Latest news with #NR-NTN
Techday NZ
17-06-2025
- Business
- Techday NZ
Satellite IoT market to reach USD $4.7 billion by 2030
New research from IoT Analytics projects that the global market for satellite IoT connectivity and equipment will reach USD $4.7 billion by 2030, with an expected compound annual growth rate (CAGR) of 26% over the forecast period. The IoT Analytics Satellite IoT Market Report 2025–2030 underpins this analysis, highlighting that the number of satellite IoT connections stood at 7.5 million globally in 2024. This figure is set to increase considerably as technological advances continue to influence the sector and demand for connectivity in remote areas strengthens. Growth factors The report identifies five primary drivers behind this projected market expansion. These include ongoing reductions in the cost of satellite technology thanks to technological advancements, the adoption of multi-orbit and hybrid network strategies by providers, the emergence and adoption of standardised connectivity protocols, significant government investments in satellite initiatives and mega-constellations, and the increasing use of satellite connectivity in automotive and transportation industries. According to IoT Analytics, these factors collectively create an environment in which satellite IoT can play a vital role in global connectivity, especially in regions and industries where traditional wired or cellular solutions are not viable. Industry context Satellite IoT currently accounts for just 7.5 million of the 18 billion total IoT devices, but the capabilities it brings to remote and hard-to-reach environments are seen as crucial. Knud Lasse Lueth, Chief Executive Officer at IoT Analytics, commented: 7 million satellite IoT connections may look small next to 18 billion total IoT devices, but they solve the hardest problem in connectivity: Reaching the places where nothing else works. With falling launch costs, open standards and hybrid multi-orbit networks, it has become the final puzzle piece for truly ubiquitous, global connectivity, and we expect the segment to grow 20%+ annually over the next 5-10 years. The market is undergoing a transformation as proprietary and non-standardised systems give way to open, multi-technology approaches. Satyajit Sinha, Principal Analyst at IoT Analytics, added: The satellite IoT market is evolving from proprietary, non-standardized systems—each tailored to a vendor's own connectivity stack—toward a standardized, multi-technology landscape that includes 3GPP NB-NTN, NR-NTN, LoRaFHSS, and mioty. This shift is drawing in both traditional satellite providers and new players from the cellular and unlicensed LPWAN domains, who are adopting open standards to stay competitive. On the other end, Starlink is accelerating disruption by leveraging its capital scale and low-cost architecture to position itself as both a satellite backhaul provider and a direct IoT connectivity vendor. The result is a more competitive market—defined by open, hybrid architectures where interoperability, scale, and flexibility are now the key levers of success. These changes in technology and business approach are broadening the scope of satellite IoT beyond traditional sectors such as maritime and aviation, driving increased participation from diverse industry stakeholders. Return on investment With the shift in market focus and growing investment, the consideration of return on investment (ROI) becomes increasingly important. Kalpesh Baviskar, Analyst at IoT Analytics, provided further context: ROI is central—for both satellite operators and end-users. Historically, satellite IoT was limited by infrastructure and focused on high-margin sectors like maritime and aviation. Now, rising demand for broadband is driving major investments, but operators will prioritize consumer and enterprise markets first due to higher ARPU. As networks scale, some capacity will support IoT. The key question for users is whether the cost of satellite modules and subscriptions is justified by the value of the data. In high-impact use cases like remote monitoring, the ROI can make sense—but only if the economics align. According to IoT Analytics, this emerging market is witnessing increased attention from both investors and end-users, spurred by the potential value satellite IoT can generate in critical use cases. Decisions on network investments and adoption are increasingly being evaluated in terms of economic viability and the operational benefit derived from access to new streams of data in otherwise unconnected environments. The Satellite IoT Market Report 2025–2030 details these and other findings, providing comprehensive insights into connectivity trends, sector-specific drivers, and projections for the years ahead. The full report is available for purchase, and key findings have been made available in a public research article. Follow us on: Share on:
Tahawul Tech
07-03-2025
- Business
- Tahawul Tech
Ericsson, Qualcomm, and Thales Alenia Space reach milestone in space-based connectivity
The integration of traditional mobile networks with satellite mobile networks – and the related possibility of truly global connectivity across oceans and continents – has moved a step closer following a significant technology achievement by Ericsson (NASDAQ: ERIC), Qualcomm Technologies, Inc. and Thales Alenia Space. The three partners combined expertise in a French test laboratory to successfully connect a 5G standards-based non terrestrial network call with a simulated low earth orbit (LEO) satellite channel. In effect, the trial proved that an NR-NTN capable device would never be without mobile coverage where areas are served by either terrestrial or non-terrestrial networks. In other words, if NTN covers an area in the middle of an ocean or deep forest – currently impossible to cover with terrestrial networks – then a device would be able to connect, via mobile connectivity alone, with any other device or service on the mobile network without the need for additional satellite signal receiving equipment, such as a dish. Support applications could include high-definition voice calls and real-time video streaming services. The achievement is a significant milestone on the way to non-terrestrial networks becoming a commercial reality. The collaboration launched in 2022 was, at the time, the world's first publicly announced collaboration for 5G NTN based on 3GPP standards. Fredrik Jejdling, Executive Vice President and Head of Business Area Networks, at Ericsson, says: 'This successful 5G non-terrestrial network call represents not just a technological breakthrough but also showcases the practical viability of integrating satellite technology within existing terrestrial frameworks. Ericsson is committed to advancing ubiquitous connectivity, and our