RU2752042C1 - Method for assessing quality of reception and acoustic reproduction of vehicle radio systems - Google Patents

Abstract

FIELD: vehicles radio receiving systems.SUBSTANCE: invention relates to testing of radio receiving systems of vehicles. The method can be implemented in an electromagnetic anechoic chamber containing a rotary stand, interference and radio transmission systems, a microphone and sound-indicating equipment, which is used as a computer. The method consists in the radio transmission of the initial phraseological messages to the vehicle radio system, in the reception by the microphone and the artificial intelligence system (AI) of the messages sounded by the radio system, in the solution of the AI of the tasks contained in the initial phraseological messages, in the sounding of the decisions taken by the AI, as well as in comparing these solutions with the known solutions of problems contained in the original phraseological messages and in the subsequent assessment of the quality of the tested radio system. Quality assessment is based on the ratio of the number of all correctly solved tasks by the AI to the number of all messages transmitted to the system.EFFECT: an integral assessment of the quality of radio reception, conversion and acoustic reproduction of transmitted information is provided.1 cl

Description

SUBSTANCE: invention relates to radio tests, first of all, of receiving systems of vehicles (TS), mainly, to tests of receivers of special communication systems and emergency call systems of vehicles; provides an integral assessment of the quality of reception, conversion and acoustic reproduction of transmitted information in conditions of electromagnetic interference.

The human organs responsible for the perception of sound information have limited physical and experience-based capabilities that can be characterized (non-exhaustive list):

- adaptation time,

- the time to establish the pitch,

- the values of the amplitude auditory thresholds,

- the values of the frequency auditory thresholds,

- the ability to distinguish between the lengths of vowels and consonants,

- the ability to distinguish the intensity of vowel sounds,

- the ability to distinguish / catch the formant groups of vowel harmonics

- the ability to distinguish / catch locus formant patterns of consonant sounds.

Based on the above physical capabilities and acquired skills of a person, phonemic, syllabic, verbal and phrasal speech intelligibility are distinguished. At the same time, verbal and phrasal intelligibility of speech is associated not only with the phonemic and syllabic components, but also with the super-segmental features of the language used for radio communication (such as verbal stress, syllabic tone, phrasal intonation), which determine the semantic intelligibility of speech.

The above paragraph can be found in more detail, for example (open list), in the following sources of information: EI Vologdin, "Hearing and sound perception", Course of lectures, St. Petersburg, 2012; A. Nasretdinov, "Physics and Anatomy of Music", M. Boslen, 2015; I. Aldoshina, "Fundamentals of Psychoacoustics", a selection of articles from the site http://www.625.net.ru ", resource https://Soundmain.ru; VG Mikhailov, LV Zlatoustova, "Measurement of speech parameters", M. "Radio and communication", 1987; Yu.S. Maslov, "Introduction to Linguistics", M. Vysshaya Shkola, 1987.

Addition to the above: - Flight operations and air traffic services are accompanied by radio exchange, the phraseology of which is regulated by the regulatory Rules. The phraseology of the Rules was developed for the main possible situations arising in the process of radio exchange between dispatchers (specialists in the field of radio exchange) of flight control bodies and crews (specialists in the field of radio exchange) of aircraft. The phraseology of the Rules ensures the uniformity of radiotelephone communication, which reduces the likelihood of an ambiguous understanding of the transmitted information. Departure from the requirements of the Rules is considered a violation. At the same time, in the event of situations not foreseen by the Rules, radio communication is allowed to be carried out by means of a simple spoken language.

With regard to the above paragraph, it should be noted that ground-based special communication and, moreover, the communication of the driver / passenger (in particular, the car) with the dispatcher of the emergency operational services of the vehicle, is usually carried out and can be carried out by non-specialists in the field of radio exchange.

From patent RU 2570217, IPC H04R 5/04, publ. 12/10/2015, there is a known method for monitoring loudspeakers and compensating for problems of sound reproduction quality, which contains a number of successive stages including the supply of the first test signal to the loudspeaker, in the capture of the loudspeaker response to the first test signal by the measuring microphone, in the determination of the inversion (Latin inversio - substitution) of the response for the subsequent generation of the corrected test signal, in the supply of the first corrected test signal to the loudspeaker and the microphone captures the loudspeaker response to the first corrected test signal, in the determination of the inversion of the second response for the subsequent generation of the next corrected signal, in the submission of the next corrected test signal to the loudspeaker and the capture of the next response by the microphone with the subsequent comparison of the obtained response parameters with the predetermined limits, according to the results of which they either complete the tuning of the audio system, or display a message about the inconsistency of the audio system limit parameters, or continue tuning the audio system by sequentially bringing the response parameters to the test signal into the specified range.

