Global positioning system (GPS): Difference between revisions

From Computer Science Wiki
Line 45: Line 45:


https://www.flipkart.com/garmin-e-trex10-handheld-gps-device/p/itme4tfzx2rhfdhe
https://www.flipkart.com/garmin-e-trex10-handheld-gps-device/p/itme4tfzx2rhfdhe
http://www.physics.org/article-questions.asp?id=55
[[Category:2019 case study]]
[[Category:2019 case study]]
[[Category:Student created article]]
[[Category:Student created article]]

Revision as of 10:06, 9 August 2018

Exclamation.png This is student work which has not yet been approved as correct by the instructor

Case study notes[1]

Introduction[edit]

A GPS satellite:

The GPS constellation of satellites consists of at least 24 satellites – 21 primary satellites and 3 orbiting spares. They orbit the earth at an altitude of 17,500 KM (10,900 miles) at a speed of 1.9 miles per second between 60°N and 60°S latitude. Each satellite weighs 1900 lbs and is 17 feet (5.81 meters) wide with solar panels extended. The satellites orbit the earth twice a day. This guarantees that signals from six of the satellites can be received from any point on earth at almost any time. The global coverage is 24 hours a day, all weather conditions.

The Global Positioning System (GPS): was designed for military applications. Its primary purpose was to allow soldiers to keep track of their position and to assist in guiding weapons to their targets. The satellites were built by Rockwell International and were launched by the U.S. Air Force. The entire system is funded by the U.S. government and controlled by the U.S. Department of Defense. The total cost for implementing the system was over $12 billion.

Presently the system is right now open for everyone to use it. The only condition is to have a GPS device for e.g.

How does it work[edit]

The position of a user is calculated by measuring the distance to three/four satellites, taking the point of intersection in a process called trilateration. In order for this to work, each satellite carries an atomic clock so that the distance between the GPS receiver and the GPS satellite can be calculated through exact time differences.

Examples[edit]

Please include some example of how your concept is actually used. Your example must include WHERE it is used, and WHAT IS BENEFIT of it being used.

Pictures, diagrams[edit]

https://youtu.be/3zRlbboMvb0

https://youtu.be/FU_pY2sTwTA

External links[edit]

  • It would be helpful
  • to include many links
  • to other internet resources
  • to help fellow students
  • Please make sure the content is good
  • and don't link to a google search results, please

References[edit]

https://www.flipkart.com/garmin-e-trex10-handheld-gps-device/p/itme4tfzx2rhfdhe http://www.physics.org/article-questions.asp?id=55