CN205181313U - Two mesh pupil light reflex tracker - Google Patents

Abstract

The utility model discloses a two mesh pupil light reflex tracker, this system include two mesh pupil detection equipment imaging system of gripping formula and pupil pursuit measured module, wherein, imaging system contains two infrared camera, two infrared lighting source, two thorns laser source, gripping formula equipment and singlechips, and infrared camera, source of illumination, thorn laser source, singlechip integration are inside gripping formula equipment, and camera and light source are connected with the singlechip, are responsible for the control of signal and the input/output of data by the singlechip, it is integrated in the singlechip that measured module is tracked to the pupil, tracks the measurement to the image of singlechip collection to carry out analysis processes to measuring result, still include the removal seat, the suspension group that form a complete set with the handle, this system's suitability is strong, can be applied to occasions such as first aid, field, and application prospect is huge.

Description

Binocular pupil light reflex tracking system

Technical Field

The utility model belongs to the visual detection field, specificly relate to a two mesh pupils are to light reflex tracker, including infrared camera, infrared lighting source, stimulus source, gripping formula device, measurement display device, single chip microcomputer control, data processing control module and pupil tracking measurement system module, be suitable for clinical ophthalmology, neurosurgery, psychology and relevant field's medical treatment and use.

Background

When the human eye is subjected to light stimuli, the pupil shrinks, known as the pupillary light reflex. The contraction of the pupil is performed by the parasympathetic sphincter in the oculomotor nerve, the expansion of the pupil is performed by the sympathetically innervated mydriasis muscle, and the two are coordinated with each other at the center, thereby realizing the complex pupillary light reflex control. The reflection on the same side is called direct light reflection, and the narrowing of the pupil on the opposite side is called indirect light reflection. Central modulation damage will result in diminished or absent light reflectance.

The normal pupil has a diameter of 2.5-4.5 mm, is circular, has almost equal pupil sizes at two sides, has a difference of no more than 0.5 mm, and has sensitive light reflection. The pupil size of each person is affected by factors such as age, physiological condition, refraction, and external environment, and is different. Pupil diameters such as over 6mm or less than 2 mm are abnormal; the pupils on both sides are not equally large, especially pathological when the light emission is slow or disappears. In normal people, children have large pupils, and the old people are small. When sleeping, the pupil shrinks and becomes bigger after waking up, which is a physiological phenomenon. Some drugs can cause miosis when poisoned, such as organic phosphorus, barbiturate, morphine and opium derivatives. Some mental symptoms, such as anxiety, panic, pain, etc., can cause mydriasis; mydriasis can also be caused by atropine, cocaine, and botulinum toxin poisoning; local pathological changes of the eye can affect the shape, size and light reflection of the pupil, such as pathological changes of the cornea and iris. Therefore, according to the characteristics, the pupil light reflex device is clinically used for screening related diseases in the fields of clinical ophthalmology, neurosurgery, psychology and even drug rehabilitation.

When the pupil light reflex equipment is used for inspection, the collected light is used for irradiating the middle of two eyes, the light reflex is observed, then the light source is respectively moved to the centers of pupils at two sides, the direct reflex and the indirect reflex of the pupils are observed, and the aperture of the pupils is reduced under the illumination, namely the direct reflex. If the other eye is illuminated, the pupil of the non-illuminated eye causes a constriction, known as indirect light reflex. Both direct and indirect reflexes disappear, seen in profound coma or impaired ipsilateral oculomotor nerves; the direct light reflex disappears, and the indirect light reflex exists and is seen in the damage of the optic nerve on the same side; binocular light reflectance measurements are therefore necessary.

The pupil has a latency to light reflex, i.e., the time interval from the onset of light stimulation to the onset of pupil response. The coma patient is slow in performance, long in latency period and short in stimulation sensitization time, the pupil has no obvious light reflex phenomenon, and therefore the light stimulation time needs to be prolonged for the deep coma patient.

