RU2626687C1 - Method of detection of perception time of visual information - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: wearable augmented reality forming device is attached to the subject, which is part of the research software and hardware complex. The researcher chooses a mode of motor or exercise test from the complex program library and introduces it to the subject. Then, a sequence of two light pulses of 50 ms duration, separated by a pause equal to 150 ms, repeating through a constant time interval of 1.5 s, is applied to the device that forms the augmented reality. In the first stage of measurements, the duration of a pause between two light pulses is reduced for each subsequent presentation discretely with a predetermined constant step of 0.5 ms until the subject determines the moment of the fusion of two light pulses into one. At the second stage of measurements, the duration of the interpulse interval between the light pulses in the pair is increased for each subsequent presentation discretely with a predetermined constant step of 0.1 ms, until the subject determines the moment of the sensation of separation of two light pulses in the pair. Duration of the interpulse interval between two light pulses in a pair at the moment of the sensation of two light pulses separation is recorded. The time of perception of human visual information is taken equal to the sum of the duration of the light pulse and the duration of the pause between two light pulses at the moment of the sensation of the separation of two light pulses determined in the second stage of measurements. Further, during the execution of the motor or load test under stationary conditions or ground, water or flight movements periodically with a given period, the subject is presented with light pulses with the last fixed duration of the pause. If the subject feels fusion of two light pulses in a pair into one, the duration of the interpulse interval between two light pulses in the pair is increased for each subsequent presentation discretely with a given constant step of 0.1 ms, until the subject determines the moment of sensation of separation of two light pulses in the pair. Duration of the interpulse interval between two light pulses in a pair at the moment of the sensation of two light pulses separation is recorded. If the subject feels two light pulses in the pair separate, the duration of the interpulse interval between two light pulses in the pair is reduced for each subsequent presentation discretely with a given constant step of 0.1 ms, until the subject determines the moment of fusion of two light pulses in a pair into one. Duration of the interpulse interval between two light pulses in a pair at the moment of the sensation of two light pulses separation is recorded. The fixation of the duration of a pause is made according to the conditional actions or signals of the subject, which are fixed by the software and hardware complex or by the researcher. When the subject is removed to a considerable distance from the researcher, communication and information exchange is carried out via the radio channel.

EFFECT: method allows to determine the time of perception of visual information in the process of performing a motor or exercise test in conditions of augmented reality.

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Description

The invention relates to medicine and is intended to determine the time of perception of visual information.

A known method for determining the latent period of visual perception of a person. According to this method, a test object is formed with uniform background illumination and is exposed to the pupil of the eye by a flash from a light source, with subsequent recording by the subject of changes in the diameter of the pupil of the eye under the influence of a flash of light. The test pupil’s pupil is used as a test object, and the light source is located less than the focal length from the eye, and after a flash of light, an illumination pulse is formed with an amplitude equal to the background given duration T _and , the trailing edge of which coincides with the moment when the subject perceives the subject to begin to contract his pupil, and the value T is determined _and latency human visual perception pupillary reaction [1].

The disadvantage of this method is the need to use special equipment for fixing the moment of contraction of the test pupil, the dependence of the diameter of the pupil on the background illumination.

There are known studies of the temporal parameters of recognition of the stimulus and decision-making on the reactions that make up the “middle term” of the reflex. To measure the time parameters of the sensory phase of the reflex, a reverse masking technique is used to determine the time of perception necessary for transmitting information to the central nervous system and its recognition. The perception time is the period from the moment the exposure of the test short stimulus begins until the mask stimulus is turned on, when the latter can no longer interfere with the recognition of the test stimulus. In the process of research, the subjects are presented with one of 3-4 letters on the electroluminescent screen and after a certain period of time they turn on the masking stimulus - a single flash of 100 μs duration. The masking stimulus is turned on 20 ms after the exposure of the letter. Then the pause between the test and masking stimuli with each break is increased by 10 ms until the subject recognizes the letter. Measure the time of perception of literal stimuli [2].

The disadvantage of this method is the low accuracy of determining the time of perception of visual stimuli and the dependence of the time of perception of alphabetic information on the parameters of stimuli, since it is known that when recognizing signs of stimuli, such as the location of the stimulus contour, its orientation and size, the time characteristics of recognition are different [3]. The low accuracy of determining the time of perception of visual stimuli is due to the discretization of the change in the duration of a pause between a letter stimulus and a masking stimulus equal to 10 ms.

