Talk:Global Positioning System/Archive 9

"Global positioning system... system"?
Well, in my sensible attempt to remove a collection of redundancies here, there is an editor who seems to believe it's more sensible to leave the error intact for some odd reason. So we need a few editors to help form a consensus that "GPS system" is not correct, but "GPS" alone is. Will a few editors of sound mind who understand this simple concept come to help form this consensus? Thank you! Thayve Sintar (talk) 04:40, 5 November 2017 (UTC)


 * I believe that reverting this obviously good faith edit with no comment was not a good style. Regarding the matter in question, I wouldn't say that "GPS system" is an error. There are many other commonly used redundancies like "PIN number" and "ATM machine". This is called RAS syndrome. Yes, it should better be avoided if possible. Is it possible to avoid in "GPS system" without ambiguity? I not always in my opinion. And certainly should not be removed from quotes or titles of cited sources. Retimuko (talk) 18:52, 5 November 2017 (UTC)


 * Hi,, and thanks for your reply, and for agreeing with me about the reversion. And yes, I'm aware of what the "RAS syndrome" is, but the whole point of that idea is to use a bit of humor to show that those redundancies are in error. The whole reason they are in error is that it makes no sense to say "number number" or "system system," etc. There wouldn't be a point to those abbreviations as they are if you're just going to say the word of the last letter anyway. Right?
 * Right, unfortunately we can't remove the error of "GPS system" from references, but it can be ellipsized out of quotations, as many quotations are ellipsized anyway. But most importantly, let's just agree to remove these errors from the prose. Have you seen the other GPS-related corrections in my edit history and noticed the same undo reversions there? Will you support a REreversion to my corrections on those articles too?
 * As respectfully as I know how to be, Thayve Sintar (talk) 07:04, 12 November 2017 (UTC)


 * The literature seems to have no problem with "the GPS system":
 * {| class="wikitable" style="text-align: center"

! Google !! Scholar !! Books !! Web
 * "the GPS system"
 * 24,700
 * 21,300
 * 408,000
 * }
 * So there is no reason why Wikipedia should choose not to follow the literature. - DVdm (talk) 13:20, 12 November 2017 (UTC)
 * }
 * So there is no reason why Wikipedia should choose not to follow the literature. - DVdm (talk) 13:20, 12 November 2017 (UTC)


 * Sometimes we are talking about a GPS receiver, sometimes about a GPS satellite and so on. So it seems that "GPS" in such phrases becomes a sort of an adjective. And sometimes we want to talk abut the whole system, so we say "GPS system"., if you could find some phrases in the article where "system" in "GPS system" can be omitted and sound unambiguously, I would support such changes. But I doubt that it would work in all cases. Retimuko (talk) 20:14, 12 November 2017 (UTC)
 * Note that "Thayve Sintar" is indefinitely blocked as yet another instance of a banned user. - DVdm (talk) 20:19, 12 November 2017 (UTC)

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Recent edit to Fundamentals section
Hey what were your specific objections to my edit to the Fundamentals section? --ChetvornoTALK 08:26, 27 June 2018 (UTC)

The main gist of the edit was wrong. It stated that the time in the receiver is corrected first and than used to find the location. In reality, the time and position are solved simultaneously from a (usually overdetermined) system of equations using the received signals. This is clearly explained in a later section. &minus;Woodstone (talk) 09:39, 27 June 2018 (UTC)


 * Okay, I figured that's what it was. I was trying for an explanation that was more reader-friendly, as in my opinion nontechnical readers will find the current wording pretty opaque.  But I take your point.  Thanks --ChetvornoTALK 09:53, 27 June 2018 (UTC)

On hacking of GPS receivers, and a possible fix
Just read this article on the recent hacking of GPS receivers, and a possible fix: Course correcting the Global Positioning System.

