Building a Global Bluetooth Layer: Hubble Network’s Vision Becomes Reality
Hubble Network is pushing the boundaries of global connectivity with its ambitious plan to build a global Bluetooth layer using space-based infrastructure. The company recently unveiled its next big leap—an upgrade to its satellite-powered Bluetooth Low Energy (BLE) network that promises to reshape how enterprises track and manage assets worldwide. This move comes on the heels of Hubble’s groundbreaking achievement in 2024, where it became the first to establish a Bluetooth connection directly with a satellite. Now, its sights are set on deploying a constellation of high-performance satellites, with the first two launching in 2027. These upgrades aim to dramatically enhance signal detection, extend battery life for BLE devices, and eliminate the need for costly ground-based infrastructure.
Image Credits:Muon Space
For companies operating in logistics, infrastructure monitoring, and defense, the implications are huge. With just a firmware upgrade to existing chipsets, devices can connect directly to the Hubble satellite network—without any custom hardware. This translates into global asset visibility, even in the most remote or underserved regions. By transforming space into a functional communication layer for Bluetooth devices, Hubble is not just offering a service; it's redefining the way industries think about location tracking, logistics, and remote monitoring.
How Satellite Upgrades Will Enable a True Global Bluetooth Layer
Hubble’s partnership with aerospace company Muon Space marks the technical foundation for its upgraded satellite network. The first two satellites, dubbed MuSat XL, are scheduled for launch in 2027 and are expected to revolutionize how BLE signals are received from Earth. These spacecraft will carry advanced phased-array receivers capable of detecting BLE signals at 30 times lower power than current standards, enabling extended battery life for millions of connected devices. Designed to revisit any point on the planet within 12 hours, these satellites will form the core of a scalable, always-on Bluetooth mesh covering the globe.
What sets this upgrade apart is the size and power of the MuSat XL platform. Weighing in at 500 kilograms, each satellite can support multi-kilowatt payloads, offer high-speed data downlinks, and enable optical crosslinks for inter-satellite communication. These features allow Hubble’s system to provide near real-time updates and communications, a critical need for enterprises with time-sensitive logistics and security concerns. Rather than focusing solely on consumer-grade location tracking, Hubble’s architecture is built for rugged enterprise use across difficult terrains, from offshore platforms to rural transport corridors.
Enterprise Applications of the Satellite-Based Bluetooth Network
With its upcoming satellite upgrade, Hubble Network is targeting industries that require reliable, low-latency communication with minimal infrastructure investment. Logistics firms, for example, will be able to track cargo containers globally without relying on cellular networks or regional connectivity. Infrastructure companies monitoring pipelines, bridges, or remote equipment can now deploy sensors that send location and condition data directly to orbit, streamlining maintenance and improving operational safety. In defense, the ability to monitor assets or personnel across hostile or inaccessible regions using BLE-based tracking could change the nature of real-time situational awareness.
This technology also offers considerable savings. By eliminating the need for proprietary hardware or complex ground installations, Hubble’s firmware-only solution opens the door for mass deployment of BLE-enabled devices. Organizations can repurpose existing electronics with just a software update, connecting them to the global Bluetooth layer. This creates a frictionless entry point into the satellite network, lowering adoption barriers and enabling faster integration across industries. From shipping yards to oil rigs, Hubble’s network can bring a new level of connectivity to devices that were previously isolated or expensive to manage.
What’s Next for Hubble’s Global Bluetooth Layer
With seven satellites already in orbit, Hubble’s long-term plan involves scaling up to a 60-satellite constellation by 2028. These satellites will gradually be upgraded to the powerful MuSat XL platform to provide better coverage, more robust data links, and higher payload capabilities. The aggressive schedule is backed by Muon’s growing manufacturing footprint, which aims to produce over 500 spacecraft per year starting in 2027. This scalability ensures that Hubble’s global Bluetooth layer will not only expand quickly but will also be resilient and future-proof.
This evolution marks more than just a technical upgrade—it represents a paradigm shift in how Bluetooth connectivity is delivered and accessed. As satellite technology becomes more affordable and accessible, the line between terrestrial and space-based communications continues to blur. Hubble is at the forefront of this shift, offering a solution that is lightweight, efficient, and enterprise-ready. The company’s forward-thinking approach aligns with a growing global demand for smart, scalable, and infrastructure-free tracking solutions. By turning space into a service layer for BLE devices, Hubble is not just connecting the planet—it’s creating a new standard for how we manage the things that matter most.
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