Unfortunately, current telescopes are unable to detect evidence of life or determine whether an exoplanet, a planet outside our Solar system, is actually habitable, but future observatories, such as NASA's James Webb space telescope, will dive deeper than ever before to determine if we are alone in the universe.

There could be at least 29 potentially habitable worlds "ideally positioned" to monitor Earth if they contain an advanced civilization, a new study published in Nature magazine revealed.

In order to learn more about how humans discover exoplanets, a Cornell University team reversed the procedure to explore which planets could find us. Astronomers working with the American Museum of Natural History in New York discovered 2,034 star systems in our galactic neighborhood, all within 326 light years of Earth, that could witness our planet's transit of the Sun.

Since the dawn of human civilization roughly 5,000 years ago, 1,715 of those stars may have sighted Earth, with 319 more likely to do so in the next 5,000 years, according to the research.

Because our universe is dynamic, the number of stars that could possibly observe our planet varies based on their location in space relative to the solar system.

Given that the astronomers discovered that not all of the stars are orbited by exoplanets, they believe that 29 will have a rocky world in the habitable zone that is well-positioned to catch radio waves transmitted by humans more than a century ago.

"From the exoplanets' point-of-view, we are the aliens," Lisa Kaltenegger, professor of astronomy and director of Cornell's Carl Sagan Institute is quoted as saying in the Daily Mail report regarding the findings. "We wanted to know which stars have the right vantage point to see Earth, as it blocks the Sun's light."

According to the report, the transit method is one of the most common approaches astronomers employ to find planets in other star systems; they seek for "dips" in the star's light. And for us to be able to see the exoplanet, the star it orbits, and the Earth when it passes by, it requires precise positioning of the exoplanet, the star it orbits, and the Earth.

The researchers found that over the 10,000-year period studied, 2,034 star systems passed through the Earth Transit Zone, with 117 of them crossing within 100 light-years of the Sun. Since commercial radio stations on Earth began transmitting into space roughly a century ago, 75 of these objects have been in the Earth Transit Zone.

And according to the study, each of these worlds has or will have the ability to detect Earth, just as Earth scientists have discovered countless worlds orbiting other stars. Earth's astronomers can analyze the atmospheres of remote exoplanets by watching them transit, or cross, their own sun.

If exoplanets harbor intelligent life, they can watch Earth while it is backlit by the Sun and see the chemical fingerprints of life, such as oxygen, in our atmosphere.

"Our analysis shows that even the closest stars generally spend more than 1,000 years at a vantage point where they can see Earth transit," Kaltenegger said. "If we assume the reverse to be true, that provides a healthy timeline for nominal civilizations to identify Earth as an interesting planet."

Of course, this estimate is predicated on the idea of life as we know it, which necessitates water and a rocky environment.

The number of rocky planets in their star's habitable zone is estimated based on the planet's radius and the size and type of the host star. According to new calculations, there are 1.28 planets per star in the habitable zone, or one to two per system. This corresponds to the Solar System, with Earth as the only livable planet and Venus and Mars on the outskirts of the habitable zone, respectively.

"One might imagine that worlds beyond Earth that have already detected us, are making the same plans for our planet and solar system," another author of the research, astrophysicist Jackie Faherty, a senior scientist at the American Museum of Natural History concluded about the findings. "This catalog is an intriguing thought experiment for which one of our neighbors might be able to find us."