The traditional pupil detection mode mainly comprises electroretinograms, visual evoked potentials, electrooculogram and the like; the pupil tester is mainly a totally enclosed inspection box; the portable examination equipment mainly comprises a handheld pupil pen lamp, a flashlight and the like. The disadvantages of the existing inspection apparatus and method are:

(1) the measurement content and the precision are limited: the handheld pupil pen lamp, the flashlight and the like cannot objectively, quantitatively and accurately measure the size of the pupil and the light reflex condition, wherein the measurement of the light reflex latency, the pupil contraction speed and the like cannot be carried out;

(2) poor portability: the pupil detector equipment has large volume and is heavy, needs to be placed in a flat environment and is not suitable for being used in the field;

(3) the detection object is limited: in the existing equipment, the stimulation time of the stimulation light source is fixed, so that the existing equipment cannot be used for examining diseases aiming at special patients, such as severe coma patients;

(4) the operation is not convenient and fast, and is easy to be interfered by subjective factors: in the traditional pupil detector equipment, many testing links need manual participation, the difference of manual operation and subjective judgment can cause inaccurate testing, and the required test subject has high degree of adaptability, so that discomfort can be brought to the test subject;

(5) the real-time property is poor: the camera acquisition frame frequency of the existing pupil detection equipment is low, and the real-time performance of pupil measurement software is poor, so the measurement precision is limited;

(6) the operating efficiency is limited: the existing portable equipment does not support binocular pupil light reflex examination, and patients with indirect light reflex abnormality cannot be screened;

(7) the measurement results are not intuitive: the existing pupil light reflex equipment provides measurement result parameters and has no visual change curve.

In view of the above-mentioned shortcomings of the conventional devices, the inventors have devised a binocular pupillary light reflex tracking system.

SUMMERY OF THE UTILITY MODEL

For overcoming not enough among the prior art, the utility model discloses a two mesh pupils are to light reflex tracker has been researched and developed, track measuring module including infrared camera, infrared illumination light source, stimulus light source, grabbing device, display device, singlechip data processing control module and pupil. The time mode of the stimulating light source of the device is adjustable, binocular pupil measurement is supported, the device is high in portability, the algorithm precision of the pupil tracking and measuring system is high, the real-time performance is high, and the device measuring precision is improved.

The infrared camera, the light source and the single chip microcomputer data processing module are integrated in the grasping type device, and the display module is arranged on the outer side of the grasping type device; the pupil tracking measurement module is applied to the single chip microcomputer data processing module, the single chip microcomputer obtains camera image input, the pupil tracking measurement module performs tracking calculation, and the single chip microcomputer outputs the camera image input to a display screen or other terminals through wireless WIFI or Bluetooth; the infrared illumination light source and the stimulation light source are processed and controlled by the gripping device through the single chip microcomputer, namely buttons on the gripping device can be used for selecting different light source stimulation time to measure;

the software of the pupil tracking measurement module designs a step-by-step regional self-adaptive sub-pixel tracking algorithm, improves the pupil tracking accuracy, reduces the tracking calculation algorithm time to 1/20 or even lower, greatly improves the time resolution of the pupil tracking process, and can better meet the practical requirement of clinical high-precision high-speed pupil tracking. The specific method is to provide an automatic threshold segmentation algorithm based on the gray level characteristics of pupils of human eyes aiming at the gray level distribution and the noise characteristics of human eye images, so that the coarse positioning of the centers of the pupils and the interception of pupil areas are realized, and the influence of light spots, eyelashes, eyelids and other interferents is avoided. According to the result after the rough positioning, removing bright spots generated by the illumination light source in the pupil, automatically calculating the threshold again, judging and calculating the pupil center of mass, quickly limiting the pupil position and the pupil area of the next frame according to the center of mass position, accelerating the detection speed and realizing the real-time positioning and tracking of the pupil. The measurement algorithm of the pupil tracking measurement system is high in real-time performance, continuous pupil images are captured, a large number of samples are collected, and high-precision pupil tracking detection is achieved.

