Optics: eye examining – vision testing and correcting – Eye examining or testing instrument – Subjective type
Reexamination Certificate
2000-06-27
2002-04-09
Manuel, George (Department: 3737)
Optics: eye examining, vision testing and correcting
Eye examining or testing instrument
Subjective type
Reexamination Certificate
active
06367932
ABSTRACT:
The present invention relates to an apparatus and method for the measurement of a visual field. In this respect, there are a number of existing tests for measuring and building up a visual field, such as for example the Bjerrum test, the Static Perimetry test and the Optokinetic test.
Briefly, in the Bjerrum test, a patient as the observer looks at a spot in the centre of a black screen throughout the test. A white or coloured test target at the end of black rod held by an examiner is moved from a non-seeing to a seeing area and a note is made of the position when the target is first claimed to be seen by the observer. By doing this in different areas, a visual field is built up.
With the Static Perimetry test, an observer looks at a central target spot and spots of light flash in different positions in the visual field. The observer's responses to the flashes of light builds up a map of the visual field.
Finally, with the Optokinetic Perimetry test, an observer is instructed to look, in turn, at a series of spots spaced round a central spot and asked if he can see the central spot while looking at each of the series of spots, thereby building up a map of the visual field.
Problems associated with the above tests stem from the fact that in each case the observer is required to give some sort of indication or response as to when they see the target in their visual field. The exact point of when the target is seen can be somewhat subjective and unclear and can therefore lead to significant inaccuracies.
An object of the present invention is to seek to overcome the problems associated with such known tests.
According to a first aspect of the present invention, there is provided a method for ocular testing, the method comprising the steps of:
1) providing a fixation target on a screen at a known target position;
2) detecting a direction of gaze of one or both eyes of an observer viewing the fixation target;
3) providing a new target on the screen at a further known target position;
4) detecting whether the direction of gaze moves to a direction that corresponds to direct viewing of the new target;
5) repositioning the new target if required until it is detected at step 4) that the direction of gaze corresponds to direct viewing of the new target, the new target then becoming the fixation target;
6) recording the target positions; and
7) repeating steps 3) to 6) a number of times to build up a visual field.
With such a method, the fixation target is a target onto which the observer is initially encouraged to fix his gaze. The new target is a visual field target provided somewhere on the screen in the visual field of a normal observer.
If the observer is aware of the visual field target while looking at the fixation target, then he is encouraged to fix his gaze on the visual field target which then becomes the fixation target at a revised known target position. This change in direction of gaze can be detected by an eye tracking means. The previous fixation target can then be repositioned so as to perform the function of the visual field or new target and the process is repeated to build up a visual field. With such a method no response from the observer is required to build up the visual field other than the automatic detection of the change in gaze direction by the eye tracking means.
Conveniently, the targets are moved under the control of a computer and data of the target positions and gaze directions is recorded to build up a full visual field of the observer. The screen may in this respect be provided at a known distance from the observer.
Preferably, the new target is only provided on the screen while the detected direction of gaze is on the current fixation target. This reduces the risk of false results from the testing.
With certain observers, a substantial part of the field on one side may missing such that as successive targets are presented, only those not in the missing part are seen. This could have an effect in gradually moving the fixation target further and further to one side of the display. Consequently, the useful area of the screen for presenting further targets will be diminished. To counter this the method may further comprise means for repositioning the fixation target on the display to allow a new target to be positioned on the screen.
The repositioning of the fixation target is preferably carried out with the fixation target in constant view of the observer. In this manner, the effect of the repositioning of the fixation target on the data on the visual field of the observer is readily reconciled.
According to a second aspect of the present invention there is provided a method of ocular testing for use with apparatus having a display means for displaying a target, an eye tracking means for tracking eye movement and a control means for controlling the display of the target on the screen;
wherein the method comprises arranging the control means to choreograph display of the target at different positions on the screen depending on whether the eye tracking means detects that the observer is directly looking at the target.
The method preferably further comprises recording data from the control means and the eye tracking means.
According to a third aspect of the present invention, there is provided apparatus for visual field measurement; the apparatus comprising:
a screen on which first and second targets can be simultaneously displayed at known target positions;
eye tracking means for detecting a direction of gaze of one or both eyes of an observer viewing the targets;
comparison means for comparing the direction of gaze detected by the eye tracking means with a direction of gaze that would be required to directly view the targets;
control means for providing the targets at a number of different positions on the screen in response to the comparison means identifying whether the detected direction of gaze matches the direction of gaze that would be required to directly view the targets.
According to a fourth aspect of the present invention there is provided apparatus for visual field measurement; the apparatus comprising:
a screen on which first and second targets can be simultaneously displayed at known target positions;
eye tracking means for detecting a direction of gaze of one or both eyes of an observer viewing the targets;
comparison means for comparing the direction of gaze detected by the eye tracking means with a direction of gaze that would be required to directly view the targets; and
control means for providing the targets at a number of different positions on the screen in response to the comparison means identifying whether or not the detected direction of gaze matches the direction of gaze that would be required to directly view the targets.
In this regard and as discussed above, one of the first and second targets is initially a fixation target and the other a visual field target provided in the visual field of the observer. The first and second targets will generally alternate as to their roles as fixation and visual field targets.
The control means preferably operates to reposition the target which has been identified as no longer matching the detected direction of gaze. Namely, once the eye tracking means has identified that the detected direction of gaze has left, say the first target acting previously as the fixation target, then the first target will be repositioned so that it functions as a visual field target.
Conveniently, the control means can operate to reposition the target not currently being directly viewed after a predetermined time interval. In this respect, this gives the observer an opportunity to establish whether such a target is in their visual field. If the observer is not aware of such a target then it is repositioned, for example closer to the fixation target, to try to establish the limits of the observer's visual field at that orientation.
Preferably, the control means operates to move the target not being directly viewed, in incremental steps. These steps should be small enough to accurately measure the visual
BID Instruments Limited
Woodcock & Washburn LLP
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