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GPS: Global Positioning System

What is GPS?

Global Positioning System
The Global Positioning System (GPS) is a global navigation satellite system that was developed by the United States Department of Defense. It uses between 24 and 32 Medium Earth Orbit satellites that transmit precise microwave signals, which allow GPS receivers to determine their current location, time, and velocity. The U. S. and Allied military, certain U. S. Government agencies, and selected civil users with authorized cryptographic equipment and keys use the Precise Positioning System. This system has 22 meter Horizontal accuracy, 27.7 meter vertical accuracy, and 200 nanosecond time accuracy. Civil users use the Standard Positioning Service. This system has 100 meter horizontal accuracy, 156 meter vertical accuracy, and 340 nanoseconds time accuracy. GPS errors are a combination of noise, bias, blunders. Since 1993 GPS has become a widely used aid to navigation worldwide. It is a useful tool for map-making, land surveying, commerce, and scientific uses.

Privacy Issues

GPS applications can be installed in cell phones, cars and clothing. These uses of GPS raise the issue of whether or not your privacy is being protected, and if it is not, just who can access your information and know your whereabouts.

Depending on where you live there are different Privacy Laws in place to protect your information. However, as technology evolves it becomes more and more difficult for privacy laws to adapt and keep up with such fast changed advancements. Technology makes it much harder for you to protect your personal information, and a lot easier for other people to gain access to information that they don’t have authorization to see.

In Canada individuals are protected under multiple privacy acts. The Privacy Act protects individuals against infringement by government organizations, and the Personal Information Protection and Electronic Documents Act which includes the protection of data privacy.

There are many instances where people use GPS to track their children, either through clothing, or cell phones. This aids in the protection of their children at school, or elsewhere, but also infringes the child’s privacy rights.

Business’s use GPS in company cars so that they know where employees are, and whether they are where they are supposed to be, and doing what they are supposed to be doing.

All of these examples appear to draw a thin line between protection and privacy.

Advantages

GPS has many advantages even in the case of privacy of your location. It is used for location in life saving missions such as aviation, ground and maritime operations. Many GPS sport clothing has been manufactured to allow easy location of your where abouts in the event of emergency.

Another advantage of GPS is that it can determine where you are and how to find your destination. You are also able to track your route and find your way back to your origin. If you do not want to be tracked there is an option to turn off your GPS receiver as well as to turn of the GPS in your cell phone or other devices.

More advantages include the ability to find stolen cars at ease now, since GPS receivers provide 3D location (latitude, longitude, altitude, and time).

Other areas that are also assisted by GPS are banking, cell phone operations, and power grids, shich use the accurate timing of GPS. Farmers, surveyors, and geologists also use GPS for its percise 3D location.

Disadvantages

Although GPS has many advantages, there are still some very important disadvantages. First of all in the case of privacy, GPS has the ability to track anyone with a receiver and can trace where you have been.

Other disadvantages have technical issues. The GPS signal from the satellites can be delayed from the bouncing off of high buildings, which gives the GPS receiver the impression that the satellite is further away. GPS receivers also don't recognize mountains, rivers, and any obtrusions, therefore giving misleading directions. The signals are also not received inside of most buildings, caves, forests, and heavy clouds.

When travelling you should always keep a map and compass on hand for back up because of GPS inaccuracy in the case of road closures, road construction, and new roads. And most of all they run on batteries, therefore they'll probably run out when you need it the most.

Other Options

There are some other satellite navigation systems besides GPS, which include: the Compass System (from China), the Galileo Global Navigation Satellite System (from the European Union and European Space Agency), the GLONASS (from former Soviet Union and now Russia), the IRNSS (from India), and the QZSS (from Japan).


The Compass Navigation Satellite System (also called the Beidou 2 Navigation System), is the second-generation satellite navigation system for China. It provides positioning services to all civilian users in China and neighbouring countries with high accuracy of 10 metres as well as authorized and military users. China is currently planning to develop the system into a more sophisticated one similar to the Global Positioning System.


The Galileo is a satellite radio and positioning system proposed by the European Union and developed by the European Space Agency. It provides positioning information for users in many sectors such as the transport, social, justice, customs, public work, rescue and emergency systems while users can also utilize during leisure or searching. The fully deployed Galileo system which will be in operation by 2013 consists of 30 satellites and the associated ground infrastructure.