Am a bit surprised that the GPS hacking that was recently accomplished by the researchers at Virginia Tech is not mentioned at all in this GPS article. The events were widely covered in news articles I've seen, like this one Hack the planet: vulnerabilities unearthed in satellite systems used around the globe. N2e (talk) 09:54, 24 August 2018 (UTC)

Improvement for geometric interpretation of GPS navigation equations
In subsection 6.2.1 Spheres, the following appears: “In a simplified idealization in which the ranges are synchronized. . .”

However, it is not necessary to require that the clocks be synchronized in order to interpret the GPS navigation equations with the geometry of spheres.

Pseudorange measurements from four GPS satellites are received simultaneously and the position of these satellites at transmit time are known. Each measurement is the radius of a sphere centered at the satellite. The navigation equations determine the center and radius of a 5th sphere that is tangent to each of these four spheres. The center of this tangent sphere is the position of the GPS receiver; the radius of this tangent sphere is the magnitude of the receiver’s clock bias (times the speed of light). The solutions (up to 16) to the geometric problem are identical to the solutions obtained from the GPS navigation equations.

Some background. ..

In the 3rd century BCE, Apollonius of Perga solved the analogous problem in plane geometry: Construct a circle that is tangent to three specified circles in a plane. The solutions (up to 8) to this ancient problem in plane geometry are sometimes called the circles of Apollonius.

[], [] (see usage #3)

This is my first attempt to edit wikipedia. Please excuse deviations from accepted standards of usage. Jas7643 (talk) 20:45, 25 February 2018 (UTC)


 * Yes, this is true: Problem of Apollonius. I've inserted a new section in the article: GPS. fgnievinski (talk) 15:16, 20 March 2018 (UTC)


 * I suggest that Jas7643 continue in his effort for Improvement for geometric interpretation of GPS navigation equations by editing section 6.2.1 Spheres. A new section called Inscribed Spheres was created but that does not do anything for the big problem with the section called Spheres.  Furthermore the new section left out the most important part, the fact that four not three spheres are needed.  In the section called Spheres it is stated "The solution for the position of the receiver is then at the intersection of the surfaces of three of these spheres."  The words "the intersection of the surfaces of three of these spheres" implies that there is one unique intersection of the surfaces of three of these spheres.  But this is not true in general.  The surfaces of three spheres in the usual case intersect at two points.  That is one of the reasons we require the intersection of four or more sphere surfaces for a solution.  Furthermore in the problem description section, we state, "signals from at least four satellites are necessary to attempt solving these equations."  RHB100 (talk) 22:29, 1 December 2018 (UTC)

Section 6.2.1, Spheres, should be modified or removed, four satellites are required
Administrator Yamla at https://en.wikipedia.org/wiki/User_talk:Yamla has stated, "For the record, I believe RHB100 is correct here. I'm not an engineer, but I believe three satellites narrow your position down to two points and you need a fourth to get a unique position." We need a competent editor to remove or modify the article section 6.2.1, Spheres, in accordance with the paragraph I wrote above in the talk page section, Improvement for geometric interpretation of GPS navigation equations. RHB100 (talk) 02:43, 3 December 2018 (UTC)


 * Please explain how the source has been misinterpreted or misapplied, and provide another reliable source. Thanks. Strebe (talk) 03:29, 3 December 2018 (UTC)
 * Strebe, the source has been misinterpreted. The source, a paper called "The Mathematics of GPS" at https://web.archive.org/web/20050316051910/http://www.siam.org/siamnews/general/gps.htm states in the first paragraph "A handheld GPS receiver gives your position on the earth within 80 meters, and usually better, by measuring the range to four or more satellites".  The second paragraph states that three spheres will intersect at two points.  This provides a direct contradiction to the language in the section Spheres that there is a unique intersection of the surfaces of three spheres.  The third paragraph of "The Mathematics of GPS" states "In reality we need a minimum of four satellites."  There is nothing anywhere in the reference, "The Mathematics Of GPS" which justifies the statements made in the section Spheres.