Closest to the technical nature of the proposed method is a method for determining the time of perception of visual information by presenting a test subject with a sequence of two light pulses of a given duration equal to, for example, 50 ms, separated by a pause equal to, for example, 150 ms, repeating through a constant time interval of the order of 1, 5 s, the duration of the pause between light pulses is reduced until the subject determines the moment of subjective merging of two light pulses into one, and at the first stage At the second stage of measurements, the pause duration between two light pulses with a given constant speed of about 5 ms / s, until the subject determines the moment of subjective sensation of the separation of two light pulses, at the third stage of measurements, the pause duration between two light pulses is reduced with constant speed of the order of 2 ms / s until the subject determines the moment of subjective fusion of two light pulses into one, characterized in that the time of perception of human visual information is taken equal to the sum of the duration of the light pulse and the duration of the pause between two light pulses at the moment of subjective fusion of two light pulses in one determined at the third stage of measurement [4].

The disadvantage of this method is:

- low accuracy in determining the time of perception of visual information, since it is determined with a continuously changing pause duration between two light pulses, and the human eye is more sensitive to the perception of discretely changing durations;

- limited conditions for determining the time of perception of visual information;

- binding to stationary equipment.

Known helmet-mounted target designation and indication systems (NSCI) - a mandatory accessory of modern combat aircraft and helicopters [5]. NSCI projects the image on a transparent screen located in front of the pilot’s eyes and mounted on his helmet. Since the screen is transparent, the pilot can simultaneously observe both the external environment and the displayed information: the main flight parameters, tactical and navigation information.

For research, augmented reality display devices are more promising. Epson Moverio VT-200 or Google Project Glass [6] lightweight augmented reality glasses and miniature Innovega augmented reality contact lenses (iOptik system) are known among such devices. The innovative iOptik system can be paired with specialized glasses. Its user focuses simultaneously on several objects of different distances, and the perception of one object does not interfere with the perception of another [7].

However, these technical means are not intended to determine the time of perception of visual information.

The technical result to which the claimed invention is directed is to increase the accuracy of determining the time of perception of visual information, providing the possibility of expanding the conditions for determining the time of perception of visual information, for example, when performing a motor or other load test in stationary conditions or on ground, water or flight movements of the test person .

The technical result is achieved by the fact that the test subject is presented with a sequence of two light pulses with a duration of 50 ms, separated by a pause of 150 ms, repeated after a constant time interval of 1.5 s, at the first stage of measurement, the duration of the pause between two light pulses is reduced until the subject determines the moment merging of two light pulses into one, at the second stage of measurements, increase the duration of the pause between two light pulses, until the subject determines the moment of sensation of separation of two light pulses, the time of perception of human visual information is taken equal to the value of the sum of the duration of the light pulse and the duration of the pause between two light pulses at the moment of sensing the separation of two light pulses, determined at the second stage of measurement, and new is that light pulses are presented using a wearable device, forming augmented reality, at the first stage they reduce the duration of the pause between two light pulses with each subsequent presentation of discrete with a given constant step of 0.5 ms, at the second stage, increase the pause duration between two light pulses with each subsequent presentation discretely with a given constant step of 0.1 ms, the pause duration between two light pulses at the moment of sensing the separation of two light pulses is fixed, then in the process of performing a motor or load test under stationary conditions or ground, water or flight movements, periodically with a given period, the subject is presented with light pulses from the last fixed duration of a pause, if the subject feels the fusion of two light pulses into one, increase the duration of the pause between two light pulses with each subsequent presentation discretely with a given constant step of 0.1 ms, until the subject determines the moment of sensation of separation of two light pulses, the duration of the pause between two light pulses at the moment of sensing the separation of two light pulses are fixed, if the subject feels two light pulses separate, reduce the duration of pauses between two light pulses for each subsequent presentation discretely with a predetermined constant pitch of 0.1 ms, until the subject does not determine the time of merging the two optical pulses in one length of the pause between two pulses of light at the time of merging the two optical pulses in one record.

The proposed method for determining the time of perception of visual information is as follows.

A wearable device (helmet, glasses or lenses) is fixed on the subject, which forms augmented reality, which is part of the research software and hardware complex. A researcher from the library of complex programs selects and sets the test subject to a motor or load test.

Then, a sequence of two light pulses of 50 ms duration, separated by a pause of 150 ms and repeating through a constant time interval of 1.5 s, is fed to the device that forms augmented reality.

At the first stage of measurements, the duration of the pause between two light pulses is reduced at each subsequent presentation discretely with a given constant step of 0.5 ms, until the subject determines the moment of merging of two light pulses into one.

At the second stage of measurements, the duration of the pause between two light pulses is increased with each subsequent presentation discretely with a given constant step of 0.1 ms, until the subject determines the moment of sensation of separation of two light pulses. The duration of the pause between two light pulses at the moment of sensing the separation of the two light pulses is fixed.

The time of perception of human visual information is taken equal to the value of the sum of the duration of the light pulse and the duration of the pause between two light pulses at the moment of sensing the separation of the two light pulses, determined at the second measurement stage.

Further, in the process of performing a motor or load test under stationary conditions or ground, water or flight movements, periodically with a given period, the subject is presented with light pulses with the last recorded pause duration.

