HU181163B - Reactio time meter for psichophysiologic and psichologicexaminations,in particular for ability tests and examinations of barden - Google Patents

Description

The present invention relates to a reaction time measuring apparatus for psychophysiological and psychological, in particular fitness and workload tests.

The equipment developed for this purpose, based on the recording and analysis of the subject's responses to a simple stimulus situation, provides a very wide range of useful information on central nervous system characteristics, excitatory and inhibitory nervous system characteristics. stimulation and the relationship between inhibition processes and general reaction skills.

Devices are only fully capable of this purpose if they are capable of providing a series of different compositions and breaks consistent with the actual test purpose, and allow constant and variable flawless timing, and providing the same task for all subjects at all times.

Known devices developed for this purpose do not fully meet the requirements of the Pierre Dufour 63040 (Materiéi Psychotechnique, Paris 1976) and K.G.

I. No. EM-05 manufactured by No. I. Equipment 39 (Offer Information, KGI No. Sz. I. Printing Plant, Budapest, 1980), which are considered to be the most up-to-date devices for this purpose, do not allow for changing the characteristics of the pacing sequences, do not register, analyze data ( moments) and neither device distinguishes between anticipated and actual responses. The anticipated response does not simply mean the response before the onset of the stimulus, since the time between signal recognition and actual response has a relatively stable but physiological lower limit depending on the characteristics of the stimulus, and thus no response can be given ( process).

Given that the latency that affects the response to the next stimulus is always counted from the point of the previous (possibly anticipated) response, the same series cannot be provided.

The reaction time meter of the present invention eliminates these shortcomings and, in the simplest way, and thus very advantageously, fully satisfies the requirements.

The present invention relates to a reaction time measuring apparatus which produces an auditory, visual or mixed stimulus sequence of variable number of elements with predetermined intervals. each stimulus is eliminated by the subject's handwriting response. In addition to measuring the individual value ms, the time elapsed between the onset of the stimulus and the response is divided into three time groups (anticipated, normal, and excess), and the normal time is further divided into time intervals of variable number and value. The device counts the anticipated answers, but does not take these time values into account when calculating the indices. In the case of an anticipated answer, be181163

Sorting -1181163 automatically resets the break time to zero, providing the subject with the same stimulus position. This solution, which has never been used before, allows for an unbiased estimation of central moments and comparability. The unique time value of the responses, the number of responses in each time interval, and the central moments calculated by the device are recorded, displayed, and printed.

The parameters that can be set in the device are as follows:

- number of series vessels (1 to 64);

- breaks within the sequence (0-4s, 10ms within a time interval);

- type of stimuli, the proportion and succession of different types of stimuli in mixed sequences;

- anticipated response time (0-4 sec);

- number of normal time intervals (1-15);

- time interval of the intervals (0-4 s).

The above parameters can be set by programming (numeric keypad or function keypad), and there are three basic programs that are recorded at the factory.

The device consists of the following main units:

- pacing unit;

- response evaluation unit;

- programming unit;

- display - print unit.

The invention will be described in more detail with reference to the drawings, in which: Fig. 1 is a block diagram of the apparatus according to the invention, Fig. 2 is a stimulus transmitter 10, Fig. 3 is a response evaluator 20, an exemplary embodiment is shown.

The structure and operation of the apparatus according to the invention, as shown in Figure 1, is as follows:

In an exemplary embodiment of the apparatus, there is a circuit-switched pacing transmitter 10, response rate 20 and display units 40, a signal generator 90, a 50 response unit, a programmer 30 and a program switch 70, and a circuit-switched measuring enable 80 and 60 clock generators. The output of the pacemaker 10 to the signal generator 90 providing the audio and light signals with the F and H lead system and to one of the inputs of the response evaluator 20; the responder 50 is connected to the stimulus transmitter 10 and the response evaluator input 20 by the lead V, the programmer 30 is connected to the lead system P, FB, the second input of the stimulus 10 and responder 20. The output of the clock generator 60 is coupled to the third input of the pacemaker 10 and the response evaluator 20, the second output of the pacemaker 10 to the measurement enable input 80, the output of the measurement enable 80 to the input of the clock generator 60 An additional second output of the response evaluator unit 20 is connected to the fourth input of the pacemaker 10 by the conductor system2, and the program switch 70 is connected to the fifth input of the pacemaker 10 and the response evaluator 20.