 * Strebe, you also request that I provide another reliable source. Actually there is nothing wrong with the source, "The Mathematics of GPS".  The problem is with its interpretation as explained above.  Thus another source may not be needed. RHB100 (talk) 19:24, 3 December 2018 (UTC)


 * It is not clear to me that the caveat mentioned in the source still applies. It is quite old, and it states that a fourth satellite is needed because The receiver clock is not top quality, and the military intentionally dithers the satellite clock and coordinates. The dithering is not true anymore, and the clock quality may or may not have improved on the receiving end. Meanwhile the preceding paragraph states that three satellites are needed in principle. Possibly that is true in practice now. We need a modern source. Strebe (talk) 20:52, 3 December 2018 (UTC)


 * Strebe, I have said that there is nothing anywhere in the reference, "The Mathematics Of GPS" which justifies the statements made in the section Spheres. Do you agree or disagree with this statement.  If you disagree, what statement in "The Mathematics Of GPS" justifies the statements made in the section Spheres? RHB100 (talk) 22:13, 3 December 2018 (UTC)


 * By using the time delays of the signals to calculate its distance to each satellite, the receiver knows where it is. In principle, three distance measurements should be enough. They specify spheres around three satellites, and the receiver lies at the point of intersection. This excerpt from the source expresses the identical concept as the article text. Strebe (talk) 22:47, 3 December 2018 (UTC)


 * We say in the Problem description section that we must have signals from at least 4 satellites. The surfaces of three spheres typically intersect at two points not one. RHB100 (talk) 00:50, 4 December 2018 (UTC)


 * One of the two intersections can be trivially discarded because it does not coincide with Earth’s surface, which is the fourth (implicit) sphere. As an idealized surface, Earth’s surface does not permit any accuracy for elevation, though. Given that the referenced source has slipped off into archive.org and is also not clear on why it says what it says, I recommend a new source. I also endorse clearer text for the article. Strebe (talk) 02:10, 4 December 2018 (UTC)


 * Yes, this is true you can choose the near earth solution. But another reason you need 4 or more satellite signals is so that you can get by with a cheap receiver clock.  With 4 signals you can solve for both receiver position and time with a low cost receiver clock. RHB100 (talk) 04:51, 4 December 2018 (UTC)

It is proposed that the text below between the horizontal lines replace the current section called Spheres in the article.

Spheres - The solution of the equations in the problem description section result in corrected distances from satellites to receiver, $$\bigl( \tilde{t}_i - b - s_i)c\bigr), \; i=1,2,\dots,n$$. These distances represent the radii of spheres, each centered on one of the transmitting satellites.  The solution for the position of the receiver is then at or near the intersection of the surfaces of four or more of these spheres. This near intersection of four or more sphere surfaces only exists when the clock bias, b, is at least approximately correct.


 * Can you explain your dissatisfaction with the current text? Your new text includes notation that is duplicated in the Solution methods section but unhelpful to the Geometric interpretation section. It also deletes what appears to me to be helpful explanations. Strebe (talk) 20:00, 4 December 2018 (UTC)


 * Well first of all, I did not know that you had modified the article. I thought we were in a rational discussion and would compare proposed changes before changing the article as I have done.  Please quote the text you have accused me of duplicating.  I don't believe such duplication exists.  I find my discussion of spheres and their radii to be quite helpful for geometric interpretation.  You accusation that they are unhelpful sounds more like an expression of hostility than a rational explanation.  I think my clear and concise explanation is much better than your long and wordy blah blah blah. RHB100 (talk) 20:57, 4 December 2018 (UTC)


 * The purpose of the Geometric interpretation section, as I infer from its title, description, and content, is to offer intuitive ways to think about the problem. The Solution methods section is to formulate solutions. What you have proposed uses mathematical notation unnecessarily, notation that the casual reader won’t understand and won’t be inclined to engage with, and references three different sources for its allegedly simple description (why?), two of which are already described in detail in Solution methods. What is the point in repeating what is already described as the problem in Problem statement by stating, The solution of the equations in the problem description section result in corrected distances from satellites to receiver? Your proposal eliminates observations from the source I cited, to wit: 1) Three satellites suffice for ground position without elevation, and why; 2) satellites beyond the minimum improve accuracy by canceling out time errors, and why.


