GPS World

Tag: satcom

  • EUSPA launches new EU Space Market Report, strong GNSS growth predicted

    EUSPA launches new EU Space Market Report, strong GNSS growth predicted

    A new edition of the European Union’s Space Market Report is now available. According to the EU’s Agency for the Space Programme (EUSPA), it offers a comprehensive overview of the latest developments, emerging trends, and market dynamics shaping the global space downstream sector.

    The report provides a comprehensive overview of the latest developments and trends in GNSS, as well as Earth observation (EO), secure satellite communications (Secure SATCOM), and space situational awareness (SSA) in one place for the first time. It also highlights the evolution of user technologies and the growing synergies between these domains.

    “As Europe’s space capabilities become increasingly interconnected, it is essential to move beyond viewing them as standalone technologies,” explained Rodrigo da Costa, EUSPA executive director. The publication “reflects the growing synergies between these domains and their strategic importance for Europe’s economy, resilience and autonomy.

    “By providing a comprehensive view of the evolving space ecosystem, EUSPA aims to foster innovation, strengthen collaboration across the sector, and support the development of a more competitive, agile and responsive European Union space economy,” da Costa said.

    GNSS and EO

    The report highlights sustained growth for both the GNSS and EO markets across all 16 analyzed market segments. The current €3.5 billion of EO market revenue in 2024 is expected to grow to €7.9 billion by 2034 with agriculture representing the largest share.

    GNSS revenues are forecast to rise from €300 billion in 2024 to €580 billion by 2034. GNSS service revenues outpace device revenues and confirm the increasing role of digital ecosystems and value-added services in the space economy, the report said.

    Revenues are mainly driven by consumer solutions, and road and automotive, with a global installed base of GNSS-enabled devices that will reach almost 10 billion by 2034.

    Secure SATCOM

    The Secure SATCOM market addresses the needs of surveillance, key infrastructure and crisis management. In this sector, data service revenues generated by EU users are forecast to grow significantly, increasing from more than €200 million in 2025 to nearly €1.2 billion by 2040.

    While maritime surveillance drives demand in 2025, by 2040 the market is expected to be led by law enforcement interventions, civil protection and force deployment, fueled by growing security and resilience needs, demand for reliable connectivity, and stronger crisis-response capabilities.

    Existing and future synergies

    The report also examines how major macroeconomic trends —including climate change, geopolitical instability and rapid urbanization — are reshaping space markets and strengthening synergies between EO, GNSS and Secure SATCOM technologies. Together, these capabilities are becoming increasingly important for security, resilience, disaster response, environmental monitoring, and smarter urban and infrastructure management.

    Download the EU Space Market Report.

  • Rohde & Schwarz and Greenerwave achieve fast antenna characterization

    Rohde & Schwarz and Greenerwave achieve fast antenna characterization

    A joint measurement trial, Rohde & Schwarz and Greenerwave have demonstrated that a near-field system can record a full radiation pattern of a 50 cm Ku band electronically steerable array for a SATCOM antenna in a half hour.

    The achieved results match simulation models within a decibel, making this approach a fast and reliable way to verify antenna performance.

    For manufacturers of SATCOM systems facing large chamber constraints, it offers a clear path to quicker, more cost-effective testing. 

    Electronically steerable array (ESA) antennas are becoming key components in modern SATCOM systems. Accurate knowledge of their radiation pattern is required for reliable operation in LEO, MEO and GEO orbits. However, conventional far‑field testing demands chambers that are often larger than practical for Ku or Ka band antennas, especially when the aperture of the Antenna Under Test (AUT) reaches half a meter or more.

    Compact Antenna Test Ranges (CATR), on the other hand, are still relatively large for these AUTs and require time-consuming dual-axis positioning of AUT to map the radiation pattern.

    Rohde & Schwarz and Greenerwave have reached a breakthrough in ESA antenna testing in a joint measurement trial, achieving highly accurate radiation pattern characterization in the near field, significantly reducing measurement time. Greenerwave’s innovative SATCOM user terminals are based on reconfigurable intelligent surfaces (RIS), allowing the company to design electronically steerable antennas that deliver high-performance connectivity while reducing energy consumption and reliance on semiconductors compared with conventional solutions.

