The Global Satellite Operators Association (GSOA) is enforcing a behavior code for satellite operators, addressing the pressing issue of space debris caused by escalating satellite broadband services. The industry aims to advance its responsibility through shared best practices to preserve space access. This action, however, fuels debate over unendorsed practices, potential impacts on astronomy, and the proposed spectrum restraint at the upcoming World Radiocommunication Conference.
Just under a year ago, the tech world buzzed with anticipation over a new partnership between chip mogul Qualcomm and satellite firm Iridium. The aim? Integrating satellite-to-phone services via Snapdragon Satellite and Iridium’s resources. However, a recent shift in direction caught the industry’s attention. Despite a successful demo, smartphone manufacturers didn’t opt to incorporate this feature, leading Qualcomm to end the agreement. Yet, in the face of disappointment, Iridium remains optimistic, envisaging an industry veering towards greater satellite connectivity. As earthquakes ripple across the telecoms landscape, all eyes await what’s next.
Marlink has teamed up with Eutelsat OneWeb to bring satellite connectivity to the luxury icebreaker cruise ship, Le Commandant Charcot. Their innovative hybrid network enhances both operationally and leisurely experiences, using layered, encrypted technology for robust security. Remarkably, it allows for separate crew and operational systems on one terminal and ensures unprecedented internet access in remote locations.
After the whopping $6.2 billion acquisition by Inmarsat, Viasat is readying for a major reorganization, with a planned 10% workforce reduction. The move, affecting approximately 800 roles, aims for a substantial year-on-year cost-saving starting from 2025. Despite the promising financial outlook, the firm accepts the substantial costs linked with these transitions, yet considers them a vital investment for the future.
In a groundbreaking revelation, Telus, Canada’s foremost operator, announced the successful two-way communication between smartphones and IoT devices, using Echostar T1, a geostationary Earth orbit satellite. Partnering with TerreStar and Skylo, Telus accomplished this feat using a specially-designed connectivity platform, highlighting the potential for remarkable connectivity throughout Canada, even in remote areas. As this technology differs significantly from regular D2D communication, Telus’s breakthrough is set to redefine the future of connectivity in previously unreachable corners of the country.
Reliance Jio’s introduction of JioSpaceFiber, a satellite broadband service, has rocked the telecom landscape. Offering gigabit speed connectivity even in remote Indian locations, this innovation brings affordable online engagement to all. Leveraging SES’ medium Earth orbit satellites, the joint venture holds the potential to transform India’s digital reach. Yet, this ambition is not without competition.
SpaceX’s Starlink is paving the way for direct-to-mobile services, thanks to a progressive partnership with T-Mobile. Going beyond termianls, the ambitious endeavor could allow unmodified smartphones to directly connect with satellites. Beginning with text messaging in 2024, comprehensive voice and data services are slated to follow in 2025. However, AT&T and the Rural Wireless Association express concerns about possible interference with commercial networks, prompting fierce debate over the fine lines of regulatory procedures.
Intriguingly, SpaceX’s Starlink offers an innovative Direct to Cell feature allowing existing LTE phones to function even in remote locations – a potential boon for those often out of terrestrial coverage. With a rollout plan targeting texts by 2024, and full voice, data, and IoT compatibility by 2025, Starlink seems poised for a breakthrough. While the proposition seems formidable, concerns around possible limitations of Starlink’s proprietary technology remind us advantages of relying on industry best practices. Without disclosed pricing details, we can only anticipate how this venture will fare against other satellite connectivity contenders.
Amazon’s Project Kuiper, which birthed two prototype satellites aimed to test potential satellite broadband service, operates similarly to Space-X’s Starlink and OneWeb. The venture is set to increase internet connectivity in remote areas using an extensive satellite constellation. Still, the delay in launching has welcomed accumulating competition. Rabid advancements by competitors including satellite direct-to-device technology pioneers and those concentrating on 5G NTN IoT services could tilt the scales. Would adopting the 5G NTN-compatible network give Project Kuiper a competitive edge? Or will the ongoing innovations by industry leaders overshadow it? However, underlying operational challenges and time constraints might hamper Amazon from contemplating a substantial shift in direction.
“Project Gigabit”, the UK government’s £2 billion initiative, aims to expand high-speed broadband in hard-to-reach communities. With a vision of future-proofing Britain’s connectivity, the project seeks to connect 80% of the nation by 2025. However, ensuring equal internet access brings pressing questions, such as the cost-effective efficiency of Low Earth Orbit satellites and balancing 4G and 5G network enhancements to avoid inadvertent digital inequality.