Accordingly, the excitation light 10 emits a light or acoustic signal through the signal generator 90 to the subject, who signals the detection of the signal with the responder 50 on the V line. At the same time as the light or sound signal, the response evaluator 20 starts to measure the time elapsed between the light or sound signal and the response signal, measured according to the value before or after the signal is issued, but within a specific time interval (anticipated). it evaluates the normal responses into time groups (intervals) and records the time (response time) to the arrival of the normal responses. The pacemaker 10 emits a further light or acoustic signal after a specified pause time after the response signal has been received, causing the response signal to be evaluated as described above. In the series of light and audible signals so issued, the number and type of signal (light or sound), the intervals between them, the time value of the anticipated time range following the light or sound signal, and the number and time intervals of the normal response time intervals can be programmed. can be set with the 30 programmers.

In addition, the pacemaker 10 and the response evaluator 20 have a constant set of values for the data listed above, the sequence 70 being selectively executed by the program switch 70 at constant or freely programmable values and repeated in the same number of times.

The operation of the pacemaker 10 is also influenced by the response evaluator 20 such that, in the case of a anticipated response, the A system disables program pacing in the pacemaker 10 and replaces the next pause and stimulus with the next pause and stimulus.

After receiving the last response signal in the signaling sequence, the response evaluator 20 calculates the mean, standard deviation, and coefficient of variation (mean / standard deviation.%) Based on the number of normal responses and each recorded response time and displays these values on a numeric display unit 40. In addition, the display unit 40 can display and print the number of normal, anticipated and excess responses, as well as the number of normal responses in each interval and the individual response times. The display can be selected using the function keypad on the 30 programmers.

The operation of the pacemaker 10 and the response evaluator 20 is controlled by the clock generator 60 and the measurement grant 80, the latter being stopped by the pacemaker 10 at the end of the measurement sequence.

The structure and operation of an exemplary embodiment of the pacing transmitter 10 of the present invention is shown in Figure 2:

According to this, the pacing transducer 10 has 14 pauses, pacemaker address counter, 12 pauses. Includes 11 pause counters, 17 pacing type select and 18 pacing functional units, and 16 paces-2181163 number values, 15 pacing stores, 19 pause time values, 13 pacing type store units. At the first input of the address count counter 14 of the pause time 14, the pacing value 16 or the pacing memory 15 is provided via the program selector switch 70; the input of the pause time counter 11 is connected via the program switch 70 to the input of the pause time counter 14, one of the inputs of the pause time value 19 or the pause time store 12, the address counter of the pause time 14. One of the inputs of the stimulus type selector 17 is connected to the storage output of the stimulus type 13, the other input is connected to the pause time counter 11 and its output is connected to the input of the pacemaker 18. The lead V is for the second input 14 of the pause time stimulus type address counter and the third input for the select type 17 of the pacing type, the lead system A for the third input of the pause time stimulus type address counter 14, the lead system FB. the lead system P is connected to the second input of the pacemaker 15 and the third input of the pause 12. The wiring system F, H is connected to the output of the pacemaker 18, and the wire e is connected to the second output of the pause time counter 11.

In the pacemaker 10, the light and acoustic signals are generated by the pacemaker 18. controlled by the 17 pacing type selector. The pacing type selector 17 begins to output the pacing type specified by the pacing type store 13 when the pause time counter 11 indicates the end of the pause following the previous response and maintains it on the V line until the response is received. In the stimulus type memory 13, a selection of a fixed program or a freely programmable storage portion is selected by the FB wiring system, and in the already selected storage portion, a selection of the stimulus type for the current pause time is selected. is defined by the address type counter. The pause time pacing type address counter 14 is a programmable counter in which the counting length (number of paced outputs) is determined by the program selector switch 70 and programmed by the pacemaker memory 15 or the constant value 16 by the P. FB wire system.

