NextMind is a neurotechnology company that was acquired by Snap Inc. in 2022, specializing in non-invasive brain-computer interface (BCI) technology. Founded in 2017 and headquartered in Paris, France, NextMind developed a wearable electroencephalography (EEG) device that decodes visual attention and other cognitive states in real-time, enabling users to control digital interfaces through mental activity alone.
The company's technology represents a significant advancement in consumer-grade BCI devices, making neurotechnology accessible outside clinical and research settings. By leveraging machine learning and advanced signal processing, NextMind translated complex neural signals into actionable commands that can be integrated with various platforms including gaming, virtual reality, and accessibility applications.
| Attribute |
Details |
| Headquarters |
Paris, France |
| Founded |
2017 |
| Acquired by |
Snap Inc. |
| Acquisition Date |
2022 |
| Focus |
Non-invasive BCI, neural imaging technology |
NextMind's technology is based on non-invasive electroencephalography (EEG), a method of recording electrical activity of the brain using electrodes placed on the scalp. Unlike invasive BCI approaches that require surgical implantation of electrodes, NextMind's solution uses a wearable headband device that captures neural signals through dry sensors.
-
Hardware
- Wearable EEG headband with dry electrodes
- Compact form factor for consumer use
- Wireless connectivity (Bluetooth)
- Rechargeable battery
-
Software
- Real-time signal processing algorithms
- Machine learning models for neural decoding
- Application programming interfaces (APIs)
- Visualization and feedback tools
The NextMind system processes neural signals through several stages:
- Signal Acquisition: EEG electrodes capture electrical activity from the brain
- Preprocessing: Filtering, artifact rejection, and signal conditioning
- Feature Extraction: Identification of relevant signal components
- Classification: Machine learning algorithms decode cognitive states
- Translation: Conversion of neural patterns to commands
- Spatial filtering: Enhancing signal-to-noise ratio
- Feature selection: Identifying discriminative neural features
- Classification: Decoding user intent from neural patterns
- Adaptive learning: Improving accuracy over time
NextMind's technology enables several consumer applications:
¶ Gaming and Entertainment
The gaming industry represents a significant target for BCI technology. NextMind allows players to control game elements through mental commands:
- Neural controller: Hands-free game control
- Player focus detection: Measuring attention and engagement
- Adaptive difficulty: Games that respond to mental states
- Immersive experiences: Integration with VR/AR
Combined with virtual reality, NextMind enables:
- Mental interaction: Controlling VR environments without controllers
- Attention tracking: Understanding where users focus in VR
- Enhanced immersion: More natural interaction paradigms
NextMind serves neuroscience research and brain mapping:
- Cognitive neuroscience: Studying attention and perception
- Neurofeedback training: Teaching self-regulation of brain activity
- Brain mapping: Identifying neural correlates of mental states
- Interface testing: Developing new HCI paradigms
¶ Accessibility and Assistive Technology
One of the most impactful applications is accessibility for individuals with motor impairments:
- Communication aids: Enabling communication for locked-in syndrome patients
- Environmental control: Operating devices without physical movement
- Augmentative communication: Supplementing existing communication methods
- Independence: Improving quality of life for users with limited mobility
¶ Clinical and Research Applications
NextMind's technology has significant clinical potential in several areas:
The ability to decode attention and cognitive states makes NextMind useful for:
- Attention deficit assessment: Quantifying attention in clinical settings
- Cognitive decline detection: Identifying subtle cognitive changes
- Neuropsychological research: Studying cognitive processes
- Treatment monitoring: Tracking cognitive changes over time
Neurofeedback, a technique where individuals learn to self-regulate their brain activity, can benefit from NextMind's technology:
- ADHD treatment: Attention training protocols
- Anxiety reduction: Stress management through brain self-regulation
- Cognitive enhancement: Improving focus and concentration
- Rehabilitation: Cognitive recovery after injury or disease
While not specifically designed for neurodegenerative diseases, NextMind technology interfaces with key mechanisms relevant to conditions like Alzheimer's disease, Parkinson's disease, and ALS:
- Cognitive monitoring: Tracking attention and memory function
- Early detection: Identifying subtle cognitive changes
- Treatment response: Measuring effects of interventions
- Research tools: Studying cognitive processes in AD
- Motor imagery: Decoding movement intentions
- Deep brain stimulation: Potential integration with neurostimulation
- Rehabilitation: Monitoring motor recovery
- Research: Studying basal ganglia function
