Touch input has already almost entirely eliminated the need for physical keyboards and mouses, but soon, it won’t even be confined to a screen. Researchers are developing systems that can register and translate hand movements in thin air, or even replicate the sensation of three-dimensional objects and textures. Here are 13 intriguing touch tech inventions.
1. Touch Tech for Artificial Limbs
Prosthetics allow amputees to do all sorts of things they wouldn’t be able to do otherwise, but they’ve been missing one very crucial thing: the sense of touch. That could change, with experiments at the University of Chicago developing a mouldable plastic material containing piezoelectric powder that can sense pressure at any point on a surface by turning it into an electric voltage. They were able to translate those electric signals to the human nervous system, so they can be interpreted by the brain as touch. The next challenge is adapting this touchscreen technology, borrowed from smartphones, to the soft and curved surfaces of prostheses.
2. Feeling Objects in Thin Air
Imagine being able to touch something that’s not really there. A new kind of touch technology being developed by the research wing of the Walt Disney Company allows users to feel textures on a touchscreen as well as touching holographic objects projected into space, as through an Xbox Kinect. Called ‘haptic technology,’ it works by blowing small rings of air at a user to simulate texture, movement or collisions with objects. It could potentially revolutionize the gaming experience, and also be useful in medical settings.
3. Board Transforms Touch into Sound
Developed by London-based studio Bare Conductive, the ‘Touch Board’ translates touch into sound. Any conductive material can be turned into an interface; in this case, electrically conductive paint is applied to a surface.
You connect the touch board to a speaker, and plug it into a micro USB cable. Interaction with any of the electrodes cause an MP3 player to play an associated track from the card.
4. Transmit Audio Messages With the Touch of a Finger
What if you could hear through someone’s finger? ‘Ishen-Den-Shin’ technology (named for a Japanese phrase meaning “what the mind thinks, the heart translates”) uses the human body as a sound transmitter. A handheld microphone connected to a computer records as soon as it hears a person speak and transforms it into a sound loop which is converted into a harmless high-voltage inaudible signal transmitted to the microphone’s conductive casing. That means whoever holds the microphone becomes a human sound emitter. If they touch an object or another person’s ear with their finger, the small sound vibrations can be heard.
5. Augmented Reality Touchscreen Interface
An augmented reality touchscreen interface from Fujitsu Laboratories can turn any surface into a touch screen using off-the-shelf cameras and projectors.
Users can trace their fingers across a document on a table, copy it as digital data, and display it virtually. The camera measures irregularly shaped objects on a table, and automatically adjusts the coordinate systems that make it possible to match finger movements and touching of objects to the digital display projected onto physical objects.
6. Morphing Tactile Touchscreen
From Tactus Technology comes a morphing touchscreen with tactile keys that appear and disappear when needed. It’s based on microfluidics, a system of tiny channels arranged under the flexible surface of the touchscreen. Oil can be pumped into these channels to ‘inflate’ the keys as needed. It could be used on smartphones, tablets, gaming and navigation systems as well as remotes and other electronics.
7. Zerotouch Invisible Touchscreen
Paint or manipulate digital information in the air with the Zerotouch Invisible Touchscreen, a screenless transparent multi-touch display that detects user input with 256 infrared sensors.
User movement is seen as points on a matrix of lines. Rather than having to actually touch a surface, the user can move their hands ‘through’ the screen. That means it could be placed over a normal, non-touchscreen computer to turn it into a multi-touch surface.
8. Touchscreen DJ Technology
The software doesn’t yet have a name, and the company hasn’t released a lot of information, but you can see it in action in the video above.
9. KinectiChord
Two Xbox Kinects come together into a 3D control interface for making music, called the KinectiChord. One of the Kinect cameras faces the audience, monitoring who’s standing in front of it, while the second is trained on the KinectiChord’s flexible touchscreen to measure where you press on the screen and the force of your touch.
Your movements affect audio tracks, volume, panning and equalization so you can play with the music.
10. Floating Touch for Smartphones
Sony is experimenting with a touchscreen technology called ‘floating touch,’ which enables you to simply hover over something on the screen with your finger rather than actually touching it. You’d hover over something with your finger just like you do with a cursor on a computer, and tap to select.
11. Creating Tactile Texture with Ultrasound Waves
Similar to what Disney did with haptic technology, this 3D touch tech from a research team at the University of Bristol uses ultrasound speakers embedded behind a display, used with a Leap Motion controller, to replicate the sensation of texture.
The user doesn’t have to touch the screen at all: high-frequency sound waves produce an invisible field that feels like three-dimensional objects and surfaces.
12. Curved Touchscreens
Applying touchscreen ability to surfaces that aren’t totally flat has been a challenge thus far. Atmel’s XSense technology is being put to the test by ASUS, with a touch sensor that can be bent and bonded to any shape.
13. Making Anything into a Touchscreen
‘Time Domain Reflectometry,’ or TDR, could tell when and where your fingertip touches a wire by sending electrical pulses through the wire and measuring the time it takes for the pulses to return. The wiring is embedded in silicone. While it’s still pretty far from being ready for consumer applications, it’s an interesting possibility for the future.
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