Here is what the Wikipedia article you linked to says: "Standalone" or "Autonomous" GPS operation use radio signals from satellites alone. A-GPS additionally uses …
I don't see how this contradicts what I said, which is that some AGPS implementations require assistance in order to accurately determine your location. Not every AGPS device can map radio signals to a lat-long; some can only do that with assistance.
It also lists some ways that various implementations require assistance:
Assistance falls into two categories:
Information used to more quickly acquire satellites
It can supply orbital data or almanac for the GPS satellites to the GPS receiver, enabling the GPS receiver to lock to the satellites more rapidly in some cases.
The network can provide precise time.
The device captures a snapshot of the GPS signal, with approximate time, for the server to later process into a position.
Accurate, surveyed coordinates for the cell site towers allow better knowledge of local ionospheric conditions and other conditions affecting the GPS signal than the GPS receiver alone, enabling more precise calculation of position. (See also Wide Area Augmentation System and CellHunter and openBmap.)
Calculation of position by the server using information from the GPS receiver
The assistance server has a good satellite signal, and plentiful computation power, so it can compare fragmentary signals relayed to it
That’s not what the article says. It says that AGPS devices are just like GPS devices. The only difference is that they use additional information to improve startup times.
Assistance is described as something that’s entirely optional. Why do you think that’s not the case? I googled around for a bit and it seems as though every source I can find tells me that AGPS is just like GPS if you have no data connection.
I'm sorry but I don't know how to make it more clear than I already said before: some AGPS implementations are not capable of operating in standalone mode. The Wikipedia A-GPS article states:
A typical A-GPS-enabled receiver will use a data connection (Internet or other) to contact the assistance server for aGPS information. If it also has functioning autonomous GPS, it may use standalone GPS, which is sometimes slower on time to first fix, but does not depend on the network, and therefore can work beyond network range, and without incurring data usage fees.[3] Some aGPS devices do not have the option of falling back to standalone or autonomous GPS.
I've added emphasis. The last point is all I was saying.
So first, someone asked whether the iPhone triangulates position from cell towers or uses GPS. I responded that it does AGPS, and that in some ways AGPS is inferior to standalone AGPS.
You objected to this, saying that AGPS is "actual GPS" which, in fact, it is not. If by "actual GPS" you mean standalone GPS, then you are wrong. I correctly pointed out to you that AGPS is not a standard definition, but a name for one of a wide range of techniques which involve assistance from a third party in determining position. You, in fact, were incorrect.
Failing to comprehend the article from Wikipedia which, in fact, enumerates the methods by which an AGPS device may receive assistance, you asserted that AGPS only refers to the technique of optionally downloading an almanac from a network resource instead of an orbitally transmitted signal. Again, you were incorrect.
Now that I've shown that you were incorrect, you want to object to raising irrelevant points? My only point was that the device uses AGPS, and that AGPS is not standalone GPS -- that in some ways it is inferior. I showed those ways because you asked, not because the Apple implementation is encumbered by them.
Ew, mate, you are using the wrong words there. Fair enough, AGPS may be inferior in a few devices but usually it is superior (i.e. has better startup times and is exactly like GPS in every other way).
Apologies if my tone of voice turned you off. I am getting fatigued with this thread. I feel like the distinction being seized here is minor, bordering on pedantic.
Wrong?