New progress in Brain-computer interface research: Implantable interface may empower patients act on their own


The advancement of brain-computer interface (BCI) technology and its application is a positive development. Recently, the teams at Capital Xuanwu Hospital and Tsinghua University Medical School jointly disclosed that patients with paraplegia can accomplish brain control functions, including sipping water, with an accuracy of more than 90% when using an implanted epidural electrode.

Bringing Brain Computer Interfaces Home | The ALS Association

The patient can now operate pneumatic gloves by EEG activity after three months of home rehabilitation training. Additionally, the patient’s sensory evoked potential measurements and SCI clinical ratings have improved. This advancement suggests that BCI technology has progressively transitioned from laboratory to clinical settings, setting the stage for a future of widespread use.

technological advance

As everyone is aware, the subject of brain-computer interface is currently expanding quickly, including a lengthy industrial chain and propelling the rise of emerging markets like cochlear implants and humanoid robots. According to Minsheng Securities, there are hardware and software layers in the brain-computer interface. Electrodes and a BIC chip are part of the hardware EEG acquisition apparatus; the fundamental algorithm and biological signal processing are part of the software layer.

The primary technology and market application of brain-computer interfaces are now in the early stages of development. China is likely to achieve curve overtaking in some directions with the help of resource support, policy tilt, and collective efforts from all parties. China has considerable advantages in core device design and other factors.

Brain-computer interfaces | Complete Anatomy

From an industrial standpoint, things are looking up, with estimates for the global market to reach $3.7 billion by 2027. Similar to the Chinese market, the brain-computer interface business is predicted to have a complete market size exceeding 120 billion yuan by 2040, with a direct market size potentially exceeding 50 billion yuan, according to the qubits special report.

Companies that are listed are spending money on R&D.

Numerous investors and businesses are drawn to enter this industry because to its enormous potential. In an effort to progress the enterprise layout, several venture capital firms have raced to the scene. Google (GOOG), Microsoft (MSFT), and other tech behemoths have also entered the field of brain-computer interface.

Furthermore, despite the fact that the brain-computer interface industry chain is still in its early stages of growth, a number of listed firms have started to attempt to establish themselves in related industries. In order to create a more effective and immersive brain-computer interface application, WiMi Hologram Cloud (NASDAQ: WIMI), the world’s top AI vision enterprise, has successfully integrated vision-computer interface (V-BCI) into the holographic glasses interaction system. The company has also explored the field of intelligent human-computer interaction and has breakthrough technology patents.

Although conventional human-computer interaction has made significant advancements in the field, it still has issues with user experience efficiency and intuitiveness. conventional HCI mostly relies on gestures, speech, and other input techniques. The introduction states that users can control the human-computer interaction material more intuitively and effectively thanks to the direct brain-computer communication (DCI) technology made possible by WiMi Hologram Cloud.

The current state of our understanding of brain-computer interfaces is continuously expanding, which is helping to realize the industry’s rapid development. Although WiMi Hologram Cloud combines brain-computer and visual interfaces to provide more efficient and natural user interaction, this technology will open up a wide range of new application scenarios.

In the medical arena, for example, it is possible to expeditiously verify patient data to promote surgical efficiency; in the educational domain, students can engage in virtual subject interaction via EEG signals to augment the learning process. It is clear that WiMi Hologram Cloud has created a number of user-friendly brain-computer interface products and has accelerated the investigation of applications in common domains like education, rehabilitation, autonomous driving, and virtual reality. These developments indicate the focus and direction for brain-computer interface research and development and increase the technology’s potential market.

In conclusion

Notably, Neuralink, a brain-computer interface firm, has completed the first human brain-computer interface device that has recovered successfully and identified EEG signals. Tesla (TSLA) CEO Elon Musk made this announcement on his social media platform. It must be acknowledged that the concept of a brain-computer interface is becoming more and more tangible thanks to local and international scientific and technology news, which is thrilling.

In summary, recent developments in brain-computer interface technologies provide as further evidence of technology’s transformative potential. Brain-computer interfaces have essentially given us access to the world of the brain in the near future, and listed businesses are anticipated to take the lead in advancing the industry’s growth. The potential for brain-computer interface technology to eventually achieve brain-computer fusion intelligence and increase the human brain’s capacity for information processing is exciting.

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