DE3226096A1 - Device for the measurement and recording of eye movements - Google Patents

Abstract

The invention relates to a device for the photoelectric measurement and recording of arbitrary and non-arbitrary eye movements by diffuse irradiation of the eye with IR light. It is especially applied in the medical field for investigation of the vestibular system and eye mobility and for determining the line of fixation. The object of the invention is to provide a nystagmograph by using the conventional spectacle shape with free vision and with the exclusion of influences of external light, which requires minimum optomechanical outlay, is lightweight and provides high accuracy of measurement. The object to be achieved is to provide an improved overall arrangement of the measurement device, especially of the emitter and receiver elements. This is achieved in that the emitter and receiver elements present in the form of chips are arranged on one or both lenses as a circular ring or in a star shape around the optical axis of the eye and are electrically coupled to the evaluation electronics via applied strip conductors and connecting blocks. Free vision is unimpaired due to the arrangement of the chips in the region out of focus. <IMAGE>

Description

Device for measuring and registering eye movements

The invention relates to a device for photoelectric Measurement and registration of voluntary and involuntary eye movements. It is used in particular in the medical field for examining the Organs of equilibrium and eye mobility as well as for determining the direction of gaze.

Statements about the frequency, amplitude, direction and duration of the nystagmus are becoming increasingly important in modern medicine. This will be attached to facilities for measuring and registering eye movements such demands as low Weight, quick and exact acquisition of measurement data and universal use. The measurement is based on the method of diffuse irradiation of the eye with IR light.

The light reflected by the eye reaches an optoelectronic Recipient. The different reflective properties of the iris and Exploited sclera.

In the patents US 3473868 and US 3689135 a solution is; presented in which the eye to be examined with modulated infrared radiation is illuminated. The reflected signal is received via a pair Receivers with which either the horizontal or the vertical deflection of the Eye can be registered. The transmitter and the two receivers are on the Lens attached to noreal glasses. This arrangement makes you strong obstructed vision and an adjustment to different interpupillary distances difficult to do. Disturbing interference cannot be ruled out. Farther shows that by using the modulated IR light the measurement of the current eye condition is not possible.

According to the patent US 4145122 a spectacle frame with IR-mirrored Glasses used. A fairly simple and easy arrangement is achieved by shining the IR light from the transmitter onto the lens, from there onto the eye reflected, reflected back onto the lens and now again from the lens is reflected on the receiver element. It turns out to be a decisive disadvantage the considerably disruptive influence of outside light. Furthermore, no high Achieve linearity between the deflection of the eye and the output signal. The production of the recipient element is economically very expensive.

In the description of the invention, DD 60388, a device is now measuring and registering the eye movement while using the favorable shape of the glasses. Two sources of illumination shine directly on the eye and the reflected beam reaches a silicon cell, transmitter and receiver are located in an image converter unit, which closes the eye opening. A measurement of nystagmus, under the condition the unobstructed view of the eye to be examined is therefore not possible. Farther there is a great heat load on the eye. The energy consumption and that The weight of the nystagmograph is still too great for an operative arrangement.

It is intended to be a device for measuring and registering eye movements when using the traditional shape of glasses with a clear view and under exclusion from external light influences are created that have a minimal optomechanical Has effort, a low weight and a high Xeßgenauigkeit.

The invention is based on the object of an improved overall arrangement the measuring device, in particular the transmitting and receiving elements. the The object is according to the invention with a device for measurement and registration of eye movements consisting of diffuse irradiation of the eye with IR light from a spectacle frame with spectacle lenses, an evaluation electronics, an optoelectronic Transmitter and an optoelectronic receiver, both of which are in the form of chips one of the lenses are applied and electrical lines with the Auawerteelektronik are connected, solved in that as an optoelectronic Transmitter a luminescence diode arrangement is present, with at least two luminescence diode chips are arranged on a circular ring around the optical axis of the eye and that the optoelectronic receiver made up of at least three strip-shaped phototransistor elements consists, which are arranged in a star shape around the optical axis of the eye.

The strip-shaped phototransistor elements can at least be arranged partially within the circular ring of the luininescence diode chips. For the simultaneous determination of the horizontal and vertical eye movement with It is advantageous to use four strip-shaped phototransistor elements with minimal electronic expenditure to be arranged cross-like within the circular ring of the luminescence diode chips.

The respective opposite phototransistor elements are in difference held. The electrical lines are in the form of conductor tracks on the lens educated. A connection strip is attached to the glasses frame, which has an electrical Establishes contact with the evaluation electronics. Part of the evaluation electronics is on attached to a temple of the glasses frame.

In all possible embodiments, it is expedient if on the spectacle frame L a light protection is firmly attached. For examining both eyes at the same time Both lenses have an analog structure of optoelectronic transmitter and optoelectronic receiver.

