When converted to decimal, this value is 512, so I knew I'd be seeing images with 512 columns. First, the scan-line image starts with the 1, 10, 11 enumeration and continues to 100000000. I can't say that I was 100% certain of how the encoding worked, but I was crystallizing a few guesses. The next twenty minutes pretty much doomed the next two weeks of my spare time. The repeated instances of |, |-, || also suggested to me that these were enumerations in binary (1, 10, 11.) The puzzle began to drag me in, and I continued to work through it, trying to track the talk while getting my puzzle geek on. They suggested the scan lines of a television or computer screen. I have a background in computer graphics, so the zig-zag lines in the rectangle, just to the right of the hole, were recognizable to me. It's an iconic image, familiar to most space exploration enthusiasts, but I'd never taken the time to really study it. During the talk, an image of the record's cover was displayed behind David and his guests, Timothy Ferris and Frank Drake, the producer and technical director, respectively, of the Voyager Record in 1977: He had and his Ozma Records partner Tim Daly organized a panel at the Exploratorium in San Francisco, covering the design and production of the Voyager Golden Record, as well as the upcoming public release of a vinyl edition that they produced. It was something of an accident that I recently met David Pescovitz. I tried to keep the conversation high-level enough to be broadly accessible, but still give enough detail that an interested masochist could reproduce (and, hopefully, improve upon) my results. How does one pack data into audio? (Remember modems?) This article doesn't answer that question directly, but it does attempt to reproduce the efforts an alien would go through to recover those images.
The video above is a decoding of more than 100 images that were packed into the audio channels of a record that was placed on each of the Voyager spacecraft. How I decoded the images on the Voyager Golden Record Four decades later, Ron Barry followed the instructions.
VOYAGER SPACECRAFT GOLDEN RECORDS HOW TO
A diagram on the aluminum cover of the Golden Record explains how to play it and decode the images. Donating their time and expertise to the project, engineers at Colorado Video projected each Voyager slide onto a television camera lens, generating a signal that their machine converted into several seconds of sound per photo. While flipping through an electronics catalog, Valentin Boriakoff, Drake's colleague at the National Astronomy and Ionosphere Center, stumbled upon Colorado Video, a small television equipment firm in Boulder that had built a unique device for encoding television images as audio signals that could be transmitted over telephone lines. The challenge was finding technology capable of the task. Technical director Frank Drake had always planned to encode the photos in the audio spectrum for the record. Attached to each spacecraft is a Golden Record containing Earth's greatest music, spoken greetings, "Sounds of Earth," and more than 100 images encoded as audio signals, a technological feat at the time. Editor's note: Forty years ago today, NASA launched Voyager 1, the second of two spacecraft on a grand tour of the solar system and into the mysteries of interstellar space.