RU97114099A - METHOD AND DEVICE FOR IDENTIFICATION AND BYPASS OF TANDEMIC VOCODING - Google Patents

Claims (43)

1. A method of generating effectively vocoded data in a pulse-code modulated (PCM) system comprising at least a first vocoder and a CMM of a communication line, characterized in that it includes coding steps in said first vocoder of effective vocoder data from a first remote source with generating a first an encoded PCM signal for transmission over said PCM communication line, wherein the encoding step includes a filtering step in a first manner, including a transmitted update code in said first encoded PCM signal loading, receiving in the first vocoder a second encoded PCM signal over said PCM communication line, encoding in a first vocoder a second encoded PCM signal for generating effective vocoder data for transmission to a first remote source, the encoding step including a filtering step in a second way, monitoring the second vocoder the encoded PCM signal for recognizing whether the second encoded PCM signal contains a received detection code or not, and modifying said first or second fil If the second PCM encoded signal contains a received detection code.  2. The method according to claim 1, characterized in that the first effective vocoder data has a plurality of data transmission rates, including a full transmission rate and at least one lower data rate.  3. The method according to p. 2, characterized in that the step of including in the first encoded PCM signal of the transmitted detection code is due to the fact that the first effective vocoder data has a data transfer rate less than said full transfer rate.  4. The method according to p. 1, characterized in that the PCM system contains many classes of vocoders, and the transmitted detection code indicates the aforementioned first filtering method in the first vocoder.  5. The method according to p. 1, characterized in that the first encoded PCM signal contains logarithmically encoded values that contain a lot of binary digits indicating the order of magnitude, and many binary digits representing the mantissa, and the transmitted detection code is entered into the lowest binary bit of the set binary digits representing the mantissa.  6. The method according to p. 5, characterized in that said PCM system comprises a control device that can introduce distortion into said least significant binary bit from a plurality of binary bits denoting the mantissa, wherein the transmitted detection code acts in conjunction with said distortion introduced by the control device system.  7. The method according to p. 5, characterized in that the said effective vocoder data is inserted into the second least significant bit of the set of binary bits denoting the mantissa.  8. The method according to p. 5, characterized in that the said effective vocoder data is inserted into the second least significant bit of the set of binary bits denoting the mantissa, and in the least significant binary bit of the set of binary bits denoting the mantissa.  9. The method according to p. 1, characterized in that it further includes the steps of continuing to control in the first vocoder the second PCM encoding of the signal to recognize whether the second PCM encoded signal contains a received detection code or not, and filtering the first and second methods, if the second is encoded The PCM signal does not contain a received detection code.  10. A system for generating high-quality coded speech signals in a public telephone system, characterized in that it comprises a first remote vocoder for receiving a first sampled speech signal, encoding a first sampled speech signal to obtain a first effective data signal, and transmitting a first radio signal containing said first effective data signal, and for receiving a second radio signal containing a second effective data signal, and decoding the second effective data signal for receiving the second sampled speech signal, the first radio link for transmitting the first and second radio link signals, the first local vocoder for receiving the first radio link signal from the first radio link and encoding the first encoded PCM signal in response to the first effective data signal using the first filter and for receiving a second encoded PCM signal, encoding a second encoded PCM signal, encoding a second encoded PCM from the floor a copy of the second effective data signal using the second filter and transmitting the second signal of the radio link containing said copy of the second effective data signal to the first radio line, public switched telephone network (CTS OP) for transmitting said first and second encoded PCM signals, a second local vocoder for receiving the first encoded PCM signal from the CCC OP, encoding the first encoded PCM signal to obtain a copy of the first effective data signal using the third filter, and transmitting a third signal of the radio link containing said copy of the first effective data signal, and for receiving a fourth signal of the radio link containing the second effective data signal, encoding the second encoded PCM signal in response to the second effective data signal, and transmitting the second encoded PCM signal, a second radio link for transmitting said third and fourth radio link signals; and a second remote vocoder for receiving a third radio signal from the second radio link and decoding said a extracted copy of the first effective data signal for receiving a third sampled speech signal and for receiving a fourth sampled speech signal, encoding a fourth sampled speech signal for receiving a second effective data signal and transmitting a fourth signal of a radio link