RU2003109615A - DEVICE AND METHOD FOR DETECTING TURBO DECODER DATA TRANSFER - Google Patents

Claims (24)

1. A method for decoding encoded data in one frame transmitted from a transmitter with a single data rate from a plurality of data rates using a receiver turbo decoder that does not have information about the data rate at which the encoded data is transmitted, and detecting a data rate characteristic for encoded data, which consists in the fact that (a) decoded encoded data in a frame with a selected data rate from a set of data rates using a turbo decoder and calculating derive a state value of the current decoding indicating the average value of absolute values of the logarithmic likelihood ratio (ORP) identical to the decoded values of the encoded data output from the turbo decoder, (b) calculate the state value of the current incomplete decoding, defined as the difference between the state value of the current decoding and the state value of the previous decoding, (c) control decoded data using a cyclic redundancy code (CEC), if the value is The current decoding value is greater than the first threshold value, or the current incomplete decoding state value is greater than the second threshold value, and d) the selected data rate is determined as the data rate characteristic of encoded data transmitted from the transmitter, if the result of monitoring by The CEC is satisfactory. 2. The method according to claim 1, characterized in that it additionally carry out step (e), which repeats steps (a) to (d) within a limiting number of iterations until the selected data rate is determined as the transmission rate data characteristic of encoded data if the result of control by the CEC is not satisfactory. 3. The method according to claim 2, characterized in that they additionally carry out the stage at which steps (a) - (e) are repeated within the bounds of the limiting number of iterations until the selected data rate is determined as the data rate characteristic for encoded data, if the data rate characteristic of the encoded data is not detected from the selected data rate. 4. The method according to claim 3, characterized in that the limiting number of iterations is changed based on the state value of the current decoding and the state value of the current incomplete decoding during each decoding. 5. The method according to claim 4, characterized in that at the stage (a) set the limiting number of iterations equal to the specified minimum value. 6. The method according to claim 5, characterized in that the limiting number of iterations is set to a predetermined maximum value, if the state value of the current decoding is greater than the first threshold value, or the state value of the current incomplete decoding is greater than the second threshold value. 7. The method according to claim 5, characterized in that the limiting number of iterations is set to a predetermined maximum value if the state value of the current decoding is greater than the first threshold value, and the state value of the current incomplete decoding is less than the second threshold value, or equal to it. 8. The method according to claim 7, characterized in that the limiting number of iterations is an intermediate value between the minimum value and the maximum value if the state value of the current decoding is less than or equal to the first threshold value, and the state value of the current incomplete decoding is greater than second threshold value. 9. The method according to claim 6 or 8, characterized in that it additionally returns to step (a) without monitoring the decoded data using the CEC, if the current decoding state value is less than or equal to the first threshold value, and the state value the current incomplete decoding is less than or equal to the second threshold value. 10. The method according to any one of claims 1 to 3, characterized in that the value of the decoding state is calculated as follows:

where m is the value of the decoding state; the symbols a and b denote constants, moreover, 0≤a <b <DK, where the DK symbol denotes the frame length associated with the selected data rate; the OLP symbol (n) denotes the output value corresponding to the soft decision of the nth bit from the turbo decoder for this DC. 11. A method for decoding encoded data in a single frame transmitted from a transmitter with a single data rate from a plurality of data rates using a receiver turbo decoder that does not have information about the data rate at which the encoded data is transmitted, and detecting a characteristic data rate for encoded data, which consists in the fact that (a) decode the data encoded with the selected data rate from the set of data rates, and output the decoded data data, (b) control the limiting number of iterations depending on the decoding state information measured for decoded data, if the number of decodings performed at the selected data rate is less than the limiting number of iterations, (c) control decoded data using the CEC if the number of decodings is greater than the limiting number of iterations, or equal to this number, (g) determine the selected data transfer rate as the data transfer rate characteristic of the encoded data, per given from the transmitter, if the result of the control by the CEC is satisfactory, (e) repeat steps (a) - (d) within the bounding number of iterations until the selected data rate is determined as the data rate typical for the encoded data, if the result of the control by the CEC is not satisfactory, and (e) repeat steps (a) - (e) until another selected data rate from the multiple data rates is determined as the data rate, arakternaya for the coded data if the selected data rate is not determined as the data rate characteristic of the encoded data. 12. The method according to claim 11, characterized in that the decoding state information includes a current decoding state value indicating an average value of absolute values of a log likelihood ratio (ORP) identical to the output values corresponding to the soft decision, decoded data, and also includes the state value of the current partial decoding, defined as the difference between the state value of the current decoding and the state value of the previous decoding. 13. The method according to p. 12, characterized in that the value of the decoding state is calculated as follows:

