By combining scientific expertise with a commitment to ethical innovation, Neuroba is not only advancing the capabilities of non-invasive brain interfaces but also shaping the future of human potential.

Jul 2, 2025 · The performance of flexible brain electronic sensor (FBES) has been validated across a variety of experimental settings, demonstrating their potential for real-world applications.

BCI implementations range from non-invasive (EEG, MEG, MRI) and partially invasive (ECoG and endovascular) to invasive (microelectrode array), based on how physically close electrodes are to …

Jan 12, 2026 · This review systematically examines the representative progress in neural decoding algorithms and flexible bioelectronic platforms over the past decade, highlighting key design …

Explore the peer-reviewed science behind Neurable's non-invasive brain computer interface technology. Over a decade of EEG research powering wearable BCI innovation.

Our wearable devices use advanced sensor technologies, such as EEG and fNIRS (functional near-infrared spectroscopy), to capture brain activity without requiring invasive surgery or uncomfortable …

nto three categories: non-invasive, semi-invasive and invasive. In non. invasive BCI, the sensors are placed on the scalp over the skin. In semi-invasive BCI, the sensors are placed under the skin on the …

Invasive vs. Non-Invasive BCIs BCIs fall into two broad categories based on how they pick up brain signals, and the tradeoff is straightforward: better signal quality requires getting closer to the brain …

Invasive BCIs: Maximum Signal, Maximum Risk An invasive BCI places electrodes directly into the brain tissue itself. Tiny arrays of needle-like sensors are surgically implanted into the cortex, where they sit …

Synchron Stentrode: An investigational, minimally invasive BCI that is implanted into a blood vessel in the brain without open-brain surgery, enabling paralyzed individuals to control digital devices.