RU2000105890A - METHOD AND DEVICE FOR PREDICTIVE PARAMETRIC CONTROL WITH DELAY IN THE CIRCUIT - Google Patents

Claims (40)

1. A method of controlling the signal power level in a communication system comprising a first station, a second station and a satellite communication line connecting the first station and the second station, the communication system having a significant propagation delay between the first station and the second station, comprising the steps of measuring the level of received signal power wherein the signal is transmitted via a satellite communication line from the second station to the first station, generating a power control command at the first station and sending a power control command with ervoy station to the second station, wherein the step of generating a power control command power control commands is formed at the level of the received power function desired power level and at least one previous power control command, sent from the first station to the second station.  2. The method according to claim 1, wherein, at the stage of generating the power control command, the power control command is generated as a function of the received power level, the required power level, and at least one previous power control command sent from the first station to the second station and not received by the second station.  3. The method according to claim 1, further comprising the step of receiving at the second station power control commands from the first station.  4. The method according to claim 1, wherein at the stage of generating the power control command, the power control command is generated as a function of the received power level, the required power level and at least one previous power control command sent from the first station to the second station and received by the second station .  5. The method according to claim 3, further comprising the step of adjusting the level of the transmitted signal power in response to a power control command to generate a regulated signal at the second station.  6. The method according to claim 5, wherein, at the stage of generating the power control command, the power control command is generated as a function of the received power level, the required power level, and at least one previous power control command sent from the first station to the second station and not generating adjusted signal at the second station.  7. The method of claim 5, further comprising the step of transmitting the adjusted signal from the second station to the first station.  8. The method according to claim 7, wherein, at the stage of generating the power control command, the power control command is generated as a function of the received power level, the required power level, and at least one previous power control command sent from the first station to the second station and not generating an adjusted a signal not received by the first station.  9. The method according to p. 5, in which at the adjustment stage, the transmitted power level is adjusted by a fixed amount in response to the power control command.  10. The method according to p. 5, in which, at the adjustment stage, an increase in the level of transmitted power by a first fixed amount is performed in response to a power control command that instructs the second station to increase the level of transmitted power and a decrease in the level of transmitted power by a second fixed amount a power control command that instructs the second station to reduce the level of transmitted power.  11. The method according to p. 10, in which the first fixed value and the second fixed value are equal.  12. The signal power level control system in a satellite communication system comprising a first station, a second station and a satellite communication line connecting the first station and the second station, including means for measuring the level of received signal power, the signal being transmitted from the second station and received by the first station, means for generating a power control command at the first station, and means for sending a power control command from the first station to the second station, the means for forming a com power control commands generates a power control command as a function of the received power level, the required power level, and at least one previous power control command sent from the first station to the second station.  13. The system of claim 12, wherein the means for generating the power control command generates a power control command as a function of the received power level, the desired power level, and at least one previous power control command sent from the first station to the second station and not received by the second station.  14. The system of claim 12, further comprising means for receiving power control commands from the first station at the second station.  15. The system of claim 12, wherein the means for generating the power control command generates a power control command as a function of the received power level, the desired power level, and at least one previous power control command sent from the first station to the second station and received by the second station .  16. The system of claim 14, further comprising means for adjusting the level of transmitted signal power in response to a power control command to generate an adjusted signal at the second station.  17. The system of claim 16, wherein the means for generating the power control command generates a power control command as a function of the received power level, the required power level, and at least one previous power control command sent from the first station to the second station and not generating the adjusted signal at the second station.  18. The system of claim 16, further comprising means for transmitting the adjusted signal from the second station to the first station.  19. The system of claim 18, wherein the means for generating the power control command generates a power control command as a function of the received power level, the required power level, and at least one previous power control command sent from the first station to the second station and generating the adjusted signal not accepted by the first station.  20. The system of claim 16, wherein the adjusting means comprises means for adjusting the level of transmitted power by a fixed amount in response to a power control command.  