Lynx Unveils Lynx-R2 Headset With Ultra-Wide Field-of-View in a Compact Form Factor
Lynx-R2 Headset With Ultra-Wide Field-of-View in a Compact Form Factor unveiled
Synopsis
- Lynx introduces the Lynx-R2 as a major mixed-reality upgrade targeting enterprise and prosumer users.
- The headset delivers a substantially wider field-of-view, higher visual clarity, and a more open hardware approach.
- An Android-based Lynx OS and open sensor access position the device for advanced industrial and medical use.
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They have revealed the Lynx-R2, a next-generation mixed-reality standalone headset that represents a substantial step forward from the company’s original R1 device, according to reporting by Road to VR. The France-based startup positions the R2 as a more capable system aimed squarely at enterprise deployments and high-end prosumers seeking broader visual immersion and deeper system control.
At the core of the update is a new optical system built around Hypervision aspheric pancake lenses, which the company says deliver a 126-degree horizontal field-of-view. This marks a notable increase over the 90-degree horizontal field-of-view of the R1 and exceeds the 110-degree horizontal field-of-view commonly cited for Meta’s Quest 3. The wider viewing angle is paired with dual 2.3K LCD displays, producing more than 24 pixels per degree at the center of the image. Lynx says this combination enables crisp text and image rendering suited to industrial workflows and medical visualization.
While the headset retains the same flip-up visor design introduced with the R1, the internal platform has been significantly upgraded. Lynx-R2 is powered by Qualcomm’s Snapdragon XR2 Gen 2 processor, delivering marked gains in GPU and AI performance over the Snapdragon XR2 Gen 1 used in the 2021-era R1. These improvements are intended to support more demanding mixed-reality workloads and real-time computer-vision applications.
The headset includes six-degrees-of-freedom head tracking alongside hand tracking, controller tracking, and ring tracking. A full-color camera system based on a four-sensor Sony array provides RGB passthrough video and depth sensing, enabling advanced spatial understanding and computer-vision features. Lynx says this sensor stack is designed to support complex enterprise scenarios where environmental awareness and precision tracking are essential.
Although Lynx-R2 was initially expected to ship with Android XR, the company now plans to launch the device with its own Lynx OS following Google’s decision to withdraw platform support. Lynx OS is based on Android 14, allowing users to sideload Android APKs while also supporting OpenXR 1.1 for cross-platform application development. This approach is intended to preserve compatibility with existing XR software ecosystems while maintaining greater platform independence.
In a move that further differentiates the device, Lynx says it will publish all electronic schematics for the headset motherboard along with mechanical design blueprints. According to the company, this will allow academics and hobbyists to modify the hardware freely. Developers will also gain access to raw sensor data, enabling custom computer-vision pipelines and specialized applications. Lynx adds that the headset will support full offline functionality, a requirement for sectors such as defense, healthcare, and industrial operations where network access may be restricted.
Reflecting on the evolution of the product line, Lynx Mixed Reality founder and chief executive Stan Larroque said the R1 demonstrated that a small independent team could deliver a world-class mixed-reality device. With the R2, he said, the company is showing that an open ecosystem provides a more effective way to design XR hardware. Larroque noted that feedback from third-party developers and enterprise users emphasized the need for a wider field-of-view, faster processing, and full ownership of sensor data, rather than incremental display upgrades alone.
Lynx says there is no confirmed launch date yet, but the Lynx-R2 is expected to be available for order starting this summer through the company’s official portal and authorized enterprise resellers.
Lynx-R2 Specifications (as indicated by Lynx)
Display: 2.3K per eye LCD
Lens Type: Hypervision aspheric pancake
Pixels Per Degree: More than 24 PPD at center
Field-of-View: 126° horizontal, 133° diagonal
Refresh Rate: Not specified
IPD Adjustment: Yes
Eye Relief Adjustment: Yes
Glasses Support: Yes
Processor: Qualcomm Snapdragon XR2 Gen 2
Cooling System: Active cooling with dual silent fans
Operating System: Lynx OS (Android 14-based)
OpenXR Support: OpenXR 1.1
Passthrough: Full-color video passthrough using Sony RGB cameras
Passthrough Resolution: 3K × 3K per eye
Tracking Cameras: Four, supporting head, hand, ring, and controller tracking
Depth Camera: Yes
IR LEDs: Yes
Supported Engines: Unity, Unreal, StereoKit
Battery Placement: Rear-mounted
Battery Access: User-replaceable
Strap Type: Rigid
Weight: Not specified
Source: Road to VR – Have a Story? Address it to the Editor and submit it here
About Lynx Mixed Reality
Lynx Mixed Reality is a France-based XR hardware startup focused on developing open, mixed-reality headsets for enterprise, professional, and research users. The company first entered the market with the Lynx-R1, introduced in 2021, positioning itself as an independent alternative to closed XR ecosystems. Founded by Stan Larroque, Lynx has emphasized hardware transparency, developer access, and platform openness as core design principles. Its devices are built to support industrial, medical, and research use cases that require precise tracking, advanced computer vision, and offline operation. With the Lynx-R2, the company continues to pursue an open-ecosystem approach by providing access to raw sensor data, publishing hardware schematics, and supporting OpenXR standards. Lynx Mixed Reality aims to give organizations greater ownership over their XR tools while maintaining compatibility with established development engines and workflows.
Source: Road to VR – Have a Story? Address it to the Editor and submit it here
Featured image Source: Road to VR
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