    For the joint measurement campaign, Rohde & Schwarz provided its R&S TS8991 over‑the‑air and antenna measurement system, equipped with a conical cut positioner, and its R&S ZNA vector network analyzer. Together, they evaluated Greenerwave’s passive single‑aperture ESA that uses RIS technology for beamforming. The antenna under test (AUT) features a 50 x 50 cm aperture and is designed for low power consumption and easy integration. 

    The measurement covered an extended upper hemisphere down to a polar angle of 120 degrees, using a one-degree step size. Ten Ku band frequencies were recorded in a total of 32 minutes, thanks to the system’s hardware trigger function. Data was processed using the R&S AMS32 antenna measurement software, which applied a FIAFTA near-field-to-far-field transformation algorithm. 

    Comparison with the original simulation based on a numerical twin model and with results from Greenerwave’s CATR setup showed peak gain or directivity variations of max. 1 dB and typically 0.3 dB, validating the accuracy of the near-field solution. Export options allow users to continue analysis in tools such as CST Microwave Studio or MATLAB.

    The trial shows that even large SATCOM antennas can be characterized quickly and accurately with the R&S TS8991 antenna test system from Rohde & Schwarz in a near-field setup, providing a practical alternative to large-sized far-field chambers or CATRs. 

    According to Rohde & Schwarz, the system setup can be used by other SATCOM makers testing broadband, IoT or back haul antennas for applications requiring flexible beam control and high data rates. The setup can be integrated more easily into research lab environments, and it shortens test cycles, reducing overall development cost.

  • More on EUSPA’s first ever GNSS and Secure SATCOM User Technology Report

    More on EUSPA’s first ever GNSS and Secure SATCOM User Technology Report

    In case you missed it, the European Union Agency for the Space Program (EUSPA) recently issued its first ever User Technology Report addressing both GNSS and Secure SATCOM. Though they seem to be different and distinct topics, EUSPA does a reasonable job of drawing them together with an “Editor’s Special — Synergies from Space” at the end of the document.  

    The first half of the report deals with GNSS and is an exploration and celebration of how far we have come with GNSS. While the report is aimed at “users” and is designed to be “technical,” it is written to be accessible by most who are generally familiar with the topic.

    Also, a careful reading reveals several messages for policymakers.  

    Protecting Frequencies

    The report opens with a celebration of what has now become a multi-constellation, multi-frequency, open positioning, navigation and timing (PNT) system with 110 satellites, two regional augmentation systems (Japan’s QZSS and India’s NavIC), and Satellite Based Augmentation Systems (SBAS). All of this depends, of course, on clear and uninterrupted signals. 

    One of the first cautions policy makers should note is a subheading in the section that reads “Frequencies: a scarce resource to be protected.” This is the first of many mentions of the need to protect signals and users from accidental and malicious interference. 

    From 2016 to 2019, the European Union’s STRIKE3 project deployed equipment to monitor L1/E1 signals in 23 countries across the globe. They found more than 450,000 signals that could interfere with GNSS, 59,000 of which were assessed to be intentional jamming or spoofing. 

    This was well before the current wars in Ukraine and the Middle East and before Russia’s malicious ongoing electronic warfare in the Baltic. So, even in the absence of aggressive nation-state actions, which could flare up at any time, STRIKE3 showed that GNSS interference was a significant problem threatening users’ reliance on GNSS.

    Both the European Union and the United States have undertaken projects in response to widespread jamming and spoofing.

    In Europe, EUSPA has begun the EGIPRON project, or European Global Interference PROtection Network. It aims to develop and deploy “…an interference monitoring system covering all European territories and worldwide areas of European interest” working with contractors Qascom and Leonardo.

    The U.S. Department of Transportation (DOT) announced the “GNSS Situational Awareness Common Operational Picture GovCloud Environment” at the December 2024 National PNT Advisory Board meeting. The government version was described as operational, with a public version to be available in mid-2025.

