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SBS Australia
an hour ago
- Business
- SBS Australia
Final call: Optus' exploitation of First Nations customers must be the last, say advocates
Optus has agreed to pay a $100 million penalty, subject to court approval, over conduct that saw many First Nations people from remote communities sold services they did not want or need. Credit: Mark Baker/AP Optus, the second-largest telecommunications company in Australia, admitted this week to engaging in unconscionable conduct when selling telecommunications goods and services to hundreds of consumers, many of whom were First Nations. Dunghutti man Mark Holden, a senior solicitor at Mob Strong Debt Help - a non-profit organisation that offers free finance-related legal advice to Aboriginal and Torres Strait Islander communities – says he hopes this is a wake-up call. 'This should be the final call now for the telecommunications industry to be able to shape up here and try to be more proactive, taking more practical steps to be able to end the harm to First Nations peoples here when it comes to the sale of an essential service," he said. Optus sold many First Nations people from remote services they did not want or need and has agreed to pay a $100 million penalty, after an investigation by the Australian Competition and Consumer Commission (ACCC). 'Oftentimes, we find that the conduct happens in areas where there's more likely to be vulnerable people living there," Mr Holden told NITV. "So remote communities, rural areas, but even as well, in some urban areas as well too, where First Nations peoples often are targeted. 'They might come in and just be looking for a typical charge cable, and they'll be then sold a couple of phones, a speaker, a console, iPads. "And they're just being charged all these fees, that just racks up quite fast.' Optus is not the first telco fined for wrongful conduct. Telstra was penalised $50 million in 2021 for unconscionable conduct when selling mobile contracts to Indigenous consumers. 'I think that if the sales model makes money, then other people will be doing it as well," Mr Holden said. 'Because Telstra was doing it, we just were not surprised when ACCC (Australian Competition and Consumer Commission) first announced that Optus was also doing this too. 'These are just two cases that we're looking at here, I wouldn't be surprised as well to if there are other telco providers here who could be doing the same thing.' As well as debt, the impact of the conduct can also lead to a lot of shame amongst mob. 'Besides the financial loss, here we have a lot of mob who are faced with this crippling debt," Mr Holden said. "And when it comes to debt, there's a lot of shame as well too. 'Sometimes there's a very, very strong fear of further action being taken against them, there's a fear of them maybe going to jail.' It's even left some people trying to access their superannuation to pay their debts. 'That's a very bit of extra harm here as well, too, that when people don't pay their debts, the telco can issue a default on the credit report, and that default can last for about five years from listing, and that can severely impact their ability to be able to take a loan, to be able to be able to support themselves," Mr Holden said. Optus is compensating impacted consumers for the period between August 2019 and July 2023, during which it agreed the alleged conduct took place. But Mark says it should go further. 'You want to be able to have a remediation program that looks at the entirety of the sales practices, so that even though we're looking at people who are affected in the period, we're looking at people who were affected before that and after that as well, too, people who've been treated the same way," he said. 'So that they also could get not only just a refund of what they paid, but also compensation with interest for the harm they suffered.' He says it should be a wake-up call for other industries too, as the pattern of exploitation isn't unique to the telecommunications industry. 'This is really a practice of exploitation, taking advantage of someone's vulnerability to their advantage," Mr Holden said. "Unconscionable conduct is not something that just telcos do. "There is a industry of exploitation where First Nations peoples can be targeted by people who might exploit their vulnerability to their advantage. 'There has to be a call to action to be able to stop this exploitation, to be able to actually start working with communities, to be able to try and provide them the products that they need for the for their communities.' Interviews and feature reports from NITV. A mob-made podcast about all things Blak life. The Point: Referendum Road Trip Live weekly on Tuesday at 7.30pm Join Narelda Jacobs and John Paul Janke to get unique Indigenous perspectives and cutting-edge analysis on the road to the referendum. Watch now
Yahoo
19 hours ago
- Business
- Yahoo
Roth ‘increasingly positive' about multiple expansion for Gogo
