What Is the Difference Between GPS and GPRS?

GPS is an acronym for Global Positioning System. It is a network of satellites that are in orbit around the Earth. These satellites originate signals which are used by GPS receivers on earth to estimate their position, altitude, and time.

GPRS is an acronym for General Packet Radio Service.

GPRS networks use packet-switching technology to transmit information across the internet at speeds typically not more than 14.4 kilobytes per second, but they are typically more expensive than other forms of wireless data communications.

So, the main difference is a GPS works on satellites, which send their position information to a receiver via radio signals and a GPRS works on cellular networks, and uses packet switching.

Main Differences Between GPS and GPRS -description

The GPS and GPRS are both satellite based systems. GPRS is a mobile communications standard.

The GPS is a satellite-based system, which provides accurate location data to receivers on the ground via satellites that transmit positioning and time information.

GPRS is a mobile communications standard that provides data at rates up to 114 kilobits per second (kbps) for mobile phones and other wireless communication devices, such as modems.

It uses fewer bands than the original 2G technology, but it offers more bandwidth within those bands.

Below are some of the differences between GPS and GPRS:

Elaborate Form of GPS and GPRS and Their Definition

GPS, or Global Positioning System, is a satellite-based navigation system that provides location and time information anywhere on Earth. It uses 24 satellites to calculate its position.

GPRS, or General Packet Radio Service, is a data transmission technology used for sending large amounts of data over cellular networks at high speed.

Unlike the original Transmission Control Protocol (TCP), GPRS makes use of IP datagrams for end-to-end network packet routing.

Stations GPS and GPRS Uses to Locate the Position

GPS: The Global Positioning System (GPS) is a system of satellites created by the U.S. Government to provide global navigation satellite data.

Three or more GPS stations must be in view of each other, so the user’s position can be calculated by means of triangulation.

GPRS: Uses Only one station -to locate the position

Price of GPS and GPRS

GPS: The price of GPS devices is expensive. A driver could spend hundreds or even thousands of dollars on a GPS device that is outdated within a few years. The reason for the high cost of GPS is due to the high cost of receivers that use atomic clocks.

GPRS: The GPRS is low priced for the most part. Low prices in this case means a low monthly cost, giving the company a clear advantage when it comes to GPRS.

The reason why GPRS is being priced so low is because of the GPRS. It only needs a tiny amount of data to run. All you have to do is turn it on, and it will work without any straight connection to the internet.

Covering Range of GPS and GPRS

GPS: GPS can help us navigate through our world. Whether you’re driving, walking, or biking, GPS satellites and navigation apps make it easy to get where we need to go.

The devices usually use satellites to locate the user’s position and plot a route to their desired destination.

GPRS: The working range of a GPRS connection is about 1 to 3 kilometers in the open air.

GPRS is a type of technology that connects to the internet through mobile networks. It works by sending short messages which are received by an antenna.

These messages are then forwarded to a device called a Base Station Transceiver, which converts the messages into packets of data and sends them on to the internet.

Conclusion

So, at the end, we think that you have understood that there are some differences between GPS and GPRS in case of working area, price, etc. In addition, GPS and GPRS also have different uses.

In case of GPS you can use it for navigation, whereas, GPRS, you can use it for mobile communications network to transmit data, such as text messages and images, to remote locations.

GPRS is one of the data transmission methods used in cellular networks. It also supports the streaming of audio and video content.