These are 90% likely to be from ionosphere manipulation.
The 'fan blade' shaped one is peculiar and matches no antenna lobe pattern nor reflective interference pattern. I suspect it is some kind of interference, but while it is symmetrical it is not symmetrical concommitant with any normal signal that would interfere with radar returns. It's like an antenna system flaw.
Further note: I think what is happening is that satellite radar signals pass through an atmospheric layer being disturbed by a haarp-like manipulation, so the radar pulses and returns are being distorted by the upper atmosphere, not by the weather conditions near the ground. If one induces unusual conduction characteristics in the atmosphere, it can become lens-like and mess up the sat signals.
(My background includes JPL satellite radar group engineering.)
I think what is happening is that satellite radar signals pass through an atmospheric layer being disturbed by a haarp-like manipulation
Sounds plausible to me. Reminds me of this animation I found of what HAARP does to the sky above it when it's switched on - circular, spiral, concentric - ticks all the boxes:
Thanks. That's neat to see. And its time scale aligns with a bit of what I know happens: HAARP both electrically charges air and heats it. This in turn can cause the transmission properties of air to change in lens-like ways. In particular, any disturbance is over a large area, and will likely have a center although the size of the center may be small or broad. The spirals in some images might come as an artifact of the HAARP using phased-antenna arrays which are distributed sets of antennas whose beams are processed to sweep the end target results. This can interact with weather sensing radar which operates at different RF E/M pulse rates and patterns. The combined effect could then cause weird patterns.
Maybe maybe if 5G but not existing 4G or below.
5G is steerable, meaning the individual towers' antenna beams are designed to be steerable. However, phase-synchronizing every emission from multiple towers across a region is not managable I think. That would be required in order to make sure beams added constructively.
Also, the tower frequencies are not near the radar frequencies, so the chance of interaction is small. Radar gets optimized for its frequency(s) so tower radiation is unlikely to affect the signal.
Ah - 5G frequencies have limited propagation distance, so it's unlikely to cover a whole region that a sat radar reaches.
These are 90% likely to be from ionosphere manipulation. The 'fan blade' shaped one is peculiar and matches no antenna lobe pattern nor reflective interference pattern. I suspect it is some kind of interference, but while it is symmetrical it is not symmetrical concommitant with any normal signal that would interfere with radar returns. It's like an antenna system flaw. Further note: I think what is happening is that satellite radar signals pass through an atmospheric layer being disturbed by a haarp-like manipulation, so the radar pulses and returns are being distorted by the upper atmosphere, not by the weather conditions near the ground. If one induces unusual conduction characteristics in the atmosphere, it can become lens-like and mess up the sat signals. (My background includes JPL satellite radar group engineering.)
Sounds plausible to me. Reminds me of this animation I found of what HAARP does to the sky above it when it's switched on - circular, spiral, concentric - ticks all the boxes:
https://imgur.com/qbv2Qyb
Thanks. That's neat to see. And its time scale aligns with a bit of what I know happens: HAARP both electrically charges air and heats it. This in turn can cause the transmission properties of air to change in lens-like ways. In particular, any disturbance is over a large area, and will likely have a center although the size of the center may be small or broad. The spirals in some images might come as an artifact of the HAARP using phased-antenna arrays which are distributed sets of antennas whose beams are processed to sweep the end target results. This can interact with weather sensing radar which operates at different RF E/M pulse rates and patterns. The combined effect could then cause weird patterns.
Could a network cell towers using coordinated broadcasts achieve the same effect.
Maybe maybe if 5G but not existing 4G or below. 5G is steerable, meaning the individual towers' antenna beams are designed to be steerable. However, phase-synchronizing every emission from multiple towers across a region is not managable I think. That would be required in order to make sure beams added constructively. Also, the tower frequencies are not near the radar frequencies, so the chance of interaction is small. Radar gets optimized for its frequency(s) so tower radiation is unlikely to affect the signal. Ah - 5G frequencies have limited propagation distance, so it's unlikely to cover a whole region that a sat radar reaches.
Earlier