earth ellipsoid - smallest number of stations
#1
Hello,
caused by working with "mds" and station numbers given by raw TOA material I wondered about two questions:

1) The network uses GPS to determine the location of a station and to provide them with a precise timestamp.
But in what way is the earth approximated as an ideal spheric?
Could it be that the network uses the WGS-84 ellipsoid like e.g. aviation does?
 
2) Looking for the smallest number of stations required I got the following values:
REGION        NUMBER
Europe        12
America        11
Oceania        7

(Indeed I am quite sure only six or seven stations were needed a couple of years ago concerning Europe.)
In what way did/ does the smallest required number of stations change, concerning the three regions?

best regards
PothThom

and thanks for your time...
Stations: 416
Reply
#2
(2016-03-27, 17:22)PothThom Wrote: Hello,
caused by working with "mds" and station numbers given by raw TOA material I wondered about two questions:

1) The network uses GPS to determine the location of a station and to provide them with a precise timestamp.
But in what way is the earth approximated as an ideal spheric?
Could it be that the network uses the WGS-84 ellipsoid like e.g. aviation does?
 
2) Looking for the smallest number of stations required I got the following values:
REGION        NUMBER
Europe        12
America        11
Oceania        7

(Indeed I am quite sure only six or seven stations were needed a couple of years ago concerning Europe.)
In what way did/ does the smallest required number of stations change, concerning the three regions?

best regards
PothThom

and thanks for your time...

Whew..
That's not easy to answer, but here's what I generally understand... take with a grain of salt, and use it as a 'very generalized' answer. It's unlikely the developers will respond to this query on the 'Public' forum, unless they wish to correct any glaring errors in this answer... .

Generally, the computations are based on spherical. The algorithms used are generally proprietary. Generally the time of arrival of the stroke 'discharge' impulse is used for a minimum* of '1st 4 stations, up to 12 (more or less) can be assumed as "primary" locators based on quality of data, etc.  A "precise timestamp" is only viable for 'location' if other factors are 'perfect'... and the specific 'location' of a sferic discharge is virtually impossible to generate without some deviation, for many reasons. The timestamp is generated on the local system, at trigger. Generally, the server might look for the '1st timestamp" (first detecting station) of a signal, then go into it's processing mode. 'A detecting station' is NOT necessarily a 'Locator".

After the (for discussion) first 8 -12 "detectors', perhaps another 12 are "secondary", for comparisons and location. Generally, those detectors are compared, and other algorithms enter... those include reiterations of the actual and computed "zero crossings' of the impulse train of the signal,  a "Time of Group Arrival" computed in addition to the 'basic' discharge trigger time. From the stations passing the analyses, some number are determined to be 'locators'. The ones with the earliest time stamps, best data, minimum local system delay (antenna, etc) fastest pulse rise time.  The initial 'discharge' pulse is sought, which should have a very fast rise time, to 'trigger' level.  Not all stations will 'trigger' soon enough to initialize the process. And the'server side' processing may in fact be operating on a different parameter to 'process' as 'a viable signal'. That is, we may trigger locally at 50% of any given sig strength within 2 microseconds, where the server is actually looking for 70% level in 1 microsecond....due to local system antenna induced delays, etc. So, we'll send a signal, but it may not count as a 'stroke' because it doesn't meet the parameters for that stroke derived from other stations.   Additionally, we need to be 'as clean as possible' so as much of the precharge, discharge impulses can also be sent, and iterated for TOGA.
And many other variables 
Note that sferics received at, say, >80km are likely NOT groundwave signals, but rather 'skywave' reflections, with somewhat distorted 'impulse' characteristics and timing... the best accuracy should come from the stations that hit on the 'ground wave signal'... but this isn't always true because some stations don't operate as well as others, and in many regions the station density is 'low'... they're too far apart, so the skywave signals are the only received signals.

*The Minimum Number of "Locator" Stations required in a region at any given time and station density, in that specific region will change, depending on many factors,... generally, with higher station density, more 'locators' are "required"  There is no 'specific' guideline, to my knowledge. 
More locators implies better accuracy.  More 'detectors' doesn't imply better accuracy.  

Hope I'm not too misplaced on this response... especially as parameters are subject to change, and may change even more. We're not always informed when algorithms and paradigms are modified on the server. Especially as BLUE systems come on line, and RED firmware updates this year, there may be more changes.
As with the "Number of Stations" required, this network is an evolving project.

Cheers!
Mike


Stations: 689, 791, 1439, 3020
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#3
Hello,
thank you for your answer. Indeed it helped a lot.
Reading your reply I wondered about two aspects:

1) Did I understand correctly that the number of "locators" is as high as the required "minimum number" or can more stations be used if the        required minimum is smaller than the maximum of 12?
2) Is the required minimum calculated for every stroke or for a whole region?

best regards,
PothThom
Stations: 416
Reply
#4
Rephrasing,
The Minimum Number of Detectors required mathematically to locate a stroke with these methods is 4. Period.
With that scenario, those 4 are now called "locators".
4 Locators provide little or no room to improve accuracy and network performance.
That said:
In order to minimize deviations, minimize "false strokes" while maximizing overall network effectivity
*The Minimum Number of "Locator" Stations required in a region at any given time and station density, in that specific region will change, depending on many factors,... generally, with higher station density, more 'locators' are "required"  There is no 'specific' guideline, to my knowledge. 
To the best of my knowledge, the 'minimums' for any region are established over operational periods, observing trends, density, data quality, and server parameters.
Regions are 'generally' related and assigned as  which server a station reports to, yes there is some geographic consideration.
The 'numbers' used in my response above are only for example.

Currently, unless it's changed, the 'maximum' number that will possibly be used for computation is about 18. Even NASA only computes PI to 15 decimal places -- more doesn't improve anything that much.
The minimum number is more or less arbitrary 4 or more. Some servers (regions) are set to require a higher number.
Each individual stroke, can have the minimum number of locators, or some number up to (18?) . On the next stroke the 'locators used' number may be different, since not all detections will be used.

This is all done server side, has nothing to do with your station specifically, and even as this is being typed, paradigms are being considered, discussed, or implemented.

I might suggest you utilize the internal forums for these type inquiries, where operators and developers respond more specifically....

--30 --

Mike


Stations: 689, 791, 1439, 3020
Reply
#5
Hello,
sorry, I do understand now. Thank you for your answer and patience.
I will do so next time :-).

best regards
PothThom
Stations: 416
Reply


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