Your hint is incorrect, as they are being used and as for now you cannot give a valid alternative for them.
I have given a valid alterative. Until you can explain what's wrong with more than assertion, you cannot reject them.
well if it is moving fast enough in one direction with pretty much zero friction then it will continue to move at that speed.
Do you understand what 'pretty much' means? There is friction, there are external force (such as gravity), and there's the matter of even getting them to the exact altitude at the exact speed: which is going to be impossible to predict from earth because you won't know the details of air currents. If you're off a fraction of a degree, a long-term orbit can't be achieved.
Plus if you really want to go a no friction route, then the satellite should still be ascending upwards, with no friction to stop it: there's no way they could predict the exact speed of the satellite at that exact point enough to give off the exact thrust in the exact opposite direction to prevent that. You rely on the external force of the earth's gravity to somehow do so: which would have a completely different effect depending on the satellite's relative location and velocity. It can't be predicted.
Since I have shown you several times how towers/stratellites/balloons won't work for it
No, you haven't. You apparently don't think balloons can control their altitude or position, that towers can't emit any form of signal (especially given we know signals can bounce off part of the atmosphere, to a tower could provide a signal that seems to come form above), that airships are constantly buffeted by the thinner air at high altitudes enough to knock them completely off course...
Why are 'they' not going to publish information that people in the industry need?
When did I ever say that? They do give off readings that will serve the same purpose. Put it like this: one satellite and two houses. The satellite gives a signal in a straight line to those two houses; that's your model. Now, take those lines, and place, say, a balloon where that line passes through a certain altitude: there you go, done.