Story highlights Astronomers used Kepler telescope data to extrapolate number of planets in Milky Way

22% of sun-like stars have possibly habitable planets, research shows

Kepler has found 3,538 planet candidates to date

Ever have one of those days where you just wanna be alone, maybe have the planet to yourself?

Well, based on sheer numbers, there may be a planet just for you.

Astronomers at the University of California-Berkeley and the University of Hawaii, using data from NASA's Kepler space telescope, estimate there are tens of billions of Earth-size, possibly habitable planets in our Milky Way galaxy.

Given that there just more than 7 billion of us on this planet, that means a planet for each of us with some spares for your picky neighbors. Or a vacation planet or two for you, maybe.

And the closest may be circling a star you can see if you look up into the heavens tonight.

"When you look up at the thousands of stars in the night sky, the nearest sun-like star with an Earth-size planet in its habitable zone is probably only 12 light years away and can be seen with the naked eye. That is amazing," UC Berkeley graduate student Erik Petigura, the leader of the team that analyzed data from the Kepler, said in a press release.

To be sure, the astronomers haven't seen any of the planets themselves. They came to their conclusions like this:

The Kepler telescope photographed 150,000 of the 300 billion stars in the Milky Way every 30 minutes for four years. It looked for when orbiting planets passed between the camera and the star, causing a slight change in brightness of that star. Analyzing the data, the astronomers say, they found 3,000 planet candidates.

Photos: Where life might live beyond Earth Photos: Where life might live beyond Earth The Kepler mission has discovered 1,284 new planets. Of these newly discovered planets, nine orbit in the habitable zone of their star and nearly 550 are possibly rocky planets roughly around the same size as Earth. Hide Caption 1 of 14 Photos: Where life might live beyond Earth This artist's impression shows an imagined view from the surface one of the three planets orbiting an ultracool dwarf star just 40 light-years from Earth that were discovered using the TRAPPIST telescope at ESO's La Silla Observatory. Given the proximity of the dwarf star, the rosy sun would appear very large in the sky. Hide Caption 2 of 14 Photos: Where life might live beyond Earth On Thursday, July 23, NASA announced the discovery of Kepler-452b, "Earth's bigger, older cousin." This artistic concept shows what the planet might look like. Scientists can't tell yet whether Kepler-452b has oceans and continents like Earth. Hide Caption 3 of 14 Photos: Where life might live beyond Earth Kepler-452b is about 60% larger than Earth, left. It's about 1,400 light-years from Earth in the constellation Cygnus. Hide Caption 4 of 14 Photos: Where life might live beyond Earth A team of astronomers announced April 17, 2014, that they discovered the first Earth-size planet orbiting a star in the "habitable zone": the distance from a star where liquid water might pool on the surface. That doesn't mean this planet has life on it, says Thomas Barclay, a scientist at the Bay Area Environmental Research Institute at Ames and a co-author of a paper on the planet, called Kepler-186f. He says the planet can be thought of as an "Earth-cousin rather than an Earth-twin. It has many properties that resemble Earth." The planet was discovered by NASA's Kepler Space Telescope. It's about 500 light-years from Earth in the constellation Cygnus. The picture above is an artist's concept of what it might look like. Hide Caption 5 of 14 Photos: Where life might live beyond Earth Scientists announced in June 2013 that three planets orbiting star Gliese 667C could be habitable. This is an artist's impression of the view from one of those planets, looking toward the parent star in the center. The other two stars in the system are visible to the right. Hide Caption 6 of 14 Photos: Where life might live beyond Earth This diagram shows the planets thought to orbit star Gliese 667C, where c, f and e appear to be capable of having liquid water. The relative sizes, but not relative separations, are shown to scale. Hide Caption 7 of 14 Photos: Where life might live beyond Earth This diagram lines up planets recently discovered by Kepler in terms of their sizes, compared with Earth. Kepler-22b was announced in December 2011; the three Super-Earths were announced April 18, 2013. All of them could potentially host life, but we do not know anything definitive about their compositions or atmosphere. Hide Caption 8 of 14 Photos: Where life might live beyond Earth This illustration depicts Kepler-62e, a planet in the habitable zone of a star smaller and cooler than the sun. It is about 1,200 light-years from Earth in the constellation Lyra. Hide Caption 9 of 14 Photos: Where life might live beyond Earth This illustration depicts Kepler-62f, a planet in the habitable zone of a star smaller and cooler than the sun, in the same system as Kepler-62e. Hide Caption 10 of 14 Photos: Where life might live beyond Earth This diagram compares the planets of our own inner solar system to Kepler-62, a five-planet system about 1,200 light-years from Earth. Kepler-62e and Kepler-62f are thought capable of hosting life. Hide Caption 11 of 14 Photos: Where life might live beyond Earth The planet Kepler-69c is about 2,700 light-years from Earth in the constellation Cygnus. Hide Caption 12 of 14 Photos: Where life might live beyond Earth This diagram compares the planets of our own inner solar system to Kepler-69, which hosts a planet Kepler-69c that appears to be capable of hosting life, in addition to planet Kepler-69b. Hide Caption 13 of 14 Photos: Where life might live beyond Earth This artist's illustration represents the variety of planets being detected by NASA's Kepler spacecraft. Hide Caption 14 of 14

The astronomers narrowed that number by focusing on just 42,000 stars like our sun or a bit cooler. That brought the number of planets down to 603. But only 10 of those were about the size of Earth in the so-called "Goldilocks zone," just the right distance from the star where temperatures are suitable for life as we know it.

So how did they get a number of planets in the billions? By using a computer model with fake planets to test the validity of the algorithms used in the calculations.

"What we're doing is taking a census of extrasolar planets, but we can't knock on every door. Only after injecting these fake planets and measuring how many we actually found could we really pin down the number of real planets that we missed," Petigura said in the press release.

Using the data, the astronomers calculated that 22% of stars in the Milky Way similar to our sun have planets like Earth in their "Goldilocks zone." As there are about 20 billion stars similar to the sun in the galaxy, the possibilities add up quickly -- more than one for each of us Earthlings.

The researchers do caution, though, that despite being in the habitable zone, a planet could still not be right to host life.

"Some may have thick atmospheres, making it so hot at the surface that DNA-like molecules would not survive. Others may have rocky surfaces that could harbor liquid water suitable for living organisms. We don't know what range of planet types and their environments are suitable for life," Geoffrey Marcy, UC Berkeley professor of astronomy, said in a press release.

But the study gives researchers a number to work with.

"The primary goal of the Kepler mission was to answer the question: When you look up in the night sky, what fraction of the stars that you see have Earth-size planets at lukewarm temperatures so that water would not be frozen into ice or vaporized into steam, but remain a liquid, because liquid water is now understood to be the prerequisite for life," Marcy said. "Until now, no one knew exactly how common potentially habitable planets were around Sun-like stars in the galaxy."

The new study is published in the Proceedings of the National Academy of Sciences and was discussed this week at the second Kepler Science Conference, being held at NASA's Ames Research Center in Moffett Field, California.