The advantage of the invention is that by the invention Arrangement of the optoelectronic transmitter and the optoelectronic receiver das The weight of the device is significantly reduced and it can be used universally. A measurement of the nystaginus can be carried out separately and simultaneously with a clear view for both eyes.

There is a strict linearity between eye movement and output signal and featuring high resolution.

External light influences can be completely excluded.

By using strip receiver elements, the influence the shape of the lid is significantly reduced.

The invention is to be described in more detail below using an exemplary embodiment explained.

The accompanying drawing shows: FIG. 1: the three-dimensional representation a device for measuring and registering eye movements the Device shown in the drawing for measuring and registering eye movements consists of a spectacle frame 1 with spectacle lenses 2, evaluation electronics 3, an optoelectronic transmitter 4 and an optoelectronic receiver 5. The Optoelectronic transmitter 4 and the optoelectronic receiver 5 are located as chips in front and are attached to a glasses lens 2. The optoelectronic transmitter 4 provides a circular ring of dwminescence diode chips, which around the optical axis of the eye is arranged. There must be at least two luminescence diode chips on the circular ring to find oneself. The more luminescence diode chips that form the circular ring, the more uniform is the diffuse irradiation of the eye with IR light.

The optoelectronic receiver 5 consists of at least three strip-shaped Phototransistor elements. They are star-shaped and at least partially within of the circular ring of the luminescence diode chips arranged. For simultaneous determination the horizontal and vertical eye movement with minimal electronic effort The cross-wise arrangement of four strip-shaped phototransistor elements offers itself within the ring of the luminescence diode chips. The opposite Phototransistor elements are then switched in differential. Since the lens 2 is in the out of focus area of the eye, the optoelectronic transmitter 4 and the act optoelectronic receiver 5 not obstructing the view. A clear perspective is thus guaranteed. There is a connection from the optoelectronic via electrical lines 6 Transmitter 4 and optoelectronic EmpSanger 5 for evaluation electronics 3. The electrical Lines 6 can be implemented as conductor tracks applied to the spectacle lens 2 will. On the 3-groove frame is then a terminal strip 7, which the electrical Contact to the evaluation electronics 3 guaranteed. It is beneficial to be part of the Evaluation electronics 3 on the glasses lenbügel of the glasses frame 1 gu attach. The signal losses can thus be minimized. By means of a modulation in the evaluation electronics 3, the received signals z. B. for storage can be transmitted over greater distances. The modulation carrier is then used Operating voltage so that only one feed line to the evaluation electronics 3 is required will. Attaching a light protection 9 to the glasses frame 1 guarantees a complete Exclusion of extraneous light influences. To the nystagmus simultaneously and separately for To determine both eyes, both lenses 2 must have an analogous arrangement of the optoelectronic transmitter 4, the optoelectronic receiver 5 and the conductor tracks have and the terminal strip 7 and the evaluation electronics 3 are each left and carried out on the right on the temple arm of the glasses frame 1.

List of the reference symbols used 1 spectacle frame 2 spectacle lens 3 evaluation electronics 4 optoelectronic transmitter 5 optoelectronic receiver 6 electrical lines 7 connection strip 8 eyeglass temple 9 light protection Blank page

Claims (7)

Claim 1. Device for measuring and registering eye movements by diffuse irradiation of the eye with IR light, consisting of a glasses frame with 3-groove glasses, evaluation electronics, an optoelectronic transmitter and an optoelectronic receiver, both of which are available as chips, to one of the Erillenglasses are applied and via electrical lines to the evaluation electronics are in connection, characterized in that as an optoelectronic transmitter a luminescence diode arrangement is present, wherein at least two luminescence diode chips are arranged on a circular ring around the optical axis of the eye, and that the optoelectronic receiver made up of at least three strip-shaped Pototraxiaistorelements consists, which are arranged in a star shape around the optical axis of the eye. 2. Device according to claim 1, characterized in that d: atreifen-shaped Pototransistor elements at least partially within the ring of the luminescence diode chips are arranged. 3. Device according to claim 1 and 2, characterized in that for the simultaneous determination of the horizontal and vertical eye movement with four strip-shaped potentiometer elements cross with minimal electronic effort are arranged like within the circular ring of the luminescence diode chips and for the opposite pototransistor elements provided a differential circuit is. 4. Device according to claim 1 to 3, characterized in that the electrical lines are designed as conductor tracks on the spectacle lens and an electrical contact via a connector strip attached to the glasses frame for evaluation electronics is available. 5. Device according to claim 1 to 4, characterized in that a part of the evaluation electronics is arranged on a temple of the glasses frame is. 6. Device according to claim 1 to 5, characterized in that a light protection is firmly attached to the glasses frame. 7. Device according to claim 1 to 6, characterized in that to examine both eyes at the same time, both lenses have an analogue Have construction of optoelectronic transmitter and optoelectronic receiver.