 * My purpose for modifying what was there was to eliminate the reference that was only available on the Wayback Machine as well as to clarify text that was unclear while largely preserving its intent. You shouldn’t get distressed over the fact that I changed something without coming to an agreement. Nothing is indelible.


 * As for your hostile “long wordy blah blah blah”… well: hypocrite. You’re the hostile one. You have failed to demonstrate excess verbiage while alleging excess verbiage in unWP:CIVIL terms. Meanwhile mathematical notation is not a substitute for a description, especially not your ill-formed notation with mismatching parenthesis that you mis-copied from the Problem description (not Solution methods; sorry). Is that what you’re calling “much better”? Strebe (talk) 21:47, 4 December 2018 (UTC)


 * Alright, I understand your criticisms a little better now. At first I objected to your changes, but I know see the wisdom of your changes.  My reason for using the slight bit of mathematical notation was to be consistent with the Problem description section.  But it could be eliminated.  What I would like to get rid of is this boring text, "The measured ranges, called pseudoranges, contain clock errors. In a simplified idealization in which the ranges are synchronized,".  We don't need to do any simplified idealizing.  We can replace this text with "The solution of the equations in the problem description section result in corrected distances from satellites to receiver.  Also the case where we have only 3 satellites is the degraded mode.  We shouldn't be talking about the degraded mode.  We should instead talk about the case when we have 4 or more satellites.  Also we can get by with only one reference.  When we do this we get the following text for the article section Spheres which is shown between the horizontal lines below.  This covers your criticisms of the notation and 3 references.  It also provides a concise description for a realistic situation.

Spheres - The solution of the equations in the problem description section result in corrected distances from satellites to receiver. These distances represent the radii of spheres, each centered on one of the transmitting satellites. The solution for the position of the receiver is then at or near the intersection of the surfaces of four or more of these spheres. This near intersection of four or more sphere surfaces only exists when the clock bias, b, is at least approximately correct.

RHB100 (talk) 01:39, 5 December 2018 (UTC)


 * Thanks for the commentary, RHB100. I still prefer the extant text for its didactic value. Your proposed description asserts several things but does not explain why those things are true. It seems unlikely to me that most readers who do not already understand the content will reach an understanding through reading the text you propose. The reason that the text I cited mentions three satellites and then four and then more is to help the reader progress from a simple, idealized model of surface location to a model that also provides elevation, and then to one that includes “extra” satellites that, as it turns out, are valuable for improving accuracy. The “degraded” state is thus far from superfluous; its inclusion offers the most basic geometry to consider and build upon in order to eventually reach an understanding of the typical, accurate, but more complicated state. Two separate sources both chose this treatment as a way to teach how GPS functions; I have to suppose the educators who wrote them considered how a layperson could best approach the concepts. Strebe (talk) 09:22, 5 December 2018 (UTC)

Well Strebe, I strongly disagree with many of the statements you have made particularly these statement, "Meanwhile the preceding paragraph states that three satellites are needed in principle. Possibly that is true in practice now. We need a modern source." which you made on 3 December 2018. RHB100 (talk) 17:55, 5 December 2018 (UTC)


 * The article text does not claim that only three are needed in practice. Strebe (talk) 18:18, 5 December 2018 (UTC)

-->(moved comments to here)

User:Strebe has been changing this section that makes it quite muddled. It is no help to invoke the geoid. The editor interprets the given source incorrectly. Yes, in an idealised version, assuming a position on the geoid and using only 3 satellites, a 2 dimensional position can be calculated. However this is not the correct 2-dimensional position on the surface. The error caused by assumption of the geoid affects all 3-D coordinates, ie. it is not limited to only the elevation. Therefore the situation as stated is misleading and should be reverted.

