False


Download Learnerz IAS app from the Play Store now! Download

$show=search/label/May%202022

 


GPS UPSC NOTE

SHARE:

  What is GPS? The U.S. Department of Defence started the GPS programme in 1973 and launched the first satellite in 1978.  The modern GPS sa...

 What is GPS?

  • The U.S. Department of Defence started the GPS programme in 1973 and launched the first satellite in 1978. 

  • The modern GPS satellite constellation consists of 24 satellites moving around the earth in six orbits

  • Each satellite completes two orbits in a single day. 

  • The overall programme has three main components — the space segment, the control segment, and the user segment.

  • The space segment, consists of the 24 satellites

  • The six orbits they occupy are all 20,200 km above the earth, and each orbit has four satellites at all times

  • In this configuration, anyone on the earth will be able to ‘see’ at least four satellites at a time, which is a crucial requirement.

  • The control segment consists of a global network of ground-based control stations and antennae that track the 24 satellites, make sure their performance is as expected at all times, and transmit commands. 

  • The services provided by the GPS system are designed to meet the Standard Positioning Service (SPS) performance standard

the latest edition of which was published in April 2020. 

  • The SPS standard tells application developers and users anywhere in the world what they can expect from the GPS system

  • The control segment ensures these commitments are kept

  • The user segment pertains to the use of GPS in various sectors and applications

  • The major sectors include agriculture, construction, surveying, logistics, telecommunications, power transmission, search and rescue, air travel, meteorology, seismology, and military operations

  • In 2021, according to one estimate, there were 6.5 billion Global Navigation Satellite System (GNSS) devices installed worldwide. 

  • The figure is expected to rise to 10 billion by 2031.

How does GPS work?

  • Each GPS satellite continuously broadcasts a radio signal containing information about its location in orbit, operational status, and the time at which the signal is emitted

  • The signals are transmitted at the L1 (1,575.42 MHz) and the L2 (1,227.6 MHz) frequencies at 50 bits/second. 

  • The signals are encoded with code-division multiple access. 

  • This allows multiple signals to be transmitted in the same channel and for a receiver to be able to disentangle them. 

  • Being an electromagnetic signal, the radio waves travel at the speed of light. 

  • On your smartphone, a GPS receiver picks this signal up and uses it to calculate its precise distance from the satellite. 

  • The distance is equal to the speed of light times the signal’s travel time. 

  • The signal’s travel time is equal to the time on the receiver’s clock minus the time at which the signal was emitted

  • Some adjustments are required to ensure the measurements are as error-free as possible

  • The special theory of relativity requires engineers to account for the relative velocities of the satellite and the receiver.

How do the satellites keep time?

  • Good timekeeping is essential to ensure the GPS system works as well as possible. 


  • For example, not adjusting for the 38-microsecond offset between the clocks on the satellites and on the ground could lead to an error of 10 km within a single day

  • An offset of one millisecond can lead to an error of a full 300 km

  • For this reason, the satellites are all equipped with atomic clocks

  • In 1974, the U.S. Naval Research Laboratory first launched an atomic clock into space on board the NAVSTAR NTS-1 satellite

  • The clocks onboard the modern-day GPS constellation are all synchronised to within just 10 nanoseconds of each other.

  • An atomic clock takes advantage of a simple but profound fact. 

  • The atoms of all elements have some number of electrons around the nucleus

  • When radiation containing the exact amount of energy the electrons require to jump between two states — called the resonant frequency.

  • If too much or too little energy is supplied, fewer electrons will jump. 

  • So scientists begin with a radiation source and keep fine-tuning it to the frequency that causes the maximum number of electrons to jump.

  • Once they have the frequency, they use it to measure time


  • For example, if it is 50 Hz, then one second will have passed when the radiation has completed 50 cycles. 

  • This is how an atomic clock works. 

  • Simply put, the electrons tell the source which frequency is ‘correct’. 

  • The scientists can check the frequency at regular intervals to make sure that the source producing it isn’t drifting off and losing/gaining time.

Do other countries have GNSS?

  • According to the U.S. Space-Based Positioning, Navigation, and Timing Policy, the GPS system will cooperate with the operation of other GNSS

  • Such systems are currently operated by Australia, China, the European Union, India, Japan, South Korea, Russia, and the U.K. Of these, Russia’s GLONASS, the E.U.’s Galileo, and China’s BeiDou systems are global

  • Officials of the U.S. government and their counterparts in other countries meet regularly to ensure their technologies are compatible with each other. 