where m is the value of the decoding state; the symbols a and b denote constants, moreover, 0≤a <b <DK, where the DK symbol denotes the frame length associated with the selected data rate; the OLP symbol (n) denotes the output value corresponding to the soft decision of the nth bit from the turbo decoder for this DC. 14. The method according to p. 12, characterized in that at the stage (a) set the limiting number of iterations equal to the specified minimum value. 15. The method according to 14, characterized in that in step (b) set the limiting number of iterations equal to the specified maximum value, if the state value of the current decoding is greater than the first threshold value, or the state value of the current incomplete decoding is greater than the second threshold value . 16. The method according to 14, characterized in that at the stage (b) set the limiting number of iterations equal to the specified maximum value, if the state value of the current decoding is greater than the first threshold value, and the state value of the current incomplete decoding is less than the second threshold value , or equal to him. 17. The method according to clause 16, characterized in that in step (b) set the limiting number of iterations equal to the intermediate value between the minimum value and the maximum value if the state value of the current decoding is less than or equal to the first threshold value, and the state value the current incomplete decoding is greater than the second threshold value. 18. The method according to p. 15 or 17, characterized in that it additionally returns to step (a) without monitoring the decoded data using the CEC, if the state value of the current decoding is less than or equal to the first threshold value, and the state value the current incomplete decoding is less than or equal to the second threshold value. 19. A device for decoding encoded data in a single frame transmitted from a transmitter with a single data rate from a plurality of data rates using a receiver turbo decoder that does not have information about the data rate at which the encoded data is transmitted, and to detect the data rate characteristic of encoded data, comprising a data rate determination unit for selecting a data rate from a plurality of data rates, a turbo decoder for iterative decoding the input data frame within a limiting number of iterations using the selected data rate, as well as for outputting decoded data, a CEC detector for monitoring decoded data using a CEC, as well as for outputting a control result using a CEC, a decoding state measurement unit for measuring quality of decoding using decoded data, as well as for outputting information about the state of decoding and the controller to determine first the limiting number of iterators functions as a minimum value, controlling a limiting number of iterations based on information about the decoding state, controlling a unit for determining the data transfer rate, and also for determining the data transfer rate characteristic of the input data, based on the result of monitoring using the CEC. 20. The device according to claim 19, characterized in that the information on the decoding state includes a value of the current decoding state indicating the average value of the absolute values of the ratio of the logarithmic likelihood (OLP), identical to the output values corresponding to the soft decision, the decoded data, and also includes the state value of the current partial decoding, defined as the difference between the state value of the current decoding and the state value of the previous decoding. 21. The device according to claim 20, characterized in that the value of the decoding state is calculated as follows:

where m is the value of the decoding state; the symbols a and b denote constants, moreover, 0≤a <b <DK, where the DK symbol denotes the frame length associated with the selected data rate; the OLP symbol (n) denotes the output value corresponding to the soft decision of the nth bit from the turbo decoder for this DC. 22. The device according to claim 20, characterized in that the controller sets the limiting number of iterations to a predetermined maximum value if the state value of the current decoding is greater than the first threshold value, or the state value of the current incomplete decoding is greater than the second threshold value. 23. The device according to claim 20, characterized in that the controller sets the limiting number of iterations equal to the specified maximum value, if the state value of the current decoding is greater than the first threshold value, and the state value of the current incomplete decoding is less than the second threshold value, or equal to it . 24. The device according to item 23, wherein the controller sets the limiting number of iterations to an intermediate value between the minimum value and the maximum value, if the state value of the current decoding is less than the first threshold value, or equal to it, and the state value of the current incomplete decoding is greater than the second threshold value.