Real-Time Processing Rapid Prototyping Environment

 

g.HIsys Simulink

 

The g.HIsys Highspeed Online Processing for Simulink lets you collect biosignal data like EEG, ECoG, EMG, EOG and ECG within a Simulink model for further real-time processing and is available for g.MOBIlab+, g.HIamp, g.USBamp and g.Nautilus. Therefore, the device driver blocks for these devices are copied into the Simulink model and are connected to other blocks that do the signal analysis. Then, the model is started, and the device driver guarantees realtime processing.

 

 

g.HIsys Simulink Block Library

 

g.HIsys comes with specialized blocks for biosignal analysis that are needed in many real-time experiments. The library contains blocks for plotting data, pre-processing (source derivation, Notch filter, bandpass filter), transformation (pre-post trigger, cut samples, select channels), feature extraction (on-line averaging, ERD online, online FFT, Pre/ Post PSD, spectrogram, significance analysis), output signals through muscle activity (spasticity control, EOG selection, EMG selection) and a binary decoder.

 

 

 

                        Product Highlights

 

  • Acquire and process EEG, ECoG, ECG, EMG, EOG and spike data directly within Simulink
  • Wireless biosignal data acquisition with g.MOBIlab+ and g.Nautilus
  • Add your own sophisticated data processing algorithms graphically
  • Benefit from the Rapid Prototyping environment for developing, testing and releasing your biosignal applications
  • No compilation of the Simulink model is necessary for real-time analysis
  • Use standard Simulink blocks for online analysis
  • Add your own algorithms, such as MATLAB S-Functions or C S-Functions
  • Store data to the MATLAB workspace or to a MATLAB file
  • Display Evoked Potentials in real-time
  • Acquire eye-movement data together with biosignals
  • Create closed-loop experiments with g.tec’s stimulators
  • Use the g.tec toolboxes with ready to go applications

 

 

g.HIsys Simulink

 

g.HIsys comes with specialized blocks for biosignal analysis that are needed in many real-time experiments. The library contains blocks for plotting data, pre-processing (source derivation, Notch filter, bandpass filter), transformation (pre-post trigger, cut samples, select channels), feature extraction (on-line averaging, ERD online, online FFT, Pre/ Post PSD, spectrogram, significance analysis), output signals through muscle activity (spasticity control, EOG selection, EMG selection) and a binary decoder.

 

g.EYEtracking  Interface Toolbox

 

The g.EYEtracking Interface for SIMULINK allows you to acquire eye gaze and x-, y coordinates of the eye together with biosignal data. The signals can be visualized, stored and analyzed in real-time in SIMULINK and offline in MATLAB. The g.EYEtracking Interface for g.HIsys allows users to acquire biosignal data such as EEG, ECG, EMG, eyetracking information, and other signals in real-time. It provides a block to read gaze data from the eye-tracker simultaneously with other biosignal data coming from g.USBamp, g.HIamp or g.Nautilus wireless EEG system with dry or wet electrodes.

 

g.ESTIM Pro Simulink Interface Toolbox

 

g.tec provides an intracranial stimulator with 80V compliance voltage for electrical stimulation of the cortex with ECoG grids or strips or for depth electrodes. This can be used e.g. to stimulate the sensory cortex to add a touch feeling if robotic devices are controlled with the BCI or for deep brain-stimulation experiments e.g. with Parkinson patients. Stimulation parameters such as on-set time or stimulation current can be set and triggered in real-time from Simulink.

 

g.RTanalyze Real-Time Analysis

 

g.RTanalyze is a biosignal processing blockset for use with Simulink. The g.RTanalyze blocks can be used for on-line simulations under Simulink and for realtime applications with Highspeed Online Processing for Simulink. Drag and drop the pre-processing, parameter estimation and classification algorithms into your SIMULINK realtime application to accelerate your research, encourage creativity and reduce project costs. The blockset enables you to quickly compare multiple algorithms. Use the blocks as templates and make your own modifications.

 

Physio Observer

 

The g.PHYSIOobserver is a complete system to classify different states of a subject based on physiological parameters. The system contains all necessary components to quantify emotions, workload, physical tasks and many other things.

 

CFM Toolbox

 

With this toolbox, you can calculate the amplitude integrated EEG (aEEG) signal from any already recorded EEG signal. The aEEG signal is also known as cerebral function monitor signal (CFM) and is used in the neonatal intensive care unit. The aEEG signal gives a time compressed activity report of the ongoing EEG signal and has gained widespread popularity as an alternative to the conventional EEG monitoring in neonates. aEEG monitoring is very useful for the assessment of ischemic encephalopathy, seizures and intraventricular haemorrhage.