    These detection — and hopefully geolocation — systems will be great tools. Policy makers must remember, though, that better understanding the scope of the problem will not solve it. 

    Better laws and regulations to empower enforcement, along with improved enforcement capability, will both be needed if even a dent is to be made in the problem. Getting these in place will be significant legislative and budgetary challenges. Even then, the problem of accidental and malicious GNSS interference will not be solved. Authorities will just be able to manage it a bit better.  

    Toughen Receivers 

    A great majority of the GNSS portion of the document is appropriately devoted to receivers. They are, after all, the only part of the GNSS system over which users have any discretion and control. 

    Receiver design, signal processing, antennas and PNT processing are all discussed. The most attention is paid to describing the characteristics and appropriate uses of five different families of GNSS receivers:

    • Mass Market Entry-Level
    • Mass Market Premium
    • Professional Non-Regulated
    • Professional Regulated
    • Special Applications

    Using the right kind of GNSS receiver for a given application is essential for safety and effectiveness. 

    The question for policymakers, though, is not whether the right technology exists to mitigate risks — it does. Rather, the issue is whether that technology is being used appropriately. 

    Most GNSS users are uninformed about GNSS issues and tend to purchase equipment based upon price rather than resilience. Policymakers must consider how to motivate users, especially in critical applications, to purchase and use more expensive equipment. Government leaders have many levers of influence at their disposal, from education to regulation and requirements. As of yet, however, we have seen few in use.

    Alternative & Complementary PNT

    The booklet devotes a page to “Complementary PNT Technologies” with the subhead “Complementary PNT technologies are redefining navigation solutions.” Saying “one size does not fit all” — which can also be said for GNSS — includes a graphic from the most recent European Radionavigation Plan of a conceptual, system of systems PNT architecture.

    Perhaps more significantly, other pages have mentions of the desirability of “diversifying” PNT sources and “hybridizing” PNT sources. 

    Safety-Critical Applications 

    Overall, the GNSS section of the User Technical Report is an excellent general overview and reference document.

    Its description of SBAS, however, might give a misimpression to the uninformed reader. 

    The title on page 12 reads “SBAS enhance GNSS performance and enable safety critical operations.” 

    SBAS improves GNSS accuracy with corrections and ionospheric models and helps with integrity. However, it does little to prevent service disruptions due to interference.

    The title for SBAS conflict on page 12, with a comment on page 17, discusses “GNSS Vulnerabilities and Mitigation Measures.” The very last note on the page and in the tiniest type reads, “For critical applications, implement alternative (non-GNSS) technologies as a backup to ensure continuous PNT information.”

    This latter statement is very much in keeping with the most current, 2023 version of the European Radionavigation Plan, which says:

    “Thus, for critical applications or critical infrastructure protection, it is broadly accepted that GNSS, even in a multi-constellation and multi-frequency environment, should not be the unique source of  PNT information. For those applications, an alternative PNT solution (back-up but also complementary) should be developed and maintained, not necessarily based on radio frequency technologies.”

    To a certain extent, this has been echoed in the United States as well. 

    In 2020, a Presidential Executive Order warned against over-reliance on GPS/GNSS, saying the government “must ensure critical infrastructure can withstand disruption or manipulation of PNT services.”

    Following this, in its January 2021 report on a PNT demonstration project, the DOT said:

    “Promoting critical infrastructure owner/operator use of those technologies that show strong performance, operational diversity, operational readiness, and cost-effectiveness is worthwhile. Based on this demonstration, those technologies are LF and UHF terrestrial and L-band satellite broadcasts for PNT functions with supporting fiber optic time services to transmitters/control segments.”

    Additionally, a 2023 presentation to an international group by the Office of the Assistant Secretary of the Air Force was titled “Alt. PNT — the Pathway to Resilience.” 

