Yet despite this reliance, GNSS remains inherently fragile: low‑power signals transmitted from medium Earth orbit are surprisingly easy to degrade, and the consequences of disruption can be severe.

A new study investigates how “flex power”, a technology that dynamically redistributes satellite signal power to resist interference, affects positioning accuracy and navigation reliability.

The war with Iran is laying bare the dangers posed to commercial ships and planes by the rise of GPS interference in and ...

As airlines halt flights and detour around conflict zones, operational ripples can be subtle—but far-reaching.

Question: What are the main challenges facing GNSS/GPS-based autonomous solutions in terms of signal integrity, jamming and spoofing, and how are these being addressed? Answer: Outside of the military ...

In today’s interconnected world, the reliability of Global Navigation Satellite System (GNSS) signals is paramount. These signals underpin almost every aspect of modern life, from navigation and ...

Built on the latest AG3335 chipset series from long-time partner Airoha, the new modules advance Telit Cinterion's GNSS roadmap. They support space- and power-constrained IoT devices and use cases ...

SimXTRACT reshapes GNSS evaluation by channeling real-world intelligence, streamlining workflows and accelerating product development. GNSS, or, ...

For the first time, NASA has detected a signal from the Global Navigation Satellite System (GNSS) nearly 250,000 miles from Earth. The signal was part of the Lunar GNSS Receiver Experiment (LuGRE) ...

A textbook example of the usefulness of RTK-GPS: follow-up operations such as planting potatoes and later ridging.

ESA-supported research reinforces the complementary role of commercial satellite data alongside government missions ...