In addition, according to the collected data analysis and measurement results under different stimulation conditions, an analysis scheme is designed, a set of standard reference system of pupil light reflex parameters is obtained through analysis according to test experiments and clinical application experiments, and a diagnosis report is output. But direct display is on the organism is from taking the display screen, can also pass through wireless transmission techniques such as bluetooth, zigBee, Wifi and the interaction of portable or wearable equipment and terminal is accomplished to wired connection mode through data storage, compression technique.

The utility model discloses a measurement system's beneficial effect is:

(1) the gripping or wearable equipment has strong portability and can be applied to occasions with poor natural conditions such as first aid, wards, even outdoors and the like;

(2) the measurement result is accurate and visual, and can be rapidly displayed on a display screen;

(3) the gripping handle is detachable, and the device main body can be used as a core component of the wearable device and is independently fixed on an operation table or a subject;

(4) the binocular pupil measurement is supported, and direct and indirect pupil light reflex measurement results can be obtained;

(5) the equipment has high flexibility, supports wireless or wired data terminal output of the measurement result and meets the storage requirement of the measurement result;

(6) the stability of the measuring result is high, the structure of the gripping or wearing type equipment ensures the phase position of the equipment and the eyes to be stable, and the pupil image quality and the measuring result precision are ensured;

(7) the stimulation spectrum, the stimulation intensity, the stimulation waveform and the stimulation time of the optical stimulator of the measuring equipment can be set as required, so that the requirements of various clinical indications and special environments are met;

(8) the pupil tracking measurement software algorithm adopts a step-by-step regional self-adaptive sub-pixel tracking method, the tracking precision is high, and the pupil tracking frame rate and the tracking precision are effectively improved under the condition of the same calculation performance;

(9) the measuring equipment comprises a display device, not only displays the pupil image and the measuring result parameters, but also provides a visual pupil change curve, and is convenient for an operator to observe and analyze;

(10) the software system provides a set of standard reference system of pupil light reflex parameters through test experiments and clinical application experiments.

The above description is only an overview of the technical solution of the present invention, and in order to make the technical means of the present invention clearer and can be implemented according to the content of the description, the following detailed description is made with reference to the preferred embodiments of the present invention and accompanying drawings. The detailed description of the present invention is given by the following examples and the accompanying drawings. The present invention will be described in more detail with reference to only those portions which are modified, and other portions which are not described may be implemented by means of the prior art in the field, that is, portions which are not described are implemented by means of the prior art, and will not be described in detail herein.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without undue limitation to the invention. In the drawings:

fig. 1 is a schematic diagram of the system structure of the present invention.

Fig. 2 is a schematic view of the appearance structure of the present invention.

Fig. 3 is a schematic diagram of the pupil tracking and measuring module of the present invention.

Description of reference numerals:

1: a switch button; 2: a stimulus light source knob; 3: a pupil tracking button; 4: a display screen; 5: a grip-type device; 6. 7: receiving a position; 8. 9: a soft buffer ring; 10: a single chip microcomputer; 11: a power supply; 12. 13: an infrared camera; 14. 15: an infrared illumination source; 16. 17: a stimulus light source.

Detailed Description

The technical implementation process of the present invention will be further explained with reference to the drawings and the embodiments.

Example 1:

this embodiment illustrates the system architecture of the present invention.

Combine attached figure 1, it does the utility model discloses a system architecture diagram, system include that grabbing formula binocular pupil check out test set imaging system and pupil track measuring module. The imaging system comprises two infrared cameras, two infrared illumination light sources, two stimulation light sources, a grasping type device and a single chip microcomputer, wherein the infrared cameras, the illumination light sources, the stimulation light sources and the single chip microcomputer are integrated in the grasping type device; the pupil tracking measurement module is integrated in the singlechip, tracks and measures the image collected by the singlechip, analyzes and processes the measurement result, finally displays the result on a self-contained screen, and also can output the result to a terminal through wireless (such as WIFI and Bluetooth) or wired connection.