containing a second effective data signal through a second radio link, wherein the first the local vocoder is further designed to pass the outgoing detection code directly in the first encoded PCM signal and control of the incoming detection code, and changes in the characteristics of the aforementioned first filter when detecting the incoming detection code.  11. A system for generating high-quality coded speech signals in a public telephone system, characterized in that it comprises a first remote vocoder for receiving a first sampled speech signal, encoding a first sampled speech signal to obtain a first effective data signal and transmit a first radio signal containing said first effective a data signal, and for receiving a second radio signal containing a second effective data signal and decoding into a second effective data signal for receiving a second sampled speech signal, a first radio link for transmitting said first and second radio link signals, a first local vocoder for receiving a first radio link signal from the first radio link and encoding a first encoded PCM signal in response to said first effective data signal using the first filter and for receiving a second encoded PCM signal and encoding a second encoded PCM signal to obtain a copy of the second effective signal data using the second filter and transmitting the second signal of the radio link containing a copy of the second effective data signal to the first radio link, public switched telephone network (CTS OP) to transmit the aforementioned first and second encoded PCM signals, the second local vocoder for receiving the first encoded PCM the signal from the CCC OP, encoding the first encoded PCM signal to obtain a copy of the first effective data signal using the third filter and transmitting the third radio signal and containing said copy of the first effective data signal, and for receiving a fourth radio signal containing the second effective data signal, encoding the second encoded PCM signal in response to said second effective data signal and transmitting the second encoded PCM signal, a second radio link for transmitting said third and a fourth radio link signal and a second remote vocoder for receiving a third radio signal from the second radio link and decoding a copy of the first effective data signal for To obtain a third sampled speech data signal to obtain a third sampled speech signal and to receive a fourth sampled speech signal, encode a fourth sampled speech signal to obtain a second effective data signal and transmit a fourth radio signal containing a second effective data signal through a second radio link, wherein the first local vocoder is further designed to pass the outgoing detection code directly to the ditch the PCM-encoded signal and control the incoming detection code and change the characteristics of the second filter when detecting the incoming detection code.  12. A method of transmitting digital data in a system with a pulse-code modulation (PCM), characterized in that it includes the steps of decoding and filtering the incoming digital signal to obtain the outgoing PCM signal, encoding the incoming PCM signal to obtain the outgoing digital signal, introducing into the said outgoing PCM signal of the outgoing detection signal, monitoring the incoming PCM signal to determine whether the incoming PCM signal contains an incoming detection code, introducing into the said outgoing PCM signal of the outgoing signal To verify if said incoming PCM signal contains an input signal for detecting, monitoring said incoming PCM signal to determine if the incoming PCM signal contains an incoming confirmation signal, and to modify the filtering step if the incoming PCM signal contains an incoming confirmation code.  13. The method according to p. 12, characterized in that it further includes the step of stopping the modification of the filtering step, if the quality indicator falls below a predetermined value.  14. The method according to p. 12, characterized in that the outgoing detection code is entered on the lowest binary bit of the mantissa value in the outgoing PCM signal.  15. The method according to p. 12, characterized in that the outgoing detection code has a pseudo-random code that replaces on average one of every n binary bits of the lowest binary bit of the outgoing PCM signal, the step of monitoring the incoming PCM signal to determine whether the incoming PCM signal incoming detection code, allows a certain number of errors.  16. The method according to p. 12, characterized in that the incoming digital signal is introduced into the two older binary bits of the mantissa value in the outgoing PCM signal.  17. The method according to p. 12, characterized in that the outgoing confirmation signal is entered into the two higher binary bits of the mantissa value in the outgoing PCM signal, the outgoing confirmation signal having a pseudo-random codogram replacing, on average, one out of every n binary digits.  