A new haptic ring for VR is trying to solve a stubborn problem, virtual touch still feels flat. Researchers from Sungkyunkwan University, EPFL, and Istanbul Technical University built an origami-inspired wearable called OriRing that weighs 18 grams and can push back with up to 6.5 newtons of force.
OriRing measures both pressing and sliding forces on your finger, then generates physical resistance to match what you’re doing in VR or AR. The researchers say it can represent object size and stiffness, and it can also take user input to change those properties on the fly.
Recommended VideosIt’s still a prototype, and the write-up doesn’t include pricing, a release window, or any consumer headset partnerships.
Origami tricks make it wearable
Kinesthetic haptics tend to get bulky fast, especially when a device needs to push back instead of vibrate. OriRing leans on an origami-inspired structure to transmit force in a compact form, aiming to keep the hardware light enough to actually wear on a finger.
In testing, the setup delivered three-degree force feedback and three-axis sensing, including lateral motion you notice when you slide across a surface. That’s the sort of cue your hand uses to read edges and resistance, not just tap events.
Kang et al. (Nature Electronics, 2025)
Why VR touch still feels fake
Most consumer VR haptics are great at signaling something happened, but weaker at convincing your brain an object has shape or give. Force feedback tackles that gap by adding pushback, which can make interactions feel closer to contact than a notification.
Bidirectional design is the bigger promise. The device outputs a force while also tracking what your finger is doing in multiple directions, including sliding. That combination can let developers scale feedback as you press harder, drag along an edge, or squeeze a soft object, while also capturing more expressive input than a simple trigger.
The paper frames it for both VR and AR, where tactile realism can matter even more because your eyes are anchored in the real world. Still, it doesn’t spell out latency, battery life, or long-session comfort.
What to watch next
The next proof point is how well this holds up outside tidy demos. Fast interactions, repeated grabs, and constant micro-movements will show whether multi-direction sensing stays stable when content gets hectic.
If it does, early fit looks strongest in structured experiences like training, guided AR tasks, and rehab-style exercises, where size and stiffness cues can support consistent motion and feedback loops. Games could follow, but reliability tends to win first.
A consumer path depends on basics that aren’t answered yet. There’s no timeline, no durability readout, and no clear signal on how it would integrate with existing VR platforms. Watch for a follow-up that includes real-world testing and integration details, that’s where this haptic ring for VR either breaks through or stays a lab curiosity.