Quick Links:

*** COPYRIGHT @ 2024 UTE ALL RIGHT RESERVED

Contact:

Ultra Technology Engineering (SA0217090-w)

1115, Block A4, Pusat Dagang Setia Jaya, 9 Jalan

PJS 8/9, Bandar Sunway 46150 Selangor, Malaysia

+603 - 8066 6726

 

For any enquiry or sales:

enquiry@ute-my.com

 

For any support:

support@ute-my.com

Community:

Real-Time Processing

Rapid Prototyping Environment

 

g.HIsys Simulink

 

The g.HIsys Highspeed Online Processing for Simulink lets you collect biosignal data like EEG, ECoG, EMG, EOG and ECG within a Simulink model for further real-time processing and is available for g.MOBIlab+, g.HIamp, g.USBamp and g.Nautilus. Therefore, the device driver blocks for these devices are copied into the Simulink model and are connected to other blocks that do the signal analysis. Then, the model is started, and the device driver guarantees realtime processing.

 

 

g.HIsys Simulink Block Library

 

g.HIsys comes with specialized blocks for biosignal analysis that are needed in many real-time experiments. The library contains blocks for plotting data, pre-processing (source derivation, Notch filter, bandpass filter), transformation (pre-post trigger, cut samples, select channels), feature extraction (on-line averaging, ERD online, online FFT, Pre/ Post PSD, spectrogram, significance analysis), output signals through muscle activity (spasticity control, EOG selection, EMG selection) and a binary decoder.

 

 

 

                        Product Highlights

 

  • Acquire and process EEG, ECoG, ECG, EMG, EOG and spike data directly within Simulink
  • Wireless biosignal data acquisition with g.MOBIlab+ and g.Nautilus
  • Add your own sophisticated data processing algorithms graphically
  • Benefit from the Rapid Prototyping environment for developing, testing and releasing your biosignal applications
  • No compilation of the Simulink model is necessary for real-time analysis
  • Use standard Simulink blocks for online analysis
  • Add your own algorithms, such as MATLAB S-Functions or C S-Functions
  • Store data to the MATLAB workspace or to a MATLAB file
  • Display Evoked Potentials in real-time
  • Acquire eye-movement data together with biosignals
  • Create closed-loop experiments with g.tec’s stimulators
  • Use the g.tec toolboxes with ready to go applications

 

 

g.HIsys Simulink

 

g.HIsys comes with specialized blocks for biosignal analysis that are needed in many real-time experiments. The library contains blocks for plotting data, pre-processing (source derivation, Notch filter, bandpass filter), transformation (pre-post trigger, cut samples, select channels), feature extraction (on-line averaging, ERD online, online FFT, Pre/ Post PSD, spectrogram, significance analysis), output signals through muscle activity (spasticity control, EOG selection, EMG selection) and a binary decoder.

 

g.EYEtracking  Interface Toolbox

 

The g.EYEtracking Interface for SIMULINK allows you to acquire eye gaze and x-, y coordinates of the eye together with biosignal data. The signals can be visualized, stored

and analyzed in real-time in SIMULINK and offline in MATLAB. The g.EYEtracking Interface for g.HIsys allows users to acquire biosignal data such as EEG, ECG, EMG, eyetracking information, and other signals in real-time. It provides a block to read gaze data from the eye-tracker simultaneously with other biosignal data coming from g.USBamp, g.HIamp or g.Nautilus wireless EEG system with dry or wet electrodes.

 

g.ESTIM Pro Simulink Interface Toolbox

 

g.tec provides an intracranial stimulator with 80V compliance voltage for electrical stimulation of the cortex with ECoG grids or strips or for depth electrodes. This can be used e.g. to stimulate the sensory cortex to add a touch feeling if robotic devices are controlled with the BCI or for deep brain-stimulation experiments e.g. with Parkinson patients. Stimulation parameters such as on-set time or stimulation current can be set and triggered in real-time from Simulink.

 

g.RTanalyze Real-Time Analysis

 

g.RTanalyze is a biosignal processing blockset for use with Simulink. The g.RTanalyze blocks can be used for on-line simulations under Simulink and for realtime applications with Highspeed Online Processing for Simulink. Drag and drop the pre-processing, parameter estimation and classification algorithms into your SIMULINK realtime application to accelerate your research, encourage creativity and reduce project costs. The blockset enables you to quickly compare multiple algorithms. Use the blocks as templates and make your own modifications.

