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Global Positioning System - Wikipedia. This article is about the American system. It is not to be confused with other similar systems (GNSS), such as the Russian (GLONASS), Chinese (Bei.
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Dou- 2) or European (Galileo). Global Positioning System. Country/ies of origin.
United States. Operator(s)AFSPCType. Military, civilian. Status. Operational. Coverage. Global. Accuracy. 5 meters.
Constellation size. Total satellites.
Satellites in orbit. First launch. February 1. Total launches. 72. Orbital characteristics. Regime(s)6x MEO planes. Orbital height. 20,1.
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The Global Positioning System (GPS), originally Navstar GPS. It is a global navigation satellite system that provides geolocation and time information to a GPS receiver anywhere on or near the Earth where there is an unobstructed line of sight to four or more GPS satellites. The GPS system provides critical positioning capabilities to military, civil, and commercial users around the world. The United States government created the system, maintains it, and makes it freely accessible to anyone with a GPS receiver. The GPS project was launched by the U. S. Department of Defense in 1. United States military and became fully operational in 1.
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It was allowed for civilian use in the 1. Advances in technology and new demands on the existing system have now led to efforts to modernize the GPS and implement the next generation of GPS Block IIIA satellites and Next Generation Operational Control System (OCX). In 2. 00. 0, the U. S. Congress authorized the modernization effort, GPS III.
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In addition to GPS, other systems are in use or under development, mainly because the US government can selectively deny access to the system, as happened to the Indian military in 1. Kargil War, or degrade the service at any time. The Russian Global Navigation Satellite System (GLONASS) was developed contemporaneously with GPS, but suffered from incomplete coverage of the globe until the mid- 2. Department of Defense developed the system, which originally used 2. It was initially developed for use by the United States military and became fully operational in 1. It was allowed for civilian use in the 1.
Easton of the Naval Research Laboratory, Ivan A. Getting of The Aerospace Corporation, and Bradford Parkinson of the Applied Physics Laboratory are credited with inventing it. The GPS calculated positions would quickly drift into error, accumulating to 1. This was corrected for in the design of GPS. Two American physicists, William Guier and George Weiffenbach, at Johns Hopkins's Applied Physics Laboratory (APL), decided to monitor Sputnik's radio transmissions.
The Director of the APL gave them access to their UNIVAC to do the heavy calculations required. The next spring, Frank Mc. Clure, the deputy director of the APL, asked Guier and Weiffenbach to investigate the inverse problem — pinpointing the user's location, given that of the satellite. Navy developed the Timation satellite, which proved the feasibility of placing accurate clocks in space, a technology required by GPS.
In the 1. 97. 0s, the ground- based OMEGA navigation system, based on phase comparison of signal transmission from pairs of stations. Limitations of these systems drove the need for a more universal navigation solution with greater accuracy. While there were wide needs for accurate navigation in military and civilian sectors, almost none of those was seen as justification for the billions of dollars it would cost in research, development, deployment, and operation for a constellation of navigation satellites. During the Cold Wararms race, the nuclear threat to the existence of the United States was the one need that did justify this cost in the view of the United States Congress. This deterrent effect is why GPS was funded.
It is also the reason for the ultra secrecy at that time. The nuclear triad consisted of the United States Navy's submarine- launched ballistic missiles (SLBMs) along with United States Air Force (USAF) strategic bombers and intercontinental ballistic missiles (ICBMs). Considered vital to the nuclear deterrence posture, accurate determination of the SLBM launch position was a force multiplier. Precise navigation would enable United States ballistic missile submarines to get an accurate fix of their positions before they launched their SLBMs.
The Navy and Air Force were developing their own technologies in parallel to solve what was essentially the same problem. To increase the survivability of ICBMs, there was a proposal to use mobile launch platforms (comparable to the Russian SS- 2.
SS- 2. 5) and so the need to fix the launch position had similarity to the SLBM situation. In 1. 96. 0, the Air Force proposed a radio- navigation system called MOSAIC (MObile System for Accurate ICBM Control) that was essentially a 3- D LORAN. A follow- on study, Project 5. The Naval Research Laboratory continued advancements with their Timation (Time Navigation) satellites, first launched in 1.
In 1. 96. 4, the United States Army orbited its first Sequential Collation of Range (SECOR) satellite used for geodetic surveying. A fourth ground- based station, at an undetermined position, could then use those signals to fix its location precisely. The last SECOR satellite was launched in 1. GPS can be thought of as an evolution of the SECOR system where the ground- based transmitters have been migrated into orbit. Development. It was at this meeting that the real synthesis that became GPS was created. Later that year, the DNSS program was named Navstar, or Navigation System Using Timing and Ranging.
Located at Hanscom Air Force Base, outside Boston, the lab was renamed the Air Force Geophysical Research Lab (AFGRL) in 1. AFGRL developed the Klobuchar Model for computing ionospheric corrections to GPS location. She was concerned with the curving of the path of radio waves traversing the ionosphere from Nav. STAR satellites. The GPS program cost at this point, not including the cost of the user equipment, but including the costs of the satellite launches, has been estimated at about USD 5 billion (then- year dollars). Easton is widely credited as the primary inventor of GPS. Initially, the highest quality signal was reserved for military use, and the signal available for civilian use was intentionally degraded (Selective Availability).
This changed with President Bill Clinton signing a policy directive to turn off Selective Availability May 1, 2. The directive was proposed by the U.
S. Secretary of Defense, William Perry, because of the widespread growth of differential GPS services to improve civilian accuracy and eliminate the U. S. Moreover, the U. S. Modernization of the satellite system has been an ongoing initiative by the U. S. Department of Defense through a series of satellite acquisitions to meet the growing needs of the military, civilians, and the commercial market. As of early 2. 01. FAA grade, Standard Positioning Service (SPS) GPS receivers provide horizontal accuracy of better than 3.
The Department of Defense is the steward of GPS. The Interagency GPS Executive Board (IGEB) oversaw GPS policy matters from 1. After that the National Space- Based Positioning, Navigation and Timing Executive Committee was established by presidential directive in 2. GPS and related systems. Its membership includes equivalent- level officials from the Departments of State, Commerce, and Homeland Security, the Joint Chiefs of Staff and NASA.
Components of the executive office of the president participate as observers to the executive committee, and the FCC chairman participates as a liaison. The U. S. Department of Defense is required by law to . President Ronald Reagan announced that GPS would be made available for civilian uses once it was completed. President Bill Clinton issued a policy directive. Bush updated the national policy and replaced the executive board with the National Executive Committee for Space- Based Positioning, Navigation, and Timing.