collaborative effort with Thales Alenia Space and Qualcomm Technologies will help ensure that future communication systems are more inclusive, resilient, and globally accessible. By leveraging NTN technology, we aim to bridge the digital divide and bring reliable communication to every corner of the world.' John Smee, Senior Vice President, Engineering, Qualcomm Technologies, Inc., says: 'Our collaboration with Ericsson and Thales Alenia Space is crucial in leveraging 3GPP standards for satellite communications, helping to ensure that 5G connectivity is universally accessible to 5G smartphone users. Qualcomm Technologies remains committed to enhancing chipset capabilities that support the seamless integration of 5G non-terrestrial networks and terrestrial networks.' Hervé Derrey, CEO of Thales Alenia Space, says: 'For years, Thales Alenia Space has been at the heart of all initiatives aimed at seamlessly integrating satellite communications in the 5G network infrastructure – including standardization with 3GPP – and takes 5G NTN standardized solutions into account in the design of its satellite payloads supporting either Broadband or Direct-To-Device (D2D) services. By combining Thales Alenia Space's expertise in space technologies with Ericsson's leadership in 5G networks and Qualcomm Technologies' advanced chipsets, we are making significant headway towards the seamless integration of terrestrial and NTN networks, to provide access to 5G services, anywhere and at any time.' Ericsson, Qualcomm Technologies, and Thales Alenia Space are committed to further refinement and development of 5G/6G NTN technologies, aiming to introduce and scale 5G NTN on the market and allow for a full set of services – from multi-orbit satellites including messaging, voice and data, to make seamless communication a reality for everyone, everywhere, and at any time. MORE ON THE TECH The partners established a 3GPP-based end-to-end New Radio (NR) 5G non-terrestrial networks (NTN) call using a lab-emulated low earth orbit (LEO) satellite. The test explored critical components such as handling delays, Doppler effects, and ensuring seamless satellite handovers, which are crucial for maintaining communication integrity in satellite environments.
Mid East Info
06-03-2025
- Business
- Mid East Info
Ericsson, Qualcomm, and Thales Alenia Space reach milestone in space-based connectivity - Middle East Business News and Information
Ericsson, Qualcomm Technologies, Inc., and Thales Alenia Space have partnered on 5G NR non terrestrial networks (NTN) technology since 2022 Demonstration validates key technical functionalities essential for robust satellite communication integration It paves the way towards the seamless integration of terrestrial network (TN) and NTN, laying the groundwork for commercial deployment The integration of traditional mobile networks with satellite mobile networks – and the related possibility of truly global connectivity across oceans and continents – has moved a step closer following a significant technology achievement by Ericsson (NASDAQ: ERIC), Qualcomm Technologies, Inc. and Thales Alenia Space. The three partners combined expertise in a French test laboratory to successfully connect a 5G standards-based non terrestrial network call with a simulated low earth orbit (LEO) satellite channel. In effect, the trial proved that an NR-NTN capable device would never be without mobile coverage where areas are served by either terrestrial or non-terrestrial networks. In other words, if NTN covers an area in the middle of an ocean or deep forest – currently impossible to cover with terrestrial networks – then a device would be able to connect, via mobile connectivity alone, with any other device or service on the mobile network without the need for additional satellite signal receiving equipment, such as a dish. Support applications could include high-definition voice calls and real-time video streaming services. The achievement is a significant milestone on the way to non-terrestrial networks becoming a commercial reality. The collaboration launched in 2022 was, at the time, the world's first publicly announced collaboration for 5G NTN based on 3GPP standards. Fredrik Jejdling, Executive Vice President and Head of Business Area Networks, at Ericsson, says: 'This successful 5G non-terrestrial network call represents not just a technological breakthrough but also showcases the practical viability of integrating satellite technology within existing terrestrial frameworks. Ericsson is committed to advancing ubiquitous connectivity, and our collaborative effort with Thales Alenia Space and Qualcomm Technologies will help ensure that future communication systems are more inclusive, resilient, and globally accessible. By leveraging NTN technology, we aim to bridge the digital divide and bring reliable communication to every corner of the world.' John Smee, Senior Vice President, Engineering, Qualcomm Technologies, Inc., says: 'Our collaboration with Ericsson and Thales Alenia Space is crucial in leveraging 3GPP standards for satellite communications, helping to ensure that 5G connectivity is universally accessible to 5G smartphone users. Qualcomm Technologies remains committed to enhancing chipset capabilities that support the seamless integration of 5G non-terrestrial networks and terrestrial networks.' Hervé Derrey, CEO of Thales Alenia Space, says: 'For years, Thales Alenia Space has been at the heart of all initiatives aimed at seamlessly integrating satellite communications in the 5G network infrastructure – including standardization with 3GPP – and takes 5G NTN standardized solutions into account in the design of its satellite payloads supporting either Broadband or Direct-To-Device (D2D) services. By combining Thales Alenia Space's expertise in space technologies with Ericsson's leadership in 5G networks and Qualcomm Technologies' advanced chipsets, we are making significant headway towards the seamless integration of terrestrial and NTN networks, to provide access to 5G services, anywhere and at any time.' Ericsson, Qualcomm Technologies, and Thales Alenia Space are committed to further refinement and development of 5G/6G NTN technologies, aiming to introduce and scale 5G NTN on the market and allow for a full set of services – from multi-orbit satellites including messaging, voice and data, to make seamless communication a reality for everyone, everywhere, and at any time. MORE ON THE TECH: The partners established a 3GPP-based end-to-end New Radio (NR) 5G non-terrestrial networks (NTN) call using a lab-emulated low earth orbit (LEO) satellite. The test explored critical components such as handling delays, Doppler effects, and ensuring seamless satellite handovers, which are crucial for maintaining communication integrity in satellite environments.