Among the disadvantages of this method, in the context of the possibility of its use to assess the quality of the operation of radio systems, including security systems, vehicles, should be highlighted:

- the lack of a method for assessing the sound quality of a radio system under the influence of an external electromagnetic field.

- the lack of a quantitative assessment of the reliability of the information reproduced by the audio path.

From GOST 8031-78 “Telephone devices. The tonal method for measuring speech intelligibility ", introduced on 01.01.1980, modified in 1998, there is a known method for measuring syllabic intelligibility, which consists in an artificial mouth mediated by the device, alternately feeding into the microphone of the first tested device a sequence of tones of a given range of fixed frequencies with a sound set for each frequency. pressure, in the operator increasing the degree of attenuation of each of the supplied tones until the sound in the telephone of the second tested apparatus disappears, in the operator decreasing the degree of attenuation of each of the applied tones until the sound appears in the telephone of the second tested apparatus, in the subsequent calculation of the sensation level for each of frequencies of the range, in the definition according to table 4 of GOST formant speech intelligibility for each of the frequencies of the range, as well as in the definition according to table 5 or according to the schedule of drawing 4 GOST syllabic speech intelligibility.

The degree of attenuation of the tone signal is set by means of the attenuation store included in the connection diagram of the device "artificial mouth"; the first and second test devices are located in separate rooms. Testing of devices can be accompanied by the operation of the installation to create acoustic masking noise.

Among the disadvantages of the method according to GOST 8031-78, in the context of the possibility of its use to assess the quality of the operation of radio systems, including security systems, vehicles, it is necessary to highlight:

- high labor intensity of tests,

- lack of a method for assessing the sound quality of a radio system under the influence of an external electromagnetic field,

- impossibility of assessing verbal, phrasal and semantic intelligibility.

From the book Nikolaev P.A. Electromagnetic compatibility of vehicles [Text] / Nikolaev PA, Kechiev LN. / Ed. L.N. Kechiev. - M .: Grifon, 2015 .-- 424 p. - (EMC Library) there is a known method for testing radio receiving systems of a vehicle for immunity to the influence (noise immunity) of an external electromagnetic field (EMF), in which a vehicle equipped with a tested radio receiving and acoustic systems (hereinafter referred to as a radio system) is placed in a chamber protected from external factors, mainly electromagnetic anechoic, equipped with a device for generating electromagnetic interference, an antenna and an anti-jamming transmitter of a radio signal shaper. In the area of the camera, characterized by the minimum level of EMF, formed by the device for generating electromagnetic interference and the antenna of the radio signal shaper, sound indication equipment is placed. In this case, the vehicle is installed on a rotary stand and is equipped with a microphone connected to the sound indication equipment and placed in the vehicle cab / saloon / cockpit in the control point regulated by regulatory documents. Then, the vehicle radio system, the radio signal driver are turned on and the vehicle is exposed to electromagnetic fields generated by the device for creating electromagnetic interference and the antenna of the radio signal driver.

The assessment of radio receiving systems for compliance with the regulated requirements consists in a subjective acoustic assessment of the quality of the sound reproduced by the vehicle radio system, retransmitted by the microphone located in the vehicle cabin and the sound indication equipment of the camera, during the period of exposure of the vehicle to electromagnetic interference.

Note: An indicator (lat. Indicator - pointer) is an information system, device, device, displaying changes in a parameter of a controlled process in a form interpreted by a person. In the method cited from the book, acoustic sound-reproducing equipment is used as sound indication equipment.

The disadvantage of this method is the subjectivity of assessing the sound quality of the acoustic system of the vehicle, as well as the impossibility of quantitatively assessing the reliability of the information broadcast by the radio system (radio receiver).

From GOST R 50840-95, “Voice transmission over communication paths. Methods for assessing quality, intelligibility and recognition ", M. GOSSTANDART of Russia, there is a known method for measuring the quality of transmitted speech, which, in general, is transmitted by a specially trained speaker or computer through the equipment under test of a given GOST speech, syllabic or phrasal material, as received by the auditor by means of the tested equipment and registration by this auditor of the material received or not accepted (not understood), in the subsequent comparison of the transmitted and received materials and the calculation of statistical values of the average speech intelligibility.

