RU2005115849A - DETECTION AND DEMODULATION OF DATA FOR WIRELESS COMMUNICATION SYSTEMS - Google Patents

Claims (31)

1. A receiver unit in a wireless communication system, comprising a demodulator configured to process received data symbols to provide recovered symbols; a first data processor configured to process the recovered symbols to provide decoded data; a second data processor configured to process the decoded data to provide remodulated symbols; and a detector configured to process the received data symbols and re-modulated symbols to provide the detector output. 2. The receiver unit according to claim 1, in which the received data symbols are intended for hypothetically received data transmission, and the output signal of the detector indicates whether the data transmission is considered accepted. 3. The receiver unit according to claim 2, further comprising a threshold calculation unit configured to determine a threshold for use in data transmission, and wherein the detector is configured to provide an indicator based on the received data symbols and re-modulated symbols, and, in addition, the detector output is determined based on the metric and threshold. 4. The receiver unit according to claim 3, in which the threshold calculation unit is configured to determine a threshold based on a plurality of received signals for a plurality of antennas, and wherein the detector is configured to determine an indicator based on a plurality of received signals. 5. The receiver unit according to claim 1, wherein the detector is further configured to process the received pilot symbols to provide an output signal from the detector. 6. The receiver unit according to claim 5, in which the data symbols are transmitted in the data subbands, and the pilot symbols are transmitted in the pilot subbands, and wherein the data subbands are multiplexed with the pilot subbands. 7. The receiver unit of claim 6, wherein the data subbands are interlaced with the pilot subbands such that each of the data subbands is framed on both sides by the pilot subbands. 8. The receiver unit according to claim 1, in which the detector is configured to perform coherent detection in the time domain. 9. The receiver unit of claim 8, in which the received data symbols are obtained based on input samples for a hypothetically received data transmission, and the detector is configured to correlate between input and reconstructed samples obtained based on the re-modulated symbols. 10. The receiver unit of claim 8, in which the received data symbols are obtained based on input samples for a hypothetically received data transmission, and the detector is configured to correlate between input and reconstructed samples obtained on the basis of remodulated symbols and pilot symbols signal for data transmission. 11. The receiver unit according to claim 1, in which the detector is configured to perform differential detection in the frequency domain. 12. The receiver unit according to claim 5, in which the detector is configured to multiplying each of the received data symbols with a corresponding symbol from re-modulated symbols to provide a demodulated data symbol, multiplying each of the received pilot symbols with a corresponding symbol from known pilot symbols to provide a demodulated pilot symbol, performing scalar products between demodulated symbols data and demodulated symbols of the pilot signal, and the accumulation of the results of scalar products. 13. The receiver unit according to claim 2, wherein the data transmission is for a random access channel in a wireless communication system. 14. The receiver unit according to claim 1, in which the wireless communication system uses multi-carrier modulation. 15. The receiver unit according to claim 1, in which the wireless communication system uses orthogonal frequency division multiplexing (OFDM). 16. A receiver unit in a wireless communication system, comprising a processor configured to process received data symbols for hypothetically received data transmission and provide re-modulated symbols, which are estimates of the transmitted data symbols; and a detector configured to process the received data symbols and remodulated symbols to provide an output from the detector, which indicates whether the data transmission is considered to be received. 17. The receiver unit according to clause 16, in which the processor is configured to demodulate the received data symbols to provide recovered symbols, decoding the recovered symbols to provide decoded data, and re-encoding the decoded data to provide remodulated symbols. 18. The receiver unit according to clause 16, in which the processor is further configured to process the received pilot symbols for transmitting data and corresponding known pilot symbols to provide an output signal from the detector. 19. A receiver unit in a wireless communication system, comprising a signal detector configured to determine an indicator for a hypothetically received data transmission; a threshold calculation unit configured to determine a threshold for hypothetical data transmission; and a comparator configured to receive the metric and threshold, and provide an output signal indicating whether the data transmission is considered accepted. 20. The receiver unit according to claim 19, in which the threshold is determined based on the received pilot symbols for hypothetical data transmission. 21. The receiver unit according to claim 20, in which the threshold is further determined based on the received data symbols for a hypothetical data transmission. 22. The receiver unit according to claim 19, in which the indicator relates to the signal energy of a hypothetical data transmission. 23. The receiver unit according to claim 19, wherein the signal detector is configured to determine an indicator based on a plurality of received signals for a plurality of antennas, and wherein the threshold calculation unit is configured to determine a threshold based on a plurality of received signals. 24. A method for detecting data transmissions in a shared access wireless communication system, the method comprising: first processing received data symbols for a hypothetically received data transmission to provide remodulated symbols, which are estimates of the transmitted data symbols; and carry out a second processing of the received data symbols and re-modulated symbols to provide an output signal from the detector, which indicates whether the data transmission is considered to be received. 25. The method according to paragraph 24, in which, during the first processing, the received data symbols are demodulated to provide recovered symbols, the recovered symbols are decoded to provide decoded data, and the decoded data is re-encoded to provide remodulated symbols. 26. The method according to paragraph 24, which further determines the threshold for use in a hypothetical data transfer, and the output signal of the detector is additionally determined based on the threshold. 27. The method according to p. 26, in which the second processing determines the indicator on the basis of the received data symbols and re-modulated symbols, and compare the indicator with a threshold, and the output signal of the detector is based on comparison. 28. A method for detecting data transmissions in a multiple access wireless communication system, the method comprising: determining an indicator for a hypothetically received data transmission; determining a threshold for hypothetical data transmission based on samples received for hypothetical data transmission; and comparing the indicator with a threshold to provide an output signal indicating whether the data transmission is considered accepted. 29. An apparatus in a shared access wireless communication system, comprising: means for processing received data symbols for hypothetically received data transmission to provide remodulated symbols, which are estimates of the transmitted data symbols; and means for processing the received data symbols and remodulated symbols to provide a detector output signal that indicates whether the data transmission is considered to be received. 30. The device according to clause 29, further comprising means for demodulating the received data symbols to provide recovered symbols; means for decoding the recovered symbols to provide decoded data; and means for re-encoding the decoded data to provide remodulated symbols. 31. A device in a wireless communication system with multiple access, containing means for determining an indicator for a hypothetically received data transmission; means for determining a threshold for hypothetical data transmission based on samples received for hypothetical data transmission; and means for comparing the metric with a threshold to provide an output signal indicating whether the data transmission is considered accepted.