The Galileo Project is on the hunt for mysterious airborne phenomena


Group photo of the Galileo Project members during their first-year conference at the Harvard College Observatory on Aug. 1–3, 2022.  (Image credit: Andy Mead, courtesy Avi Loeb)
Group photo of the Galileo Project members during their first-year conference at the Harvard College Observatory on Aug. 1–3, 2022. (Image credit: Andy Mead, courtesy Avi Loeb)

The truth is out there. The Galileo Project is the first systematic scientific research program in a search for artifacts or remnants of extraterrestrial technological civilizations. Team members of the initiative held a three-day conference starting on Aug. 1 at the Harvard College Observatory in Cambridge, Massachusetts to make note of its first-year accomplishments and to chart plans for the year ahead.


One action item of note was the opening up of a rooftop set of instruments to look into the issue of Unidentified Aerial Phenomenon (UAP), also frequently characterized as Unidentified Flying Objects (UFOs). Heading the Galileo Project is noted astrophysicist Avi Loeb of Harvard University.


Its website said, founded in July 2021, the project's goal is to bring the search for extraterrestrial technological signatures of extraterrestrial technological civilizations "from accidental or anecdotal observations and legends to the mainstream of transparent, validated and systematic scientific research.


Loeb said, our strategic goal in the coming year is to get our full suite of instruments to work, filming a movie of the entire sky in radio, infrared and visible light as well as audio. The data stream will be fed into a special computer system that will identify objects detected within that information flow. We hope to get new high-quality data in a location where UAP was reported and make our data open after publishing our results in peer-reviewed journals. The goal is to accomplish all of that within a year, before our next in-person conference.


Loeb points out that the US Congress repeatedly discussed over the past year reports by intelligence and military agencies regarding UAP in the Earth's atmosphere. Likewise, NASA is pushing forward on a study of UAP.


Loeb said, the best way to better understand these phenomena is by seeking better evidence from state-of-the-art instruments and following the scientific method which entails a transparent, agnostic analysis of open data. The realization that even a single object may have originated from an extraterrestrial technological civilization would resonate with humanity's most fundamental questions and interests.


By engaging in the search, Loeb said, the nature of UAP may be revealed before we understand dark matter if we would only be brave enough to collect and analyze UAP data publicly, based on the scientific method. Other branches of activity for the Galileo Project involve designing a space mission that will identify the nature of interstellar objects that do not resemble comets or asteroids, like "Oumuamua," an interstellar interloper that whisked by Earth in October 2017.


Also on the project's agenda is coordinating expeditions to study the nature of interstellar meteors. An ocean expedition by the Galileo Project is being scoped out to retrieve fragments of the first large interstellar meteor, CNEOS 2014-01-08, from the ocean floor near Papua New Guinea.

Loeb said, humanity is on the cusp of profound discoveries about our cosmic neighborhood.


The key to appraising UAP is that the sensors and resultant data need to be capable of identifying characteristics that cannot be duplicated by human-made objects, said Robert Powell, executive board member of the Scientific Coalition for UAP Studies


Powell said, with that in mind, that the next steps in UAP research should be to confidently characterize velocities and accelerations that cannot be produced by human-made objects. This requires robust optical triangulation methods for calculating range, using multiple cameras, to ensure that the final error bounds on range estimates are well-understood and sufficiently narrow. Furthermore, there's a need to solve the site selection problem by identifying areas with a "higher likelihood of UAP sightings" for setting up monitoring gear. Lastly, there's a need to distribute many of these systems.


A newly formed group focused on advancing progress on UAP is Enigma Labs, they are using cutting-edge technology and social intelligence, explaining that UAP has appeared across the planet for decades in various forms. The cross-border nature of sightings demands a global perspective.


A newly formed group focused on advancing progress on UAP is Enigma Labs(opens in new tab); they are using cutting-edge technology and social intelligence, explaining that UAP has appeared across the planet for decades in various forms. The cross-border nature of sightings demands a global perspective.


Alex Smith, founder of Enigma said, we are thrilled the scientists at the Galileo Project have achieved this milestone and fully support their efforts. If we are to advance public understanding of this phenomenon, all approaches to analysis will be necessary.


High-quality telescope footage from Galileo will be key to conclusive scientific studies, Smith said. Over time, supporting civilian footage and a network of alternative sensors radar, thermal imaging, and infrared cameras will serve as independent corroboration of telescope sightings.


Smith said, when combined with the vast amount of historical data, hundreds of thousands of witness reports, and analyses conducted by credible governments, researchers, and non-government organizations, the existence of UAP will be irrefutable, and patterns will be easier to identify. This is an exciting chapter in UAP studies and we look forward to watching Galileo deploy more telescopes.


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