More essential even, is that when solving for the clock bias simultaneously, the equations to be solved are NOT spheres, but spherical cones (as explained in the relevant section).

Additionally the statement about clock errors cancelling on average is plain wrong, because the biggest clock error arises from the offset of the measuring device from the satellite clocks and it cannot cancel against itself. If the editor means small random fluctuations in the clock, they may cancel, but this is in no way certain and only a small component of the error.

&minus;Woodstone (talk) 05:23, 7 December 2018 (UTC)


 * 1. Additionally the statement about clock errors cancelling on average is plain wrong. The verbiage does not state "clock error"; it states "random clock errors". What you describe as the largest error is systematic, not random, and so your criticism is false. That said, I agree the problem is not random clock error; the low resolution afforded by the oscillator frequency is, in practice, subdivided far more finely digitally. The statement should simply be about "random error", regardless of source.


 * 2. The text needs an explanation for why more satellites are better. If you disagree that the reason is to cancel out random errors, then please provide another reference that does explain it. This business of just stating things without explanation does not help readers understand anything and does not serve the stated purpose of the section.


 * 3. The editor interprets the given source incorrectly. Then it behooves you to reconcile what the sources (both the source as given now and the source you reverted to) mean with the article's current text, since both of them state what appears to be the same thing. Is it your position that the sources are incorrect? In the case of three intersecting spheres, you have two candidate points for the surface location. The calculations presume true ranges (as stated in the text, and therefore without clock bias). Using the idealized sphere (not the "geoid", which is exactly not an idealized sphere) is for disambiguating the two candidate points. That is all. Therefore, I am not convinced by your criticism. Strebe (talk) 17:45, 7 December 2018 (UTC)


 * 1&2. This section is about geometric interpretation in terms of spheres. This is only applicable with 0 clock bias. Random clock errors (from whatever source apply equally to any calculation and interpretation method. This digression does not belong in this section.


 * 3a. Three spheres intersect in 0, 1 or 2 points, in practical cases always 2. One of them is the location of the measuring device. The other one is usually not on Earth's surface, but can be. A better method to distinguish the two points is that in successive measurements the desired one will be almost stationary, while the other will be moving very rapidly.


 * 3b.  In reality, at least one more satellite is needed in order to obtain an elevation. Ranges from three satellites with 0 clock bias yield a fully spatial solution. Elevation (and lat-long) can be calculated by subtracting the geoid. No need for more satellites. The case for needing 4 satellites applies only to solve simultaneously for the clock bias. That results in equations describing spherical cones (not spheres) and does not belong in this section. One can also solve with 2 satellites and a surface sphere (or geoid), in that case not only the elevation will be lost, but also the lat-long will be somewhat off.
 * &minus;Woodstone (talk) 05:19, 8 December 2018 (UTC)


 * This section is about geometric interpretation in terms of spheres. This is only applicable with 0 clock bias. That is a good point. However, the section still claims that more satellites are better without explaining why, and gives a reference that does not actually support this claim or the use of RMS calculation to improve accuracy.


 * I agree with the remainder of your comments here. Strebe (talk) 23:19, 10 December 2018 (UTC)


 * It currenty says "all spheres may not have an intersection point, because of inaccuracies in the data". That includes all kinds of errors, random clock variations, atmospheric diffraction. Not mentioned is the spread of the satellites. If all satellites used are close together, the equations are ill conditioned and the solution inaccurate. The more satellites the more spatial spread. I think this last point should (perhaps already is) be discussed in a more general section than geometric interpretation. &minus;Woodstone (talk) 14:28, 11 December 2018 (UTC)


 * I’m confused how these comments relate to mine. I will make some edits. Strebe (talk) 17:35, 11 December 2018 (UTC)

I think the best thing to do at this time is to completely remove the section on Geometric interpretation. In my opinion it does nothing to enhance understanding of the solution method. It is clear to me that the most intelligent geometric interpretation of the 4 or more navigation equations is as a set of spheres. The near intersection of the surfaces of these spheres provides a solution. In my opinion making the decision to geometrically interpret the equations as spherical cones does not in any way enhance understanding of the solution methods. Geometrically interpreting the equations as representing a set of four or more spheres provides a much better understanding of the problem. RHB100 (talk) 22:10, 26 December 2018 (UTC)


