Senseg has unveiled a groundbreaking new technology that allows them to create textures on flat screen tablets. This innovative technology provides users with the sensation of texture when they run their fingers over the flat glass screen, revolutionizing the way we interact with touch devices.
To create the feeling of texture, the new technology uses electrostatic fields to simulate different levels of friction. This allows it to create the sensation of something physical on a perfectly flat screen. The electrostatic fields manipulate the electrostatic forces between the screen and the user’s finger, creating a tactile feedback that mimics the feel of various textures. To learn more about this amazing technology and see it in action, watch the video demonstration after the jump.
How Senseg Texture Technology Works
The new Senseg texture technology uses no moving parts and makes no physical changes to the tablet’s screen. Instead, it relies on the principle of electrostatic vibration to create the sensation of texture. When a user touches the screen, the technology generates an electrostatic field that interacts with the user’s finger, creating a variable friction that feels like different textures. This method is not only innovative but also energy-efficient, as it requires minimal power to operate.
One of the key advantages of this technology is its versatility. It can be integrated into a wide range of devices, from tablets and smartphones to touch interface devices used in various industries. Imagine being able to feel the roughness of sandpaper, the smoothness of silk, or the ridges of a fingerprint on your device’s screen. This could have significant implications for gaming, virtual reality, and even educational tools, where tactile feedback can enhance the user experience.
Potential Applications and Future Prospects
The potential applications of Senseg’s texture technology are vast. In the realm of gaming, for instance, players could experience a more immersive environment by feeling the textures of different surfaces within the game. This could add a new dimension to gameplay, making it more engaging and realistic. In virtual reality, the technology could be used to simulate real-world textures, enhancing the sense of presence and immersion.
In educational settings, tactile feedback could be used to teach students about different materials and textures, providing a hands-on learning experience without the need for physical samples. This could be particularly useful in subjects like biology, where students could feel the texture of different plant leaves or animal skins.
The technology also holds promise for accessibility. For individuals with visual impairments, tactile feedback could provide an additional layer of information, making it easier to navigate touch screens and access digital content. This could lead to more inclusive designs and improve the usability of touch-based devices for a broader audience.
The hope is that this new technology will filter down to mainstream tablets within the next two years or so. For more information, jump over to the Senseg website.
“With Senseg touch screens come alive with textures, contours, and edges that users can feel. Using Senseg technology, makers of tablet computers, smartphones, and any touch interface device can deliver revolutionary user experiences with high fidelity tactile sensations.“
Source: CNET
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