    GNSS are great systems, but we cannot let our understandable enthusiasm for what are truly miracles of technology unintentionally mislead others. Policymakers must be constantly on the lookout for such missteps and help us all maintain a broader, user-focused perspective. 

  • EUSPA launches GNSS and secure SATCOM user technology report

    EUSPA launches GNSS and secure SATCOM user technology report

    The European Union Agency for Space Programme (EUSPA) has released its first GNSS and secure satellite communications (SATCOM) user technology report, offering an overview of recent developments in GNSS and SATCOM. This publication combines and expands upon previous GNSS user technology and secure SATCOM market and user technology reports, offering a comprehensive look at current trends and advancements in user technology.

    The report examines the satellite industry’s ongoing transformation, influenced by evolving security concerns, increased digitalization efforts, rapid progress in artificial intelligence (AI) and the emergence of the New Space sector. By addressing these topics, the report aims to provide stakeholders with up-to-date information on the state of satellite-based technologies.

    Focusing on both GNSS and Secure SATCOM, the publication explores recent innovations in user technology, such as terminals and receivers. It also investigates potential synergies between these two fields. This approach allows readers to gain insights into how these technologies are developing in parallel and potentially converging in certain applications.

    Developments and trends in GNSS technology

    The report opens with a summary of the recent developments and future trends in GNSS technology that are relevant to end users. As new GNSS frequencies and signals become available for civilian applications, receiver manufacturers have been upgrading their products to accommodate satellites in medium-Earth orbit (MEO). The international coordination among GNSS supports this advancement, Radio Navigation Satellite Service, and Satellite-Based Augmentation System providers, resulting in the adoption of open access signals with compatible frequency plans, common multiple access schemes and modulation schemes.

    The report states that a service-oriented approach to GNSS is emerging, building upon existing infrastructure to offer users enhanced performance and security. The European GNSS program has made significant strides in this area, backed by the recent implementation of the Galileo High Accuracy Service (HAS) and Open Service Navigation Message Authentication (OSNMA) feature. The Report gives insight into emerging technologies and upcoming innovations, focusing on key trends in receiver electronics design and signal processing aimed at improving performance or reducing power consumption. Multi-frequency capabilities, PNT processing strategies and advances in antenna design are identified as key drivers shaping the future of GNSS receiver technology, according to EUSPA.

    Among other topics selected, the spoofing and jamming threats are becoming a priority to be addressed both at the system and user level. Solutions such as Galileo OSNMA authentication and more resilient receivers with multiple antennas and sensor hybridization are being explored and are starting to be implemented.

    Developing secure SATCOM systems

    The secure SATCOM section of the Report outlines trends in the secure SATCOM domain by emphasizing enhanced performance and system management optimization. It specifically highlights how digitalization processes, cloud environments and AI techniques are enhancing performance and system management optimization in the secure SATCOM domain. It also notes the ongoing efforts to standardize the integration of non-terrestrial networks into the 5G ecosystem.

    According to EUSPA, the deployment of large Non-Geostationary Orbit (NGSO) constellations aims to improve performance, particularly in reducing transmission latency. These systems rely on advanced user terminals capable of tracking and switching between multiple fast-moving satellites across the sky.

    The report also emphasizes security in SATCOM transmissions, recognizing that satellite communications encounter similar threats from malicious signals as terrestrial communications. Consequently, both governmental and commercial SATCOM systems are being developed with a rising focus on enhancing the confidentiality, integrity, and availability of both governmental and commercial SATCOM systems links.

    It also describes a shift in SATCOM systems from legacy hardware-centric designs to modern software-oriented solutions. This digital transition allows user terminals to utilize multiple constellations and frequencies, which significantly improves the availability of communication links. This can help mitigate disruptions caused by natural factors or intentional interference.

    Exploring potential and existing synergies

    The report concludes with an examination of existing synergies between GNSS, secure SATCOM, and Earth observation (EO). Notable examples include the transmission of EO data through SATCOM systems, utilizing GNSS for operating NGSO SATCOM terminals, the complementary use of GNSS and secure SATCOM in transport and emergency management, remote sensors used by Copernicus — a European EO program — that rely on both GNSS and SATCOM and high-accuracy GNSS positioning in remote areas enabled by SATCOM.