18. A method for generating efficiently vocoded data in a PCM system comprising at least a first vocoder and a PCM communication line, characterized in that it includes coding steps in the first vocoder of effective vocoder data from the first remote source to obtain the first coded PCM signal for transmission via PCM communication lines, inclusion in the first PCM encoded signal of a transmitted detection code, reception in the first vocoder of a second encoded PCM signal via said PCM communication line, codes in the first vocoder of the second encoded PCM signal to obtain effective vocoder data for transmission to the first remote source, monitoring in the first vocoder of the second encoded PCM signal to recognize whether the second encoded PCM signal contains a received detection code, and incorporating effective data directly into the first encoded PCM vocoder from the first remote source, if the second encoded PCM signal contains the received detection code, control in the first vocoder of the second encoded the first PCM signal to recognize whether the second encoded PCM signal contains effective vocoder data from a second remote source, and passing the first vocoder effective vocoder data from a second remote source as said effective vocoder data for transmission to the first remote source if the second encoded PCM signal effective vocoder data from a second remote source.  19. The method according to p. 18, characterized in that the said first effective vocoder data has a variety of data rates, including the full transmission rate and at least one lower data rate.  20. The method according to p. 19, characterized in that the step of including the transmitted detection code in the first PCM encoded signal is due to the fact that said first effective vocoder data has a data rate lower than full speed.  21. The method according to p. 18, characterized in that the PCM system contains many classes of vocoders, while the transmitted detection code displays the class designation of the first vocoder.  22. The method according to p. 18, characterized in that the first encoded PCM signal contains logarithmically encoded values, moreover, logarithmically encoded values contain many binary digits indicating the order of magnitude, and many binary digits indicating the mantissa, and the transmitted detection code is entered in the lowest binary bit of a set of binary bits denoting a mantissa.  23. The method according to p. 22, characterized in that the PCM system comprises a control device that can introduce distortion into said least significant binary bit from a plurality of binary bits denoting a mantissa, wherein the transmitted detection code acts in conjunction with said distortion introduced by the system control device .  24. The method according to p. 22, characterized in that the effective vocoder data is inserted into the second least significant bit of the set of binary bits representing the mantissa.  25. The method according to p. 22, characterized in that the effective vocoder data is input into the second least significant bit of the set of binary bits denoting the mantissa, and into the aforementioned least significant bit of the set of binary bits denoting the mantissa.  26. The method according to p. 18, characterized in that it further includes the steps of continuing to control in the first vocoder a second encoded PCM signal for recognizing whether the second encoded PCM signal contains said effective vocoder data from a second remote source, skipping said effective vocoder data from a second remote source in the form of effective vocoder data for transmission to the first remote source, and the end of transmission of effective vocoder data of the second remote source and the start of coding torogo PCM encoded signal to produce said efficient vocoder data for transmission to the first remote source if the second PCM encoded data does not contain effective vocoder data from a second remote source.  27. The method according to p. 26, characterized in that it further includes the steps of continuing to control in the first vocoder a second encoded PCM signal for recognizing whether the second encoded PCM signal contains a received detection code and ending the inclusion of effective vocoder data directly in the first encoded PCM, if the second encoded PCM signal does not contain a received detection code.  28. The method according to p. 18, characterized in that it further includes encoding in the second vocoder effective vocoder data from a second remote source to obtain a second encoded PCM signal for transmission via the PCM communication line, including the aforementioned received detection code in the second encoded PCM signal, receiving in the second vocoder of the first encoded PCM signal over the PCM communication line, encoding in the second vocoder of the first encoded PCM signal to obtain effective vocoder data for transmission to the second source, control in the second vocoder of the first PCM encoded signal for recognizing whether the first encoded PCM signal contains a transmitted detection code, inclusion of effective vocoder data directly from the second remote source directly in the second encoded PCM if the first PCM encoded signal contains a transmitted detection code, control the second vocoder of the first encoded PCM signal, to recognize whether the first encoded PCM signal contains effective vocoder data from the first remote source, and the second vocoder transmitting effective vocoder data from the first remote source as said effective vocoder data for transmission to the second remote source, if said first PCM encoded signal contains effective vocoder data from the first remote source.  