In this case, the assessment of speech intelligibility is carried out using a large amount of test syllabic and phrasal material (mandatory application of GOST R 50840-95); the assessment of speech intelligibility is carried out by a team of auditors, in a number of tests by a team of specially trained auditors; the working time of the brigade is limited to 4 hours per day; when working in acoustic noises, the team starts measurements after 5 ... 10 minutes. after being in a noisy environment; during the work of the brigade, breaks are made in the work of 5 ... 10 minutes; reading of syllables by a speaker or broadcast by a computer is carried out in an even voice, without emphasizing individual sounds, with a constant speech level (controlled by a sound level meter), with a rhythm of 1 syllable in 3 seconds; phrases are read at intervals of 2 ... 3 seconds; in the process of measuring phrasal intelligibility at an accelerated rate of pronunciation, the average time for pronouncing phrases decreases by 1.4 ... 1.6 times, the duration of pauses between phrases is 5 ... 6 seconds (According to GOST R 51061-97, "Systems of low-speed speech transmission over digital channels. Parameters speech quality and measurement methods ", M. GOST STANDARD of Russia, the normal rate of speech is the rate at which the average duration of the control phrase (mandatory application of GOST R 51061-97) is 2.4 seconds.

Among the disadvantages of the method according to GOST R 50840-95, in the context of the possibility of its use to assess the quality of the operation of radio systems, including security systems, vehicles, one should highlight:

- high labor intensity of tests,

- lack of a method for assessing the sound quality of a radio system under the influence of an external electromagnetic field,

- the impossibility of a reliable assessment of the semantic intelligibility of phrases, the understanding of which depends on the super-segmental features of speech.

The prototype of the proposed solution was taken from the patent RU 2736007, IPC G01R 29/08, publ. 11.11.2020, a method for assessing the quality of reception and acoustic reproduction of vehicle radio systems, which consists in placing a vehicle equipped with a tested radio system on a rotary stand protected from external factors of a camera equipped with a device for creating electromagnetic interference, an antenna and an anti-jamming transmitter of a radio signal generator, as well as an anti-jamming sound indication equipment and a microphone located in the cockpit of the tested vehicle, in turning on the radio system for reception, and the radio signal shaper for transmission, and in the implementation of the quality assessment of the acoustic reproduction of the shaper radio signal realized by the radio system by the radio system relative to the field-forming systems.

Note: An indicator (lat. Indicator - pointer) is an information system, device, device, displaying changes in a parameter of a controlled process in a form interpreted by a person.

In the prototype method, a computer is used as sound indication equipment, through which the initial symbolic message specified by the test regulations is formed, this message is transformed into a pulse code and the pulse code is transmitted to the radio signal generator, as well as decoding of the pulse-coded acoustic signal of the radio system received by the microphone into a symbolic message ...

Evaluation of radio receiving systems for compliance with regulated requirements consists in comparing the transmitted original symbolic text message with the reproduced text message and then calculating the probability of the integrity of the message received by the radio receiving system.

Thus, the disadvantage of the method according to patent RU 2736007 is the impossibility of assessing the quality of radio transmission of a voice message, based on the recognition of the received voice message, taking into account the psychoacoustic features of human speech perception.

The objective of the invention is to create a method for assessing the quality of radio reception, conversion and acoustic reproduction of the transmitted, including under the influence of electromagnetic interference, voice message and recognition of this voice message based on the psychoacoustic characteristics of a person, providing an analytical assessment of the reliability of semantic recognition of information reproduced by the receiving radio system, implemented with the participation of one auditor, the level of which makes it possible to identify the logical or mathematical correspondence of the transmitted and recognized voice messages.

This problem is solved in a method for assessing the quality of reception and acoustic reproduction of vehicle radio systems, which consists in placing a vehicle equipped with a tested radio system on a rotating stand protected from external factors of a camera equipped with a device for creating electromagnetic interference, an antenna and an anti-jamming transmitter of a radio signal shaper, anti-jamming sound indication equipment, as well as a microphone located in the cockpit of the tested vehicle, in turning on the radio system for reception, and the radio signal generator for transmission, and in the implementation of the quality assessment of the acoustic reproduction of the radio signal realized by the radio system by the radio system relative to the field-forming systems, mediated by the microphone and sound indication equipment.

