Kyiv Astronomers capture “UAPs everywhere” using meteor-tracking software
Analysis Summary
Summary
The encounter involves a study conducted by the Main Astronomical Observatory of NES of Ukraine. The researchers used two meteor observation stations in Kiev and Vina Rivka to capture unidentified aerial phenomena (UAP) during the daytime. They developed a special technique to detect UAP, identifying two types: 'cosmics,' which are bright objects, and 'Phantoms,' which are dark and have zero albedo. The study reported that these objects move at high speeds, up to 15 kilometers per second. The researchers noted significant findings, including synchronous observations from both sites, which they believe confirm the presence of UAP. The impact of this encounter on the researchers is not explicitly mentioned, but the study aims to replicate the findings and further investigate UAP characteristics.
Program Intelligence Analysis
The video discusses a study conducted by the main astronomical Observatory of NES of Ukraine on unidentified aerial phenomena (UAP). It highlights the identification of two types of UAP, the use of synchronized meteor stations for observation, and the unique characteristics of these phenomena, including their high speeds and cloaking abilities.
The study identifies two types of UAP: cosmics, which are luminous, and phantoms, which have zero albedo and are effectively cloaked.
Chris Lato
“We are building the prototypes now; the hardware is getting finalized.”
Managed by: UAP Society
Creating observatories to observe meteors and UAPs
The main astronomical Observatory of NES of Ukraine conducts an independent study of UAP.
Two types of UAP have been identified: cosmics (luminous objects) and phantoms (dark objects with zero albedo).
UAPs were observed moving at speeds of 3 to 15 degrees per second, with some reaching speeds of 15 kilometers per second.
The study utilized two meteor stations in Kiev and Vina Rivka, which were synchronized to capture UAPs.
Phantom objects have zero albedo, meaning they do not reflect light and are effectively cloaked.