초록 ▼

Erasure detection and power control are performed for an intermittently active transport channel with unknown format. A receiver processes each received block and determines whether it passes or fails CRC. For each received block with CRC failure, the receiver performs erasure detection by computing

Erasure detection and power control are performed for an intermittently active transport channel with unknown format. A receiver processes each received block and determines whether it passes or fails CRC. For each received block with CRC failure, the receiver performs erasure detection by computing a symbol error rate (SER) and energy of the received block, comparing the computed SER against an SER threshold, comparing the computed energy against an energy threshold, and declaring an erasure if the computed SER is less than the SER threshold and the computed energy exceeds the energy threshold. The SER and energy thresholds may be adjusted based on the average SER and the average energy for prior received blocks with CRC failures. For power control, an SIR target is increased by an UP step whenever an erased block is detected for the transport channel.

대표청구항 ▼

What is claimed is: 1. A method of performing erasure detection in a wireless communication system, comprising: ascertaining whether a received block passes an error detection code; and if the received block does not pass the error detection code, determining whether the received block is an erased

What is claimed is: 1. A method of performing erasure detection in a wireless communication system, comprising: ascertaining whether a received block passes an error detection code; and if the received block does not pass the error detection code, determining whether the received block is an erased block or a discontinuous transmission (DTX) block based on at least one metric determined for the received block, wherein each of the at least one metric is compared against a threshold used for the metric, wherein the received block is deemed to be an erased block if the at least one metric indicates that a data block was transmitted by a transmitter and decoded in error by a receiver and is deemed to be a DTX block if the at least one metric indicates that no data block was transmitted by the transmitter, and wherein the threshold for each metric is based on a variance computed for the metric for prior received blocks that did not pass the error detection code. 2. The method of claim 1, further comprising: adjusting the threshold used for each metric based on statistics obtained for prior received blocks that did not pass the error detection code. 3. The method of claim 1, wherein the error detection code is a cyclic redundancy check (CRC) code. 4. The method of claim 1, wherein one of the at least one metric is for a symbol error rate (SER) for the received block. 5. The method of claim 4, wherein the determining whether the received block is an erased block or a DTX block comprises determining the SER for the received block, comparing the SER for the received block against an SER threshold, and declaring the received block to be an erased block if the SER for the received block is less than the SER threshold. 6. The method of claim 5, further comprising: determining an average SER for prior received blocks that did not pass the error detection code, and updating the SER threshold based on the average SER. 7. The method. of claim 1, wherein one of the at least one metric is for energy of the received block. 8. The method of claim 7, wherein the determining whether the received block is an erased block or a DTX block comprises determining the energy of the received block, comparing the energy of the received block against an energy threshold, and declaring the received block to be an erased block if the energy of the received block is greater than the energy threshold. 9. The method of claim 8, further comprising: determining an average energy for prior received blocks that did not pass the error detection code, and updating the energy threshold based on the average energy. 10. The method of claim 1, wherein one of the at least one metric is for a modified Yamamoto metric indicative of confidence in a decoding result for the received block. 11. The method of claim 1, wherein one of the at least one metric is for a zero state bit indicative of whether or not a Viterbi decoder encounters a known state for the received block. 12. The method of claim 1, wherein one of the at least one metric is for a signal-to-noise-plus-interference ratio (SIR) target maintained for a physical channel via which the received block is obtained. 13. A method of performing erasure detection in a wireless communication system, comprising: ascertaining whether a received block passes a cyclic redundancy check (CRC); if the received block does not pass the CRC, determining energy of the received block, determining a symbol error rate (SER) for the received block and comparing the energy of the received block against an energy threshold, wherein the energy threshold is based on a variance computed for the energy of the received block for prior received blocks that did not pass the error detection code; and comparing the SER for the received block against an SER threshold, and declaring the received block to be an erased block if the SER for the received block is less than the SER threshold and the energy of the received block is greater than the energy threshold, the erased block indicating a data block was transmitted by a transmitter and decoded in error by a receiver. 14. The method of claim 13, further comprising: if the received block does not pass the CRC, determining an average energy for prior received blocks that did not pass the CRC, determining an average SER for the prior received blocks that did not pass the error detection code, updating the energy threshold based on the average energy, and updating the SER threshold based on the average SER. 15. An apparatus in a wireless communication system, comprising: a data processor operative to ascertain whether a received block passes an error detection code; and an erasure detector operative to, if the received block does not pass the error detection code, determine whether the received block is an erased block or a discontinuous transmission (DTX) block based on at least one metric determined for the received block, wherein each of the at least one metric is compared against a threshold used for the metric, wherein the received block is deemed to be an erased block if the at least one metric indicates that a data block was transmitted by a transmitter and decoded in error by the data processor and is deemed to be a DTX block if the at least one metric indicates that no data block was transmitted by the transmitter, and wherein the threshold for each metric is based on a variance computed for the metric for prior received blocks that did not pass the error detection code. 16. The apparatus of claim 15, wherein the erasure detector is operative to obtain the at least one metric for the received block, compare each of the at least one metric against a threshold used for the metric, and declare the received block to be an erased block or a DTX block based on comparison result for the at least one metric. 