How accurate is GPS?

Why does GPS sometimes show me in the wrong place?

What is the government's commitment to GPS accuracy?

How accurate is GPS for speed measurement?

How accurate is GPS for timing?

Is military GPS more accurate than civilian GPS?

Doesn't the government degrade civilian GPS accuracy?

Recent FAA data shows their high quality, single-frequency GPS receivers attaining horizontal accuracy of ≤1.82 m (5.97 ft.), 95% of the time. Download source (10.5 MB PDF)

Many things can degrade GPS positioning accuracy. Common causes include:

Satellite signal blockage due to buildings, bridges, trees, etc.

Indoor or underground use

Signals reflected off buildings or walls ("multipath")

Radio interference or jamming

Major solar storms

Satellite maintenance/maneuvers creating temporary gaps in coverage

Improperly designed devices that do not comply with GPS Interface Specifications

In many cases, a device's GPS hardware is working fine, but its mapping software is faulty. For example, users are often misled by:

Incorrectly drawn maps

Mislabeled businesses and other points of interest

Missing roads, buildings, communities, etc.

Incorrectly estimated street addresses

The U.S. government cannot correct mapping errors in consumer devices. Please report them to the responsible parties using the links in our Address, Route, and Map Problems section. Go there For help with GPS problems that are not mapping errors, please visit our GPS Service Outages & Status Reports page. Go there Return to top of page The government is committed to providing GPS at the accuracy levels specified in the GPS Standard Positioning Service (SPS) Performance Standard. View document The accuracy commitments do not apply to GPS devices, but rather to the signals transmitted in space. For example, the government commits to broadcasting the GPS signal in space with a daily global average user range error (URE) of ≤2.0 m (6.6 ft.), with 95% probability, across all healthy satellites in constellation slots. Actual performance is typically much better. On April 20, 2021, the global average URE across all satellites was ≤0.643 m (2.1 ft.), 95% of the time. To be clear, URE is not user accuracy. User accuracy depends on a combination of satellite geometry, URE, and local factors such as signal blockage, atmospheric conditions, and receiver design features/quality. The ongoing GPS modernization program will further improve accuracy for civilian and military users. Learn more Return to top of page How accurate is GPS for speed measurement? As with positioning, the speed accuracy of GPS depends on many factors. The government provides the GPS signal in space with a global average user range rate error (URRE) of ≤0.006 m/sec over any 3-second interval, with 95% probability. This measure must be combined with other factors outside the government's control, including satellite geometry, signal blockage, atmospheric conditions, and receiver design features/quality, to calculate a particular receiver's speed accuracy. Return to top of page How accurate is GPS for timing? GPS time transfer is a common method for synchronizing clocks and networks to Coordinated Universal Time (UTC). The government distributes UTC as maintained by the U.S. Naval Observatory (USNO) via the GPS signal in space with a time transfer accuracy relative to UTC(USNO) of ≤30 nanoseconds (billionths of a second), 95% of the time. This performance standard assumes the use of a specialized time transfer receiver at a fixed location. Return to top of page Is military GPS more accurate than civilian GPS? The user range error (URE) of the GPS signals in space is actually the same for the civilian and military GPS services. However, most of today's civilian devices use only one GPS frequency, while military receivers use two. Using two GPS frequencies improves accuracy by correcting signal distortions caused by Earth's atmosphere. Dual-frequency GPS equipment is commercially available for civilian use, but its cost and size has limited it to professional applications. With augmentation systems, civilian users can actually receive better GPS accuracy than the military. Learn more Return to top of page Doesn't the government degrade civilian GPS accuracy? No. During the 1990s, GPS employed a feature called Selective Availability that intentionally degraded civilian accuracy on a global basis. In May 2000, at the direction of President Bill Clinton, the U.S. government ended its use of Selective Availability in order to make GPS more responsive to civil and commercial users worldwide. The United States has no intent to ever use Selective Availability again. Learn more Return to top of page GPS is operated and maintained by the U.S. Space Force. GPS.gov is maintained by the National Coordination Office for Space-Based Positioning, Navigation, and Timing. Contact us / Tell us what you think of this website . Website host: NOAA. Privacy policy . This page was last modified on March 3, 2022. For the desktop version of this page, rotate your device to landscape.