The illumination light source in the imaging system of the grasping type binocular pupil detection equipment can be a near-infrared illumination light source which is controlled by a single chip microcomputer and provides a stable illumination environment for imaging; the spectrum, brightness and stimulation time of the stimulation light source can be changed by system settings, such as: the stimulating light source selects green light, the brightness is 1000mcd, and the stimulating time is 400 ms;

the measurement result display device is embedded on the gripping device and supports the display of the pupil image and the measurement result.

The pupil tracking measurement module supports data output and measurement report output, and outputs the result to other terminals for further storage and analysis.

With reference to fig. 1, the external control input, record storage, report generation, etc. may also be performed by a computer with a memory.

Example 2:

the present embodiment is based on the foregoing embodiment 1, and is different from the foregoing embodiment 1 in that the present embodiment describes in detail the external appearance structure of the system of the present invention.

Referring to fig. 2, it is a schematic diagram of an external structure of the present invention, which includes a front view, a rear view (fig. 2 a), and a top view (fig. 2 b).

The utility model relates to a gripping type measuring device, which comprises infrared cameras 12 and 13, wherein the two cameras are respectively and independently controlled by a singlechip directly, respectively complete image acquisition and are finally connected with a pupil tracking measuring module; referring to fig. 2a, the top of the gripping device is a measuring part, and the lower part is a handle.

The infrared illumination light sources 14 and 15 are arranged in the equipment, are controlled by a single chip microcomputer to be started, are arranged on one side of the camera and in front of eyes, and ensure that bright spots formed by the infrared illumination light sources in the eyes fall in the pupils so as not to influence the measurement precision of the pupils;

the stimulating light sources 16 and 17 are arranged in the device, the stimulating light sources are arranged on the other side of the camera and are opposite to eyes, and the opening and closing of the stimulating light sources and the stimulating time of the stimulating light sources are controlled by a pupil tracking measuring module or a button on the device.

A display screen 4 is arranged above the measuring part of the equipment, and displays the input image of the pupil measuring software, the measuring result and the variation curve of the measuring result; the display screen faces to the doctor and other personnel, and is convenient to observe.

A single chip microcomputer 10 and a power supply 11 are installed inside the handle of the device, the single chip microcomputer provides the operating environment of pupil tracking measurement software, is responsible for input and output of camera control and collection, is responsible for signal input of various light sources, is responsible for display driving of a display screen and the like, and is connected with an infrared camera, the light sources and the display screen through control lines and data lines. The power supply 11 supplies power to the camera and the singlechip and also supplies power to other light sources, and the power supply supports alternating current charging and is convenient to use.

There are button 1, 2, 3 on display screen left side and right side, and 1 is equipment shift knob, and 2 are amazing light source knob, and 3 are pupil tracking button, and wherein amazing light source knob and pupil tracking button respectively install a set ofly about the display screen, and hand all can be operated about the convenience.

The utility model discloses a system architecture is light, small and exquisite, and the user only needs open equipment switch, holds the equipment handle, places equipment in the front of the person's of being examined, treats that pupil image appears in the display screen, presses the tracking button and can begin to measure, and measuring result shows on the screen. The user can also adjust the time of the stimulating light source and the illumination intensity of the illuminating light source for different patients and then perform tracking measurement. After the inspection is completed, the result can be transmitted to other terminals, such as a printer, and an inspection report can be printed.

Example 3:

the present embodiment is performed on the basis of the foregoing embodiment 1 or 2, and is different from the foregoing embodiment in that the present embodiment further improves the grip type apparatus.

