RU2005105421A - METHOD FOR TRANSMISSION OF MESSAGES OF ANY PHYSICAL NATURE, FOR EXAMPLE METHOD FOR TRANSMISSION OF SOUND MESSAGES AND SYSTEM FOR ITS IMPLEMENTATION, OPTIONS - Google Patents

Claims (24)

1. A method of transmitting messages of any physical nature in a channel with random parameters, which consists in converting messages to electrical signals of a message source, multiband processing of signal signals of a message source through a processing unit, to the second input of which these signals are supplied, and processing is carried out with the possibility of cyclic formation and calculating the delays of the source signals, as well as with the possibility of generating processed electrical signals, which are the output signals of the sampler work, converting the processed electrical signals into signals of the same physical nature, transmitting them through a channel with random parameters to a message receiving point, receiving and converting signals into received electrical feedback signals, transmitting them to the first input of the processing unit, multi-band processing taking into account received electrical signals, characterized in that in each of at least two processing bands, the delays of the electrical signals of the source are generated, the values of these delays are stored k, calculating the current values of the total delays of the source signals in all elements of the message channel from the signal source to the point of reception of the message, calculate the maximum total delay in all processing bands, calculate the current compensation delays by subtracting the current total delay from the maximum value in all delay processing bands and summing the result thus obtained with the value of the previously generated and stored delay for the corresponding processing band, calculated Compensating delays formed in the respective source signal processing bands, and the values of these delays is stored for subsequent calculation cycle and forming source signal delays. 2. A method for transmitting messages of any physical nature in a channel with random parameters according to claim 1, characterized in that the multi-band processing of the electrical signals of the source and the received electrical signals is carried out with the possibility of calculating and generating levels of the source signals in the processing bands. 3. The method of transmitting messages of any physical nature in a channel with random parameters according to claim 2, characterized in that the multi-band processing of electrical signals is carried out with the possibility of generating signals for active noise reduction of noise at the point of receipt of messages. 4. A method for transmitting messages of any physical nature in a channel with random parameters according to claim 3, characterized in that the processed electrical signals are generated by summing the processed electrical signals of the source and signals for active noise reduction. 5. A method for transmitting messages of any physical nature in a channel with random parameters according to claim 3, characterized in that the signals for active noise reduction are the output signals of the processing unit — additionally generated processed electric signals that are additionally converted into signals of the same physical nature and transmitted through channel with random parameters to the message receiving point. 6. A method for transmitting messages of any physical nature in a channel with random parameters according to any one of claims 1 to 4, characterized in that the number of processed electrical signals is equal to the number of processing bands for implementing a multiband method of transmitting messages. 7. A method for transmitting messages of any physical nature in a channel with random parameters according to any one of claims 1 to 4, characterized in that the number of processed electrical signals is equal to the number of source signals. 8. A method for transmitting messages of any physical nature in a channel with random parameters according to claim 1 or 2, characterized in that the number of processed electrical signals is less than the number of processing bands, but not less than two, for implementing a multiband method for transmitting messages. 9. A method for transmitting messages of any physical nature in a channel with random parameters according to claim 3, characterized in that the processed electrical signals are formed by summing the processed electrical signals of the source into groups, for example, low, medium and high frequencies. 10. A method for transmitting messages of any physical nature in a channel with random parameters according to claim 3, characterized in that the number of processed electrical signals is less than the number of processing bands, but not less than two for implementing a multi-band method for transmitting messages, while the processed electrical signals are formed by summing processed electrical source signals and signals for active noise reduction in groups, for example low, medium and high frequencies. 11. A method of transmitting messages of any physical nature in a channel with random parameters according to any one of claims 1 to 4 and 9-10, characterized in that each converted electrical signal into a signal of the same physical nature is amplified and transmitted by its radiation to the channel to a point receiving a message. 12. A method of transmitting messages of any physical nature in a channel with random parameters according to any one of claims 1 to 4 and 9-10, characterized in that at least one of the converted processed electrical signals into a signal of the same physical nature is additionally filtered, amplified and transmitted by radiation into the channel to the point of receipt of the message. 13. A method for transmitting messages of any physical nature in a channel with random parameters according to any one of claims 1 to 4 and 9-10, characterized in that the number of generated electrical signals is equal to the number of message receiving points. 14. A method for transmitting messages of any physical nature in a channel with random parameters according to any one of claims 1 to 4 and 9-10, characterized in that sound signals are used as signals of any physical nature. 15. A system for transmitting audio messages containing a signal processing unit, to the second input of which signals from the source are received, and at the output of the processing unit, the signal is amplified, converted by at least one loudspeaker into audio signals and through communication lines, a sounding device and feedback lines transmit to the first input of the signal processing unit, characterized in that in the signal processing unit in each of at least two processing bands, delaying of the electrical signal is carried out the source, storing the values of these delays, calculating the current values of the total delays of the source signals in all elements of the message channel from the signal source to the point of receipt of the message, calculate the maximum total delay in all processing bands, calculate the current compensation delays by subtracting the maximum in all processing bands delays of the value of the current total delay and summing of the result thus obtained with the value of the previously generated and stored delay for Resp processing band calculated by the above algorithm compensating delay formed in the respective source signal processing bands, and the values of these delays is stored for subsequent calculation cycle and forming source signal delays. 16. The system for transmitting audio messages according to clause 15, wherein the processing unit is configured to calculate and generate signal levels in the processing bands, or with the ability to calculate and generate signal levels of the source and signals for active noise reduction. 17. The system for transmitting audio messages according to clause 15, wherein the signal source is configured to noise reduction or switching its output signals. 18. The system for transmitting audio messages according to clause 15, wherein the signal source is configured to control the output amplitude-frequency characteristics or with the ability to control the level of its output signals to control the volume level. 19. The system for transmitting audio messages according to clause 15, wherein the signal source is configured to automatically adjust the levels of its output signals. 20. The system for transmitting audio messages according to clause 15, characterized in that as the speakers used single-band or multi-band speakers. 21. The system for transmitting audio messages according to clause 15, characterized in that an additional signal generator and a switch are configured to connect a signal generator and disconnect the signal source to the signal processing unit. 22. The system for transmitting audio messages according to clause 15, wherein the signal processing unit is made in the form of connected sequentially built-in or remote analog-to-digital converter and a specialized processor or computer with software, and a digital-to-analog converter. 23. The system for transmitting audio messages according to clause 15, wherein the probing devices or communication lines are configured to control the transmission coefficient to control the volume level at the point of receipt of the message. 24. A system for transmitting audio messages according to claim 15 or 23, characterized in that the volume control is made loudly.