 * The problem is that talking about four spheres is incorrect if the clock bias is one of the unknowns to be solved for. Four spheres do not usually have an intersection. Only if the clock bias is already known and is fixed in the equations, the resulting four spheres have a common intersection. Let's leave it as it is now. The hypothetical situation with perfect clock gives good insight using three spheres. &minus;Woodstone (talk) 10:44, 27 December 2018 (UTC)


 * Well it is certainly not incorrect to talk about four or more of the navigation equations as equations of spheres. You can do so as is done in Langley, R. B., "The Mathematics of GPS," GPS World, Vol. 2, No. 7, July/August 1991, pp. 45-50.  The navigation equations are equations of spheres.  RHB100 (talk) 18:37, 28 December 2018 (UTC)


 * That article does not do as you say. Only for a fixed value of the clock bias the remaining equations represent spheres. When the clock bias is a variable, the equations are not quadratic in all coordinates an thus do not represent spheres. &minus;Woodstone (talk) 14:00, 29 December 2018 (UTC)


 * For different values of clock bias, you have different radii of the spheres. For different values of clock bias you have different spheres.  When you use the multi dimensional Newton Raphson method you get a sequence of values for the 4 unknowns and a sequence of spheres which converge to the solution.  Talkinjg about spherical cones in no way aids in developing or understanding the solution methods.  RHB100 (talk) 06:47, 30 December 2018 (UTC)

Data rate
An earlier, now undone, edit changed the data rate from 50 bps to 50 kbps. As far as I can see, the original figure of 50 bps for the GPS data rate was already correct: take a look at https://gssc.esa.int/navipedia/index.php/GPS_Signal_Plan and https://ocw.mit.edu/courses/earth-atmospheric-and-planetary-sciences/12-540-principles-of-the-global-positioning-system-spring-2012/lecture-notes/MIT12_540S12_lec7.pdf -- The Anome (talk) 14:13, 14 February 2019 (UTC)

Jamming
User:Beland kindly added mention in the article about the Russian military jamming GPS in the are of recent NATO naval exercises. I reverted this because there have been many jamming incidents over the years, with no clear reason why some would be noteworthy and others not. I think it would be good to elaborate that there have, in fact, been many, and the significance of the problem. See, for example,. Thanks. Strebe (talk) 02:32, 24 November 2018 (UTC)
 * Done as requested. -- Beland (talk) 02:34, 3 March 2019 (UTC)
 * Not. I’ll fix it. Strebe (talk) 02:50, 3 March 2019 (UTC)

Rollover issues
Worth mentioning? https://www.nbcnews.com/mach/tech/y2k19-there-s-chance-your-gps-system-could-go-haywire-ncna991181 Zazpot (talk) 21:02, 6 April 2019 (UTC)

Accuracy
In the introduction, the following is stated:

"When selective availability was lifted in 2000, GPS had about a five-meter (16 ft) accuracy."

Later, in the Augmentation section we find:

"The standard accuracy of about 15 meters (49 feet)"

In the talk section on Spheres, a quote of 80m is shown.

There's also the bit about how phase III gives us something like 30cm accuracy.

I realise that these numbers were written at different times with different standards for what GPS was doing, but is is confusing.

Perhaps someone knowledgeable could write a summary of the accuracy with some consideration of how it has changed over the years and put it all in one section. I think the introduction to "Accuracy enhancement and surveying" (currently empty) might be a good place. This would provide a basis for the later discussion of augmenting that accuracy. 170.52.77.75 (talk) 23:07, 15 June 2019 (UTC)

The accuracy of GPS is about 2cm, not 30cm. 30cm is only for cheap smartphone ICs. Cf. Figure 5 in https://res.mdpi.com/sensors/sensors-19-02496/article_deploy/sensors-19-02496.pdf Sebastian -- 188.194.197.24 (talk) 07:24, 14 July 2019 (UTC)


 * You have misinterpreted what the figure (and the paper) is telling you. The indication of position displayed on any GPS receiver (using either a single or any combination of satellite systems) will never be as accurate as 2cm. A high quality dedicated GPS unit can achieve a little less than 3 metres using two satellite systems with WAAS augmentation.


