Satellite data isn’t flawless. GPS signals are affected by the atmosphere, physical obstructions, and orbital inaccuracies. GPS correction ensures your position remains accurate. On this page, you’ll learn how correction works and why it’s essential for high-precision applications.
GPS is prone to delays and distortion. Correction removes these errors for reliable, stable positioning.
Satellite signals travel through space and the atmosphere before reaching the ground. Along the way, they’re distorted by ionospheric interference, delays, or signal reflections. These inaccuracies can cause errors of several meters. That might be fine for navigation, but not for sectors like agriculture, construction, or autonomous systems. GPS correction reduces this margin to just a few centimeters.
A known reference station compares GPS signals and sends real-time corrections to your receiver.
A correction system uses a fixed base station with a known position. It compares that exact location to the position calculated via GPS. The difference, the error, is broadcast as a correction signal. Your receiver then adjusts its location in real-time. This can be done using a local base or through a wider RTK network.
GPS correction unlocks new levels of precision, for workflows where every centimeter counts.
Raw GPS gives rough accuracy. Correction delivers centimeter precision — exactly what RTK is made for.
Standard GPS is good enough for highway navigation. But not for surveying, machine automation, or drone missions. In these fields, every centimeter counts. That’s why GPS correction is critical: it turns vague coordinates into pinpoint positions — reliable, stable, and repeatable.
You need a compatible GPS receiver, correction source, and stable data link.
To apply GPS correction, you need three things: a GPS receiver that supports correction, access to a correction source (like a base station or RTK network), and a live connection, typically over mobile internet (NTRIP) or radio. With this setup, you receive live adjustments for accurate positioning.