21. The system of claim 16, wherein the adjusting means comprises means for increasing the transmit power level by a first fixed amount in response to a power control command that instructs the second station to increase the transmit power level, and means for decreasing the transmit power level to the second a fixed value in response to a power control command that instructs the second station to reduce the level of transmitted power.  22. The system of claim 21, wherein the first fixed value and the second fixed value are equal.  23. A device for controlling the power level of a transmitted signal in a satellite communication system comprising a first station, a second station and a satellite communication line connecting the first station and the second station, the transmitted signal being subject to propagation delay between the first station and the second station, including a level detector power located at the first station to measure the level of received power of the signal transmitted from the second station to the first station, a compensator located at the first station, To generate a power control command that tells the second station to adjust its transmit power, and a transmitter to send the power control command from the first station to the second station, the compensator generating a power control command as a function of the received power level, the required power level and at least one raw power control commands sent from the first station to the second station.  24. The device according to p. 23, in which the compensator contains the drive raw commands, which accumulates the raw power control commands sent from the first station to the second station, and a comparator that compares the received power level, adjusted by the output signal of the drive raw commands, with the desired level power to determine the power control command.  25. The device according to p. 24, in which the drive raw commands accumulates raw power control commands sent from the first station to the second station, which are not received by the second station.  26. The device according to p. 24, in which the drive raw commands accumulates raw power control commands sent from the first station to the second station, which did not generate a regulated signal sent from the second station.  27. The device according to p. 24, in which the drive raw commands accumulates raw power control commands sent from the first station to the second station, which have already generated an adjusted signal sent from the second station to the first station, which is not received by the first station.  28. The apparatus of claim 24, wherein the raw instruction store accumulates a number of raw power control commands sent from the first station to the second station based on the propagation delay and the loop iteration time associated with the compensator.  29. A method of controlling a parameter associated with a signal in a communication system having a first station, a second station, and a satellite communication line connecting the first station and the second station, the communication system having a significant propagation delay between the first station and the second station containing the steps of measuring the signal parameter wherein the signal is transmitted via a satellite communication line from the second station to the first station, generating a control command at the first station and sending a control command from the first station to the second station, p Moreover, at the stage of generating the control command, the control command is generated as a function of the level of the measured parameter, the required level for the parameter and at least one previous control command sent from the first station to the second station.  30. The method according to p. 29, according to which at the stage of generating the control command, the control command is generated as a function of the measured parameter, the required level for the parameter and at least one previous control command sent from the first station to the second station and not received by the second station.  31. The method of claim 29, further comprising the step of receiving at the second station control commands from the first station.  32. The method according to claim 29, wherein at the stage of generating the control command, the control command is generated as a function of the measured parameter, the required level for the parameter and at least one previous control command sent from the first station to the second station and received by the second station.  33. The method of claim 31, further comprising the step of adjusting the signal parameter in response to a control command to generate a adjusted signal at the second station.  34. The method according to p. 33, according to which, at the stage of generating the control command, the control command is generated as a function of the measured parameter, the required level for the parameter, and at least one previous control command sent from the first station to the second station and not generating the adjusted signal to second station.  35. The method of claim 33, further comprising the step of transmitting the adjusted signal from the second station to the first station.  36. The method according to p. 35, in which at the stage of generating the control command, the control command is generated as a function of the measured parameter, the required level for the parameter and at least one previous control command sent from the first station to the second station and generating a regulated signal not received first station.  37. The method according to p. 33, in which the step is to adjust the level of the parameter by a fixed value in response to a control command.  38. The method according to p. 33, in which, at the adjustment stage, the parameter level is increased by a first fixed value in response to the control command, which instructs the second station to increase the parameter level, and the parameter level decreases by the second fixed value in response to the control command, which instructs the second station to reduce the parameter level.  39. The method of claim 38, wherein the first fixed value and the second fixed value are equal.  40. The method of claim 29, wherein the signal is a communication signal in a spread spectrum communication system.