• Space as the next network edge: The evolution of global connectiv

    From TechnologyDaily@1337:1/100 to All on Fri Jun 19 11:00:26 2026
    Space as the next network edge: The evolution of global connectivity

    Date:
    Fri, 19 Jun 2026 09:46:10 +0000

    Description:
    What is next for global connectivity as infrastructure extends beyond Earth.

    FULL STORY ======================================================================Copy link Facebook X Whatsapp Reddit Pinterest Flipboard Threads Email Share this article 0 Join the conversation Follow us Add us as a preferred source on Google Newsletter Subscribe to our newsletter Satellite constellations are already transforming global connectivity, extending the Internets reach to nearly every corner of the planet. Now, as conversations turn toward compute in orbit, the focus is expanding from connectivity alone to how distributed infrastructure will shape the future of digital services. Mike Hicks Social Links Navigation

    Principal Solutions Analyst for Cisco ThousandEyes. But what does it really mean for connectivity when infrastructure extends beyond Earth? The answer is crucial, because space isnt just another deployment site, it introduces fundamentally different opportunities and constraints that challenge how modern digital services are designed and delivered. Understanding Space Infrastructure Space will not replicate the data center environments we know today. Constraints like launch capacity, radiation, power generation,
    cooling, and physical size mean orbital compute resources will likely be smaller and more specialized than hyperscale infrastructure on Earth. Latest Videos From Watch full video here:

    Rather than lifting existing data centers into orbit, space is likely to inspire new forms of distributed compute and storage nodes, designed to complement terrestrial systems.

    Because these distributed resources need to work together seamlessly, connectivity becomes the critical enabler. In other words, the real shift
    isnt about relocating data centers to space. Its about extending the distributed architecture of the Internet itself. You may like Layered access control, physical redundancy and rapid component replacement are major
    orbital challenges Big Tech eyes orbital data centers for "near continuous" solar power Why building two data centers a week wont fix AIs bottleneck The opportunity lies in distribution For decades, application architecture has evolved to improve user experience. Content delivery networks moved content closer to users. Cloud platforms introduced elasticity and geographic redundancy. Edge computing pushed processing toward the point of data creation. Space introduces another dimension to this model.

    Rather than relocating entire applications, organizations will likely distribute functions across multiple environments, including terrestrial clouds, edge infrastructure, and space based platforms, all depending on what makes architectural sense. Are you a pro? Subscribe to our newsletter Sign up to the TechRadar Pro newsletter to get all the top news, opinion, features
    and guidance your business needs to succeed! Contact me with news and offers from other Future brands Receive email from us on behalf of our trusted partners or sponsors By submitting your information you agree to the Terms & Conditions and Privacy Policy and are aged 16 or over.

    Satellite-based Earth observation systems, for example, generate enormous volumes of imagery and sensor data. Processing portions of that data in orbit before transmitting results back to Earth could reduce bandwidth requirements and accelerate insights.

    Other use cases may involve distributing cached content, supporting connectivity in remote environments, or enabling services for moving
    platforms such as ships, aircraft, and industrial operations.

    What matters most is that space becomes another place where parts of a
    service can run, alongside existing terrestrial and cloud infrastructure.
    What to read next Boards are funding AI transformations on a network they haven't looked at in a decade Google and SpaceX are reportedly in talks to build data centers in orbit Professor Dimitra Simeonidou discusses the evolution of telecom networks and data centers Orbital connectivity follows different rules Designing systems that rely on orbital infrastructure also requires understanding how satellite connectivity differs from terrestrial networks.

    Satellite constellations are dynamic by nature. Satellites move continuously, requiring constant handoffs between spacecraft and ground stations. Network paths change continuously as satellites move and the routing topology shifts with them.

    Even when performance is strong, these dynamics introduce behaviors that traditional network architectures were not built to accommodate. Latency profiles differ too. Low-Earth orbit constellations operate at a fraction of the altitude of geostationary satellites, which matters, but a 2040ms round-trip is still not terrestrial fiber.

    Bandwidth characteristics also differ. Satellite connectivity is often asymmetric, with significantly more capacity for downloading data than
    sending it back upstream. Power constraints and radio transmission requirements make large uplink transfers more expensive than their
    terrestrial equivalents.

    These realities mean that not every workload belongs in space. Instead, the most effective architectures will carefully consider which components should run where, based on latency sensitivity, data volume, and operational constraints. The internet is extending its reach Today's Internet already spans continents and oceans through vast terrestrial and subsea infrastructure. Satellite networks aren't a future concept, they are operational now, delivering connectivity globally and extending reach to places where traditional infrastructure is difficult or impossible. Future orbital compute may yet introduce new processing and storage capabilities as well.

    For service architects, this means digital platforms may soon operate across
    a combination of terrestrial fiber infrastructure, subsea cable systems, wireless access networks, hyperscale cloud environments, edge compute platforms, and satellite constellations or other orbital systems.

    From a users perspective, however, none of this complexity is visible. They simply expect the service to work. But when a single user interaction may traverse a local access network, a regional ISP backbone, a subsea cable system, a cloud region, and potentially a satellite link, performance issues can emerge anywhere along that path - from congestion on a terrestrial route to disruptions at a satellite ground station.

    So while space based compute infrastructure may still be years away from
    large scale deployment, the architectural questions it raises are already relevant today.

    Understanding how these pieces interact will be the key to building resilient digital services, whether the infrastructure supporting them sits in a data center, at the network edge, or hundreds of kilometers above the Earth. We've featured the best cloud computing provider. This article was produced as part of TechRadar Pro Perspectives , our channel to feature the best and brightest minds in the technology industry today.

    The views expressed here are those of the author and are not necessarily those of TechRadarPro or Future plc. If you are interested in contributing find out more here: https://www.techradar.com/pro/perspectives-how-to-submit



    ======================================================================
    Link to news story: https://www.techradar.com/pro/space-as-the-next-network-edge-the-evolution-of- global-connectivity


    --- Mystic BBS v1.12 A49 (Linux/64)
    * Origin: tqwNet Technology News (1337:1/100)