RU2022125059A - DEVICE FOR STUDYING DYSMETRIC SACCADES AND METHOD OF ITS APPLICATION - Google Patents

Claims (10)

1. A device for studying dismetric saccades, including a housing, an infrared emitter for illuminating the eyes of the subject, an infrared filter and a video camera for recording infrared radiation reflected from the pupil, characterized in that the infrared emitter is located in the housing next to the video camera co-directionally with its lens and is configured to regulation of the intensity of infrared radiation; the housing is configured to install different video cameras, contains a fixing element configured to adjust the direction of the video camera lens, a cooling fan, and a housing for protecting the video camera lens, containing at least one slot in the area of the lens focal length adjuster. 2. The device according to claim 1, characterized in that the infrared radiation intensity control knob is located on the rear side of the housing. 3. The device according to claim 1, characterized in that the case is configured to install at least one video camera, for example, Basler acA720-290gm, Basler acA640-750um, Ximea USB 3.1 Genl or Hikrobot MV-CA003-21UM / UC. 4. The device according to claim. 1, characterized in that the fixing element is made in the form of a clamp or stand connected to the body by at least one hinge. 5. The device according to claim. 4, characterized in that the stand contains a cavity with lead granules. 6. The device according to claim. 1, characterized in that the casing is made removable and contains an opening opposite the lens of the camera lens. 7. The device according to claim. 1, characterized in that the infrared filter is located in front of the infrared emitter and / or in front of the camera lens in the end part of the casing. 8. The device according to claim 1, characterized in that the body is made of metal or plastic with a matte finish in white, gray or black. 9. A method for recording dismetric saccades, including fixing the subject's head in the required position, presenting the subject with a visual stimulus, illuminating at least one eye of the subject with infrared light, recording the signal reflected from the eye to obtain a video sequence of images of the pupil, computer-implemented processing of the received video sequence with determination of coordinates of the pupil in each frame of the video sequence, the formation in chronological sequence of a two-dimensional array of pupil center coordinate values corresponding to the frames of the video sequence, from which at least three points are selected by segmentation analysis, which are considered the gaze fixation area, characterized in that a pattern on the screen is used as a visual stimulus computer, including the background, one peripheral image, which serves as a target for making a saccade in its direction, and one central image, the characteristics of which serve as a signal for making or not making a saccade Yes, while the central image periodically changes size according to the type of pulsation and / or changes color within one of the two pairs of opponent colors, namely green-red or yellow-blue, where the first color is a signal to perform a saccade, and the second color is a signal to its failure; to illuminate the eye with infrared radiation and register the reflected signal, use the device according to claim 1; install in the body of the device according to claim 1 the video camera necessary for the study; install the device using a fixing element so that the camera lens is located directly in front of the subject's face; if necessary, adjust the focal length of the lens through a slot on the casing; if necessary, manually or automatically adjust the intensity of infrared radiation to obtain the optimal image of the pupil, while the upper limit of the energy density of the radiation is 100 W/m ² ; the signal reflected from the eye is analyzed in such a way that, in a part of each frame of the video sequence, the region of acceptable pupil location is calculated, while this region has the shape of a square, the side length of which in pixels is equal to the quotient of the dividend and the divisor, where the dividend is the product of the maximum possible saccade speed and resolution matrices of the video camera, and the divisor is the product of the video camera shooting frequency and the monitor's gaze coverage angle, while the monitor's gaze coverage angle is equal to two arc tangents from the private half of the monitor width and the distance from the eyes to the monitor screen. 10. The method according to claim 9, characterized in that the signal reflected from the eye is recorded at a frequency of 10 to 500 frames per second.