⚠️ Beta / Active Development - Not for Production Use
This product is in Research and is NOT intended for production deployments.
- Subject to breaking changes without notice
- Not covered by service level agreements
- May contain bugs, errors, or security vulnerabilities
- Features may be modified or removed
- Provided "AS IS" without warranties
For production use, select Generally Available (GA) products only.
NIOS
ResearchNeural-Interface Operating System
NIOS is a vision-focused neural interface operating system designed to bridge human cognition and AI agents through non-invasive neural signals and brain-computer interfaces. It represents the future of human-AI collaboration where intent, not commands, drives interaction. NIOS captures human cognitive signals—attention, intent, emotional state, decision patterns, and contextual awareness—via non-invasive sensors (EEG, fNIRS, eye tracking, biosignals) and translates them into semantic structures that AI agents can interpret and act upon. The system enables real-time co-working interfaces where humans and AI agents share execution context across applications: a human thinks about a task, NIOS captures the intent, routes it to the appropriate AI agent, and the agent executes while maintaining bidirectional feedback loops. NIOS operates as a neural co-working OS that eliminates the keyboard-mouse-screen bottleneck, enabling fluid thought-to-action workflows for knowledge work, creative tasks, research, and mission-critical operations. The architecture includes adaptive learning loops that improve intent recognition over time, verifiable semantic reasoning to ensure AI agents correctly interpret human intent, privacy-preserving neural data processing with on-device computation, and integration with AIOS for seamless agent orchestration. NIOS is positioned as a long-term research initiative exploring the intersection of neuroscience, AI, and human-computer interaction.
Neural signals
Interface
Non-invasive
Modality
On-device
Processing
Encrypted
Privacy
AIOS-native
Integration
Research
Stage
Stack Capabilities
What NIOS delivers
Non-invasive neural signal capture via EEG, fNIRS, eye tracking, and biosensors
Intent recognition and semantic translation from cognitive signals to agent-executable structures
Real-time co-working interface between human cognition and AI agents
Bidirectional feedback loops enabling humans to monitor and guide agent execution
Adaptive learning loops that improve intent recognition accuracy over time
Privacy-preserving neural data processing with on-device computation and encrypted transmission
Verifiable semantic reasoning ensuring AI agents correctly interpret human intent
Integration with AIOS for seamless agent orchestration and shared cognitive memory
Context-aware routing of intent to appropriate AI agents based on task domain
Thought-to-action workflows eliminating keyboard-mouse-screen bottlenecks
Support for knowledge work, creative tasks, research, and mission-critical operations
Neuroscience-backed cognitive models for attention, decision-making, and emotional state
Interfaces & Modules
Integration surfaces
Deployment
Where it runs
Research labs, neuroscience institutes, human-AI interaction studies, future consumer devices
Total Addressable Market (Yr.2030)
$5B
Third-Party Services & Dependencies
CUI Labs products integrate with and depend on third-party services including blockchain networks, cloud infrastructure providers, cryptographic libraries, identity providers, and certificate authorities.
CUI Labs is not responsible for:
- Availability, performance, or security of third-party services
- Changes to third-party APIs, protocols, or standards
- Third-party service outages, breaches, or failures
- Costs associated with third-party services
- Compliance of third-party services with applicable laws
Performance metrics and capabilities may be affected by third-party service limitations. Customers are responsible for evaluating and accepting risks associated with third-party dependencies.
FAQ
Common questions about NIOS
Is NIOS invasive?
No. NIOS uses non-invasive neural signals to bridge human cognition and AI. It captures human intent through external sensors and routes to AI agents for shared execution across applications, without requiring surgical implants.
What signals does NIOS capture?
NIOS captures cognitive signals via non-invasive sensors including EEG, fNIRS, eye tracking, and biosignals — covering attention, intent, emotional state, decision patterns, and contextual awareness. Those signals are translated into semantic structures that AI agents can interpret, so co-working flows work in terms of intent rather than commands.
How does NIOS protect neural data?
NIOS uses privacy-preserving processing: on-device computation and encrypted transmission keep raw neural signals local. Verifiable semantic reasoning ensures that the AI agent's interpretation of human intent can be checked, and integration with AIOS keeps agent orchestration inside the same governed substrate rather than scattering signals across third-party services.
Interested in NIOS?
Discuss deployment options, technical evaluations, and structured pilots with the CUI Labs engineering team.