|
Size: 1805
Comment:
|
Size: 2117
Comment:
|
| Deletions are marked like this. | Additions are marked like this. |
| Line 1: | Line 1: |
| #acl FriedemannBunjes:read,write,delete,revert FriedemannBunjes/ReadWriteGroup:read FriedemannBunjes/ReadGroup:read | #acl FriedemannBunjes:read,write,delete,revert All:read |
| Line 4: | Line 4: |
| #pragma section-numbers off |
#pragma section-numbers 2 |
| Line 8: | Line 6: |
| Line 11: | Line 8: |
| == nrec is a software package for stimulation, data acquisition and experiment control == Originally it was designed to be used in [[http://www.hih-tuebingen.de/abteilungen/kn/|cognitive brain research]], but it is made to be as generally applicable as possible: |
|
| Line 12: | Line 11: |
| ---- {{attachment:acquisition_stimulation.png}} |
|
| Line 13: | Line 14: |
| == nrec is a software package for stimulation, data acquisition and experiment control == Originally it was designed to be used in the [[http://www.hih-tuebingen.de/abteilungen/kn/|cognitive brain research]], but it is made to be as generally applicable as possible: ---- {{attachment:acquisition_stimulation.png}} |
|
| Line 22: | Line 17: |
| * '''standard''' PC * '''standard''' graphics card * [[http://www.comedi.org/|comedi data acquisition library]] supports a lot of '''standard''' cards/boards/boxes |
* '''standard''' PC * '''standard''' graphics card * [[http://www.comedi.org/|comedi data acquisition library]] supports a lot of '''standard''' [[http://www.comedi.org/hardware.html|cards/boards/boxes]] |
| Line 26: | Line 21: |
| * it runs on a '''standard''' debian linux * it is developed in '''standard''' C++ * parameter files format: '''standard''' XML * data storage files format: '''standard''' [[http://hdf.ncsa.uiuc.edu/HDF5/|hdf5]], Matlab readable * graphics primitives are built using the '''standard''' [[http://en.wikipedia.org/wiki/OpenGL|OpenGL]] library |
* it runs on a '''standard''' [[http://www.debian.org/|debian linux]] * it is developed in '''standard''' C++ * parameter files format: '''standard''' XML * data storage files format: '''standard''' [[http://hdf.ncsa.uiuc.edu/HDF5/|hdf5]], Matlab readable * graphics primitives are built using the '''standard''' [[http://en.wikipedia.org/wiki/OpenGL|OpenGL]] library |
| Line 34: | Line 30: |
| * circle * dotfield (RDK) * arrow * movie (avi) * image (png) * eyetracker calibration, fixation control, online data visualization |
* circle * rectangle * [[Screenshots#dotfield|dotfield (RDK)]] * [[Screenshots#text|text]] * arrow * [[Screenshots#landoltC|Landolt-C (for visual acuity measurements)]] * [[Screenshots#movie|movie (avi)]] * [[Screenshots#image|image (png)]] * [[Screenshots#square_plaids|square plaids]] * [[Screenshots#main_window|eyetracker calibration]], fixation control, [[Screenshots#data_window|online data visualization]] |
| Line 43: | Line 43: |
| * experiment control by strategy based parameter setting * luminance correction by using an alpha mask loadable from a simple file |
* experiment control by strategy based parameter setting * [[LuminanceCorrection|luminance correction]] by using a freely definable alpha mask loadable from a simple file |
Description
Contents
1. nrec is a software package for stimulation, data acquisition and experiment control
Originally it was designed to be used in cognitive brain research, but it is made to be as generally applicable as possible:
2. nrec is based on standard technology for robustness and enduring usability
- hardware independence:
standard PC
standard graphics card
comedi data acquisition library supports a lot of standard cards/boards/boxes
- software standards:
it runs on a standard debian linux
it is developed in standard C++
parameter files format: standard XML
data storage files format: standard hdf5, Matlab readable
graphics primitives are built using the standard OpenGL library
3. Current features
- graphics primitives:
- circle
- rectangle
- arrow
eyetracker calibration, fixation control, online data visualization
- the option to make a primitive a visual target
- controllers that make the primitives move and jump and that handle digital in- or outputs
- freely configurable digital channels for respone buttons, reward systems, LEDs etc.
- experiment control by strategy based parameter setting
luminance correction by using a freely definable alpha mask loadable from a simple file