 

Physio Observer

 

The g.PHYSIOobserver is a complete system to classify different states of a subject based on physiological parameters. The system contains all necessary components to quantify emotions, workload, physical tasks and many other things.

 

CFM Toolbox

 

With this toolbox, you can calculate the amplitude integrated EEG (aEEG) signal from any already recorded EEG signal. The aEEG signal is also known as cerebral function monitor signal (CFM) and is used in the neonatal intensive care unit. The aEEG signal gives a time compressed activity report of the ongoing EEG signal and has gained widespread popularity as an alternative to the conventional EEG monitoring in neonates. aEEG monitoring is very useful for the assessment of ischemic encephalopathy, seizures and intraventricular haemorrhage.

 

Quick Links:

*** COPYRIGHT @ 2024 UTE ALL RIGHT RESERVED

Contact:

Ultra Technology Engineering (SA0217090-w)

1115, Block A4, Pusat Dagang Setia Jaya, 9 Jalan

PJS 8/9, Bandar Sunway 46150 Selangor, Malaysia

+603 - 8066 6726

 

For any enquiry or sales:

enquiry@ute-my.com

 

For any support:

support@ute-my.com

Community:

Real-Time Processing

Rapid Prototyping Environment

 

g.HIsys Simulink

 

The g.HIsys Highspeed Online Processing for Simulink lets you collect biosignal data like EEG, ECoG, EMG, EOG and ECG within a Simulink model for further real-time processing and is available for g.MOBIlab+, g.HIamp, g.USBamp and g.Nautilus. Therefore, the device driver blocks for these devices are copied into the Simulink model and are connected to other blocks that do the signal analysis. Then, the model is started, and the device driver guarantees realtime processing.

 

 

g.HIsys Simulink Block Library

 

g.HIsys comes with specialized blocks for biosignal analysis that are needed in many real-time experiments. The library contains blocks for plotting data, pre-processing (source derivation, Notch filter, bandpass filter), transformation (pre-post trigger, cut samples, select channels), feature extraction (on-line averaging, ERD online, online FFT, Pre/ Post PSD, spectrogram, significance analysis), output signals through muscle activity (spasticity control, EOG selection, EMG selection) and a binary decoder.

 

 

 

                        Product Highlights

 

  • Acquire and process EEG, ECoG, ECG, EMG, EOG and spike data directly within Simulink
  • Wireless biosignal data acquisition with g.MOBIlab+ and g.Nautilus
  • Add your own sophisticated data processing algorithms graphically
  • Benefit from the Rapid Prototyping environment for developing, testing and releasing your biosignal applications
  • No compilation of the Simulink model is necessary for real-time analysis
  • Use standard Simulink blocks for online analysis
  • Add your own algorithms, such as MATLAB S-Functions or C S-Functions
  • Store data to the MATLAB workspace or to a MATLAB file
  • Display Evoked Potentials in real-time
  • Acquire eye-movement data together with biosignals
  • Create closed-loop experiments with g.tec’s stimulators
  • Use the g.tec toolboxes with ready to go applications

 

 

g.HIsys Simulink

 

g.HIsys comes with specialized blocks for biosignal analysis that are needed in many real-time experiments. The library contains blocks for plotting data, pre-processing (source derivation, Notch filter, bandpass filter), transformation (pre-post trigger, cut samples, select channels), feature extraction (on-line averaging, ERD online, online FFT, Pre/ Post PSD, spectrogram, significance analysis), output signals through muscle activity (spasticity control, EOG selection, EMG selection) and a binary decoder.

 

g.EYEtracking  Interface Toolbox

 

The g.EYEtracking Interface for SIMULINK allows you to acquire eye gaze and x-, y coordinates of the eye together with biosignal data. The signals can be visualized, stored and analyzed in real-time in SIMULINK and offline in MATLAB. The g.EYEtracking Interface for g.HIsys allows users to acquire biosignal data such as EEG, ECG, EMG,

eyetracking information, and other signals in real-time. It provides a block to read gaze data from the eye-tracker simultaneously with other biosignal data coming from g.USBamp, g.HIamp or g.Nautilus wireless EEG system with dry or wet electrodes.