If the subject feels the merging of two light pulses into one, the pause duration between the two light pulses is increased with each subsequent presentation discretely with a given constant step of 0.1 ms until the subject determines the moment of sensation of the separation of the two light pulses. The duration of the pause between two light pulses at the moment of sensing the separation of the two light pulses is fixed.

If the subject feels the two light pulses separated, reduce the pause between two light pulses with each subsequent presentation discretely with a given constant step of 0.1 ms, until the subject determines the moment of merging of the two light pulses into one. The duration of the pause between two light pulses at the time of the merger of two light pulses into one is fixed.

The pause duration is fixed according to the conditional actions or signals of the test subject, which are fixed by a hardware-software complex or researcher. When the subject is removed at a considerable distance from the researcher, communication and information exchange is carried out over the air.

The inventive method for determining the time of perception of visual information allows you to:

- improve the accuracy of determining the time of perception of visual information;

- expand the conditions for determining the time of perception of visual information due to the possibility of testing in natural or artificial conditions, including testing when moving on land, in water or air;

- determine the time of perception of visual information with the simultaneous presentation to the subject of sign characters or other additional information necessary for effective testing near or far from the researcher in on-line mode;

- to monitor during the execution of a motor or load test on the dynamics of the time of perception of visual information, the functional state of the subject, in particular the development of fatigue.

When implementing the proposed method can be used known technical solutions and tools. For computer processing of information, known or original software can be used.

The inventive method for determining the time of perception of visual information differs from the known new properties that determine the receipt of a positive effect. The method allows to determine the time of perception of visual information in conditions under which it was previously impossible to accomplish.

Information sources

1. RF application for the invention 99103477/14, MKI A61B 3/06. A method for determining the latent period of a person’s visual perception. / Agranovsky A.V., Berg O.Yu., Evreinov G.E. - Inventions. Utility Models: Official Bulletin of the Russian Agency for Patents and Trademarks. - 2001. - No. 1. - S. 14.

2. Kostandov E.A., Arzumanov Yu.L., Vazhnova T.N., Reshchikova T.N., Shostakovich G.S. Decision making and the "middle term" of the reflex according to I. M. Sechenov // Human Physiology. - 1979. - T. 5. - No. 3. - S. 415-426.

3. Kostelyanets N.B., Kamenkovich V.M. Temporal characteristics of the evaluation of simple properties of contour and textured images // Human Physiology. - 1984. - T. 10. - No. 2. - S. 272-275.

4. Patent 2209030 of the Russian Federation, A61B 5/00. A method for determining the time of perception of visual information. / V.V. Rozhentsov, I.V. Petukhov (RF). - Publ. July 27, 2003, Bull. No. 21.

5. Filatov O., Soldatenkov V. Electromagnetic positioning system for helmet-mounted target designation and indication systems // Electronics: science, technology, business. - 2003. - No. 5 (47). - S. 62-71.

6. [Electronic resource]. URL: https://hi-tech.mail.ru/review/epson_moverio_bt-200-rev.html.

7. [Electronic resource]. URL: http://innovega-inc.com.

Claims (1)

The method for determining the time of perception of visual information, which consists in the fact that the test subject is presented with a sequence of two light pulses with a duration of 50 ms, separated by a pause of 150 ms, repeated through a constant time interval of 1.5 s, at the first stage of measurement, the duration of the pause between two light pulses is reduced until the subject determines the moment of merging of two light pulses into one, at the second stage of measurements, the duration of the pause between two light pulses is increased, until the subject is about it limits the moment of sensing the separation of two light pulses, the time of perception of human visual information is taken equal to the sum of the duration of the light pulse and the duration of the pause between two light pulses at the moment of sensing the separation of two light pulses, determined at the second measurement stage, characterized in that the light pulses are presented using a wearable device that forms augmented reality, at the first stage, reduce the pause duration between two light pulses at each subsequent presentation discretely with a given constant step of 0.5 ms, at the second stage, increase the pause duration between two light pulses at each subsequent presentation discretely with a given constant step of 0.1 ms, the duration of the pause between two light pulses at the moment of sensing the separation of two light pulses is fixed , further, in the process of performing a motor or load test under stationary conditions or ground, water or flight movements periodically with a given period, the subject is presented show light pulses with the last recorded pause duration, if the subject feels the merging of two light pulses into one, increase the pause duration between two light pulses at each subsequent presentation discretely with a given constant step of 0.1 ms, until the subject determines the moment of sensation of separation of two light pulses , the duration of the pause between two light pulses at the moment of sensing the separation of two light pulses is fixed, if the subject feels two light pulses n, reduce the duration of the pause between two light pulses at each subsequent presentation discretely with a given constant step of 0.1 ms, until the subject determines the moment of merging of two light pulses into one, the duration of the pause between two light pulses at the moment of merging of two light pulses into one is fixed .