29. System for providing direct transmission of effectively encoded speech signals over a public telephone system, characterized in that it contains a first remote vocoder for receiving a first sampled speech signal, encoding a first sampled speech signal to obtain a first effective data signal and transmitting a first radio signal containing said first effective data signal, and for receiving a second radio signal containing a second effective data signal, and deco a second effective data signal to obtain a second sampled speech signal, a first radio link for transmitting said first and second radio link signals, a first local vocoder for receiving a first radio link signal from a first radio link, encoding a first encoded PCM signal in response to a first effective data signal and transmitting the first an effective data signal directly in the first encoded PCM signal, and for receiving a second encoded PCM signal, allocating a second the second data signal from the second encoded PCM signal and transmitting the second signal of the radio link containing the second effective data signal to the first radio line, a public switched telephone network (CTS OP) for transmitting said first and second encoded PCM signals, a second local vocoder for receiving the first encoded PCM signal from the CCC OP, extracting the first effective data signal from the first encoded PCM signal and transmitting a third radio signal containing the first effective data signal, for receiving a fourth signal of a radio link containing a second effective data signal, encoding a second encoded PCM signal in response to a second effective data signal and transmitting a second effective data signal directly in a second encoded PCM signal, a second radio link for transmitting said third and fourth radio signal, and a second remote vocoder for receiving a third radio signal from a second radio channel and decoding the first effective data signal to obtain a third discrete ized speech signal and for receiving a fourth sampled voice signal, encoding a fourth sampled voice signal to produce a second efficient data signal, and transmitting a fourth radio signal comprising a second efficient data signal for the second radio link.  30. The system according to p. 29, characterized in that the first local vocoder is additionally designed to pass the sequence of control for redundancy directly in the first encoded PCM signal.  31. The system according to p. 29, characterized in that the first local vocoder is additionally designed to pass the detection code directly in the first encoded PCM signal.  32. A method of transmitting digital data in a system with a pulse-code modulation (PCM), characterized in that it includes the steps of encoding an incoming digital signal to obtain an outgoing PCM signal, decoding an incoming PCM signal to obtain an outgoing digital signal, introducing an outgoing signal into the outgoing PCM signal detection, monitoring the incoming PCM signal to determine whether the incoming PCM signal contains an incoming detection code, introducing an outgoing confirmation signal into the outgoing PCM signal, if the incoming PCM signal with It contains an incoming signal for detecting, monitoring the incoming PCM signal to determine whether the incoming PCM signal contains an incoming confirmation signal, introducing an incoming digital signal into the outgoing PCM signal, if the incoming PCM signal contains an incoming confirmation code, extracting the outgoing digital signal from the incoming PCM signal, and monitoring quality indicator of the outgoing digital signal.  33. The method according to p. 32, characterized in that it includes the steps of stopping the introduction of an incoming digital signal into the outgoing PCM signal if the quality indicator decreases below a predetermined value, and stopping the allocation of the outgoing digital signal from the incoming PCM signal if the quality indicator decreases below in advance set value.  34. The method according to p. 32, characterized in that the outgoing detection code is entered into the lowest binary bit of the mantissa value in the outgoing PCM signal.  35. The method according to p. 32, characterized in that the outgoing detection code has a pseudo-random code that replaces on average one of every n binary bits of the lowest binary bit of the outgoing PCM signal, the step of monitoring the incoming PCM signal to determine whether the incoming PCM signal incoming detection code, allows a certain number of errors.  36. The method according to p. 32, characterized in that the incoming digital signal is entered into the two most significant binary bits of the mantissa value in the outgoing PCM signal.  37. The method according to p. 32, characterized in that the outgoing confirmation signal is entered into the two most significant binary bits of the mantissa value in the said outgoing PCM signal, the outgoing confirmation signal having a pseudo-random codogram replacing, on average, one out of every n binary digits.  38. The method according to p. 32, characterized in that the outgoing confirmation signal is generated based on the incoming digital signal.  39. The method according to p. 32, characterized in that the outgoing confirmation signal contains a synchronization sequence, so that said step of introducing an incoming digital signal into the outgoing PCM signal into the step of introducing the outgoing digital signal from the incoming PCM signal is carried out jointly.  40. The method according to p. 32, characterized in that the step of introducing the outgoing detection signal into the outgoing PCM signal degrades the resulting signal-to-noise ratio by less than 1 dB.  41. The method according to p. 32, characterized in that the step of introducing an outgoing confirmation signal into the outgoing PCM signal worsens the resulting signal-to-noise ratio to a much lesser extent than the step of introducing an incoming digital signal into the outgoing PCM signal.  42. The method according to p. 32, wherein the quality indicator is an indicator of the frequency of occurrence of errors in the outgoing digital signal.  43. The method according to p. 32, wherein the quality indicator is an indicator of the frequency of occurrence of control errors by code redundancy in the outgoing digital signal.