NEUROPHET tES LAB  is a simulation software that calculates and visualizes brain stimulation effects based on the individual brain structure and stimulus conditions. Take advantage of updated studies reflecting analysis on stimulators and individual brain structures and optimized parameter calculations that focus on target areas.

Brain stimulation simulation software

 
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Experience brain stimulation simulation for free.

Electric field modeling Software for tES
AUTO SEGMENTATION

FULLY AUTOMATED BRAIN SEGMENTATION

Using T1-weighted MRI data, the AI engine segments it automatically. Even skin and skulls that are crucial factors for tDCS can be segmented.
The automatic brain modeling engine generates a 3D individual brain model based on the MRI data segmentation. This will increase accuracy in positioning electrodes and result in better stimulation effects.

PERSONALIZED 3D MODEL GENERATION

​PERSONALIZED 3D MODEL
ELECTRODE CUSTOMIZING

QUICK & EASY ELECTRODE CUSTOMIZING

Users can customize electrodes in sizes, shapes, numbers and position with just a few clicks. Selecting types of stimulation by tDCS/tACS/tDCS Optimization/10-20 System-based Optimization is also available.
NEUROPHET tES LAB provides you with effective stimulation result analysis. A variety of expressions and visualizations are also available.

EFFECTIVE STIMULATION RESULT ANALYSIS

RESULT ANALYSIS
Using human templates 
A variety of human templates including MRI and 3D models is provided for a fast and easy research environment.
Electrode attachment guide
tES LAB provides electrode attachment guides for accurate measurement when attaching electrodes.
Stimulation optimization
Calculates the position of the electrodes that apply the optimum stimulation to the target point.
Editable expression
You can enter the formula yourself or select a simple formula to view the results.
Auto segmentation
Supports ultra-fast, full-automatic segmentation. It's optimized for tES research, with all the details of the brain, bones, and skin.
Electrode customizing
Circle, square, and ring type electrodes can be created to suit the desired size. It is compatible with most electrodes.
Simulate stimulation results
Simulate the results of the stimulation. Users can analyze their results in a variety of ways.
In/Outward electric field
Easily view and enter or extract data from the Inward / Outward electric field.
MRI to 3D models
Create high-performance 3D models using MRI segmentation data. This enables you to  undertake a more personalized research.
tDCS/tACS available
tDCS as well as tACS simulation is possible. Several parameter settings make it compatible with various devices.
Various color maps
Use different color maps to analysis simulation results.
Data export

3D models and result data can be extracted and used for collaboration with other studies. (matlab / python)

FEATURES
Work faster and effectively with features such as segmentation, modeling, electrode placement, and simulation.