  • There is also an International Committee on GNSS, operating under the United Nations Office of Outer Space Affairs

  • According to its website, it “promotes voluntary cooperation on matters of mutual interest related to civil satellite-based positioning, navigation, timing, and value-added services”.

  • India mooted its own Indian Regional Navigation Satellite System in 2006, later rechristened Navigation with Indian Constellation (NavIC). 

  • Its space segment consists of seven satellites: three in geostationary orbits and four in geosynchronous orbits

  • As of May 2023, the minimum number of satellites is 4, could facilitate ground-based navigation. 

  • The master control facilities are located in Hassan in Karnataka and Bhopal in Madhya Pradesh. 

  • The NavIC satellites use rubidium atomic clocks and transmit data in the L5 (1,176.45 MHz) and the S (2,492.028 MHz) bands, with newer satellites also transmitting in the L1 band

  • India also operates the GPS-Aided Geo Augmented Navigation (GAGAN) system, which was developed by the ISRO and the Airports Authority of India


COMMENTS

Name

Amritsar,1,April 2024,301,Art & Culture,11,August 2023,251,August 2024,400,Courses,7,Daily Current Affairs,51,December 2023,189,December 2024,76,Disaster Management,2,Environment and Ecology,323,February 2024,228,Foundation Course,1,Free Class,1,GDP,1,GEMS Club,1,GEMS Plus,1,Geography,311,Govt Schemes,2,GS 2,1,GS1,56,GS2,454,GS3,291,GS4,1,GST,1,History,12,Home,3,IAS Booklist,1,Important News,71,Indian Economy,310,Indian History,24,Indian Polity,341,International Organisation,12,International Relations,260,Invasive Plant,1,January 2024,240,July 2023,281,July 2024,375,June 2022,6,June 2023,268,June 2024,324,March 2024,238,May 2022,17,May 2024,330,Mentorship,2,November 2023,169,November 2024,341,Novermber 2024,2,October 2023,203,October 2024,369,Places in News,2,Science & Technology,318,Science and Technology,119,September 2023,205,September 2024,336,UPSC CSE,115,UPSC Tips,4,
ltr
item
Learnerz IAS | Concept oriented UPSC Classes in Malayalam: GPS UPSC NOTE
GPS UPSC NOTE
https://lh7-us.googleusercontent.com/eB6d1btjBri6LugrJObwXS_5KlXQpsTorCEVonGtJVVu5fhYmoSp4lG5bDANuj3haxb436V2Nw7jHmzW2F1O8j7dn8QLTxkMCGd0Mi2xEc_wFTUU3KqeNhPL4gBu9CUofx7SvV4aVtZXK2d6jAimgg=s2048
https://lh7-us.googleusercontent.com/eB6d1btjBri6LugrJObwXS_5KlXQpsTorCEVonGtJVVu5fhYmoSp4lG5bDANuj3haxb436V2Nw7jHmzW2F1O8j7dn8QLTxkMCGd0Mi2xEc_wFTUU3KqeNhPL4gBu9CUofx7SvV4aVtZXK2d6jAimgg=s72-c
Learnerz IAS | Concept oriented UPSC Classes in Malayalam
https://www.learnerz.in/2023/12/gps-upsc-note.html
https://www.learnerz.in/
https://www.learnerz.in/
https://www.learnerz.in/2023/12/gps-upsc-note.html
true
4761292069385420868
UTF-8
Loaded All Posts Not found any posts VIEW ALL Readmore Reply Cancel reply Delete By Home PAGES POSTS View All RECOMMENDED FOR YOU LABEL ARCHIVE SEARCH ALL POSTS Not found any post match with your request Back Home Sunday Monday Tuesday Wednesday Thursday Friday Saturday Sun Mon Tue Wed Thu Fri Sat January February March April May June July August September October November December Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec just now 1 minute ago $$1$$ minutes ago 1 hour ago $$1$$ hours ago Yesterday $$1$$ days ago $$1$$ weeks ago more than 5 weeks ago Followers Follow THIS PREMIUM CONTENT IS LOCKED STEP 1: Share to a social network STEP 2: Click the link on your social network Copy All Code Select All Code All codes were copied to your clipboard Can not copy the codes / texts, please press [CTRL]+[C] (or CMD+C with Mac) to copy Table of Content