The operation of the programmable pause counter 11 is also triggered by the response signal on line V and its duration (pause value) is determined by pause memory 12 or pause 19 which can be programmed with the program selector switch 70 and programmed in the same way as pacemaker 15.

An exemplary embodiment of the response evaluator 20 of the apparatus according to the invention is as follows in Figure 3;

The response evaluator 20 includes a chain-on 21 predicted time counter. 71 interval time counter, 73 interval sequence counter. 75 interval markers and 76 interval response counters. There are 91 anticipated time values, 92 interval time values, 93 interval number values, 22 anticipated time stores, 72 interval time stores, 74 interval number stores. In addition, the response evaluator 20 is a response time counter 24. It contains 25 excess time markers, 23 response time stores, 26 anticipated response counters, 27 normal response counters, 28 excess response counters, 94 arithmetic units and 96 select function units.

The program selector switch 70 may selectively input one of the inputs to the anticiped time counter 21 into the anticipated time value 91 or the anticipated time store 22; an output of the interval time value 92 or the interval time store 72 for one of the inputs to the interval time counter 71; one of the inputs of the interval number counter 73 is connected to the outputs of the interval number value 93 or the interval number store 74 and the other input to the interval time store output 72. The anticipated time counter 21 for further input to the first input of line F, H and the second output to the first input of line A, the interval time counter 71, the third, and the first input of the anticipated response counter 26, the normal response counter 27 and the excess response counter 28 the V wire is connected. The second input of the anticipated response counter 26 is connected to the anticipated wiring system A, the second input of the normal response counter 27 is the N normal lead, the second input of the excess response counter 28 is connected to the excess wire E and the anticipated response counter 26, the normal response counter 27 and the outputs of the excess response counter 28 are wired to the appropriate selector 96 via the AS, NS, ES wires. Reaction time counter 24 is connected to the first output of the F.H line system, to the first output of the reaction time storage 23, and to the second output of the N normal line. The first input of the arithmetic unit 94 is connected to the NS line, the second input to the reaction time output 23 (line system R1), three outputs to the corresponding new input of the selector 96 (ATL, SER VAR system) and the fourth output to line E2. The output of the selector 96 is connected to the E1 wiring system and to its further input the FB wiring system.

The response evaluator 20 measures the time difference between the light and the acoustic signal and the response signal and determines from the measured value the quality of the response (anticipated, normal, excess) and the number of the interval for normal responses. The anticipated time range is designated by the programmable anticipated time counter 21, the counting duration of which is set by the program selector switch 70, optionally by the constant anticipated time value 91 or the programmable anticipated time memory 22. The anticipated time counter 21 is triggered to operate on the light or acoustic signal, and when the response signal is received within the operating time, the anticipated signal on the A system indicates the response and increases the content of the anticipated response counter 26, which contains the anticipated response number. On AS wire.

the reaction time is measured by the reaction time counter 24. which is triggered by the light or aural stimuli and whose contents are recorded by the response time recorder 23 on the V line when the response signal is generated; on the other hand, the normal response signal increases the normal response counter 27 content by one. The number of normal responses occurs on NS wires. Intervals of normal responses are programmed by the programmable interval time counter 71 and the interval sequence counter 73, the operating length (duration of each interval and the number of intervals) of

With the -3181163 program selector, it is defined by the interval time value 92 or the interval time memory 72 or the interval number value 93 or the interval number memory 74. The operation of the interval time counter 71 starts after the expiration of the anti-epilated time counter 21 and lasts for the specified time interval (time interval value), which defines a single interval. The interval time counter 71 restarts after expiration, and simultaneously moves the interval sequence counter 73, which, with the interval selector 75, specifies the current time interval (relative to the response signal being received). The appearance of the response signal increases the content of the selected portion of the interval response counter 76 by one of the ISI - 16 wires.

