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Paint transforms walls into interactive touchpads

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With a few applications of conductive paint and some electronics, researchers can create walls that sense human touch, and detect things like gestures and when appliances are in use.

The researchers found that they could transform dumb walls into smart walls at relatively low cost—about $20 per square meter—using simple tools and techniques, such as a paint roller.

These new capabilities might enable users to place or move light switches or other controls anywhere on a wall that’s most convenient, or to control videogames by using gestures. By monitoring activity in the room, this system could adjust light levels when a TV is turned on or alert a user in another location when a laundry machine or electric kettle turns off.

Wall++ double-touch
Researchers at CMU and Disney Research used simple tools and techniques to transform dumb walls into smart ones. (Credit: Carnegie Mellon)

“Walls are usually the largest surface area in a room, yet we don’t make much use of them other than to separate spaces, and perhaps hold up pictures and shelves,” says Chris Harrison, assistant professor in Carnegie Mellon University’s Human-Computer Interaction Institute (HCII). “As the internet of things and ubiquitous computing become reality, it is tempting to think that walls can become active parts of our living and work environments.”

Yang Zhang, a PhD student in the HCII, will present a research paper on this sensing approach, called Wall++, at CHI 2018, the Conference on Human Factors in Computing Systems.

The researchers found that they could use conductive paint to create electrodes across the surface of a wall, enabling it to act both as a touchpad to track users’ touch and an electromagnetic sensor to detect and track electrical devices and appliances.

“Walls are large, so we knew that whatever technique we invented for smart walls would have to be low cost,” says Yang Zhang, a PhD student in the HCII. He and his colleagues thus dispensed with expensive paints, such as those containing silver, and picked a water-based paint containing nickel.

They also wanted to make it easy to apply the special coating with simple tools and without special skills. Using painter’s tape, they found they could create a cross-hatched pattern on a wall to create a grid of diamonds, which testing showed was the most effective electrode pattern. After applying two coats of conductive paint with a roller, they removed the tape and connected the electrodes. They then finished the wall with a top coat of standard latex paint to improve durability and hide the electrodes.

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The electrode wall can operate in two modes—capacitive sensing and electromagnetic (EM) sensing. In capacitive sensing, the wall functions like any other capacitive touchpad: when a person touches the wall, the touch distorts the wall’s electrostatic field at that point. In EM sensing mode, the electrode can detect the distinctive electromagnetic signatures of electrical or electronic devices, enabling the system to identify the devices and their locations.

Similarly, if a person is wearing a device that emits an EM signature, the system can track the location of that person, Zhang says.

Wall++ hasn’t been optimized for energy consumption, Zhang says, but he estimates the wall-sized electrodes consume about as much power as a standard touch screen.

Additional researchers contributing to the work are from Carnegie Mellon University and Disney Research.

Source: Carnegie Mellon University

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