Difference between revisions of "Manuals & Downloads / Repository"

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In this page you can find links to our manuals and to a code repository. Many of these links are equivalent to those in our [http://www.neuroelectrics.com/documentation/ '''Documentation Area'''] and [http://www.neuroelectrics.com/downloads/'''Download Area'''] section in the Neuroelectrics website.  
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In this page you can find links to our manuals and to a code repository. Many of these links are equivalent to those in our [http://www.neuroelectrics.com/documentation/ '''Manuals Area'''] and [http://www.neuroelectrics.com/downloads/'''Software Area'''] section in the Neuroelectrics website.  
  
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[[File:Website_overview.PNG|800px]]
  
Neuroelectrics' systems include [http://www.neuroelectrics.com/products/enobio/ '''Enobio'''] (EEG) and [http://www.neuroelectrics.com/products/starstim/ '''StarStim'''] (EEG/tCS) class devices as well as our universal software controller - [http://www.neuroelectrics.com/products/software/ '''Neuroelectrics Instrument Controller (NIC)''']. Manuals and other downloads are available for both.
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Neuroelectrics' systems include [http://www.neuroelectrics.com/products/enobio/ '''Enobio'''] (EEG, [http://www.neuroelectrics.com/products/starstim/ '''StarStim'''] (EEG/tCS) and [https://www.neuroelectrics.com/products/starstim/starstim-tcs/ '''Starstim tCS'''] (tCs) class devices as well as our universal software controller - [http://www.neuroelectrics.com/products/software/ '''Neuroelectrics Instrument Controller (NIC)'''].  
  
= Neuroelectrics Download Area for Manuals and software  =
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              [[File:Enobio_starstim_stcs.png|600px]]
  
Please visit [http://www.neuroelectrics.com/downloads/ '''Download Area''']  for an updated list of software updates (NIC, NIC Offline, Neurosurfer, EEGLAB, etc), as well as user manuals in the [http://www.neuroelectrics.com/documentation/ '''Documentation Area''']
 
  
User Manuals:
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= Matlab code =
  
I. Devices:
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MATLAB (matrix laboratory) is a multi-paradigm numerical computing environment. A proprietary programming language developed by MathWorks, MATLAB allows matrix manipulations, plotting of functions and data, implementation of algorithms, creation of user interfaces, and interfacing with programs written in other languages, including C, C++, C#, Java, Fortran and Python.
  
Enobio-8/20/32 Manual
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Although MATLAB is intended primarily for numerical computing, an optional toolbox uses the MuPAD symbolic engine, allowing access to symbolic computing abilities. An additional package, Simulink, adds graphical multi-domain simulation and model-based design for dynamic and embedded systems.
Starstim-8 Manual
 
Starstim-tCS Manual
 
Starstim R20/32 Manual
 
 
 
II. Electrodes (Manuals and Videos):
 
 
 
Electrode Manual
 
Foretrode Quick Guide
 
Geltrode Quick Guide
 
Drytrode Quick Guide
 
Pistim Quick Guide
 
Sticktrode Quick Guide
 
Sponstim Quick Guide
 
Earclip Quick Guide
 
Solidgeltrode Quick Guide
 
NG Geltrode Quick Guide
 
NG Pistim Quick Guide
 
 
 
III. Software & Services
 
 
 
NIC2.0 Manual
 
MatNIC 2.3 Overview
 
NUBE Stimulation Guide
 
Stimtargeter Guide
 
Neurosurfer User manual
 
NIC Home Step-by-step Guide
 
NIC1.4 Manual
 
NUBE Research & NeuroCIRRUS Guide
 
 
 
IV. Accessories
 
 
 
MRI Kits User Manual
 
SD card recording User Manual
 
TTL Trigger Adapter User Manual
 
Touchproof Adapter User Manual
 
 
 
= Matlab code =
 
  
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== Data Analysis ==
  
== Data Analysis ==
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For the Data Analyisis of Neuroelectrics data (EEG data) we provide some programming codes.
  
 
You can find  [[media:NE_Viewer_plusSampleData.zip | '''here''' ]] a zip file containing the following:
 
You can find  [[media:NE_Viewer_plusSampleData.zip | '''here''' ]] a zip file containing the following:
 
  - NE_Viewer.m, a Matlab demo function to read and plot NE files
 
  - NE_Viewer.m, a Matlab demo function to read and plot NE files
  - some data in .''easy'' format  
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  - some EEG data in .''easy'' format (data format recorded with Neuroelectrics devices)
 
  - a folder with the figures that NE_Viewer.m generates with this data
 
  - a folder with the figures that NE_Viewer.m generates with this data
  
 
The data and code are provided as examples of how to use Matlab to read and plot data.
 
The data and code are provided as examples of how to use Matlab to read and plot data.
  
Please see the [[Data_Processing_with_Matlab| '''Data Processing with Matlab section''' ]] for more information.
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Please see the [[Data_Processing_with_Matlab| '''Data Processing with Matlab''' ]] section for more information.
  