This task is solved by:

1.As sound indication equipment, a computer equipped with software is used, containing:

1.1 - channel (block) of recording and acoustic reproduction, as well as transmission to the radio signal generator of the initial electrical signal corresponding to the test acoustic phraseological message with super-segmental features characteristic of the language used, containing a logical semantic or mathematical problem (hereinafter the channel of transmission of the original message),

1.2 - Block (system) of logical processing of the task proposed in the process of testing (test) and the development of a logically grounded solution (hereinafter the artificial intelligence system - abbreviation - SII), equipped with:

1 - an output channel (block) formed with the ability to play (sound) and, preferably, record an acoustic phraseological message corresponding to the problem solved by the FIS (hereinafter the response channel),

1.2.2 - an input channel (block) formed with the ability to receive and, preferably, record an electrical signal generated by a microphone (hereinafter referred to as a microphone channel). Where, the throughput properties of the microphone channel are limited by the parameters characterizing the psychoacoustic features of human speech perception, including selective, useful signal / noise, the ability of his hearing, as an additional option, are limited by parameters characterizing the psychoacoustic features of speech perception by a person in a state of physiological and / or psycho-emotional stress;

2. By means of the radio signal generator and its antenna, a signal is transmitted, mediated by the transmission channel of the original message.

3. By means of a microphone, a signal is received, sounded by the radio system of the vehicle under test, and transmitted to the channel of the SRI microphone, the received signal is processed by the SRI, and the decision made by the SRI is announced through the response channel.

4. Comparison of the known solution corresponding to the problem contained in the original logical message with the voiced solution of the FIS and register the status of the problem solved in this particular test (test). Note:

- The word “test” in the context of “test” is an example of the possibility of a false understanding of a phrase containing the term that was heard in the process of radio communication, carried out, for example, at the limit of the radio communication range and / or in a complex electromagnetic environment, in particular, a thunderstorm.

- Status (lat. Status - state) - an abstract term denoting a set of stable values of the parameters of an object (lat. Objectum “subject”) - a philosophical category denoting a thing, phenomenon or process to which the subject-practical, control and cognitive activity of the subject is directed (Latin subjectum - underlying; underlying) - observer.

4. The transmission of the radio signal by the radio signal former, the reception and sounding of the signal by the radio system of the vehicle, as well as the reception of the signal by the microphone, the processing of the signal of the SII microphone, as well as the sounding of the logical or mathematical task solved by the SII, are performed for all the azimuth positions of the tested vehicle provided for by the test plan, as well as for of all the initial acoustic phraseological messages provided for by the test plan, each of which contains a logical semantic or mathematical problem, with the transmission speed provided for by the test plan, super-segmental language features and variations in timbre color.

5. The assessment of the quality of the acoustic reproduction of the radio signal implemented by the radio system installed in the vehicle is performed on the basis of a statistical assessment of the statuses of all tasks solved by the SRI in the course of the completed test cycle.

6. In cases of inconsistency of the logical content of the original phraseological message with the logical content of the reproduced FRI phraseological message, compare the original and generated by the microphone electrical signals recorded by sound indication equipment and, if they do not correspond, identify the reasons that led to this discrepancy.

The invention can be implemented in a test electromagnetic anechoic chamber containing:

A - a device for creating electromagnetic interference, which includes a noise generator, an amplifier and a field-generating system (antenna) located in an anechoic chamber;

B - sound indication equipment and a radio signal generator located in the anechoic chamber protected from electromagnetic interference or removed from the anechoic chamber;

B - radiating antenna of the radio signal former, located in the anechoic chamber;

Г - a rotary stand placed in the anechoic chamber, by means of which the variability of the orientation of the vehicle installed for the test period relative to the radiating antenna of the radio signal former is provided;

D - a microphone placed in the cockpit (cabin) of the tested vehicle at one of the control points (the point is set, for example, by the test test plan), regulated, preferably, by GOST 33555-2015 “Automobile vehicles. Internal noise. Permissible levels and test methods ", namely, clause 5.4" Requirements for the installation sites of microphones ";

In this case, a computer equipped with software is used as sound indication equipment, containing:

1) - a channel for transmitting initial messages, made with the possibility of recording, acoustic reproduction and transmission to the radio signal generator of initial electrical signals corresponding to test acoustic phraseological messages with a variable timbre color and super-segmental features characteristic of the language used, each of which contains a logical semantic or math problem;