 

g.ESTIM Pro Simulink Interface Toolbox

 

g.tec provides an intracranial stimulator with 80V compliance voltage for electrical stimulation of the cortex with ECoG grids or strips or for depth electrodes. This can be used e.g. to stimulate the sensory cortex to add a touch feeling if robotic devices are controlled with the BCI or for deep brain-stimulation experiments e.g. with Parkinson patients. Stimulation parameters such as on-set time or stimulation current can be set and triggered in real-time from Simulink.

 

g.RTanalyze Real-Time Analysis

 

g.RTanalyze is a biosignal processing blockset for use with Simulink. The g.RTanalyze blocks can be used for on-line simulations under Simulink and for realtime applications with Highspeed Online Processing for Simulink. Drag and drop the pre-processing, parameter estimation and classification algorithms into your SIMULINK realtime application to accelerate your research, encourage creativity and reduce project costs. The blockset enables you to quickly compare multiple algorithms. Use the blocks as templates and make your own modifications.

 

Physio Observer

 

The g.PHYSIOobserver is a complete system to classify different states of a subject based on physiological parameters. The system contains all necessary components to quantify emotions, workload, physical tasks and many other things.

 

CFM Toolbox

 

With this toolbox, you can calculate the amplitude integrated EEG (aEEG) signal from any already recorded EEG signal. The aEEG signal is also known as cerebral function monitor signal (CFM) and is used in the neonatal intensive care unit. The aEEG signal gives a time compressed activity report of the ongoing EEG signal and has gained widespread popularity as an alternative to the conventional EEG monitoring in neonates. aEEG monitoring is very useful for the assessment of ischemic encephalopathy, seizures and intraventricular haemorrhage.

 

Quick Links:

Contact:

Ultra Technology Engineering (SA0217090-w)

1115, Block A4, Pusat Dagang Setia Jaya, 9 Jalan

PJS 8/9, Bandar Sunway 46150 Selangor, Malaysia

+603 - 8066 6726

 

For any enquiry or sales:

enquiry@ute-my.com

 

For any support:

support@ute-my.com

Community:

*** COPYRIGHT @ 2024 UTE ALL RIGHT RESERVED

Real-Time Processing

Rapid Prototyping Environment

 

g.HIsys Simulink

 

The g.HIsys Highspeed Online Processing for Simulink lets you collect biosignal data like EEG, ECoG, EMG, EOG and ECG within a Simulink model for further real-time processing and is available for g.MOBIlab+, g.HIamp, g.USBamp and g.Nautilus. Therefore, the device driver blocks for these devices are copied into the Simulink model and are connected to other blocks that do the signal analysis. Then, the model is started, and the device driver guarantees realtime processing.

 

 

g.HIsys Simulink Block Library

 

g.HIsys comes with specialized blocks for biosignal analysis that are needed in many real-time experiments. The library contains blocks for plotting data, pre-processing (source derivation, Notch filter, bandpass filter), transformation (pre-post trigger, cut samples, select channels), feature extraction (on-line averaging, ERD online, online FFT, Pre/ Post PSD, spectrogram, significance analysis), output signals through muscle activity (spasticity control, EOG selection, EMG selection) and a binary decoder.

 

 

 

                        Product Highlights

 

  • Acquire and process EEG, ECoG, ECG, EMG, EOG and spike data directly within Simulink
  • Wireless biosignal data acquisition with g.MOBIlab+ and g.Nautilus
  • Add your own sophisticated data processing algorithms graphically
  • Benefit from the Rapid Prototyping environment for developing, testing and releasing your biosignal applications
  • No compilation of the Simulink model is necessary for real-time analysis
  • Use standard Simulink blocks for online analysis
  • Add your own algorithms, such as MATLAB S-Functions or C S-Functions
  • Store data to the MATLAB workspace or to a MATLAB file
  • Display Evoked Potentials in real-time
  • Acquire eye-movement data together with biosignals
  • Create closed-loop experiments with g.tec’s stimulators
  • Use the g.tec toolboxes with ready to go applications

 

 

g.HIsys Simulink

 

g.HIsys comes with specialized blocks for biosignal analysis that are needed in many real-time experiments. The library contains blocks for plotting data, pre-processing (source derivation, Notch filter, bandpass filter), transformation (pre-post trigger, cut samples, select channels), feature extraction (on-line averaging, ERD online, online FFT, Pre/ Post PSD, spectrogram, significance analysis), output signals through muscle activity (spasticity control, EOG selection, EMG selection) and a binary decoder.

