The dream of the self-driving car was born long before GPS came along.
General Motors advertises its newest product, 1966. (via Wheels.ca)
We are entering the age of the computerized car. Our vehicles, increasingly, speak to us. They listen to us when we speak to them. They alert us of danger, and protect us -- or try to -- when their warnings have failed. Sometimes, they even do the driving for us, insisting that computer and car can be one and the same. Last week, Ford opened its new Silicon Valley research lab -- a facility that will focus on, among other things, "big data" and "user experience" as they relate to the automobile.
This all seems very new and very now, and it's tempting to assume that the car as a technology -- with apologies, obviously, to the Delorean -- is set for its biggest disruption since the first Model Ts rolled off Ford's belts. It's worth remembering, though, that all this newness isn't fully new: the tech-driven updates that seem completely novel to us today have in fact been around for years. Just in relatively simplified form.
Take General Motors. Half a century ago, in 1966, the company developed a product it called its Driver Aid Information and Routing system. The system was essentially a fusion of proto-GPS and roadside communications -- the precursor to all the ease-of-driving automation we're so excited about today. Except, of course, the system didn't use computers. It used punch cards. The driver would insert a punch-coded card into the DAIR device, and the holes in the card would translate to mechanical movements in the car itself, directing the driver. Much like present-day navigational systems, the DAIR was designed to perch on the hump of the car, between the driver and the driver-side passenger seat -- where today's cupholders would be -- with a message center for the driver resting on the car's dashboard. (The picture above, though a bit blurry, gives a pretty good idea of what the thing looked like in action.)
GM had no less a celebrity than Walter Cronkite test out the technology. "As I drove the test car, DAIR navigated for me," he said, "telling me when to go straight, turn left, turn right, and so on. Speed limits and other traffic signs flashed onto the panel activated by low-power transmitters along the way." His narration makes clear that, like the GPS systems of today, the DAIR device was meant to be an aid to, rather than a replacement of, the driver. As a 1967 paper describing the DAIR system explained, "It is designed to assist the driver with his peripheral functions so that he can concentrate his attention on driving."
The DAIR was also designed to deliver alerts about external hazards and information like upcoming road signs and changing speed limits. And it had an external communications element, as well: Should you find yourself with a flat tire or in an accident, you could use the machine's included radio-telephone to get help sent to you -- much like the services Ford Sync, BMW Assist, or GM's own OnStar offer today.
GM's system of 1966 was only one among a group that was competing to realize the dream of a self-navigating car. In Europe, a joint project run by Siemens, Volkswagon, and Blaupunkt -- along with the German government -- developed a system that relied on roadside beacons for auto navigation. Japan would come up with its own, similar system, the Comprehensive Automobile Traffic Control System. (Both of these systems took for granted, as it seems many visions for self-driving did, of a road built out to communicate with the cars that traveled on it.) And DAIR itself would be replaced in the late 1960s by a new device, the Experimental Route Guidance System, which would also rely on a network of roadside control units to do its guiding. Navigation, it was assumed, would be a delicate dance between the driver and the road. It wasn't until later -- but not much later -- that we'd figure out what we know today: that, given the right push, a car really can drive itself.
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