2) - an artificial intelligence system (AI) equipped with:

2.1) - a microphone channel formed with the ability to receive and, preferably, record electrical signals generated by the microphone in the course of radio broadcasts. Where, the throughput properties of the microphone channel are made with the possibility of limiting them at the level of average statistical parameters characterizing the psychoacoustic features of human speech perception, including selective, useful signal / noise, and the ability of his hearing. Alternatively, the transmission properties of the microphone channel can be made with the possibility of limiting them at the level of parameters characterizing the psychoacoustic features of speech perception by a person in a state of physiological and / or psychoemotional stress.

2.2) - a response channel formed with the possibility of sounding and, preferably, recording acoustic phraseological messages generated by the SRI, each of which contains the logical response of the SRI to the logical semantic or mathematical problem proposed for solving the SRI contained in the original message.

According to the invention, the vehicle with the tested receiving radio system is installed on a rotary stand of the test electromagnetic anechoic chamber, which is a system for positioning the vehicle in the azimuthal plane, and the vehicle is oriented relative to the radiating antenna of the radio signal former in accordance with the requirements set by the test regulations for their relative position. The angular (azimuthal) position of the initially oriented vehicle, in relation to the antenna of the radio signal former, is assigned the value α = 0.

Then, additional preparation of the equipment of the anechoic chamber and the vehicle for testing is carried out, which consists of:

- In the electrical connection of the transmission channel of the initial messages of the sound-indicating equipment with the radio signal generator.

- In the installation of the microphone in the cabin (cabin) of the tested vehicle at the test point specified by the test plan and in the electrical noise-immune connection of the microphone to the microphone channel of the sound indication equipment. The preferred installation of the microphone is its location in the area of the head of a person who is on the corresponding seat of the vehicle. It is possible to place the microphone directly next to the speaker of the radio system under test. To exclude external acoustic noises arising, for example, when switching various kinds of relays and / or buttons when checking the tested radio system for electromagnetic compatibility, it is possible to place the speakers of the radio system and microphone in an acoustically isolated (noise-insulating) box.

- In the installation specified by the test plan for testing the power of the signal generated by the antenna of the radio signal former;

- In the installation specified by the test plan for testing the power of the signal supplied to the field-generating system of the device for creating electromagnetic interference in the area of the vehicle. The electromagnetic effect can be created both by external sources (for example, a device for creating electromagnetic interference), and by the vehicle on-board systems (determined by the configuration / composition of the electrical equipment of the vehicle with the tested radio system). If the test program does not provide for an assessment of the electromagnetic effect, then the tests are carried out in the absence of electromagnetic interference (condition P _n = 0) - the quality of the tested radio system is assessed without taking into account the parameters of electromagnetic compatibility (EMC).

- In the connection of the channel for the transmission of the initial messages of the sound-indicating equipment with the speaker's microphone (the presence of the speaker's microphone, in a number of the tests described above, was meant contextually), performing the duties of both the speaker and the auditor during the tests, or, more preferably, in uploading to the channel for transmitting the initial messages sound indication equipment of the material (audio file) containing the set of phraseological messages provided for by the test plan, each of which contains a logical semantic or mathematical problem (an example of a logical mathematical problem is "six plus five", sounded with super-segmental features characteristic of the language used, and with the timbre variability and transmission rate provided for by the test plan.

After performing the above procedures, parameters are set that determine the specific conditions of the general configuration of the test settings, for example, the distance between the antenna of the radio signal driver and the vehicle, or the position of the electromagnetically shielded side windows (lowered / raised), etc. Tuning the vehicle radio system to receive radio messages and their acoustic reproduction.

After turning on the vehicle radio system for reception, and the radio signal generator for transmission, turn on the device for creating electromagnetic interference (if the operation of the device is provided for by the test plan), and carry out, for a given azimuthal position of the vehicle, sequential transmission of the initial phraseological messages provided by the test plan, each of which contains in itself a logical semantic or mathematical problem, voiced with super-segmental features characteristic of the language used, as well as with the timbre variability and transmission rate provided for by the test plan.

The broadcast is realized by a chain: the channel for transmitting the initial messages of the sound indication equipment, the radio signal former, the antenna of the radio signal former, the radio system of the vehicle, the microphone installed in the vehicle (connected to the microphone channel of the SRI of the sound indication equipment), the channel of the SRI microphone, SRI and the response channel of the SRI of the sound indication equipment.