 * The accuracy in the figure is for successive positional reading taken over a period of 30 days (but even then it does not state how many readings were taken). Even when selective availability was switched on giving an accuracy of around 30 metres, leaving a GPS receiver on over a protracted period, eventually produced a near circle of readings. Since both the deliberate and systematic errors are essentially random in both magnitude and direction, the centre of the circle was the correct position to within a matter of tens of centimetres (the error decreasing as the time over which the readings are taken increases).


 * The discontinuance of selective availability does not change the above apart from the elimination of the deliberate errors. The circle is smaller and the centre is closer to the correct position but not by any significant amount. 81.157.153.236 (talk) 11:29, 19 July 2019 (UTC)

That Seiko Watch
In this edit, User:Francis Flinch adds an image of a Seiko watch to the page. There is nothing about this image that informs the reader about GPS. It does not even show any obvious clues that it operates by GPS. Meanwhile, many other makers and models operating by GPS exist. This image feels more like an advertisement than anything useful to the reader. I will delete. Strebe (talk) 18:52, 28 August 2019 (UTC)

Space segment
The .gif animation clearly has a point where 5 satellites are "seen" from the given point. This does not align with the following text in the article:

"at least six satellites are always within line of sight" — Preceding unsigned comment added by Madapiarist (talk • contribs) 22:53, 11 March 2020 (UTC)

STDMA
Hi. I am just curious why there is no mention of STDMA nor mention of Håkan Lans on this article. — Preceding unsigned comment added by 2001:67C:25BC:852:B10D:16:B1FF:130 (talk) 00:56, 31 May 2020 (UTC)
 * It’s not used in GPS. Strebe (talk) 04:18, 31 May 2020 (UTC)

Non-navigation applications
Most of the content in this section isn't about non-navigation applications, but about how many satellites are needed and how to make do with only three. I think the material that isn't about time information should be moved elsewhere. Musiconeologist (talk) 13:18, 13 September 2021 (UTC)

Predecessors
Added the first invention of a Global Navigation System as the precursor to the current GPS system.

I posted on Dec 17 2021 that Dutch Naval Officer Wijnand Langeraar filed in 1954 in the Netherlands and 1955 in the US a Long Range Navigation System. The patent was awarded in 1961 by the US Patent office. Somehow this post was removed as unverifiable even though correct citations were submitted. Can anybody help why this was done? Thank you for your attention to this ... — Preceding unsigned comment added by Hotlan53 (talk • contribs) 08:19, 18 December 2021 (UTC)


 * The second reference is to a reliable source and qualifies. Undid revert. &minus;Woodstone (talk) 11:52, 18 December 2021 (UTC)

Selective denial of GPS in Kargil
The article currently states that the US "can selectively deny access to the system, as happened to the Indian military in 1999 during the Kargil War, or degrade the service at any time." The reporting that the US denied India access to GPS doing Kargil war came out when IRNSS/NavIC was rolled out. However, multiple accounts, including IAF's own account and contemporaneous ones state that the IAF used jury rigged GPS receivers during Kargil on board their planes for improved navigation and precision.

In the 1990s, there was civilian GPS service which used selective availability, for degraded accuracy. There was also military GPS service, which had a higher accuracy, available only to the US military (and close allies) India was not a close ally. Though in the case of Kargil, the US did not automatically align with Pakistan against India but was willing to treat the issue on merits

It is likely therefore that the Indian military used civilian GPS, as they themselves stated, but asked for access to military GPS service and was rebuffed. Further the civilian service was almost certainly not turned off based on below.

