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The Final Frontier In Virtual Reality? Hacking Your Muscles

Tiny bursts of electrical stimulation could help users feel walls and spaces in VR.

The Final Frontier In Virtual Reality? Hacking Your Muscles

There are all sorts of devices designed to make virtual worlds feel more real by mimicking physical sensations: full-body suits, gloves, robotic hands, and exoskeletons. These products mimic sensations, but they don’t create the realistic impression of spaces or structures, like walls or doors. As adoption of AR and VR becomes more pervasive, being able to walk through walls won’t seem like a neat trick–it’ll be a significant limit to user experience, jarring you out of a world that may otherwise seem realistic.

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But how do you create a virtual wall, a physical obstacle that you can touch and push against, without using unwieldy mechanical hardware?

For human-computer interaction researcher Pedro Lopes, the answer lies beneath the skin. Lopes, along with Patrick Baudisch, Sijing You, Lung-Pan Cheng, and Sebastian Marwecki at the Hasso Plattner Institute in Potsdam, Germany, created a simple wearable that uses electrical muscle stimulation–small electric shocks–to directly deliver sensation to the user’s muscles. It’s similar to the type of stimulation used in physical therapy.

“We were really interested in trying to explore one of the hardest things to recreate in terms of physical sensation, which is a wall,” he says.

Lopes and his team found that they could use the wearer’s own muscles against them, artificially creating a counter force, or the feeling of resistance to a physical object, by triggering the opposing muscles. The same setup can also enable the wearer to “hold” a large cube in virtual reality or press a virtual button–while using only a small wearable device hooked up to electrodes that are stuck to the user’s skin.

The wearable setup includes up to eight electrodes stuck to the forearm, bicep, tricep, and shoulder of each arm. The electrodes are then hooked up to a medical eight-channel muscle stimulator, which is controlled by the VR simulator. The entire thing can be worn in a small backpack and serves Lopes’s research purposes–though he does note that he’s not a product designer, and envisions a much more streamlined design for a commercial version of the technology.

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A wearable that creates the impression of physical structures would let users explore a virtual world in a way that feels genuine. Instead of your fingers passing right through every virtual wall you encounter in a particular game, you’d feel solid barriers. Or, if you’re exploring a virtual world that included a hazardous design element, the world’s designers could code the electrodes to fire, pushing your fingers away more forcefully.

 

[Photo: Pedro Lopes]
“The major potential here is that this is something you can have with very little hardware,” he says. “The hardware is a few flat electrodes on your arms. No exoskeletons, big setups. You just put the electrodes on, and suddenly you have walls, buttons you can press, a cube you can hold on, and you feel the weight.”

The technology itself isn’t new. Electrical muscle stimulation has been used in physical therapy and strength training for decades, and Lopes has done other projects where vibrations hack a user’s biology in order to make them feel physical impacts in VR, or an art project where stimulation forces users to keep cranking a machine’s lever. Lopes himself tried to create walls in VR three years ago, but was unhappy with the result. He found that using electrical muscle stimulation for any length of time lessened its effects because users became accustomed to the vibration. During this research project, Lopes found that the shorter the burst of stimulation, the better.

In order to test what felt most real to users, Lopes asked study participants to try pushing against different “walls” in a virtual room, and asked them how real they felt. “We realized that if we let you just feel a short pulse for 300 milliseconds, you won’t even know where it’s coming from, but your muscles will react,” he says. “Because it’s so brief, there’s no way you can rationalize it.”

Others are working on similar ideas. The VR system TreeSense uses electrical muscle stimulation to create sensations akin to what it might be like to be a tree. The crowdfunded Teslasuit, a full-body suit for haptics in VR, uses electrical muscle stimulation as well. But Lopes points out that any technology that uses gloves or depends on mechanical components can actually inhibit feeling, rather than completely enable it.

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“Some Kickstarters that are trying to bring some of those ideas back, like gloves that have motors that pull your fingers,” Lopes says. “They’re cool, but the moment you put on a glove, you can’t grab objects or even feel a normal wall.” Instead, Lopes imagines that electrical muscle stimulation in VR will manifest in thin, wireless sleeves, with electrodes embedded in textiles.

There’s a need for physicality in VR,” Lopes says. “The next step is bigger force, more physical sensations. I think electrical muscle stimulation can do that.”

About the author

Katharine Schwab is a contributing writer at Co.Design based in New York who covers technology, design, and culture.

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