 

g.EYEtracking  Interface Toolbox

 

The g.EYEtracking Interface for SIMULINK allows you to acquire eye gaze and x-, y coordinates of the eye together with biosignal data. The signals can be visualized, stored and analyzed in real-time in SIMULINK and offline in MATLAB. The g.EYEtracking Interface for g.HIsys allows users to acquire biosignal data such as EEG, ECG, EMG,

eyetracking information, and other signals in real-time. It provides a block to read gaze data from the eye-tracker simultaneously with other biosignal data coming from g.USBamp, g.HIamp or g.Nautilus wireless EEG system with dry or wet electrodes.

 

g.ESTIM Pro Simulink Interface Toolbox

 

g.tec provides an intracranial stimulator with 80V compliance voltage for electrical stimulation of the cortex with ECoG grids or strips or for depth electrodes. This can be used e.g. to stimulate the sensory cortex to add a touch feeling if robotic devices are controlled with the BCI or for deep brain-stimulation experiments e.g. with Parkinson patients. Stimulation parameters such as on-set time or stimulation current can be set and triggered in real-time from Simulink.

 

g.RTanalyze Real-Time Analysis

 

g.RTanalyze is a biosignal processing blockset for use with Simulink. The g.RTanalyze blocks can be used for on-line simulations under Simulink and for realtime applications with Highspeed Online Processing for Simulink. Drag and drop the pre-processing, parameter estimation and classification algorithms into your SIMULINK realtime application to accelerate your research, encourage creativity and reduce project costs. The blockset enables you to quickly compare multiple algorithms. Use the blocks as templates and make your own modifications.

 

Physio Observer

 

The g.PHYSIOobserver is a complete system to classify different states of a subject based on physiological parameters. The system contains all necessary components to quantify emotions, workload, physical tasks and many other things.

 

CFM Toolbox

 

With this toolbox, you can calculate the amplitude integrated EEG (aEEG) signal from any already recorded EEG signal. The aEEG signal is also known as cerebral function monitor signal (CFM) and is used in the neonatal intensive care unit. The aEEG signal gives a time compressed activity report of the ongoing EEG signal and has gained widespread popularity as an alternative to the conventional EEG monitoring in neonates. aEEG monitoring is very useful for the assessment of ischemic encephalopathy, seizures and intraventricular haemorrhage.

 

Contact:

Ultra Technology Engineering (SA0217090-w)

1115, Block A4, Pusat Dagang Setia Jaya, 9 Jalan

PJS 8/9, Bandar Sunway 46150 Selangor, Malaysia

+603 - 8066 6726

 

For any enquiry or sales:

enquiry@ute-my.com

 

For any support:

support@ute-my.com

*** COPYRIGHT @ 2024 UTE ALL RIGHT RESERVED

Community:

Real-Time Processing

Rapid Prototyping Environment

 

g.HIsys Simulink

 

The g.HIsys Highspeed Online Processing for Simulink lets you collect biosignal data like EEG, ECoG, EMG, EOG and ECG within a Simulink model for further real-time processing and is available for g.MOBIlab+, g.HIamp, g.USBamp and g.Nautilus. Therefore, the device driver blocks for these devices are copied into the Simulink model and are connected to other blocks that do the signal analysis. Then, the model is started, and the device driver guarantees realtime processing.

 

 

g.HIsys Simulink Block Library

 

g.HIsys comes with specialized blocks for biosignal analysis that are needed in many real-time experiments. The library contains blocks for plotting data, pre-processing (source derivation, Notch filter, bandpass filter), transformation (pre-post trigger, cut samples, select channels), feature extraction (on-line averaging, ERD online, online FFT, Pre/ Post PSD, spectrogram, significance analysis), output signals through muscle activity (spasticity control, EOG selection, EMG selection) and a binary decoder.