 
== MatNIC device controller ==
 
== MatNIC device controller ==
[http://www.neuroelectrics.com/products/software/matnic-remote-stimulation-client/ '''MatNIC'''] is a set of Matlab functions that allows the user to control [http://www.neuroelectrics.com/products/software/nic2/ '''NIC'''] remotely and, in turn, the device that is connected to it (StarStim or Enobio class). MatNIC provides control of the main functions of NIC, such as streaming of EEG data and management of neurostimulation. This gives the user full remote, programmatic control over NE devices such as Enobio or StarStim from a Matlab environment. These functions allow remotely starting and stopping the EEG streaming, loading a stimulation template, changing stimulation parameters while stimulation is ongoing,  starting and stopping the stimulation protocol (when using a StarStim device).
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[http://www.neuroelectrics.com/products/software/matnic-remote-stimulation-client/ '''MatNIC'''] is a set of Matlab functions that allows the user to control [http://www.neuroelectrics.com/products/software/nic2/ '''NIC'''] remotely and, in turn, the device that is connected to it (StarStim or Enobio class). MatNIC provides control of the main functions of NIC, such as streaming of EEG data and management of neurostimulation session. This gives the user full remote, programmatic control over NE devices such as Enobio or StarStim from a Matlab environment. These functions allow remotely starting and stopping the EEG streaming, loading a stimulation template, changing stimulation parameters while stimulation is ongoing,  starting and stopping the stimulation protocol (when using a StarStim device).
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The MatNIC zip file contains the following:
  
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*Free MatNIC to control remotely the NIC software:
  
The MatNIC zip file ([http://www.neuroelectrics.com/contact '''contact us'''] for more info) contains the following:
 
 
  - The MatNIC user manual (an explanation on how to use the Matlab functions to remotely control NIC and examples)
 
  - The MatNIC user manual (an explanation on how to use the Matlab functions to remotely control NIC and examples)
 
  - MatNIC, a folder with all the Matlab functions to remotely control NIC
 
  - MatNIC, a folder with all the Matlab functions to remotely control NIC
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For more information, [https://www.neuroelectrics.com/support/ '''contact us'''].
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*Special MatNIC to perform online stimulation changes:
  
See the [[MatNIC_Matlab_Toolkit|'''MatNIC section''']] for more info.
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- The MatNIC user manual (an explanation on how to use the Matlab functions to remotely control NIC and examples)
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- MatNIC, a folder with all the Matlab functions to remotely control NIC
  
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For more information, [https://www.neuroelectrics.com/get-a-quote/?add=84      '''contact us for a quotation'''].
  
https://youtu.be/Hg4Yp5YJhn4
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See the [[MatNIC_Matlab_Toolkit|'''MatNIC section''']]

Latest revision as of 12:52, 11 June 2018

In this page you can find links to our manuals and to a code repository. Many of these links are equivalent to those in our Manuals Area and Software Area section in the Neuroelectrics website.

Website overview.PNG

Neuroelectrics' systems include Enobio (EEG, StarStim (EEG/tCS) and Starstim tCS (tCs) class devices as well as our universal software controller - Neuroelectrics Instrument Controller (NIC).

              Enobio starstim stcs.png


Matlab code

MATLAB (matrix laboratory) is a multi-paradigm numerical computing environment. A proprietary programming language developed by MathWorks, MATLAB allows matrix manipulations, plotting of functions and data, implementation of algorithms, creation of user interfaces, and interfacing with programs written in other languages, including C, C++, C#, Java, Fortran and Python.

Although MATLAB is intended primarily for numerical computing, an optional toolbox uses the MuPAD symbolic engine, allowing access to symbolic computing abilities. An additional package, Simulink, adds graphical multi-domain simulation and model-based design for dynamic and embedded systems.

Data Analysis

For the Data Analyisis of Neuroelectrics data (EEG data) we provide some programming codes.

You can find here a zip file containing the following:

- NE_Viewer.m, a Matlab demo function to read and plot NE files
- some EEG data in .easy format (data format recorded with Neuroelectrics devices)
- a folder with the figures that NE_Viewer.m generates with this data

The data and code are provided as examples of how to use Matlab to read and plot data.

Please see the Data Processing with Matlab section for more information.

MatNIC device controller

MatNIC is a set of Matlab functions that allows the user to control NIC remotely and, in turn, the device that is connected to it (StarStim or Enobio class). MatNIC provides control of the main functions of NIC, such as streaming of EEG data and management of neurostimulation session. This gives the user full remote, programmatic control over NE devices such as Enobio or StarStim from a Matlab environment. These functions allow remotely starting and stopping the EEG streaming, loading a stimulation template, changing stimulation parameters while stimulation is ongoing, starting and stopping the stimulation protocol (when using a StarStim device).

The MatNIC zip file contains the following:

  • Free MatNIC to control remotely the NIC software:
- The MatNIC user manual (an explanation on how to use the Matlab functions to remotely control NIC and examples)
- MatNIC, a folder with all the Matlab functions to remotely control NIC

For more information, contact us.


  • Special MatNIC to perform online stimulation changes:
- The MatNIC user manual (an explanation on how to use the Matlab functions to remotely control NIC and examples)
- MatNIC, a folder with all the Matlab functions to remotely control NIC

For more information, contact us for a quotation.

See the MatNIC section