The binocular pupil light reflex tracking system comprises a grasping type device, wherein the top of the grasping type device is provided with a measuring part, the lower part of the grasping type device is provided with a handle, and the measuring part and the handle are both provided with built-in spaces for mounting an infrared camera, an infrared illumination light source, a single chip microcomputer, a stimulating light source and a power supply; a single chip microcomputer and a power supply are arranged in the handle of the gripping device; a display screen is embedded in the front side surface of the measuring part of the gripping type equipment and is connected with the single chip microcomputer; a switch button is arranged at the bottom of the right side of the display screen, a stimulus light source knob and a pupil tracking button are respectively arranged on the left side and the right side of the display screen, wherein the stimulus light source knob and the pupil tracking button are respectively arranged in a group on the left and the right of the display screen; two detected positions are embedded in the rear side of a measuring part of the gripping type equipment, and soft buffer rings are arranged around the detected positions; an infrared camera, an infrared illuminating light source and a stimulating light source are arranged above each detected position and at the position, close to the top surface, of the measuring part of the gripping type equipment; the two cameras are respectively and independently connected with the single chip microcomputer; the two infrared illumination light sources are connected to the single chip microcomputer; the power supply is connected to the infrared camera, the singlechip, the infrared illumination light source, the infrared camera and the stimulation light source.

The device in the system is connected by a data line.

Furthermore, the system is externally connected with a computer and a printer.

Further, the system also comprises a wireless signal transmitting terminal.

Furthermore, the gripping type equipment is provided with a packing box, a hollow foam pad is arranged in the packing box, and the space formed by the hollow part is slightly larger than that of the gripping type equipment.

Furthermore, the gripping type equipment also comprises a supporting frame body which is matched with the gripping type equipment for use.

Furthermore, the bottom of the support frame body is provided with 3 or more than 3 rollers.

Example 4:

the present embodiment is carried out on the basis of the foregoing embodiment 1 or 2 or 3, and is different from the foregoing embodiment in that the present embodiment further improves the grip type apparatus. For the convenience of hanging check out test set, the utility model discloses still make following design:

the system also includes a suspension assembly that includes round holes, long screws, rings or hooks, and may also include a level tube.

Two round holes are symmetrically arranged on the top surface of the measurement part of the gripping type equipment, each round hole is screwed in a long screw, and the top end of the long screw is provided with a notch suitable for being screwed by a screwdriver; the top ends of the long screws are provided with transversely through holes, circular rings or hooks penetrate into the holes, the grabbing type equipment is hung on the wall surface and other positions through the circular rings or the hooks, and the equipment is leveled through the two long screws.

Furthermore, a horizontal and transverse leveling pipe is arranged in the middle of the two round holes, and the horizontal condition of the equipment is observed through air bubbles in the leveling pipe.

Furthermore, the diameter of the round hole is 2-6 mm.

Furthermore, the length of the long screw is 8-20 mm.

Further, the incision can be in a cross shape.

Further, the position of the fixing device can be an indoor wall surface, a tree, a wall, a temporary building and a structure.

Example 5:

the present embodiment is based on the foregoing embodiment 1 or 2 or 3 or 4, and is different from the foregoing embodiment in that the present embodiment is designed to be more suitable for a grip-type apparatus.

In order to make the grip type apparatus more adaptable, the following design is made.

The handle is provided with a charging interface and a data export port; the handle is a rectangular or square hard shell, and each side surface of the handle is provided with a vertically and vertically through convex line (blade).

The handle has supporting removal seat, removes the seat structure and does: including the base, the base is the rectangle, and the base four corners respectively has 1 screw adjusting device, and screw adjusting device realizes the lift at each angle, and the amplitude of lift is 20 mm. The bottom end of each spiral adjusting device is a soft rubber pad for skid resistance and buffering.

The middle layer plate is arranged on the base, the base is connected with the middle layer plate through a sliding rail and a sliding block, and the middle layer plate horizontally and transversely moves back and forth on the base by matching with a first hand wheel and a first lead screw;

an upper layer plate is arranged above the middle layer plate, the middle layer plate and the upper layer plate are connected through a sliding rail and a sliding block, and the upper layer plate horizontally and longitudinally moves back and forth on the middle layer plate through a second hand wheel and a second lead screw;

the top surface of the upper plate is welded with the mounting column, the bottom of the mounting column is welded on the upper plate, the top of the mounting column is hollow, a rectangular or square plugging space is formed, each side face of the plugging space is provided with a vertical groove which is communicated up and down, and the plugging space with the groove is matched with the handle, so that the handle slides in the plugging space and is tightly combined.