Each of the transmitted initial phraseological messages is accompanied by the assessment and registration by the auditor (the speaker can perform the duties of the auditor if the speaker's work is provided for by the test plan of tests; a computer with the appropriate software can be used as an auditor) the status of the logical correspondence of the response channel of the FIS of the phraseological message, regarding a solution known to the auditor of the task assigned to the FII, contained in the transmitted initial message.

The transmission of the initial phraseological messages is carried out at intervals that provide the auditor with the possibility of comparing the initial and sounded by the SRI of the phraseological messages, as well as registering the status of the solved SRI, in this particular test (test), the problem.

The tests are repeated for each of the azimuthal positions of the vehicle relative to the antenna of the radio signal former specified by the test plan, any of which is achieved by changing the angular positioning Δ α of the rotary stand of the anechoic chamber. The tests are preferably carried out over the entire range of azimuthal angles of 360 degrees.

If the test program provides for an assessment of the electromagnetic effect, then the assessment of the quality of the acoustic reproduction of the radio signal of the generator realized by the radio system is carried out taking into account the simultaneous assessment of the vehicle radio system for resistance to electromagnetic interference for the position of the vehicle specified by the rotary stand relative to the field of generating systems.

The claimed technical solution takes into account that the integrity / reliability of perception of the acoustically sounded information broadcast by radio networks is influenced by the external electromagnetic environment, and the parameters of electromagnetic compatibility (EMC) of the electrical and radio equipment used in the vehicle, and radio transmission parameters, and the features of the layout / configuration of the vehicle, and parameters of the radio receiving system, in particular, the parameters of its acoustic tract, superimposed on the super-segment features and timbre characteristics of the language used in the process of radio exchange, as well as psychoacoustic features of human speech perception.

The assessment of the quality of the acoustic reproduction implemented by the radio system is carried out on the basis of the solutions of the SRI of logical or mathematical problems contained in the initial phraseological acoustic messages, the acoustic phraseological reproduction of the essence of the problems solved by the SRI, comparing the results of the SRI solutions with known solutions of the problems contained in the initial phraseological messages, with the assignment of each from the solved problems of a positive (the problem was solved logically / mathematically correctly) or negative (the problem is not solved) status, and statistical processing of the statuses of the problems solved by the FIS.

Given the parameters of the test system, such as the signal power at the point of radio reception (P _s ), the power of electromagnetic interference (P _p ), the angle of rotation (α) of the vehicle in relation to the transmitting antenna and the polarization of the transmitting antenna, a logical or mathematical problem is solved, reproducible radio receiving system of the vehicle in the form of a verbal message

, где

, where

– воспроизводимая радиосистемой ТС логическая или математическая задача,

- a logical or mathematical problem reproduced by the vehicle radio system,

Y ₀ - solution of the problem by the artificial intelligence system;

- параметры фразеологического сообщения, воспроизводимого акустическим каналом радиосистемы ТС, такие как скорость воспроизведения, интонация, длительность сообщения, тембр, громкость и т.п.

- parameters of the phraseological message reproduced by the acoustic channel of the vehicle radio system, such as playback speed, intonation, message duration, timbre, volume, etc.

The solution to the problem is recognized as true if

=

, где

=

, where

φ (x ₁ ; x ₂ ; ... x _m ) - a logical or mathematical problem contained in the original phraseological message, formed for transmission and transmitted by the radio signal generator, which has one solution;

x ₁ ; x ₂ ; ... х _m - parameters of the acoustically reproduced original phraseological message, such as playback speed, intonation, message duration, timbre, volume, etc.

The criterion for compliance is the condition

, где

, where

M is the number of all initial logical or mathematical messages (tasks) of the entire array of variations P _c , P _p and α transmitted by the radio signal generator;

всего массива вариаций Р_с, Р_п и α;j = 1, 2, ... K is the number of all logical or mathematical problems correctly solved by the SII

the entire array of variations in P _s , P _p and α;

[Z _min ; Z _max ] - the range of values characterizing the quality of the reproduced acoustic signal by the radio receiver;

;

;

;

;

P _lim is the maximum maximum value of the power of electromagnetic interference.

The quality assessment is based on the ratio of the number of all correctly solved problems to the number of all messages presented for solution (transmitted).