Roth Capital analyst Scott Searle maintains a Buy rating on Gogo (GOGO) with a $16.50 price target after the company confirmed its first successful end-to-end 5G call utilizing the GCT Semi chipset. The news 'continues to derisk' Gogo's 5G headwinds and places air-to-ground services on a path to return to growth in 2026, the analyst tells investors in a research note. Roth is are 'increasingly positive' about sustained growth and multiple expansion for Gogo. Easily unpack a company's performance with TipRanks' new KPI Data for smart investment decisions Receive undervalued, market resilient stocks right to your inbox with TipRanks' Smart Value Newsletter Published first on TheFly – the ultimate source for real-time, market-moving breaking financial news. Try Now>> See today's best-performing stocks on TipRanks >> Read More on GOGO: Disclaimer & DisclosureReport an Issue Gogo's 5G Milestone and Strategic Ownership Drive Buy Rating Gogo completes first 5G end-to-end call Gogo Holds Annual Stockholders Meeting, Elects Directors Gogo to participate in a webinar with Roth MKM Short Report: Short interest in Clear Secure hits record high Error in retrieving data Sign in to access your portfolio Error in retrieving data Error in retrieving data Error in retrieving data Error in retrieving data
Associated Press
21 hours ago
- Business
- Associated Press
The Global Entangled Networks Market 2026-2040
DUBLIN--(BUSINESS WIRE)--Jun 19, 2025-- 'The Global Entangled Networks Market 2026-2040" has been added to offering. The entangled networks market represents one of the most transformative technological frontiers of the 21st century, fundamentally reimagining how information systems can achieve unprecedented levels of security, computational power, and sensing precision through quantum mechanical phenomena. While the concept of a comprehensive 'Quantum Internet' remains in developmental stages with varying definitions across the scientific and commercial communities, the underlying market opportunity for entangled networks has begun to crystallize around a core architectural principle: networks where quantum nodes maintain entangled states through specialized quantum interconnects, enabling capabilities that are physically impossible with classical networking technologies. The entangled networks market is emerging from a complex intersection of quantum physics research, advanced telecommunications infrastructure, and next-generation computing architectures. Unlike traditional networks that transmit classical bits of information, entangled networks leverage quantum entanglement-a phenomenon Einstein famously described as 'spooky action at a distance"-to create fundamentally secure communication channels and enable distributed quantum computational resources that can solve problems exponentially faster than classical alternatives. Current market activity spans a diverse ecosystem of stakeholders, from established technology giants like IBM, Google, and Cisco Systems to specialized quantum startups such as Aliro Quantum, IonQ, and Qunnect. This landscape includes traditional telecommunications providers seeking to future-proof their infrastructure, defense contractors developing secure communication systems, financial institutions exploring quantum-safe security solutions, and research organizations building the foundational technologies that will enable widespread commercial deployment. The market's current phase can be characterized as transitioning from pure research and development to early commercial applications, with significant investments flowing from both government sources and venture capital. Government funding programs, particularly in the United States, European Union, China, and other technologically advanced nations, have committed billions of dollars to quantum technology development, recognizing the strategic importance of quantum networks for national security, economic competitiveness, and scientific advancement. Entangled networks require sophisticated infrastructure that goes far beyond conventional networking equipment. The fundamental building blocks include quantum computers or quantum processors capable of generating and maintaining entangled states, quantum repeaters to extend the range of entanglement distribution, specialized photonic sources for generating entangled particles, quantum memories for storing quantum information, and ultra-sensitive detectors capable of measuring quantum states without destroying them. The technical challenges are substantial and multifaceted. Quantum entanglement is extremely fragile, easily disrupted by environmental factors such as temperature fluctuations, electromagnetic interference, and mechanical vibrations. This fragility necessitates sophisticated error correction protocols, cryogenic cooling systems, and precisely controlled operating environments. Current limitations in quantum repeater technology mean that most long-distance quantum communication relies on satellite-based systems, which introduce their own complexities related to atmospheric interference, orbital mechanics, and ground station infrastructure. The development of quantum repeaters represents a critical technological milestone for the market's expansion. These devices, which can extend quantum entanglement over arbitrary distances by creating intermediate entangled links, are still largely in the research phase but are expected to become commercially viable within the next decade. Until quantum repeaters achieve widespread deployment, satellite-based quantum communication will likely