  • John Deere opens RFP for satellite communications solution

    John Deere opens RFP for satellite communications solution

    John Deere logo

    Deere & Company has issued a request for proposals (RFP) to secure a satellite communications solution that will further connect its fleet of intelligent machines. The solution will enhance the satellite connectivity that Deere is delivering to its customers.

    “We believe satcon will unlock significant opportunities in agriculture by enabling farmers to take advantage of innovative technologies that rely on real-time information and communication,” said Lane Arthur, vice president of Data, Applications and Analytics at John Deere. “For example, autonomous tractors benefit from real-time communication through the John Deere Operations Center, as farmers use the app to start and stop the machine, monitor the job it’s executing, and determine what it should do when it encounters an obstacle.”

    During the initial phase, Deere is seeking a strategic partnership with a vendor or set of vendors to connect both new machines and retrofitted machines through satellite service and ruggedized satellite terminals. This is expected to enable Deere’s customers to be more productive and efficient, and increase food and fuel production.

    For more information on the request for proposals, contact [email protected].

  • Europes’s GSA becomes EUSPA for stronger space role

    Europes’s GSA becomes EUSPA for stronger space role

    EUSPA logoA new space agency launched in Europe today, taking the place of the European GNSS Agency (GSA) and adding responsibilities to encourage Europe’s space enterprises.

    The European Union Agency for the Space Program (EUSPA) marks the start of a new era for European Union space, according to an agency statement. EUSPA will build on the legacy of the GSA, which was established to promote use of Galileo and EGNOS, with additional responsibilities to create even more opportunities from space for European Union citizens and its economy.

    An April 27 space regulation established EUSPA. Under the new space regulation, EUSPA’s mandate includes promoting Galileo and EGNOS, but with increased responsibilities, including their service provision and operational security. The agency also will coordinate the user-related aspects of government satellite communication in close collaboration with Member States and other entities.

    Including Copernicus

    Rodrigo da Costa, executive director of the European GNSS Agency. (Photo: GSA)
    Rodrigo da Costa, executive director, EUSPA (Photo: EUSPA)

    EUSPA is also responsible for the development of downstream markets and fostering of innovation based on Galileo, EGNOS, and now also commercial uses of Copernicus (Europe’s Earth observation satellite program), leveraging funding mechanisms such as Fundamental Elements and Horizon Europe.

    EUSPA is also responsible for security accreditation of all the components of the EU Space Program. The European Commission may also decide to entrust the agency with other tasks.

    “More and more, our economies, our society and our safety depend on space,” said EUSPA Executive Director Rodrigo da Costa, former director of GSA. “Europe has incredible opportunities ahead that cannot be missed. By creating EUSPA, the European Union will further increase the return on investment made by EU citizens in the EU Space Program by strengthening its contribution to the priorities of the union. We will achieve this primarily by leveraging synergies between the various program components — particularly navigation, Earth observation and secure communications — to drive innovation across a broad range of sectors.”

    In particular, bringing management of downstream and combined applications based on Galileo, EGNOS and Copernicus under the umbrella of one agency will make it possible to leverage synergies, according to the agency statement.  “On their own, these technologies can play a key role supporting a digital and green transformation, but leveraging their synergetic and combined use will facilitate the generation of innovative solutions that bring a higher societal impact,” the statement read.

    Focus on security

    “The teams of committed professionals we have in place at our sites in Europe — from the EGNOS center in Toulouse to the European GNSS Service Centre in Spain and the Galileo Reference Centre in the Netherlands — will continue to ensure the high quality, robustness and reliability of EUSPA’s service provision,” reads the statement. “This will be backed up Galileo security monitoring centers in France and in Spain, and the industrial teams managed by EUSPA in the Galileo control centers in Germany and Italy, along with facilities around the world.”

    In addition, the Security Accreditation Board will continue to initiate and monitor implementation of security requirements to ensure a robust and uniform level of security for the entire EU Space Program.