The upper limit of the normal time range is indicated by the stop of the reaction time counter 24, which initiates the operation of the excess time 25 marker. The incoming response signal increments the content of the 28 excess response counter by one, and the number of excess responses is indicated by the ES wire.

At the end of the measurement sequence, the arithmetic unit 94 calculates the mean, standard deviation, and coefficient of variation of response times from the number of response times collected during measurement (RI wiring system and normal response) and transmits them simultaneously to the selector 96 on the ATL, SOR, VAR wiring system. on the FB wire system, it is possible to select the number of anti-epiphoned, normal, or excess responses to appear on the El wire system after selection.

An exemplary embodiment of the programmer 30 of the apparatus according to the invention is constructed and operated as shown in Figure 4 as follows:

The apparatus comprises 34 numeric keypads, 31, 32, 33 counters and 36 temporary storage units, as well as 35 sequential circuits, 37, 38, 39 numeric displays, and a chain-activated function keypad 83 and encoder 82.

By pressing one of the 0-9 digits of the numeric keypad 34, the numeric value that is pressed appears on the inputs of the counters 31-33, and 37-39, and is written to the position of the least significant digit assigned by the sequence circuit 35. When a new digit is pressed, the sequence circuit 35 assigns the next position value and this digit is entered here. After entering the last digit, the whole number is displayed at the output of the temporary storage 36 and passed to the circuits to be programmed in the form of a program value P. The desired circuit block is selected by pressing the appropriate character of the function keypad 83, which is indicated by the encoded signal generated by the encoder 82.

The device according to the invention has several significant advantages in that it enables accurate comparison of results measured at different times or given by different persons by ensuring the same task situation (by repeating the pause and type of stimulus that triggers an incorrect response after responding to the anti-epiphytic range). The programming options provide a ^five flexibility, which enables the device to the preliminary character of fitness routine screening tests, for use in any tasks to the general alapkutatásokig and detailed elemzésekig clinical purposes. The technical solution ¹⁰ eliminates the possibility of both constant (terminal) and variable errors and ensures accurate output of millions of signals and accurate measurement and recording of response times (known maximum ^15- year load of equipment used in routine aptitude tests is approximately 625 thousand signals) ). Automatic calculation of response times, standard deviations, and coefficients of variation allows for extremely fast and accurate evaluation of the measurement, and printing results greatly simplifies documentation work.

Patent claims:

Claims (4)

Patent claims: ²⁵ 1 Reaction time measuring device psychophysiological and psychological stressors and particular suitability whose pulse transmitter associated with programming and answer evaluation and display unit connected thereto, characterized in that the light and The output of a tone generator (10) 30 is coupled to one of the inputs of the signal generator (90) and the responder (50), and the responder (50) is connected to a further input of the pacemaker (10) and the response evaluator (20). Programming (30) the output of producing freely selectable data 35 runs pulse transmitter (10) and response assessment (20) to another input food, the operation control clock generator output (60) of the pulse transmitter (10) and response assessment (20) input food, and which is ⁴⁰ in the pulse transmitter (10) the output of the measurement to the enabling input (80), which measuring clearance (80) output from the clock generator to the input (60), and having an output comprising the válaszéitékelő (20) measurement results obtained directly is connected to one (40) to the input ⁴⁵ of the display unit. The response time measuring device of claim 1, wherein said evaluating unit (20) has an anti-ellipsed response output to a program advance enable input ^{50 of} said pacer (10) and wherein said program selector (70) is a program type selector for pacing (10) and response rate (20). is connected to its input. Third embodiment of a reaction time measuring device according to claim 2, characterized in that the output containing the ⁵⁵ response evaluator (20) mean, standard deviation and coefficient of variation, i.e., the derived measurement results of the response time is on a further input of the display unit (40). 4 drawings, 4 figures Responsible for publishing: Director of Economic and Legal Publishing House 84.4281 - Zrínyi Nyomda, Budapest