17. The apparatus of claim 16, wherein the erasure detector is further operative to adjust the threshold used for each metric based on statistics obtained for prior received blocks that did not pass the error detection code. 18. The apparatus of claim 15, wherein the erasure detector is operative to obtain energy of the received block and a symbol error rate (SER) for the received block, compare the energy of the received block against an energy threshold, compare the SER for the received block against an SER threshold, and declare the received block to be an erased block if the SER for the received block is less than the SER threshold and the energy of the received block is greater than the energy threshold. 19. The method of claim 18, wherein the erasure detector is further operative to determine an average energy for prior received blocks that did not pass the CRC, determine an average SER for the prior received blocks that did not pass the error detection code, update the energy threshold based on the average energy, and update the SER threshold based on the average SER. 20. The apparatus of claim 15, wherein the received block is for a transport channel used to carry signaling data for Wideband Code Division Multiple Access (W-CDMA). 21. An apparatus in a wireless communication system, comprising: means for ascertaining whether a received block passes an error detection code; and means for, if the received block does not pass the error detection code, determining whether the received block is an erased block or a discontinuous transmission (DTX) block based on at least one metric determined for the received block, wherein each of the at least one metric is compared against a threshold used for the metric, wherein the received block is deemed to be an erased block if the at least one metric indicates that a data block was transmitted by a transmitter and decoded in error by a receiver and is deemed to be a DTX block if the at least one metric indicates that no data block was transmitted by the transmitter, and wherein the threshold for each metric is based on a variance computed for the metric for prior received blocks that did not pass the error detection code. 22. The apparatus of claim 21, wherein the means for determining whether the received block is an erased block or a DTX block comprises means for determining the at least one metric for the received block, means for comparing each of the at least one metric against a threshold used for the metric, and means for declaring the received block to be an erased block or a DTX block based on comparison result for the at least one metric. 23. The apparatus of claim 22, further comprising: means for adjusting the threshold used for each metric based on statistics obtained for prior received blocks that did not pass the error detection code. 24. A method of performing power control for a data transmission in a wireless communication system, comprising: determining whether a received block is a good block, an erased block, or a discontinuous transmission (DTX) block based on an error detection code and at least one metric, wherein each of the at least one metric is compared against a threshold used for the metric, wherein the received block is deemed to be a good block if the error detection code indicates that a data block was transmitted by a transmitter and decoded correctly by a receiver, an erased block if the at least one metric indicates that a data block was transmitted by the transmitter but decoded in error by the receiver, and a DTX block if the at least one metric indicates that no data block was transmitted by the transmitter, and wherein the threshold for each metric is based on a variance computed for the metric for prior received blocks that did not pass the error detection code; and increasing a signal-to-noise-plus-interference ratio (SIR) target if the received block is deemed to be an erased block, wherein transmit power used for the data transmission is determined by the SIR target. 25. The method of claim 24, further comprising: decreasing the SIR target if the received block is deemed to be a good block; and maintaining the SIR target at same level if the received block is deemed to be a DTX block. 26. The method of claim 24, wherein the error detection code is a cyclic redundancy cheek (CRC), and wherein the determining comprises: declaring the received block as a good block if the received block passes the CRC, and if the received block does not pass the CRC, determining at least one metric for the received block, comparing each of the at least one metric against a threshold used for the metric, and declaring the received block to be an erased block or a DTX block based on comparison result for the at least one metric. 27. A computer-readable medium storage comprising code, which, when executed by a processor instruct the processor to perform operations for erasure detection in a wireless communication system, the computer-readable memory unit comprising: code for ascertaining whether a received block passes an error detection code; and code for, if the received block does not pass the error detection code, determining whether the received block is an erased block or a discontinuous transmission (DTX) block based on at least one metric determined for the received block, wherein each of the at least one metric is compared against a threshold used for the metric, wherein the received block is deemed to be an erased block if the at least one metric indicates that a data block was transmitted by a transmitter and decoded in error by a receiver and is deemed to be a DTX block if the at least one metric indicates that no data block was transmitted by the transmitter, wherein the threshold for each metric is based on a variance computed for the metric for prior received blocks, that did not pass the error detection code. 28. The computer-readable storage medium of claim 27, wherein the computer-readable storage medium is a memory unit. 29. The computer-readable storage medium of claim 27, wherein the code for determining whether the received, block is an erased block or a DTX block comprises code for determining the at least one metric for the received block, code for comparing each of the at least one metric against a threshold used for the metric, and code for declaring the received block to be an erased block or a DTX block based on comparison result for the at least one metric. 30. The computer-readable storage medium of claim 29, further comprising: code for adjusting the threshold used for each metric based on statistics obtained for prior received blocks that did not pass the error detection code.