搜索
Video calls are a common occurrence, but have you imagined being able to touch the person on the other end of the line? Scientists are making this a reality.
Researchers at the University of New South Wales Australia, have invented a soft skin stretch device (SSD), a haptic device that can recreate the sense of touch. Haptic technology imitates the experience of touch by stimulating localized areas of the skin in ways that are similar to what is felt in the real worlds through force, vibration or motion.
Vibration is the most common haptic technology today and has been built into many electronic devices, such as one attached to the back of a trackpad in laptops, which simulates a button clicking. However, haptic feedback with vibration becomes less sensitive when used continuously. The existing technology also has great difficulty recreating the sense of touch with objects in virtual environments or located remotely according to Mai Thanh Thai, lead author of the study.
The new technology overcomes issues with existing haptic devices. The research team introduced a novel method to recreate the sense of touch through soft, artificial “muscles”.
“Our three-way directional skin stretch device, built into the fingertips of the wearable haptic glove we also created, is like wearing a second skin—it’s soil, stretchable and mimics the sense of touch—and will enable new forms of haptic communication to enhance everyday activities, ” said Thanh Nho Do, senior author of the study.
It works like this: Imagine you are at home and you call your friend who is in Australia. You wear a haptic glove with the SSDs and your friend also wears a glove with integrated 3D force sensors. If your friend picks up an object, it will physically press against your friend’s lingers. And the glove with 3D force sensors will measure these interactions. The force signals can be sent to your glove so your device will generate the same 3D forces, making you experience the same sense of touch as your friend.
The haptic devices could be applied in various scenes, allowing users to feel objects inside a virtual world or at a distance. This could be especially beneficial during such times like the COVID-19 pandemic when people rely on video calls to stay connected with loved ones. Or it could be used in medical practices. Doctors can feel a patient’s organ tissues with surgical(手术的)tools without touching them.
1.What can we learn about the SSD?| A.It imitates the sense of touch through animal skin. |
| B.It mainly uses vibration technology. |
| C.It makes virtual haptic communication possible. |
| D.It takes the shape of a glove. |
| A.The advantages of the new haptic glove. |
| B.An explanation of how the haptic device works. |
| C.The applications of the new haptic technology. |
| D.A personal experience of using SSDs during a video call. |
| A.Interviewing someone face to face. |
| B.Recreating organ tissues. |
| C.Evaluating surgeries from a distance. |
| D.Feeling a silk scarf being sold online. |
| A.To encourage the use of a new product. |
| B.To introduce the development of haptic technology. |
| C.To compare different haptic devices. |
| D.To inform readers of a new invention. |
同类型试题
y = sin x, x∈R, y∈[–1,1],周期为2π,函数图像以 x = (π/2) + kπ 为对称轴
y = arcsin x, x∈[–1,1], y∈[–π/2,π/2]
sin x = 0 ←→ arcsin x = 0
sin x = 1/2 ←→ arcsin x = π/6
sin x = √2/2 ←→ arcsin x = π/4
sin x = 1 ←→ arcsin x = π/2
y = sin x, x∈R, y∈[–1,1],周期为2π,函数图像以 x = (π/2) + kπ 为对称轴
y = arcsin x, x∈[–1,1], y∈[–π/2,π/2]
sin x = 0 ←→ arcsin x = 0
sin x = 1/2 ←→ arcsin x = π/6
sin x = √2/2 ←→ arcsin x = π/4
sin x = 1 ←→ arcsin x = π/2