 

 

 

                        Product Highlights

 

  • Acquire and process EEG, ECoG, ECG, EMG, EOG and spike data directly within Simulink
  • Wireless biosignal data acquisition with g.MOBIlab+ and g.Nautilus
  • Add your own sophisticated data processing algorithms graphically
  • Benefit from the Rapid Prototyping environment for developing, testing and releasing your biosignal applications
  • No compilation of the Simulink model is necessary for real-time analysis
  • Use standard Simulink blocks for online analysis
  • Add your own algorithms, such as MATLAB S-Functions or C S-Functions
  • Store data to the MATLAB workspace or to a MATLAB file
  • Display Evoked Potentials in real-time
  • Acquire eye-movement data together with biosignals
  • Create closed-loop experiments with g.tec’s stimulators
  • Use the g.tec toolboxes with ready to go applications

 

 

g.HIsys Simulink

 

g.HIsys comes with specialized blocks for biosignal analysis that are needed in many real-time experiments. The library contains blocks for plotting data, pre-processing (source derivation, Notch filter, bandpass filter), transformation (pre-post trigger, cut samples, select channels), feature extraction (on-line averaging, ERD online, online FFT, Pre/ Post PSD, spectrogram, significance analysis), output signals through muscle activity (spasticity control, EOG selection, EMG selection) and a binary decoder.

 

g.EYEtracking  Interface Toolbox

 

The g.EYEtracking Interface for SIMULINK allows you to acquire eye gaze and x-, y coordinates of the eye together with biosignal data. The signals can be visualized, stored and analyzed in real-time in SIMULINK and offline in MATLAB. The g.EYEtracking Interface for g.HIsys allows users to acquire biosignal data such as EEG, ECG, EMG, eyetracking information, and other signals in real-time. It provides a block to read gaze data from the eye-tracker simultaneously with other biosignal data coming from g.USBamp, g.HIamp or g.Nautilus wireless EEG system with dry or wet electrodes.

 

g.ESTIM Pro Simulink Interface Toolbox

 

g.tec provides an intracranial stimulator with 80V compliance voltage for electrical stimulation of the cortex with ECoG grids or strips or for depth electrodes. This can be used e.g. to stimulate the sensory cortex to add a touch feeling if robotic devices are controlled with the BCI or for deep brain-stimulation experiments e.g. with Parkinson patients. Stimulation parameters such as on-set time or stimulation current can be set and triggered in real-time from Simulink.

 

g.RTanalyze Real-Time Analysis

 

g.RTanalyze is a biosignal processing blockset for use with Simulink. The g.RTanalyze blocks can be used for on-line simulations under Simulink and for realtime applications with Highspeed Online Processing for Simulink. Drag and drop the pre-processing, parameter estimation and classification algorithms into your SIMULINK realtime application to accelerate your research, encourage creativity and reduce project costs. The blockset enables you to quickly compare multiple algorithms. Use the blocks as templates and make your own modifications.

 

Physio Observer

 

The g.PHYSIOobserver is a complete system to classify different states of a subject based on physiological parameters. The system contains all necessary components to quantify emotions, workload, physical tasks and many other things.

 

CFM Toolbox

 

With this toolbox, you can calculate the amplitude integrated EEG (aEEG) signal from any already recorded EEG signal. The aEEG signal is also known as cerebral function monitor signal (CFM) and is used in the neonatal intensive care unit. The aEEG signal gives a time compressed activity report of the ongoing EEG signal and has gained widespread popularity as an alternative to the conventional EEG monitoring in neonates. aEEG monitoring is very useful for the assessment of ischemic encephalopathy, seizures and intraventricular haemorrhage.

 

Quick Links:

*** COPYRIGHT @ 2024 UTE ALL RIGHT RESERVED

Contact:

Ultra Technology Engineering (SA0217090-w)

1115, Block A4, Pusat Dagang Setia Jaya, 9 Jalan

PJS 8/9, Bandar Sunway 46150 Selangor, Malaysia

+603 - 8066 6726

 

For any enquiry or sales:

enquiry@ute-my.com

 

For any support:

support@ute-my.com

Community:

Real-Time Processing

Rapid Prototyping Environment

 

g.HIsys Simulink

 

The g.HIsys Highspeed Online Processing for Simulink lets you collect biosignal data like EEG, ECoG, EMG, EOG and ECG within a Simulink model for further real-time processing and is available for g.MOBIlab+, g.HIamp, g.USBamp and g.Nautilus. Therefore, the device driver blocks for these devices are copied into the Simulink model and are connected to other blocks that do the signal analysis. Then, the model is started, and the device driver guarantees realtime processing.

 

 

g.HIsys Simulink Block Library

 

g.HIsys comes with specialized blocks for biosignal analysis that are needed in many real-time experiments. The library contains blocks for plotting data, pre-processing (source derivation, Notch filter, bandpass filter), transformation (pre-post trigger, cut samples, select channels), feature extraction (on-line averaging, ERD online, online FFT, Pre/ Post PSD, spectrogram, significance analysis), output signals through muscle activity (spasticity control, EOG selection, EMG selection) and a binary decoder.