dominate long-haul applications, requiring significant investment in space-based quantum communication infrastructure. The entangled networks market encompasses several distinct application sectors, each with unique requirements, adoption timelines, and revenue potential. Distributed quantum computing currently represents the most significant near-term opportunity, enabling organizations to network multiple quantum processors together to tackle computational problems beyond the capability of individual quantum computers. This approach mirrors the evolution of high-performance computing, where classical computers are networked together to increase processing power, memory capacity, and storage resources. The distributed quantum computing market is particularly attractive to organizations working on optimization problems, cryptographic applications, drug discovery, financial modeling, and artificial intelligence research. Early adopters include pharmaceutical companies seeking to model molecular interactions, financial institutions developing quantum algorithms for portfolio optimization and risk analysis, and technology companies exploring quantum machine learning applications. Quantum key distribution (QKD) and secure communications represent another major market segment, offering theoretically unbreakable encryption based on the fundamental laws of quantum mechanics. This application is particularly relevant to government agencies, financial institutions, healthcare organizations, and other entities handling sensitive information that requires the highest levels of security. The ability to detect any attempt at eavesdropping through the quantum no-cloning theorem provides a level of security assurance that is impossible with classical cryptographic methods. The emerging Quantum Internet of Things (QIoT) represents a potentially transformative long-term opportunity, where quantum sensors networked through entangled connections could achieve unprecedented precision in measurements of time, magnetic fields, gravitational forces, and other physical phenomena. Applications could include enhanced GPS systems immune to jamming, geological surveys for natural resource exploration, medical imaging with improved resolution, and fundamental physics research requiring extremely precise measurements. The entangled networks market exhibits significant geographic concentration, with the United States, China, European Union, and other technologically advanced regions leading in both research investment and commercial development. The United States has established major research initiatives through the National Quantum Initiative Act, Department of Energy quantum network projects, and Department of Defense quantum technology programs. American companies and research institutions are developing comprehensive quantum network testbeds, including the Chicago Quantum Network and various national laboratory initiatives. China has made substantial investments in quantum communication infrastructure, including the world's first quantum communication satellite and extensive terrestrial quantum networks connecting major cities. The Chinese approach emphasizes large-scale infrastructure deployment and government coordination of quantum technology development, creating a significant competitive dynamic in the global market. The European Union's Quantum Technologies Flagship program represents a coordinated approach to quantum technology development across member states, with significant funding allocated to quantum communication and networking research. European companies and research institutions are developing specialized components and systems for entangled networks, often focusing on specific technical challenges such as quantum memory devices and photonic sources. The entangled networks market faces numerous challenges that will influence its development trajectory and commercial adoption timeline. Technical challenges include the fundamental fragility of quantum states, the need for extremely precise environmental control, limited quantum memory capabilities, and the current lack of standardized protocols for quantum network operations. These technical barriers translate into high infrastructure costs, complex operational requirements, and limited interoperability between different quantum network implementations. Regulatory and policy challenges add another layer of complexity, particularly given the national security implications of quantum communication technologies. Export controls, technology transfer restrictions, and varying international approaches to quantum technology regulation create barriers to global market development and technology sharing. The dual-use nature of quantum technologies, with applications in both civilian and military contexts, complicates international collaboration and commercial partnerships. Skills and workforce development represent another significant challenge, as the quantum networking field requires expertise spanning quantum physics, advanced engineering, computer science, and specialized manufacturing techniques. The limited availability of qualified personnel constrains market growth and increases development costs for organizations entering the quantum networking space. The entangled networks market has