Nothing can happen with other stoke parameters until it's accurately located, first. So do expect, as Don says, a quality analysis to be implemented. Bad signals come from lots of things.. too much gain, (too many distorted skywaves), bad board, noise interfering , monkeying with board design and messing up delays... E field too much CAT5 and short coax... too long leads on H field... all kinds of things.
Note that as more western stations come online, weaker signals will be detected by those, that count as 'network' calculated, and the wonderful 'high' effitivities will become harder to obtain for stations in east... further stations will not sense the weaker strokes. Also look for signal quality analysis to be implemented,... experimentally and conditionally, on the server. Many of the distorted 'sky waves' from longer distances could be 'rejected' as unusable for refined analysis, and again the 'effectivity' we've grown fond of becomes more irrelevant. As you may have already noted, those who are running Dual E and H.. how many times the server will opt for a cleaner signal of E field. Also note how many more signals you may be getting running both.
Suggestion: and this is a bit trickier since the new 'auto thresholds' are being tested... and impossible with "Automatic mode"
H field - if you're running dual, turn off E field. (1x1 will work) "don't send" is NOT the solution... leave it alone...
On a 'quiet day' with cells > 800 miles away, with your gains at your 'determined normal' set the thresholds about twice your noise level. Watch it for some time, as storms move and stoke counts change. You may have to adjust it. Now, with numerous storms about 600-800 miles, set your gains (H field) so it goes into interference. Then raise threshold in 10mv jumps until you sense it will go out of interference. Leave it there for a bit. And watch it.
After some norm established for H field, turn H off, (1x1), turn on E.... do something similar, assuming most storms still ±600 mi.
Now bring H field back to the gains settings you'd determined before... if go interference, either raise H field thresholds, or lower H field gains till clears interference...
What I think this will do is begin establish a baseline for 'Normal" for you, at a sacrifice of signals >1500km, but use the E field more efficiently, with it's cleaner signals and three channels. When full server automatic is implemented, the server will likely not go beyond your overall settings normally, but will be able to 'down gain' etc as needed. As...
When storms get closer than 600Mi, just reduce H field gains.... 1x1
Then closer than 400-500 bring E fields down if need be... depending on your probe, you may have to go 1x1 or 1x2 when cells <50-100mi...