Showing posts with label SMI IView RED. Show all posts
Showing posts with label SMI IView RED. Show all posts
Thursday, April 7, 2011
SMI iView X SDK 3.0 released
SMI just released version 3.0 of their Software Development Kit (SDK) which contains low and high level functions, documentation and sample code (matlab, e-prime, c/c++, Python and C#). The SDK supports Windows XP, Vista and 7 (both 32 and 64 bit). Available by for free for existing customers. Good news for developers, especially the 64-bit version for Windows 7. Releasing extensive and well documented SDKs for free is a trend that has been adopted by most manufacturers by now, it just makes perfect sense.
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SMI IView RED
Wednesday, November 3, 2010
SMI Releases iViewX 2.5
Today SensoMotoric Instruments released a new version of their iViewX software which offers a number of fixes and software improvements. Download here.
Improvements
- NEW device: MEG 250
- RED5: improved tracking stability
- RED: improved pupil diameter calculation
- RED: improved distance measurement
- RED: improved 2 and 5 point calibration model
- file transfer server is installed with iView X now
- added configurable parallel port address
Fixes
- RED5 camera drop outs in 60Hz mode on Clevo Laptop
- initializes LPT_IO and PIODIO on startup correctly
- RED standalone mode can be used with all calibration methods via remote commands
- lateral offset in RED5 head position visualization
- HED: Use TimeStamp in [ms] as Scene Video Overlay
- improved rejection parameters for NNL Devices
- crash when using ET_CAL in standalone mode
- strange behaviour with ET_REM and eT_REM. Look up in command list is now case-insensitive.
- RED5: Default speed is 60Hz for RED and 250Hz for RED250
- and many more small fixes and improvements
Improvements
- NEW device: MEG 250
- RED5: improved tracking stability
- RED: improved pupil diameter calculation
- RED: improved distance measurement
- RED: improved 2 and 5 point calibration model
- file transfer server is installed with iView X now
- added configurable parallel port address
Fixes
- RED5 camera drop outs in 60Hz mode on Clevo Laptop
- initializes LPT_IO and PIODIO on startup correctly
- RED standalone mode can be used with all calibration methods via remote commands
- lateral offset in RED5 head position visualization
- HED: Use TimeStamp in [ms] as Scene Video Overlay
- improved rejection parameters for NNL Devices
- crash when using ET_CAL in standalone mode
- strange behaviour with ET_REM and eT_REM. Look up in command list is now case-insensitive.
- RED5: Default speed is 60Hz for RED and 250Hz for RED250
- and many more small fixes and improvements
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SMI IView RED
Friday, July 31, 2009
SMI RED 250!
Today SMI announced the new RED250 which, as the name suggests, has an impressive 250Hz sampling rate. It has an accuracy of 0.5 degrees or below (typ.), less than 10 ms. latency and operates within 60-80 cm head distance. The track-box is 40x40 cm at 70cm distance and will recover tracking faster than the previous model. No details on pricing yet but top of the line performance never comes cheap. Get the flyer as pdf.
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eye tracker,
SMI IView RED
Wednesday, January 21, 2009
SMI gets the International Forum Design Award
Congratulations to the guys at SensoMotoric Instruments (SMI) for winning the International Forum 2009 Product Design Award with their iView X™ RED eye tracker.
"The unobtrusive yet elegant design for the stand-alone as well as for the monitor-attached configuration of the eye tracking system convinced the jury. "
"The unobtrusive yet elegant design for the stand-alone as well as for the monitor-attached configuration of the eye tracking system convinced the jury. "
The award will be presented at the first day of CeBIT (3rd of March) in Hanover. The system will also be on display for those of you who are attending CeBIT. More information on the International Forum Award.
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eye tracker,
SMI IView RED,
technology
Tuesday, February 5, 2008
Day One - The Eye Tracker
The choosen platform to develop the software on is Microsoft Visual Studio 2008 using .NET 3.5 and the C# (C-Sharp) programming language. Not that I´m very experienced with it (just one course) but it is similar to Sun Microsystems Java language. Besides the development environment is really nice and there´s a large amount of online resources available. Since the box is running XP all ready there is absolutely no reason to mess with it (personally I run MacPro/Os X but that´s another story)
The SMI IView RED eye tracker comes with the IView software where you can calibrate the system against points on the screen as well as other configuration aspects. After turning the tracker on and launching the calibration process I could see that the tracker is working.
