GPS:- GPS stands for Global Positioning System. It refers to a system of satellites that constantly transmit a signal, and a GPS. Terminal that picks up those signals and calculates its position on Earth by measuring the distance between itself and two or more GPS satellites (by measuring the time it takes to receive the signals).
How to use GPS:- GPS operates using trilateration. Trilateration is the process of determining the position of an unknown point by measuring the lengths of the sides of an imaginary triangle between the unknown point and two or more known points.
In the GPS system, the two known points are provided by two GPS satellites. These satellites constantly transmit an identifying signal.
The GPS receiver measures the distance to each GPS satellite by measuring the time each signal took to travel between the GPS satellite and the GPS receiver.
The formula for this is:-
Distance = Velocity * Time
Velocity of the GPS signal is the speed of light, approximately 300,000 Km/s.
GPS transmissions frequencies are 1575.42 and 1227.60 Mhz. Both of these frequencies are within the L Band.
1. First and foremost, a GPS-enabled device like a navigator or a smartphone with a GPS terminal inside it can tell you where exactly you are. There are vast databases of pre-recorded locations of various places on Earth. Your device has access to this database it is able to tell you how to get to any of these specific locations.
2. The most basic and most common use of GPS is to navigate you from where you are to where you want to go. There are all kinds of navigator devices you can use for this purpose. Some are handheld, useful if you go somewhere without a vehicle (like hiking, mountain climbing etc.). Others are designed for cars and other vehicles to guide you to your destination by telling you which turns to take.
3. Just about all smartphones today have GPS terminals built in, so a smartphone is the only device you might need if you want a navigation system. Mobile applications like Google Maps use GPS data to guide you to your destination.
4. To get a navigator or a navigation app to guide you to your destination, you have to make sure GPS is enabled and receiving signal. If it is, it will show you your correct current location. Select your destination and let the program tell you where to go.
5. Various navigator devices and apps have various different features. Some in-car navigators can read their navigation instructions out loud, sometimes even in different languages, so you don’t have to look at the screen while driving. Those with speech recognition allow you to tell it where you want to go without typing it in. Some offer bluetooth integration with your mobile phone to display a caller ID on its screen and allow you to use its microphone and speakers to have a hands-free phone conversation.
GPS was originally developed for the U.S. military, but is now provided as a public service for people all over the world by the U.S. government.Deployment of the GPS system began on 22 February 1978 with the launch of the first Block I Navstar GPS satellite. Initial Operating Capability was declared in December 1993 with 24 operational GPS satellites in orbit. Full Operational Capability was declared in June of 1995.GPS was developed by the U.S. military to help soldiers locate their positions. Civilian access to the GPS system was guaranteed by President Reagan as a response to the Soviet Union’s shooting down of Korean Airline Flight KAL-007. President Reagan hoped that GPS technology would help to prevent such a tragedy from happening again.
The GPS system is divided into three segments:-
- The Space Segment
- The Control Segment
- The User Segment
The Space Segment:-
1. GPS uses more than two dozen operational satellites, with additional three satellites in orbit as redundant backup.
2. GPS uses NAVSTAR satellites manufactured by Rockwell International. Each NAVSTAR satellite is approximately 5 meters wide (with solar panels extended) and weighs approximately 900Kg.
3. GPS satellites orbit the earth at an altitude of approximately 20,200Km.
4. Each GPS satellite has an orbital period of 11 hours and 58 minutes. This means that each GPS satellite orbits the Earth twice each day. Highly accurate atomic clocks are installed on these satellites, operating at a fundamental frequency of 10.23MHz each. With the help of these clocks, signals are generated from the satellite, to be broadcast to the Earth.These twenty-four satellites orbit in six orbital planes, or paths. This means that four GPS satellites operate in each orbital plane.Each of these six orbital planes is spaced sixty degrees apart. All of these orbital planes are inclined fifty-five degrees from the Equator.