VIBRE
Vibre specializes in neurotechnologies and neuroscientific research to improve safety and performance in high-risk workplaces and activities. They develop systems that analyze brain data to reduce accidents, errors, and fatigue-related risks, leveraging advanced algorithms and wearable devices. Their solutions are used in various sectors including automotive, healthcare, and sports, aiming to enhance human performance and safety through objective mental state monitoring.
Industries
Nr. of Employees
small (1-50)
Products
Wearable neuro-monitoring system (software + headband)
A combined wearable forehead/headband sensor and software platform that records brain signals, computes attention/fatigue/drowsiness metrics in real time, and provides alerts and reports.
Real-time neural-performance analysis for simulators
Software workflow for synchronizing neural data with simulator telemetry to analyze and correlate operator cognitive states with task performance and lap/mission metrics.
Wearable neuro-monitoring system (software + headband)
A combined wearable forehead/headband sensor and software platform that records brain signals, computes attention/fatigue/drowsiness metrics in real time, and provides alerts and reports.
Real-time neural-performance analysis for simulators
Software workflow for synchronizing neural data with simulator telemetry to analyze and correlate operator cognitive states with task performance and lap/mission metrics.
Services
Neuroergonomic process analysis and reporting
Monitoring of groups performing operational sequences, anonymized data collection across days, and generation of step-by-step reports identifying anomalies and critical issues in work procedures.
Real-time worker monitoring and alerting deployment
Deployment of wearable sensors and analytics to monitor attention, drowsiness, and fatigue in real time, with configurable thresholds for alerts to prevent errors during high-risk tasks.
Integration of neural monitoring with simulators and operational telemetry
Synchronization and joint analysis of neural metrics with external telemetry (e.g., simulators, vehicle data) to correlate cognitive state with task performance.
Deployment, training and remote technical support
Initial technician-led setup and short training for operators, followed by remote assistance to enable independent use of wearable neuro-monitoring systems.
Custom analytics and predictive modeling for cognitive states
Development of bespoke algorithms and predictive models to detect and forecast cognitive states such as fatigue, tailored to customer workflows and data.
Neuroergonomic process analysis and reporting
Monitoring of groups performing operational sequences, anonymized data collection across days, and generation of step-by-step reports identifying anomalies and critical issues in work procedures.
Real-time worker monitoring and alerting deployment
Deployment of wearable sensors and analytics to monitor attention, drowsiness, and fatigue in real time, with configurable thresholds for alerts to prevent errors during high-risk tasks.
Integration of neural monitoring with simulators and operational telemetry
Synchronization and joint analysis of neural metrics with external telemetry (e.g., simulators, vehicle data) to correlate cognitive state with task performance.
Deployment, training and remote technical support
Initial technician-led setup and short training for operators, followed by remote assistance to enable independent use of wearable neuro-monitoring systems.
Custom analytics and predictive modeling for cognitive states
Development of bespoke algorithms and predictive models to detect and forecast cognitive states such as fatigue, tailored to customer workflows and data.
Expertise Areas
- Neuroergonomics and workplace cognitive assessment
- Real-time mental-state monitoring
- Wearable EEG/headband system deployment
- Machine learning for biosignals
Key Technologies
- Wearable EEG/headband sensors
- Bluetooth sensor integration
- Real-time signal processing
- Machine learning for biosignals