The calibration dots to the left usually are in full screen. To the left you can see how the eye tracker measures the reflection of the IR-lights and combines this with the location of the pupil to detect and measure eye movements. This is usually referred to as corneal reflection. The infra red light shined in my face is out of the spectrum that I can perceive. More information on eye tracking.
Clearly the the computer some how receives the data since it´s drawing circles on the screen indicating where my gaze is directed. How do I get hold of this data?
Upon an external inspection I find one firewire cable going from the tracker to the computer and two cables from the image processing box to the tracker. Seems that I must read from the firewire port. Time to Google that.
Turns out that there is an Universal Eye Tracking Driver which has been developed by Oleg Spakov at the University of Tampere, Finland. Should be a good solution so that I could easily move the application to any other supported system, including those from Swedish firm Tobii Technology. After downloading and installing the driver (which comes with source code, great!) I compiled the test application in Visual Studio to try it out. When trying to choose which tracker and what port I was using it turned out that there was no support for firewire. Seems like the previous version of IView was using USB. After some correspondence with Oleg and some tries to work around the issue it was time to stop banging my head against and RTFM like one should.
Never was much for manuals in the first place. Especially when they are 400 pages thick filled with tables of ASCII codes and references to other codes or pages. Suppose it is very much to the point, if you are a German engineer that is.. Ok. Found it. The tracker data can be sent via ethernet if IView is configured to do so. Said and done, configured IView to stream data by the UDP protocol on port 4444.
Had decided not to leave until I had the data. How do I open a datagram socket in C#? A quick search on Google should solve it. Found a pice of code that seemed to work, using a thread to open a socket to the designated port and the just read what ever data that came along. If I could print the data to the console window it.. would just be an awesome end to day one.
See next post for the C# solution..
The SMI IView RED eye tracker comes with the IView software where you can calibrate the system against points on the screen as well as other configuration aspects. After turning the tracker on and launching the calibration process I could see that the tracker is working.
The calibration dots to the left usually are in full screen. To the left you can see how the eye tracker measures the reflection of the IR-lights and combines this with the location of the pupil to detect and measure eye movements. This is usually referred to as corneal reflection. The infra red light shined in my face is out of the spectrum that I can perceive. More information on eye tracking.
Clearly the the computer some how receives the data since it´s drawing circles on the screen indicating where my gaze is directed. How do I get hold of this data?
Upon an external inspection I find one firewire cable going from the tracker to the computer and two cables from the image processing box to the tracker. Seems that I must read from the firewire port. Time to Google that.
Turns out that there is an Universal Eye Tracking Driver which has been developed by Oleg Spakov at the University of Tampere, Finland. Should be a good solution so that I could easily move the application to any other supported system, including those from Swedish firm Tobii Technology. After downloading and installing the driver (which comes with source code, great!) I compiled the test application in Visual Studio to try it out. When trying to choose which tracker and what port I was using it turned out that there was no support for firewire. Seems like the previous version of IView was using USB. After some correspondence with Oleg and some tries to work around the issue it was time to stop banging my head against and RTFM like one should.
Never was much for manuals in the first place. Especially when they are 400 pages thick filled with tables of ASCII codes and references to other codes or pages. Suppose it is very much to the point, if you are a German engineer that is.. Ok. Found it. The tracker data can be sent via ethernet if IView is configured to do so. Said and done, configured IView to stream data by the UDP protocol on port 4444.
Had decided not to leave until I had the data. How do I open a datagram socket in C#? A quick search on Google should solve it. Found a pice of code that seemed to work, using a thread to open a socket to the designated port and the just read what ever data that came along. If I could print the data to the console window it.. would just be an awesome end to day one.
See next post for the C# solution..
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Datagram,
SMI IView RED,
UDP,
Universal driver
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