[0,98; 1]. В данном случае считают, что искажения акустической информации не будут восприниматься при прослушивании.The highest score is assigned to the radio system if the quality parameter satisfies the condition N

[0.98; one]. In this case, it is believed that the distortion of acoustic information will not be perceived when listening.

[0,8; 0,98) - качество работы радиосистемы считают приемлемым - искажения акустической информации не будут влиять на достоверность восприятия человеком.If the quality parameter satisfies the condition N

[0.8; 0.98) - the quality of the radio system is considered acceptable - distortions of acoustic information will not affect the reliability of human perception.

If the quality parameter N does not fall within the specified / regulated range [Z _min ; Z _max ], then the radio system of the vehicle is considered not meeting the quality requirements and a search is made for nodes that affect the distortion of information.

In cases of inconsistency between the content of a logical or mathematical problem (ϕ) contained in the original phraseological message and the content of the solution (Y ₀ ) generated by the SIS, the original and generated by the microphone installed in the vehicle are compared with the original and generated by the microphone installed in the vehicle and, if they do not match, the reasons that led to this discrepancy.

The invention provides an integrated assessment of the quality of radio reception, conversion and acoustic reproduction of transmitted information by quantitative values of the probability of the problem being solved; tests by the claimed method can be implemented with the participation of one auditor, the level of which makes it possible to identify the logical or mathematical correspondence or inconsistency of the phraseological messages transmitted to the radio signal generator and the voice messages sounded by the SRI. In this case, it is quite obvious that the proposed method can be modified in a manner understandable to a person skilled in the art for the purpose of testing radio transmitting equipment or radio transmitting part of a radio system.

Claims (1)

A method for assessing the quality of reception and acoustic reproduction of radio systems of a vehicle (TS), which consists in placing a vehicle equipped with a tested radio system on a rotary stand protected from external factors of a camera equipped with a device for creating electromagnetic interference, an antenna and an anti-jamming transmitter of a radio signal shaper, noise-immune sound-indicating equipment, and also by a microphone located in the cockpit of the tested vehicle, in turning on the radio system for reception, and the radio signal generator for transmission, and in the implementation of the quality assessment of the acoustic reproduction of the radio signal realized by the radio system by the radio system for the position of the vehicle relative to the field-forming systems, which is as sound indication equipment, a computer equipped with software is used, containing a channel for transmitting the original message, made with the ability to record, acoustic play and transmission to the radio signal generator of the original signal corresponding to the test acoustic phraseological message with super-segmental features characteristic of the language used, containing a logical semantic or mathematical task, an artificial intelligence system (AI), made with the possibility of logical or mathematical processing proposed in the test process tasks and the development of a logical solution, equipped with a response channel formed with the possibility of sounding and, preferably, recording an acoustic phraseological message corresponding to the problem solved by the SRI, a microphone channel formed with the ability to receive and, preferably, record an electrical signal generated by a microphone, where the transmission properties the microphone channel is limited by the parameters characterizing the psychoacoustic features of human speech perception, by means of the radio signal generator and its antenna the signal, mediated by the transmission channel of the original message, through the microphone receive the signal sounded by the radio system of the vehicle under test, and transmit it to the channel of the SRI microphone, process the received signal by means of the SRI, and through the response channel, the decision made by the SRI is voiced, the known solution of the problem corresponding to the original logical message , are compared with the sounded solution of the SII and register the status of the problem solved in the test, the transmission of a radio signal by the radio signal generator, the reception and sounding of the signal by the radio system of the vehicle, the reception of the signal by the microphone, the processing of the signal of the SII microphone, as well as the sounding of the logical task solved by the SII, are performed for all tests provided by the test plan azimuth positions of the tested vehicle, as well as for all the initial acoustic phraseological messages provided for by the test plan, each of which contains a logical semantic or mathematical problem, with the test plan provided for tests transmission rate, super-segmental features of the language and variations in timbre, the quality of the acoustic reproduction of the radio signal implemented by the radio system installed in the vehicle is assessed on the basis of a statistical assessment of the statuses of all tasks solved by the SRI in the process of the performed test cycle, in cases of discrepancy between the logical obviously known solution of the problem corresponding to the original phraseological message, the logical content of the phraseological message reproduced by the SII, the original and generated by the microphone electrical signals recorded by the sound-indicating equipment are compared and, if they do not correspond, the reasons that led to this discrepancy are identified.