AR WILL SPARK THE NEXT BIG TECH PLATFORM—CALL IT MIRRORWORLD by Wired Magazine
THE MIRRORWORLD DOESN’T yet fully exist, but it is coming. Someday soon, every place and thing in the real world—every street, lamppost, building, and room—will have its full-size digital twin in the mirrorworld. For now, only tiny patches of the mirrorworld are visible through AR headsets. Piece by piece, these virtual fragments are being stitched together to form a shared, persistent place that will parallel the real world. The author Jorge Luis Borges imagined a map exactly the same size as the territory it represented. “In time,” Borges wrote, “the Cartographers Guilds struck a Map of the Empire whose size was that of the Empire, and which coincided point for point with it.” We are now building such a 1:1 map of almost unimaginable scope, and this world will become the next great digital platform.
Google Earth has long offered a hint of what this mirrorworld will look like. My friend Daniel Suarez is a best-selling science fiction author. In one sequence of his most recent book, Change Agent, a fugitive escapes along the coast of Malaysia. His descriptions of the roadside eateries and the landscape describe exactly what I had seen when I drove there recently, so I asked him when he’d made the trip. “Oh, I’ve never been to Malaysia,” he smiled sheepishly. “I have a computer with a set of three linked monitors, and I opened up Google Earth. Over several evenings I ‘drove’ along Malaysian highway AH18 in Street View.” Suarez—like Savage—was seeing a crude version of the mirrorworld.
It is already under construction. Deep in the research labs of tech companies around the world, scientists and engineers are racing to construct virtual places that overlay actual places. Crucially, these emerging digital landscapes will feel real; they’ll exhibit what landscape architects call placeness. The Street View images in Google Maps are just facades, flat images hinged together. But in the mirrorworld, a virtual building will have volume, a virtual chair will exhibit chairness, and a virtual street will have layers of textures, gaps, and intrusions that all convey a sense of “street.”
The mirrorworld—a term first popularized by Yale computer scientist David Gelernter—will reflect not just what something looks like but its context, meaning, and function. We will interact with it, manipulate it, and experience it like we do the real world.
At first, the mirrorworld will appear to us as a high-resolution stratum of information overlaying the real world. We might see a virtual name tag hovering in front of people we previously met. Perhaps a blue arrow showing us the right place to turn a corner. Or helpful annotations anchored to places of interest. (Unlike the dark, closed goggles of VR, AR glasses use see-through technology to insert virtual apparitions into the real world.)
Eventually we’ll be able to search physical space as we might search a text—“find me all the places where a park bench faces sunrise along a river.” We will hyperlink objects into a network of the physical, just as the web hyperlinked words, producing marvelous benefits and new products.
The mirrorworld will have its own quirks and surprises. Its curious dual nature, melding the real and the virtual, will enable now-unthinkable games and entertainment. Pokémon Go gives just a hint of this platform’s nearly unlimited capability for exploration.
These examples are trivial and elementary, equivalent to our earliest, lame guesses of what the internet would be, just after it was born—fledgling CompuServe, early AOL. The real value of this work will emerge from the trillion unexpected combinations of all these primitive elements.
Read the full article here https://www.wired.com/story/mirrorworld-ar-next-big-tech-platform/