The GLONASS, which stands for the Global Navigation Satellite System, is a system developed by the former Soviet Union and currently managed for the Russian Federation Government by the Russian Space Forces. It is a radio based satellite system providing positioning services for both civilian and military users. The Russian Space Forces is planning to develop the system to a low mass third generation GLONASS-K satellites with a guaranteed lifespan of 10 years.


The Indian Regional Navigation Satellite System (IRNSS) is developed by the Indian Space Research Organization and managed under the Indian Government. The system is partially operated with the Russian GLONASS that India will launch three satellites of GLONASS covering the globe around 2009. The IRNSS will be utilized in many aspects such as transport, surveying, telecommunication, public safety, natural disaster identifications, and will be implemented by 2012.


The Quasi-Zenith Satellite System (QZSS), is a joint government-private section program proposed by Japan. It is a three-satellite regional time transfer system which users can receive the communication and positioning signals from one of QZSS near zenith direction without obstruction in urban and mountanious areas. The system is combined with the GPS to provide highly accurate positioning services to users in Japan.

Augmentations

Many different types of augmented systems have been developed, such as wide area augmentation system, inertial navigation system and differential gps. Each of these systems uses a different approach that obtains improved accuracy for informative and scientific data. Here we will discuss two of them (Das 2007).

Wide Area Augmentation system is composed of three parts. The ground segment is used for terrestrial communication over a large area which is incorporated with the space segment which takes the signals from the ground segments and sends them to the user, where the user is able to receive messages. Currently improvements are being made to incorporate more and more referencing stations (Das 2007).

Differential GPS enhances the system by improving its accuracy and monitoring systems among others. It does this by using a fixed ground based system and satellites, then comparing the differences in positions between the fixed locations and the satellite locations to gain a more accurate result (Das 2007).

Conclusion

The GPS system can influence one’s life both positively and negatively. It can help guide you to your wanted destination, help you get on track when you are lost, and even help find someone that is missing. It can also be an invasion of a person’s privacy rights and people generally may not want other people to be following their every move. Whether one approves of the system or not, GPS today not only plays a large role in collecting data, but also is being integrated into many people's daily lives. It is now available on many cell phones as well, which are used by many people. By conducting this research on GPS, we support the idea that the GPS system is a major contributor to the technological world of today (Seabourne 2009).

References

Das, A. (2007). GPS augmentation system. Location, the portal on positioning and navigation. Retreived April 02, 2009 from http://www.location.net.in/magazine/2007/jan-feb/20.htm.

(n.d.)."Compass (BeiDou 2) Satellite Navigation System.” SinoDefence.com. Retrieved March 29,from:http://www.sinodefence.com/space/spacecraft/beidou2.asp

(n.d.). “Galileo”. European Commission. Retrieved March 29, 2009, from: http://ec.europa.eu/transport/galileo/index_en.htm.

(n.d.). “GLONASS - Summary”. Andrews Space & Technology. Retrieved March 29, 2009, from: http://www.spaceandtech.com/spacedata/constellations/glonass_consum.shtml

(n.d.). “Satellite navigation: Galileo”. EUROPA. Retrieved March 29, 2009, from: http://europa.eu/scadplus/leg/en/lvb/l24205.htm

Raghu,K. (Sep 5 2007). “India to build a constellation of 7 navigation satellites by 2012”. livemint.com. Retrieved March 29,2009, from : http://www.livemint.com/2007/09/05002237/India-to-build-a-constellation.html

Ronca, D. (2009). Which is better for navigation -- compass or GPS?. "HowStuffWorks". Retrieved March 25, 2009 from http://adventure.howstuffworks.com/compass-or-gps5.htm

Salada, M. (2007). Pros and Cons of Auto Navigation Systems and GPS Devices. "Associated Content". Retreived March 25, 2009 from http://www.associatedcontent.com/article/142525/pros_and_cons_of_auto_navigation_systems.html.

Seabourne, B. (2009). GPS security and privacy – pros vs cons. Ezine articles. Retreived April 02, 2009 from http://ezinearticles.com/?GPS-Security-And-Privacy---Pros-Vs-Cons&id=945696.

Terada,K. (Oct. 20, 2008). “L-antenna Sinusoidal Vibration Test”. Japan Aerospace Exploration Agency. Retrieved March 29, from: http://www.jaxa.jp/projects/sat/qzss/index_e.html