Furthermore, a rectangular steel sheet extends out of the upper portion of the mounting column, the rectangular steel sheet is horizontally placed and fixed on the mounting column in a welding mode, the width of the rectangular steel sheet is 1-2cm, the length of the rectangular steel sheet is 3-8cm, and a first leveling pipe horizontally and transversely placed is supported on the rectangular steel sheet through two screws capable of screwing in and screwing out and used for indicating the level. And the leveling tube is calibrated through the screw. Similarly, a second level tube is mounted horizontally and longitudinally on the upper deck.

Furthermore, the convex lines and the grooves are matched and can be in a semicircular shape, an arc shape or a triangular shape, and the length or the depth is 5-55 cm.

Further, the handle shell and the mounting column are made of hard materials, and can be made of 304 steel or aluminum alloy.

Furthermore, a small amount of lubricating oil is coated on the surfaces of the convex lines and the grooves.

Further, before the measurement, insert the plug space with the handle, through adjusting the screw adjusting device on the base, make first level pipe and second level pipe bubble placed in the middle, then adjust first hand wheel, second hand wheel, make grabbing formula equipment be in the person's dead ahead, then adjust the screw adjusting device on the base again, make first level pipe and second level pipe bubble placed in the middle. The subject is detected near the grasping device.

Further, in order to realize vertical height adjustment, the following design is made: the whole hollow structure that is of erection column, be formed with rectangle or square plug space, the three side in plug space has the recess that link up from top to bottom vertically, at the opposite side, set up the vertical fluting that link up, a screw is inserted to fluting position level, the one end that this screw stretched into the erection column is the hemispheroid, the one end that this screw stretches out the erection column includes screw adjusting nut, can realize the screens of screw on the erection column through adjusting nut of screwing, thereby prevent the gliding of handle in hollow structure, through this screw, realize the regulation of handle plug-in height position.

When the height position of the handle is well adjusted, the first leveling tube and the second leveling tube still need to be centered.

Furthermore, the surface of the screw adjusting nut is provided with knurls, and the depth of the knurls is 1 mm.

Example 6:

the present embodiment is performed on the basis of the foregoing embodiments 1 or 2 or 3 or 4 or 5, and is different from the foregoing embodiments in that the present embodiment designs a pupil tracking measurement module.

Combine the attached drawing 3, it does the utility model discloses a measurement module schematic diagram is tracked to the pupil, behind the system module input pupil image, calculate the pupil threshold value by threshold value calculation module 01 based on pupil grey scale characteristic, based on the pupil threshold value, carry out the fuzzy positioning calculation to the pupil barycenter by pupil barycenter fuzzy positioning module 02, draw the rough barycenter of pupil, verify the validity of pupil barycenter through pupil barycenter verification module 03, if invalid, then track the failure, otherwise predict pupil tracking module 04 by pupil district prediction pupil tracking module, pinpoint the pupil in the prediction district, pupil barycenter accurate positioning module 05 obtains accurate pupil barycenter coordinate promptly, verify the pupil barycenter through pupil barycenter verification module 06, if invalid then fail, otherwise get into pupil diameter calculation module 07 and obtain the pupil diameter, a frame of image tracks the completion promptly. After all the images within the time period to be detected are tracked, an analysis module of the pupil tracking measurement module analyzes and processes pupil data to obtain measurement results, such as parameters of pupil response latency, pupil contraction rate, pupil contraction proportion and the like, and then the condition of the patient can be further analyzed according to the measurement parameters.

It should be noted that, if a pupil diameter variation curve is desired, at least one pupil concussion period needs to be continuously detected, so that the data accuracy is reliable.

