The Future Of Typing Doesn't Involve A Keyboard

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The Future Of Typing Doesn't Involve A Keyboard
November 23, 2018
Envisioning a semicolon.

 

There will come a time when sitting in front of a screen, tapping keys with your fingers, will seem impossibly clunky and laughably old-fashioned. Instead, researchers say, the most likely next phase of human-computer interaction will be typing in “thin air” while gazing—for example—at the ocean.

 

As computers become smaller and—ultimately—largely virtual, researchers are having to think of other ways for us to interact with them. The current generation of smartphone users may be willing to learn to type with just two thumbs; some of us have carried around bluetooth keyboards for train journeys and conferences. But no one wants to connect a keyboard to a smart watch, and while voice recognition software is improving, users are highly resistant to talking to computers in public. If the future of screens is augmented reality—as Tim Cook, Apple’s CEO has predicted— a virtual space where the user sees both what’s really in front of them and the “objects” on the screen, how are we going to interact with it?

 

The question is not just a philosophical one, but has major commercial applications. Per Ola Kristensson, a professor in Interactive Systems Engineering at the University of Cambridge, says desks in the future will likely be almost entirely free from hardware: No laptop, no phone, and certainly no keyboard. A move away from restrictive un-ergonomic keyboards would help those affected by problems like carpal tunnel syndrome, repetitive strain injury, back pain, and eye strain, which have become some of the modern worker’s most troublesome physical problems, and can be debilitating. 

 

There are two big challenges to designing human-computer interaction in this reality, Kristensson explained. Designers no longer control what the user is looking at (what he calls the “pixel-space” of the traditional screen); and if someone’s work takes place in a space without traditional limits—no buttons being pressed or screens swiped—there’s an added challenge of working out what it is the user wants to do.  

 

Kristensson presents a possible solution to this challenge in a forthcoming research paper. The researchers used a head-mounted piece of hardware to project a virtual screen and a virtual keyboard, on which users “typed.” The fingers don’t touch anything; their movement was detected by a depth-sensor, which tracked both where the fingers typed, and how ‘deep’ they pressed into the virtual surface.

 

The problem with the resultant data was that the imprecision of hitting a virtual key rather than a real one meant lots of errors. To correct for this, the researchers created a model of what humans were most likely to type. Working from a dataset of billions of words from Twitter, blogs, and other online sources, they used machine learning to train a program to recognize the most-common letter combinations. (The technology, which currently exists in English and German, is similar to that used in predictive text on a traditional smartphone.)

 

The speed at which users learned to type virtually was fascinating. After users had practiced on the visible keyboard, they removed all the letters. Users’ typing speed barely altered. “It turns out people remember the QWERTY keyboard very well,” Kristensson says. “So you can actually not show the keys at all. It can be completely blank, and people can still type.” Rather than screensavers of beautiful views, we could be staring at the views themselves.

 

But wait: If we’re removing the keyboard, shouldn’t we be removing the need to move the fingers as if they’re touching a keyboard? 

 

Indeed, technology allowing people to type simply by looking at the letters does exist. Early eye-gaze typing, developed for adults with cognitive function but reduced mobility, was once slow and straining, but has come a long way. At a recent artificial intelligence conference in Cambridge, Kristensson presented a method for typing which combines eye-tracking with prediction, meaning that a user can slide their gaze from letter to letter, not dwelling, and not worrying if their gaze ‘touches’ intervening letters. (It’s somewhat similar to the Android keyboards that allow a user to slide their finger from letter to letter; Kristensson was one of the inventors of that technology back in 2002.)

 

The Tobii-Dynavox, a robust tablet-like computer that can be controlled with only the gaze, is one example of “dwell-free” eye technology being marketed to people with decreased motor function. 

 

All these solutions, of course, maintain at least the idea of a keyboard. Is it necessary? Interacting with a computer via thought alone is a tantalizing prospect. In fact, thought-only typing is technically possible, but as previous experiments have shown, it’s still a laborious process.

 

Facebook was for a time seriously researching brain-only interaction, though the head of its moonshot division at the time, Regina Dugan, has since left. Mind-typing, Kristensson says, had engendered a lot of interest, but relies on signals too faint and imprecise to lead to real outcomes—or as he puts it: ”the equivalent of being outside a concert house and trying to listen for the flute.” To make it actually efficient, he says, you’d need to drill a port in your head.

 

There are those who want to take that step. Elon Musk has said he sees the future of AI as necessarily involving the implantation of hardware in the human brain, and has suggested a fine mesh of electrodes that can knit, over time, with brain cells.

 

How soon until it’s normal to see someone lying on a comfortable sofa, gazing at the ceiling, and using a pair of glasses or nearby eye-tracker to compose an email or write a novel? Tech companies are secretive, but “everybody’s racing to figure out how to do this and how to make it deployable,” Kristensson says. 

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