For laboratories that need precise control over the vestibular system.
Your vestibular research, more controlled, cleaner, more publishable.
Move from DIY experimental setups to a structured, reproducible scientific platform that integrates into your protocols.
Built for teams pushing the boundaries of vestibular research.
Neuroscience laboratories
Controlled and reproducible vestibular stimulation protocols for your publications.
VR & cybersickness teams
Native integration with immersive environments and real-time engines.
Multisensory perception researchers
Precise synchronization with inertial sensors, eye-tracking, and software events.
Vestibular rehabilitation centers
Individualized settings and complete traceability for each patient.
The challenge
The vestibular system is at the core of many research challenges.
Balance
Understanding postural mechanisms and stability control.
Motion perception
Studying visuo-vestibular interactions and spatial navigation.
Cybersickness
Reducing simulator sickness in immersive environments.
Neurological pathologies
Exploring new vestibular therapeutic approaches.
Yet, available tools are holding research back.
Poorly accessible
Expensive equipment, often reserved for a few specialized labs.
Hard to integrate
Incompatible with modern protocols: VR, inertial sensors, software events.
Not reproducible
DIY setups with no traceability or session standardization.
Before Neural Sense vs. With Neural Sense
Without a dedicated platform
- Heterogeneous, cobbled-together setups
- Imprecise, manual calibration
- Protocols difficult to reproduce
- Data hard to compare across sessions
- No session traceability
With Neural Sense
- Integrated, ready-to-use platform
- Controlled and documented calibration
- 100% reproducible parameters
- Standardized, exportable data
- Complete automatic session logging
GVS engineered for your protocols
Neural Sense rethinks GVS instrumentation to meet the demands of modern research: precise control, reproducibility, and integration with your experimental environments.
Parameter control
Waveform, intensity, duration, and ramping are fully configurable. Every parameter is adjustable and documented to ensure protocol fidelity.
Native reproducibility
Automatic logging, individualized calibration, and standardized export: every session is traceable and every protocol is reproducible across subjects.
Compliance & safety
Parameters bounded per literature recommendations, real-time impedance monitoring, and automatic shutdown on anomaly detection.
Our solution
Neural Sense is a galvanic vestibular stimulation (GVS) platform designed for scientific research.
A system designed for research
Every component has been engineered to meet the demands of modern scientific protocols.
Stimulator
Precise control of intensity and waveforms, with automatic logging of every session.
Electrodes
Dedicated vestibular stimulation electrode system, ensuring reproducible placement and optimal contact.
Software & API
Control interface and open API for integration into your experimental environments (VR, sensors, IMU).
Imagine your protocol with Neural Sense.
Example: cybersickness protocol in virtual reality
Automatic calibration
Individual perception threshold detected in minutes.
Synchronized stimulation
GVS triggers in real time based on your VR environment events.
Integrated logging
Every stimulation parameter is recorded and timestamped automatically.
Export & analysis
Standardized data, ready for statistical analysis and publication.
What sets us apart
Fine control & safety
- Precise intensity settings
- Programmable sequences
- Session logging
- Documented individual calibration
Modern experimental integration
- Compatible with VR environments
- Synchronization with IMU / software events
- Usable in multi-factor protocols
Structured scientific approach
Neural Sense relies on:
- Existing literature
- Active publication monitoring
- Documented protocols
- Complete session traceability
Research domains
The Neural Sense platform integrates into numerous research protocols in neuroscience and movement science.
Cybersickness
Study and reduction of simulator sickness in virtual reality environments.
Vestibular rehabilitation
Balance rehabilitation protocols for patients with vestibular disorders.
Multisensory perception
Research on the integration of visual, proprioceptive, and vestibular signals.
Posture & locomotion
Analysis of vestibular influence on postural control and gait.
Sensory integration in VR
Improving sensory coherence in immersive environments.
A rigorous scientific approach
Neural Balance Innovation is dedicated to the study and controlled application of vestibular stimulation in immersive environments.
Transform GVS from a niche experimental tool into a robust and accessible scientific platform.
Scientific literature
Our approach builds on the state of the art in vestibular stimulation research.
Documented protocols
Every use is traceable, every session is reproducible.
Open collaboration
We work with laboratories and clinicians to validate and improve our solutions.
Ready to structure your vestibular research?
Choose your level of engagement.