    “The new agency has a core role in the security accreditation of all the components of the EU Space Program,” said Bruno Vermeire, chair of EUSPA’s Security Accreditation Board.

    Looking to the future

    While EUSPA’s mission has expanded, its core aim remains the same – to link EU investment in space to the needs of users in the European Union and around the world.

    “The agency remains committed to its traditional users and will continue to deliver the high level of GNSS services that users have come to rely on,” the agency stated. Copernicus and satellite communications will also benefit from the former GSA’s user-oriented focus and “the experience it has gained in developing markets for Galileo and EGNOS.”

    Fucino, Italy, hosts a Galileo Control Centre. (Image: Telespazio/ESA)
    Fucino, Italy, hosts a Galileo Control Centre. (Image: Telespazio/ESA)

  • Taking a look at the rest of the Ligado story

    Taking a look at the rest of the Ligado story

    Alan Cameron
    Editor-in-Chief and Publisher, GPS World

    “All the News that Fits” can sometimes be a hard motto to live up to, and it has turned out so this month. I want to get more material into our pages for your perusal, and it just could not be crammed into the System of System pages in this issue. Therefore, I cede my “Out in Front” editorial to the 27 gentlepeople, executives across the commercial, scientific and government agency spectrum, who wrote to U.S. Federal Communications Commission (FCC) chair Ajit Pai on July 18.

    The core quotes from the letter appear here. However, there’s more meat on the bones and I want to present it here.

    “The undersigned organizations, representing entities that provide and rely upon critical GPS, satellite communications (“SATCOM”) services, and essential weather and other environmental data, write to inform you that the threat of harmful interference from Ligado’s proposed ancillary terrestrial component (“ATC”) service continues to pose a significant risk of harmful interference despite Ligado’s May 31, 2018, amendments to its license modification applications in the above-referenced file numbers. The record, augmented by recent government reports, makes clear that the interference will be particularly impactful to the countless government and commercial entities that rely on GPS and SATCOM services for aviation safety and other critical services and the many groups that receive and depend upon real-time weather and related environmental information from National Oceanic and Atmospheric Administration (“NOAA”) satellites…

    “We recognize the importance of ensuring that there is sufficient spectrum for mobile broadband, and the Commission has recently taken many steps to address that challenge. However, at a time in which the Administration has placed so much emphasis on the critical importance of space-based communications — through the revival of the National Space Council and other policy initiatives — the FCC should not undermine the nation’s critical space leadership.2 Granting Ligado’s request would harm the nation’s satellite industry and the broad sectors of the country that benefit from American space leadership every day in at least three ways. First, it would threaten the reliability of critical position, navigation and timing (“PNT”) services, including GPS and also an emerging satellite time and location (“STL”) capability augmenting GPS.

    “Second, it would undermine the investment-backed expectations of those who operate commercial satellite systems by fundamentally altering the interference environment decades after licensing.

    “And third, it would convert 40 MHz of increasingly rare satellite spectrum away from satellite use, rewarding a company for underutilizing its satellite spectrum rather than investing in new satellite technologies.”

    In addition to several organizations, the letter is signed by the Aircraft Owners and Pilots Association, the American Geophysical Union, American Weather and Climate Industry Association and the National Emergency Number Association.

  • Cobham unveils Aviator UAV 200 at Xponential 2016

    Andrew Legg of Cobham Satcom discusses the company’s satellite communications technology at the Association for Unmanned Vehicle Systems International‘s Xponential 2016 show, held May 2-5 in New Orleans.

    The AVIATOR UAV 200 system — debuted at the show — weighs about 3.2 pounds, which is 76 percent lighter than comparable products on the market, according to the company. It delivers Inmarsat Class 4 SwiftBroadband services in a low-SWAP package.

    The product was designed to significantly enhance a Tactical Unmanned Aerial Vehicle’s (TUAV) performance, range and payload capability by enabling operators to take advantage of the higher speed connectivity from satellite networks.