 

 

 

                        Product Highlights

 

  • Acquire and process EEG, ECoG, ECG, EMG, EOG and spike data directly within Simulink
  • Wireless biosignal data acquisition with g.MOBIlab+ and g.Nautilus
  • Add your own sophisticated data processing algorithms graphically
  • Benefit from the Rapid Prototyping environment for developing, testing and releasing your biosignal applications
  • No compilation of the Simulink model is necessary for real-time analysis
  • Use standard Simulink blocks for online analysis
  • Add your own algorithms, such as MATLAB S-Functions or C S-Functions
  • Store data to the MATLAB workspace or to a MATLAB file
  • Display Evoked Potentials in real-time
  • Acquire eye-movement data together with biosignals
  • Create closed-loop experiments with g.tec’s stimulators
  • Use the g.tec toolboxes with ready to go applications

 

 

g.HIsys Simulink

 

g.HIsys comes with specialized blocks for biosignal analysis that are needed in many real-time experiments. The library contains blocks for plotting data, pre-processing (source derivation, Notch filter, bandpass filter), transformation (pre-post trigger, cut samples, select channels), feature extraction (on-line averaging, ERD online, online FFT, Pre/ Post PSD, spectrogram, significance analysis), output signals through muscle activity (spasticity control, EOG selection, EMG selection) and a binary decoder.

 

g.EYEtracking  Interface Toolbox

 

The g.EYEtracking Interface for SIMULINK allows you to acquire eye gaze and x-, y coordinates of the eye together with biosignal data. The signals can be visualized, stored and analyzed in real-time in SIMULINK and offline in MATLAB. The g.EYEtracking Interface for g.HIsys allows users to acquire biosignal data such as EEG, ECG, EMG, eyetracking information, and other signals in real-time. It provides a block to read gaze data from the eye-tracker simultaneously with other biosignal data coming from g.USBamp, g.HIamp or g.Nautilus wireless EEG system with dry or wet electrodes.

 

g.ESTIM Pro Simulink Interface Toolbox

 

g.tec provides an intracranial stimulator with 80V compliance voltage for electrical stimulation of the cortex with ECoG grids or strips or for depth electrodes. This can be used e.g. to stimulate the sensory cortex to add a touch feeling if robotic devices are controlled with the BCI or for deep brain-stimulation experiments e.g. with Parkinson patients. Stimulation parameters such as on-set time or stimulation current can be set and triggered in real-time from Simulink.

 

g.RTanalyze Real-Time Analysis

 

g.RTanalyze is a biosignal processing blockset for use with Simulink. The g.RTanalyze blocks can be used for on-line simulations under Simulink and for realtime applications with Highspeed Online Processing for Simulink. Drag and drop the pre-processing, parameter estimation and classification algorithms into your SIMULINK realtime application to accelerate your research, encourage creativity and reduce project costs. The blockset enables you to quickly compare multiple algorithms. Use the blocks as templates and make your own modifications.

 

Physio Observer

 

The g.PHYSIOobserver is a complete system to classify different states of a subject based on physiological parameters. The system contains all necessary components to quantify emotions, workload, physical tasks and many other things.

 

CFM Toolbox

 

With this toolbox, you can calculate the amplitude integrated EEG (aEEG) signal from any already recorded EEG signal. The aEEG signal is also known as cerebral function monitor signal (CFM) and is used in the neonatal intensive care unit. The aEEG signal gives a time compressed activity report of the ongoing EEG signal and has gained widespread popularity as an alternative to the conventional EEG monitoring in neonates. aEEG monitoring is very useful for the assessment of ischemic encephalopathy, seizures and intraventricular haemorrhage.

 

Contact:

Ultra Technology Engineering (SA0217090-w)

1115, Block A4, Pusat Dagang Setia Jaya,

9 Jalan PJS 8/9, Bandar Sunway 46150 Selangor, Malaysia

+603 - 8066 6726

 

For any enquiry or sales:

enquiry@ute-my.com

 

For any support:

support@ute-my.com

Community:

*** COPYRIGHT @ 2024 UTE ALL RIGHT RESERVED

Real-Time Processing

Rapid Prototyping Environment

 

g.HIsys Simulink

 

The g.HIsys Highspeed Online Processing for Simulink lets you collect biosignal data like EEG, ECoG, EMG, EOG and ECG within a Simulink model for further real-time processing and is available for g.MOBIlab+, g.HIamp, g.USBamp and g.Nautilus. Therefore, the device driver blocks for these devices are copied into the Simulink model and are connected to other blocks that do the signal analysis. Then, the model is started, and the device driver guarantees realtime processing.