Example 7:

the present embodiment is performed on the basis of the foregoing embodiments 1 or 2 or 3 or 4 or 5 or 6, and is different from the foregoing embodiments in that the present embodiment makes a stronger design for a system algorithm. In this embodiment, the pupil tracking measurement module adopts the following process:

(1) acquiring image data;

(2) pre-treating;

(3) extracting a pupil self-adaptive threshold, judging whether the threshold is legal or not, if so, continuing the next step, and if not, returning to the step (1);

(4) carrying out image binarization;

(5) morphological filtering;

(6) coarsely positioning the mass center of the pupil;

(7) determining a light spot searching subgraph;

(8) self-adaptive threshold extraction of the light spots, judging whether the threshold is legal or not, if so, continuing the next step, and if not, returning to the step (1);

(9) positioning light spots;

(10) accurately positioning the centroid of the light spot;

(11) calculating pupil gray scale gradient;

(12) extracting the pupil edge;

(13) accurately positioning the pupil centroid by edge fitting;

(14) calculating pupil facula mass center offset and the like, and storing data;

(15) processing the next image in the order of (1) - (14);

(16) processing and analyzing a plurality of image data;

(17) outputting the result;

for spot centroid extraction, the following function is used:

。

wherein,is the central point of the interest region of the light spotH is the amplitude of the gaussian distribution, i.e. the maximum value of the gray level in the region of interest of the spot,is the central position of the light spot,、the gray scale standard deviation in the horizontal direction and the vertical direction.

The utility model improves the prior art, so the prior art is used for reference in the implementation process, the implementation process is limited by space, and the prior art is not described in detail; all the technical parts not mentioned in the utility model can be realized by adopting the prior art.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. A binocular pupil light reflex tracking system is characterized in that: the system comprises a grasping type device, wherein the top of the grasping type device is provided with a measuring part, the lower part of the grasping type device is provided with a handle, and the measuring part and the handle are both provided with built-in spaces for mounting an infrared camera, an infrared illumination light source, a singlechip, a stimulating light source and a power supply; a single chip microcomputer and a power supply are arranged in the handle of the gripping device; a display screen is embedded in the front side surface of the measuring part of the gripping type equipment and is connected with the single chip microcomputer; a switch button is arranged at the bottom of the right side of the display screen, a stimulus light source knob and a pupil tracking button are respectively arranged on the left side and the right side of the display screen, wherein the stimulus light source knob and the pupil tracking button are respectively arranged in a group on the left and the right of the display screen; two detected positions are embedded in the rear side of a measuring part of the gripping type equipment, and soft buffer rings are arranged around the detected positions; an infrared camera, an infrared illuminating light source and a stimulating light source are arranged above each detected position and at the position, close to the top surface, of the measuring part of the gripping type equipment; the two infrared cameras are respectively and independently connected with the single chip microcomputer; the two infrared illumination light sources are connected to the single chip microcomputer; the power supply is connected to the infrared camera, the singlechip, the infrared illumination light source and the stimulation light source; the device in the system is connected by a data line; the system also includes a suspension assembly.

2. The binocular pupil light reflex tracking system of claim 1, wherein: the suspension assembly comprises a round hole, a long screw, a ring or a hook and a leveling pipe; the concrete structure is as follows: two round holes are symmetrically arranged on the top surface of the measurement part of the gripping type equipment, each round hole is screwed in a long screw, and the top end of the long screw is provided with a notch suitable for being screwed by a screwdriver; the top end of the long screw is provided with a transversely through hole, and a circular ring or a hook penetrates into the hole; a horizontal and transverse leveling tube is arranged in the middle of the two round holes.

3. The binocular pupil light reflex tracking system of claim 2, wherein: the diameter of the round hole is 2-6 mm.

4. The binocular pupil light reflex tracking system of claim 3, wherein: the length of the long screw is 8-20 mm.

5. The binocular pupil light reflex tracking system of any one of claims 2-4, wherein: the incision is in a cross shape.