attracted substantial investment from diverse sources, including government research funding, venture capital, corporate research and development, and strategic partnerships. Government funding has been particularly important in the early stages of market development, supporting fundamental research, infrastructure development, and the creation of quantum network testbeds that demonstrate practical applications. Venture capital investment in quantum technologies has grown significantly, with specialized quantum-focused funds emerging alongside investments from traditional technology investors. Corporate research and development spending by established technology companies represents another major source of funding, as these organizations seek to position themselves for the eventual commercialization of quantum networking technologies. The entangled networks market is projected to experience substantial growth over the next decade, driven by technological maturation, increasing investment, and expanding application opportunities. Market forecasts suggest that the sector could evolve from its current research-dominated phase to significant commercial deployment by the early 2030s, with distributed quantum computing applications likely leading the initial wave of adoption. The development and commercialization of quantum repeaters will represent a pivotal moment for market expansion, enabling terrestrial quantum networks to achieve continental and eventually global reach. This technological milestone is expected to trigger a substantial increase in infrastructure investment and commercial application development. The evolution toward a comprehensive Quantum Internet of Things represents the market's long-term potential, where quantum-enhanced sensing, communication, and computation capabilities become integrated into a wide range of applications and industries. This vision encompasses everything from enhanced scientific instruments and medical devices to next-generation navigation systems and distributed computing platforms that leverage quantum mechanical phenomena to achieve capabilities impossible with classical technologies. The Global Entangled Networks Market 2026-2040 represents the next frontier in quantum communication and computing infrastructure, with unprecedented growth opportunities driven by technological breakthroughs and increasing demand for ultra-secure communications. This comprehensive market research report provides in-depth analysis of the quantum networking ecosystem, featuring detailed forecasts, competitive intelligence, and strategic recommendations for stakeholders across the quantum technology value chain. Key Market Insights and Analysis Key Topics Covered: 1 EXECUTIVE SUMMARY 1.1 Quantum Networks 1.2 The Quantum Internet 1.3 Roadmap for Entangled Networks 1.4 Quantum Repeaters 1.5 Applications 1.5.1 Distributed Quantum Computing 1.5.2 Sensors and Metrology 1.5.3 Research and Academia 1.5.4 Emerging Applications 1.6 Components for Entangled Quantum Networks 1.6.1 Overview 1.6.2 Costs 1.7 Challenges 2 TECHNOLOGIES 2.1 Computers in the Entangled Network 2.1.1 The Quantum Network 2.1.2 Distributed Quantum Computing Opportunity 2.2 Types of Quantum Computer Networks 2.2.1 Workgroups, Metro and Long-Haul 2.3 Quantum Communications Equipment and Interconnects 2.3.1 Quantum Repeaters 2.3.2 Entangled QKD 2.4 Quantum Sensors and the QIoT 2.4.1 Quantum Clock and CSAC Networks 2.4.2 Other Quantum Sensor Networks 2.5 Components of the Entangled Quantum Network 2.5.1 Quantum Interconnects 2.5.2 Quantum Memories 2.5.3 Photonic Sources for Quantum Networks 2.5.4 Detectors and other Components 2.6 Satellites and Drones 2.7 Quantum Network Product Suites 2.8 Quantum Internet Software 2.8.1 Protocols for the Coming Entangled Network 3 GLOBAL COMMERCIAL MARKET 3.1 Commercial Activity 3.2 Key Players 3.3 Quantum Networking by Region 3.3.1 United States 3.3.2 Europe 3.3.3 Asia 3.4 Markets and Applications 3.4.1 Distributed Quantum Computing 3.4.2 Communication and QKD 3.4.3 Sensors and Metrology 3.4.4 Entangled Networks in Research and Academia 3.4.5 Emerging Applications 3.5 Market Drivers 3.5.1 Increasing Demand for Secure Communications 3.5.2 Government Investment in Quantum Infrastructure 3.5.3 Commercial Sector Adoption Drivers 3.5.4 Technological Maturation and Cost Reduction 3.6 Market Challenges and Barriers 3.6.1 Technical Implementation Challenges 3.6.2 High Capital Investment Requirements 3.6.3 Skills Gap and Workforce Development Needs 3.6.4 Infrastructure Compatibility and Integration Issues 3.7 Investment Analysis and Funding Landscape 3.7.1 Venture Capital and Private Equity Investment 3.7.2 Government Funding and Public Investment 3.7.3 Corporate Research and Development Spending 3.7.4 Return on Investment Projections 3.8 Market Scenarios 3.8.1 Optimistic Growth Scenario 3.8.2 Conservative Growth Scenario 3.8.3 Disruptive Technology Impact Assessment 3.8.4 Long-term Market Evolution (2035-2040) 3.9 Global Market Forecasts 3.9.1 Forecast Methodology 3.9.2 Forecasts of Entangled Networks by Type of Equipment on the Network 3.9.3 Entangled Quantum Networks by Reach and Technology 3.9.4 Entangled Quantum Networks by Transmission Type 4 TECHNOLOGY DEVELOPMENT AND INNOVATION 4.1 Technologies and Emerging Applications 