- Communication: Primary application for locked-in patients
- Environmental control: Operating devices
- Quality of life: Maintaining independence
- Research: Understanding disease progression
| Parameter |
Specification |
| Electrodes |
Dry EEG sensors |
| Sampling rate |
~256 Hz |
| Channels |
4-8 EEG channels |
| Connectivity |
Bluetooth Low Energy |
| Battery |
Rechargeable Li-ion |
| Compatibility |
Windows, macOS, mobile |
- Windows 10/11
- macOS 11+
- iOS 14+
- Android 10+
- Unity game engine
- Unreal Engine
NextMind provides a software development kit (SDK) for developers:
- API access: Programmatic control of device
- Unity plugin: Game engine integration
- Example applications: Demo applications
- Documentation: Technical guides
NextMind has established collaborations with various research and industry partners:
- MIT Media Lab: Brain and cognitive sciences research
- Leading neuroscience centers: Brain-computer interface research
- University research programs: Cognitive neuroscience studies
- Valve Corporation: Integration with VR gaming platforms
- Gaming companies: Exploring neural gaming applications
- Accessibility organizations: Assistive technology development
- VR/AR developers: Immersive technology integration
NextMind integrates with popular platforms:
| Platform |
Integration Type |
| Unity |
Native SDK support |
| Unreal Engine |
Plugin availability |
| SteamVR |
VR integration |
| WebXR |
Browser-based applications |
¶ Competitive Landscape
NextMind operates in the brain-computer interface market with both consumer and research competitors:
| Company/Product |
Type |
Key Features |
| Emotiv |
Research-grade EEG |
Comprehensive SDK |
| Muse |
Consumer meditation |
Brain training |
| NeuroSky |
Consumer BCI |
Gaming integration |
| g.tec |
Research |
High-precision EEG |
| Blackrock Microsystems |
Invasive |
Clinical-grade |
NextMind differentiates through:
- Form factor: Comfortable, wearable design
- Ease of use: Consumer-friendly setup
- Visual attention focus: Specialized for attention decoding
- Integration: Strong gaming/VR ecosystem
The NextMind system is based on well-established EEG principles:
EEG captures electrical activity from populations of neurons:
- Oscillations: Rhythmic activity at various frequencies
- Evoked potentials: Responses to stimuli
- Event-related desynchronization: Changes in activity during movement or planning
¶ Key Frequency Bands
| Band |
Frequency |
Associated Function |
| Delta |
0.5-4 Hz |
Deep sleep, unconscious |
| Theta |
4-8 Hz |
Drowsiness, meditation |
| Alpha |
8-13 Hz |
Relaxation, eyes closed |
| Beta |
13-30 Hz |
Active thinking, focus |
| Gamma |
30-100 Hz |
Higher cognitive functions |
NextMind specializes in decoding visual attention:
- Alpha suppression: Reduced alpha power when attending to visual targets
- Occipital activity: Visual cortex activation during attention
- Frontal involvement: Top-down attention control networks
- Gamma activity: Enhanced gamma in attended locations
- Training data: Users focus on specific targets
- Feature extraction: Relevant EEG features extracted
- Classifier training: Machine learning model learns patterns
- Real-time decoding: New data classified continuously
NextMind technology interfaces with several key brain regions:
- Motor Cortex: Motor imagery and intention
- Visual Cortex: Processing visual attention
- Prefrontal Cortex: Cognitive control and attention
- Parietal Cortex: Spatial attention and integration
The BCI technology interfaces with neurodegenerative disease mechanisms:
- Synaptic Transmission: Neural signal decoding
- Neuroplasticity: Cortical adaptation to neural interfaces
- BDNF Signaling: Long-term neural integration
- Cortical Oscillations: Neural decoding foundations
Snap Inc. acquired NextMind in 2022, marking one of the first major acquisitions of a BCI company by a consumer technology giant. The acquisition positions NextMind within Snap's AR/VR strategy.
- AR integration: Neural control for AR experiences
- Camera features: Attention-based camera controls
- Content creation: New creative tools
- Research advancement: Enabling advanced R&D
While specific details are limited, NextMind technology continues to be available for developers and researchers through Snap's ecosystem.
BCI technology raises important ethical questions:
- Mental privacy: Protecting thoughts from unauthorized access
- Data security: Secure storage of neural data
- Consent: Clear consent for data use
- Third-party access: Preventing misuse of neural data
¶ Access and Equity
- Cost barriers: Ensuring equitable access
- Disability access: Prioritizing accessibility applications
- Healthcare integration: Appropriate medical use
- Cognitive enhancement: Ethical boundaries
- Identity and agency: Human-machine integration
- Security: Preventing unauthorized neural control
NextMind technology has several potential development paths:
- Improved accuracy: Enhanced signal processing
- Expanded applications: New use cases
- Platform expansion: Additional device compatibility
- Advanced BCI: More sophisticated neural interfaces
- Medical applications: Therapeutic uses
- Research advancement: Contributing to neuroscience