Grinbath's EyeGuide

Texas based Grinbath recently announced the EyeGuide head mounted tracker. It's main competitive advantage is the low cost $1495, academic discounts are available ($1,179). The device captures eye images using a wireless camera, running on three AAA batteries, and streams these to a computer for processing. The package includes basic software for analysis and visualization.  See the whitepaper for more information. 

Specs for SMI GazeWear released

The specifications for the SMI GazeWear has just been announced. The head mounted tracker takes the shape of a pair of glasses and has a impressive set of features. It offers 30Hz binocular tracking (both eyes) at 0.5 deg accuracy with automatic parallax compensation for accurate gaze estimation over distances above 40cm. The dark pupil, corneal reflection based system has a tracking range of 70° horizontal / 55°. vertical angle. SMI has managed to squeeze in a HD scene camera located in the center of the frame which offers 1280x960 resolution at 30 frames per second. However, the viewing angle is slightly smaller than the tracking range at 63° horizontal and 41° vertical angle. The weight of the device is specified to 75 grams with the dimensions of 173x58x168mm (w/h/d) and is estimated to fit subjects above age 7.

SMI GazeWear

A mobile recording unit is offered which stores data on a SD card, weighs 420 grams, and has minimum of 40 minutes recording time. However, a subnotebook can be used to extend recording time towards two hours.   

With the new tracker SMI seriously improves their offering in the head mounted segment with a form factor that certainly appears more attractive to a wide range of applications. The specs stands up well against the Tobii glasses which has a similar form but is limited to monocular tracking and a lower resolution scene camera.  No details on availability is provided other than "coming soon", something we heard since late December. Once they are out the game is on. 

The flyer may be downloaded as pdf.

Development of a head-mounted, eye-tracking system for dogs (Williams et al, 2011)

Fiona Williams, Daniel Milss and Kun Guo at the University of Lincoln have developed a head mounted eye tracking system for our four legged friends. Using a special construct based on a head strap and a muzzle the device was mounted on the head of the dog where a dichroic mirror placed in front of one of the eyes reflects the IR image back to the camera.

The device was adapted from a VisionTrack system by IScan/Polhemus and contains two miniature cameras, one for the eye and one for the scene which is connected to a host workstation. When used with human subject such setup provides 0.3 deg. of accuracy according to the manufacturer. Williams et al obtained an accuracy of 2-3 deg. from a single dog when using a special calibration method containing five points located on a cross which was mounted at the tip of the muzzle. Using positive reenforcement the dog was gradually trained to wear and fixate targets which I'm sure wasn't an easy task.

Abstract:
Growing interest in canine cognition and visual perception has promoted research into the allocation of visual attention during free-viewing tasks in the dog. The techniques currently available to study this (i.e. preferential looking) have, however, lacked spatial accuracy, permitting only gross judgements of the location of the dog’s point of gaze and are limited to a laboratory setting. Here we describe a mobile, head-mounted, video-based, eye-tracking system and a procedure for achieving standardised calibration allowing an output with accuracy of 2–3◦. The setup allows free movement of dogs; in addition the procedure does not involve extensive training skills, and is completely non-invasive. This apparatus has the potential to allow the study of gaze patterns in a variety of research applications and could enhance the study of areas such as canine vision, cognition and social interactions.

Fiona J. Williams, Daniel S. Mills, Kun Guo, Development of a head-mounted, eye-tracking system for dogs, Journal of Neuroscience Methods, Volume 194, Issue 2, 15 January 2011, Pages 259-265, ISSN 0165-0270, DOI: 10.1016/j.jneumeth.2010.10.022. (available from ScienceDirect)

Fraunhofer CMOS-OLED Headmounted display with integrated eye tracker

"The Fraunhofer IPMS works on the integration of sensors and microdisplays on CMOS backplane for several years now. For example the researchers have developed a bidirectional microdisplay, which could be used in Head-Mounted Displays (HMD) for gaze triggered augmented-reality (AR) aplications. The chips contain both an active OLED matrix and therein integrated photodetectors. The combination of both matrixes in one chip is an essential possibility for system integrators to design smaller, lightweight and portable systems with both functionalities." (Press release)

"Rigo Herold, PhD student at Fraunhofer IPMS and participant of the development team, declares: This unique device enables the design of a new generation of small AR-HMDs with advanced functionality. The OLED microdisplay based Eyetracking HMD enables the user on the one hand to overlay the view of the real world with virtual contents, for example to watch videos at jog. And on the other hand the user can select the next video triggered only by his gaze without using his hands." (Press release)

Sensor integrates both OLED display and CMOS imaging sensor. 

Rigo Herold will present the system at the SID 2011 exhibitor forum at May 17, 2011 4:00 p.m.: Eyecatcher: The Bi-Directional OLED Microdisplay with the following specs:

• Monochrome 
• Special Eyetracking-Algorithm for HMDs based on bidirectional microdisplays
• Front brightness: > 1500 cd/m²

Poster was presented at ISSCC 2011 : Industry Demonstration Session (IDS). Click to enlarge

In addition there is a paper titled "Bidirectional OLED microdisplay: Combining display and image sensor functionality into a monolithic CMOS chip" published with the following abstract:. 

"Microdisplays based on organic light-emitting diodes (OLEDs) achieve high optical performance with excellent contrast ratio and large dynamic range at low power consumption. The direct light emission from the OLED enables small devices without additional backlight, making them suitable for mobile near-to-eye (NTE) applications such as viewfinders or head-mounted displays (HMD). In these applications the microdisplay acts typically as a purely unidirectional output device [1–3]. With the integration of an additional image sensor, the functionality of the microdisplay can be extended to a bidirectional optical input/output device. The major aim is the implementation of eye-tracking capabilities in see-through HMD applications to achieve gaze-based human-display-interaction." Available at IEEE Xplore. 

Santa's been spotted - Introducing the SMI Glasses

What a year it has been in the commercial eye tracking domain. In June we had the Tobii glasses which was their entry into the head-mounted market which created some buzz online. This was followed by a high-speed remote system, the Tobii TX300, which was introduced in November. Both products competed directly with the offering from SMI which countered with the RED500 remote tracker, surpassing the Tobii system by 200 samples per second. Today it's my pleasure to introduce the SMI Glasses which brings up the competition a couple of notches. Being comparable in the neat, unobtrusive form factor they provide binocular tracking with a direct view of both eyes.

Rendered image of the upcoming SMI Glasses.

The small scene camera is located in the center of glasses which gives minimal parallax. Although the hard specs has yet to be released it is rumored to have a high resolution scene camera, long battery lifetime and an advanced IR AOA marker detection system which enables automatic mapping of gaze data to real-world objects. Furthermore, they can be used not only as blackbox system – but may be integrated with SMIs current head mounted devices, including live view, open interface for co-registration etc. Estimated availability is projected to the first half of 2011.

Thanks for all the hard work, inspiration and feedback throughout 2010, it's been an amazing year. By the looks of it 2011 appears to be a really interesting year for eye tracking. I'd like to wish everyone a Merry Christmas and a Happy New Year.