4.2 Technology Readiness Level 4.3 Innovation Pipeline and Commercialization 5 REGULATORY ENVIRONMENT AND POLICY FRAMEWORK 5.1 International Regulatory Landscape 5.2 National Security Considerations and Export Controls 5.3 Data Privacy and Security Regulations 6 COMPANY PROFILES (43 company profiles) 7 ACADEMIA AND RESEARCH 194 (25 profiles) 8 REFERENCES LIST OF TABLES Table 1. Global Entangled Networks Market Size Projection 2026-2040 Table 2. Market Share by Application Sector 2030 vs 2040 Table 3. Emerging Applications Table 4. Network Component Cost Breakdown Analysis Table 5. Challenges on the Way to the Entangled Network Table 6. Technical Challenges and Resolution Timeline Table 7. Quantum Computer Network Architecture Comparison Table 8. Network Type Specifications and Cost Analysis Table 9. Quantum Repeater Vendor Comparison Matrix Table 10. Quantum Repeater Performance Benchmarks Table 11. QKD System Performance and Pricing Analysis Table 12. Quantum Sensor Types and Market Applications Table 13. Quantum Memory Performance Specifications Table 14. Detector Technology Comparison and Pricing Table 15. Satellite vs Terrestrial Implementation Costs Table 16. Protocol Standards Development Status Table 17. Market Differentiators Table 18. U.S. Market Breakdown by Application Sector Table 19. U.S. Government vs Private Sector Investment Table 20. Asia-Pacific Market Segmentation Table 21. DQC Market Revenue Table 22. QKD vs Classical Security Cost Analysis Table 23. Quantum Sensor Market Revenue Projections Table 24. Cybersecurity Threat Growth and Quantum Solution Demand Table 25. Government Funding Programs by Country Table 26. Industry Adoption Readiness Matrix Table 27. Cost Reduction Projections by Technology Component Table 28. Technical Challenge Assessment and Timeline to Resolution Table 29. Capital Requirements vs Expected ROI Analysis Table 30. Integration Complexity and Cost Assessment Table 31. VC/PE Investment Trends in Quantum Networks 2020-2025 Table 32. Major Investment Rounds and Valuations Table 33. Government Funding by Program and Country Table 34. ROI Analysis by Investment Category Table 35. Optimistic Market Growth Projections Table 36. Conservative Market Growth Projections Table 37. Disruptive Technology Scenarios and Market Impact Table 38. Long-term Market Structure Evolution Table 39. Forecast Assumptions and Methodological Approach Table 40. Equipment Market Revenue Projections 2026-2040 Table 41. Global Market by Network Reach (Local, Metro, Long-haul), 2026-2040 Table 42. Fiber vs Satellite vs Free-space Market Evolution Table 43. Transmission Type Cost-Performance Analysis Table 44. Regulatory Framework Comparison by Country Table 45. Compliance Requirements by Jurisdiction LIST OF FIGURES Figure 1. Global Entangled Networks Market Size Projection 2026-2040 Figure 2. Market Share by Application Sector 2030 vs 2040 Figure 3. Protocol Development Milestones and Commercial Readiness Figure 4. Quantum Repeater Development Timeline Figure 5. Technology Maturity Assessment Matrix Figure 6. Distributed Quantum Computing Market Revenue Projections Figure 7. Quantum Clock Network Revenue Projections by Application Figure 8. Quantum Interconnect Technology Roadmap Figure 9. DQC Market Revenue Figure 10. Quantum Sensor Market Revenue Projections Figure 11. Equipment Market Revenue Projections 2026-2040 Figure 12. Global Market by Network Reach (Local, Metro, Long-haul), 2026-2040 Figure 13. Technology Adoption Curves by Network Type Figure 14. Technology Readiness Level Assessment Figure 15. Innovation Pipeline and Commercialization Timeline Figure 16. IonQ's ion trap For more information about this report visit About is the world's leading source for international market research reports and market data. We provide you with the latest data on international and regional markets, key industries, the top companies, new products and the latest trends. View source version on CONTACT: Laura Wood, Senior Press Manager [email protected] For E.S.T Office Hours Call 1-917-300-0470 For U.S./ CAN Toll Free Call 1-800-526-8630 For GMT Office Hours Call +353-1-416-8900 KEYWORD: INDUSTRY KEYWORD: TECHNOLOGY NETWORKS SECURITY IOT (INTERNET OF THINGS) SOURCE: Research and Markets Copyright Business Wire 2025. PUB: 06/19/2025 08:10 AM/DISC: 06/19/2025 08:09 AM
Globe and Mail
a day ago
- Business
- Globe and Mail
MWC Shanghai 2025: Tongyu Communications Showcases Innovations in Wireless Technology and Satellite Connectivity
ZHONGSHAN, China , June 19, 2025 /CNW/ -- At MWC Shanghai 2025, Tongyu Communication Inc. ( debuted MacroWiFi, a large area WiFi coverage solution, along with five key product category: satellite communication for ground-satellite connectivity, high efficiency base station antennas, Integration of Massive MIMO antennas and sheet metal filter, low-altitude coverage antenna. The product show highlighted Tongyu's advancements in field of satcom, 5G-A, 6G evolution, low-altitude economy, and last mile, offering more innovative solutions for the industry. As global digitalization has accelerated, satcom is emerging as a crucial technology for global connectivity. Tongyu presented its satellite-ground interconnection solutions, which combine Low Earth Orbit (LEO) and Geostationary Orbit (GEO) satellite