Selective availability aka lower accuracy civilian GPS could not be applied on a regional basis


 * "Before May 2000, the United States government added this time-varying obfuscated code to all civilian GPS signals.
 * Selective Availability was a global degradation of the GPS service. It could not be applied on a regional basis"

GPS web site also states that the civilian service has never been interrupted


 * "has the United States ever turned off GPS for military purposes?"


 * "No. Since it was declared operational in 1995, the Global Positioning System has never been deactivated, despite U.S. involvement in wars, anti-terrorism, and other military activities.


 * Millions of users around the world have been monitoring and recording real-time GPS performance on a continuous basis since its inception. If the civilian GPS service had ever been interrupted by its operators, the evidence would be obvious and widespread. No such evidence exists"

Thus it might be appropriate to modify the article to qualify the sentence about US denial of GPS to India on Kargil to suggest that this might be the military GPS service that was denied

Barath s (talk) 02:57, 1 January 2022 (UTC)

More details on use of GPS by IAF in Kargil
 * "the IAF “immediately went into a reappraisal mode [after its initial combat losses] and came out with GPS [Global Positioning System]-assisted high-altitude bombing by the MiG-21, MiG-23BN, and MiG-27 as a makeshift solution"

From IAF website
 * Fifthly, night operations were carried out using ingenuity and imagination; at times, excellent results were achieved by aircraft like MiG-21s using little else but a stop watch and a GPS receiver. These operations had a significant effect on the enemy's resilience, stamina and very will to fight. — Preceding unsigned comment added by Barath s (talk • contribs) 03:05, 1 January 2022 (UTC)

My latest correction of 11 km/day due to clock correction
https://physics.stackexchange.com/questions/17814/that-10km-day-error-predicted-if-gps-satellite-clocks-not-corrected-for-relativi/17827#17827 https://physics.stackexchange.com/questions/1061/why-does-gps-depend-on-relativity/128951#128951 We need a WP:RS, obviously. 109.252.90.54 (talk) 04:29, 19 December 2021 (UTC)
 * Adding and unsourced annotation/commentary to the article is not appropriate. OhNo itsJamie Talk 14:50, 20 December 2021 (UTC)
 * What is unacceptable is adding wrong info in the article. Valery Zapolodov (talk) 16:16, 7 January 2022 (UTC)

Wiki Education Foundation-supported course assignment
This article was the subject of a Wiki Education Foundation-supported course assignment, between 16 March 2020 and 1 May 2020. Further details are available on the course page. Student editor(s): Jazwarfie.

Above undated message substituted from Template:Dashboard.wikiedu.org assignment by PrimeBOT (talk) 22:27, 16 January 2022 (UTC)

Need help w Citation in main section, last sentence
Hi, I provided at least 1 citation because the article notes more are needed (and I agree). My addition, currently Ref 17 -- NIST.gov, keeps coming back w/errors. Help appreciated! I'm on my mobile device, so maybe I'm not seeing something fully. Thnx! Gobucks821 (talk) 14:27, 7 March 2022 (UTC)


 * Done. Strebe (talk) 23:02, 8 March 2022 (UTC)

Wiki Education Foundation-supported course assignment
This article was the subject of a Wiki Education Foundation-supported course assignment, between 16 March 2020 and 1 May 2020. Further details are available on the course page. Student editor(s): Jazwarfie.

Above undated message substituted from Template:Dashboard.wikiedu.org assignment by PrimeBOT (talk) 22:27, 16 January 2022 (UTC)

Need help with Citation in main section, last sentence
Hi, I provided at least 1 citation because the article notes more are needed (and I agree). My addition, currently Ref 17 -- NIST.gov, keeps coming back w/errors. Help appreciated! I'm on my mobile device, so maybe I'm not seeing something fully. Thnx! Gobucks821 (talk) 14:27, 7 March 2022 (UTC)


 * Done. Strebe (talk) 23:02, 8 March 2022 (UTC)