WiMi Hologram Cloud Inc. announced that it successfully integrated the visual-brain-computer interface (V-BCI) into the holographic eyewear interaction system, resulting in a more efficient and immersive user experience. Currently, traditional human-computer interaction mainly relies on input methods such as gestures and voice, which has achieved a breakthrough in human-computer interaction, but still falls short in terms of the effectiveness and efficiency of the user experience. In order to improve the interaction experience of holographic glasses, WiMi's V-BCI realizes direct communication between the brain and the computer by recording the user's EEG signals, thus enabling the user to manipulate AR content more intuitively and efficiently.

However, to implement V-BCI technology in holographic eyewear applications, challenges such as real-time and accuracy of EEG devices need to be overcome. WiMi's V-BC I-BCI-based interaction technology for holographic eyewear utilizes lightweight wearable hardware designed for AR eyewear scenarios. The design of this hardware focuses on enabling a fast setup, reliable recording and comfortable wearable experience.

Importantly, the hardware ensures highly accurate recording of EEG signals while being lightweight. It enables users to easily enjoy high-quality brain-computer interaction while wearing holographic glasses. To optimize the real-time interactivity of the system for this technology, an innovative software framework was developed.

This framework not only makes the system more flexible, but also improves the scalability of module configurations. Specifically, the framework supports real-time data processing and can respond quickly to the user's EEG signals, enabling more natural and instantaneous eyeglass interaction. Moreover, the modular design of the framework means that users can configure it as needed to personalize their AR experience.

WiMi has tested the technology in a series of small games and IoT AR applications. These applications have been used effectively in real-world scenarios, not only proving the feasibility of the technology, but also demonstrating its technical advantages of intuitive experience and efficient interaction. This technology will inject new vitality into the AR industry.

By fusing vision and BCI, users can interact with AR content more intuitively and efficient interaction. This will propel AR glasses to evolve from a simple information presentation tool to a powerful interaction platform, providing users with a more enjoyable digital experience. WiMi's V- BCI-based holographic glasses interaction technology marks an important milestone in AR technology.

By breaking through the limitations of traditional human-computer interaction, it provides users with a more efficient way of interaction and promotes the wide application of AR technology in the field of holographic glasses. In the future, WiMi will continue to research and push forward to create a more intelligent and immersive digital experience for users.