technologies. This solution provided reliable and efficient connectivity for maritime shipping, aviation communication, emergency response, and remote areas. Moreover, by establishing a production base in Hubei, China , and investing in satellite businesses through joint ventures and industrial funds, the company is strategically enhancing its focus on satellite payload, ground stations and terminals for commercial applications to meet the growing demand for reliable satellite connectivity. Winnie Wu , Vice President of Tongyu Communication, stated that its solution encompasses onboard payloads, ground stations, and satellite terminals. It has been successfully used in satellite internet experimental satellites and is now part of the supply chains for major international operators. "As a key player in global communication technology innovation, Tongyu continues to make significant technological advancements, demonstrating industry-leading expertise." Pioneering technological innovation, Tongyu is continuously pushing boundaries and leading industry development. Earlier this year, the company lunched its MacroWiFi solution, which uses high-gain antennas and long-range transmission protocol to deliver WiFi coverage of 1.5 to 2 km. Pilot projects are currently ongoing in Southeast Asia . Additionally, the newly launched the antenna for low-altitude, it provides seamless coverage from ground up to 600 meters, supporting applications like drone logistics and emergency communications but also common cellular network. This innovation boosts operational efficiency and helps develop the low-altitude economy, creating new growth and collaboration opportunities across different sectors. About Tongyu Communication Tongyu Communication Inc., established in 1996, specializes in the research, development, manufacturing, and sales of mobile communication antennas, radio frequency devices, and satellite communication solutions. With production facilities in China and subsidiaries across Europe and various locations worldwide, Tongyu Communication has built a strong global presence. For more information, please visit
Associated Press
a day ago
- Business
- Associated Press
MWC Shanghai 2025: Tongyu Communications Showcases Innovations in Wireless Technology and Satellite Connectivity
ZHONGSHAN, China, June 19, 2025 /CNW/ -- At MWC Shanghai 2025, Tongyu Communication Inc. ( debuted MacroWiFi, a large area WiFi coverage solution, along with five key product category: satellite communication for ground-satellite connectivity, high efficiency base station antennas, Integration of Massive MIMO antennas and sheet metal filter, low-altitude coverage antenna. The product show highlighted Tongyu's advancements in field of satcom, 5G-A, 6G evolution, low-altitude economy, and last mile, offering more innovative solutions for the industry. As global digitalization has accelerated, satcom is emerging as a crucial technology for global connectivity. Tongyu presented its satellite-ground interconnection solutions, which combine Low Earth Orbit (LEO) and Geostationary Orbit (GEO) satellite technologies. This solution provided reliable and efficient connectivity for maritime shipping, aviation communication, emergency response, and remote areas. Moreover, by establishing a production base in Hubei, China, and investing in satellite businesses through joint ventures and industrial funds, the company is strategically enhancing its focus on satellite payload, ground stations and terminals for commercial applications to meet the growing demand for reliable satellite connectivity. Winnie Wu, Vice President of Tongyu Communication, stated that its solution encompasses onboard payloads, ground stations, and satellite terminals. It has been successfully used in satellite internet experimental satellites and is now part of the supply chains for major international operators. 'As a key player in global communication technology innovation, Tongyu continues to make significant technological advancements, demonstrating industry-leading expertise.' Pioneering technological innovation, Tongyu is continuously pushing boundaries and leading industry development. Earlier this year, the company lunched its MacroWiFi solution, which uses high-gain antennas and long-range transmission protocol to deliver WiFi coverage of 1.5 to 2 km. Pilot projects are currently ongoing in Southeast Asia. Additionally, the newly launched the antenna for low-altitude, it provides seamless coverage from ground up to 600 meters, supporting applications like drone logistics and emergency communications but also common cellular network. This innovation boosts operational efficiency and helps develop the low-altitude economy, creating new growth and collaboration opportunities across different sectors. About Tongyu Communication Tongyu Communication Inc., established in 1996, specializes in the research, development, manufacturing, and sales of mobile communication antennas, radio frequency devices, and satellite communication solutions. With production facilities in China and subsidiaries across Europe and various locations worldwide, Tongyu Communication has built a strong global presence. For more information, please visit View original content to download multimedia: SOURCE Tongyu Communication