 

 

g.HIsys Simulink Block Library

 

g.HIsys comes with specialized blocks for biosignal analysis that are needed in many real-time experiments. The library contains blocks for plotting data, pre-processing (source derivation, Notch filter, bandpass filter), transformation (pre-post trigger, cut samples, select channels), feature extraction (on-line averaging, ERD online, online FFT, Pre/ Post PSD, spectrogram, significance analysis), output signals through muscle activity (spasticity control, EOG selection, EMG selection) and a binary decoder.

 

 

 

                        Product Highlights

 

  • Acquire and process EEG, ECoG, ECG, EMG, EOG and spike data directly within Simulink
  • Wireless biosignal data acquisition with g.MOBIlab+ and g.Nautilus
  • Add your own sophisticated data processing algorithms graphically
  • Benefit from the Rapid Prototyping environment for developing, testing and releasing your biosignal applications
  • No compilation of the Simulink model is necessary for real-time analysis
  • Use standard Simulink blocks for online analysis
  • Add your own algorithms, such as MATLAB S-Functions or C S-Functions
  • Store data to the MATLAB workspace or to a MATLAB file
  • Display Evoked Potentials in real-time
  • Acquire eye-movement data together with biosignals
  • Create closed-loop experiments with g.tec’s stimulators
  • Use the g.tec toolboxes with ready to go applications

 

 

g.HIsys Simulink

 

g.HIsys comes with specialized blocks for biosignal analysis that are needed in many real-time experiments. The library contains blocks for plotting data, pre-processing (source derivation, Notch filter, bandpass filter), transformation (pre-post trigger, cut samples, select channels), feature extraction (on-line averaging, ERD online, online FFT, Pre/ Post PSD, spectrogram, significance analysis), output signals through muscle activity (spasticity control, EOG selection, EMG selection) and a binary decoder.

 

g.EYEtracking  Interface Toolbox

 

The g.EYEtracking Interface for SIMULINK allows you to acquire eye gaze and x-, y coordinates of the eye together with biosignal data. The signals can be visualized, stored and analyzed in real-time in SIMULINK and offline in MATLAB. The g.EYEtracking Interface for g.HIsys allows users to acquire biosignal data such as EEG, ECG, EMG, eyetracking information, and other signals in real-time. It provides a block to read gaze data from the eye-tracker simultaneously with other biosignal data coming from g.USBamp, g.HIamp or g.Nautilus wireless EEG system with dry or wet electrodes.

 

g.ESTIM Pro Simulink Interface Toolbox

 

g.tec provides an intracranial stimulator with 80V compliance voltage for electrical stimulation of the cortex with ECoG grids or strips or for depth electrodes. This can be used e.g. to stimulate the sensory cortex to add a touch feeling if robotic devices are controlled with the BCI or for deep brain-stimulation experiments e.g. with Parkinson patients. Stimulation parameters such as on-set time or stimulation current can be set and triggered in real-time from Simulink.

 

g.RTanalyze Real-Time Analysis

 

g.RTanalyze is a biosignal processing blockset for use with Simulink. The g.RTanalyze blocks can be used for on-line simulations under Simulink and for realtime applications with Highspeed Online Processing for Simulink. Drag and drop the pre-processing, parameter estimation and classification algorithms into your SIMULINK realtime application to accelerate your research, encourage creativity and reduce project costs. The blockset enables you to quickly compare multiple algorithms. Use the blocks as templates and make your own modifications.

 

Physio Observer

 

The g.PHYSIOobserver is a complete system to classify different states of a subject based on physiological parameters. The system contains all necessary components to quantify emotions, workload, physical tasks and many other things.

 

CFM Toolbox

 

With this toolbox, you can calculate the amplitude integrated EEG (aEEG) signal from any already recorded EEG signal. The aEEG signal is also known as cerebral function monitor signal (CFM) and is used in the neonatal intensive care unit. The aEEG signal gives a time compressed activity report of the ongoing EEG signal and has gained widespread popularity as an alternative to the conventional EEG monitoring in neonates. aEEG monitoring is very useful for the assessment of ischemic encephalopathy, seizures and intraventricular haemorrhage.

 

Contact::

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+603 - 8066 6726

 

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