://doi.org/10.3390/s23136185 - 6 Jul 2023
Cited by 1 | Viewed by 957
Abstract
In this study, a low-cost, software-defined Global Positioning System (GPS) and Satellite-Based Augmentation System (SBAS) Reflectometry (GPS&SBAS-R) system has been built and proposed to measure ocean-surface wave parameters on board the research vessel New Ocean Researcher 1 (R/V NOR-1) of Taiwan. A power-law, [...] Read more.
In this study, a low-cost, software-defined Global Positioning System (GPS) and Satellite-Based Augmentation System (SBAS) Reflectometry (GPS&SBAS-R) system has been built and proposed to measure ocean-surface wave parameters on board the research vessel New Ocean Researcher 1 (R/V NOR-1) of Taiwan. A power-law, ocean-wave spectrum model has been used and applied with the Small Perturbation Method approach to solve the electromagnetic wave scattering problem from rough ocean surface, and compared with experimental seaborne GPS&SBAS-R observations. Meanwhile, the intensity scintillations of high-sampling GPS&SBAS-R signal acquisition data are thought to be caused by the moving of rough surfaces of the targeted ocean. We found that each derived scintillation power spectrum is a Fresnel-filtering result on ocean-surface elevation fluctuations and depends on the First Fresnel Zone (FFZ) distance and the ocean-surface wave velocity. The determined ocean-surface wave speeds have been compared and validated against nearby buoy measurements. Full article
(This article belongs to the Special Issue GNSS Software-Defined Radio Receivers: Status and Perspectives)
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