Claims
- 1. A code division multiple access, CDMA, receiver for receiving and demodulating a coherent CDMA signal including at least one user data channel and a separate pilot channel over a plurality of L paths, L> or =2, where a desired data channel is orthogonal to the pilot channel for a given path, the CDMA receiver comprising
- L path demodulators, each demodulator for estimating a data channel and a pilot channel from a CDMA signal received over one of the L paths and for generating L-1 cancellation signals, and
- L subtractor means, each subtractor means for subtracting the L-1 cancellation signals produced by different ones of other L-1 path demodulators from the CDMA signal associated with that subtracter means.
- 2. The CDMA receiver of claim I wherein the L-1 cancellation signals are reconstructed pilot signals, and where each of the subtractor means is located prior to its associated demodulator to subtract the reconstructed pilot signals from the signal inputted to its demodulator.
- 3. The CDMA receiver of claim 1 wherein each of the L-1 cancellation signals is a pair of correlator-processed reconstructed pilot signals, and where each of the subtractor means is a pair of subtractors located after a pilot and a data accumulator of its demodulator, to subtract the pair of correlator-processed reconstructed pilot signals from the signal outputted from its data and pilot accumulators.
- 4. The CDMA receiver of claim 2 wherein
- the pilot signals for cancellation are reconstructed using a channel estimation algorithm which has the latest channel estimates available that are obtained by a first channel estimation performed over one symbol, and wherein
- the demodulator input is obtained by buffering an incoming chip-rate signal for one symbol.
- 5. The CDMA receiver of claim 2 wherein
- the pilot signals for cancellation are reconstructed using a channel estimation algorithm whose most recent channel estimate is taken from a previous symbol interval demodulation and wherein these channel estimates are used for both reconstructing the pilot signals and demodulating a previous symbol interval.
- 6. The CDMA receiver of claim 4 wherein
- a subtractor means prior to the first channel estimation over one symbol cancels out pilot signals reconstructed using a channel estimation algorithm whose most recent channel estimate is taken from a previous symbol interval demodulation.
- 7. The CDMA receiver of claim 3 wherein
- the pair of correlator-processed reconstructed pilot signals for cancellation are obtained using a channel estimation algorithm that has a most recent channel estimates available.
- 8. The CDMA receiver of claim 7 wherein
- a subtractor means prior to the channel estimation algorithm, whose output is used for reconstructing the pair of correlator-processed pilot signals, cancels out a first intermediate result of that component of the pair of correlator-processed pilot signals which is used for cancellation of pilot accumulator signals.
- 9. The CDMA receivers of claims 1 including
- reconstruction low-pass filters RLP, for reconstructing the pulse shape of the pilot cancellation signals with respect to a delay times of the other L-1 demodulators.
- 10. The CDMA receiver of claim 9 wherein the RLP filter is implemented using a finite impulse response FIR, filter.
- 11. The CDMA receiver of claim 10 wherein the FIR filter is implemented using a look-up table for its coefficients.
- 12. The CDMA receiver of claim 9 wherein the RLP filter is implemented using a look-up table.
- 13. The CDMA receivers of claims 1 including
- a switch means in each demodulator to switch on/off the generation of the L-1 cancellation signals according to the signal power of its designated multipath component.
- 14. The CDMA receiver of claim I wherein the pilot channel is orthogonal to at least one user signal channel.
- 15. The CDMA receiver of claim 1 wherein the pilot channel is non-orthogonal to the desired user signal channel for a given path and wherein
- each demodulator generates the L-1 cancellation signals and an additional cancellation signal for cancelling out the non-orthogonal pilot signal of its own multipath component prior to its demodulation, the cancellation of the non-orthogonal pilot signal occurs by using an additional subtraction in each of the L subtraction means.
- 16. The CDMA receiver of claim 1 wherein a plurality of signal channels are encoded using Walsh codes.
- 17. The CDMA receiver of claim 1 wherein the at least one user data channel uses a plurality of signal channels.
- 18. The CDMA receiver of claim 1 wherein the coherent CDMA signal includes at least a Q and an I signal channel.
- 19. The CDMA receiver of claim 1 being part of a user station of a CDMA system including at least one base station and a plurality of user stations.
- 20. The CDMA receiver of claim 1 being part of a base station of a CDMA system including at least one base station and a plurality of user stations.
- 21. The CDMA receiver of claim 1 including
- means for channel weighting the output of the subtractor means and
- means for combining the weighted outputs.
- 22. A method of operating a code division multiple access, CDMA, receiver for receiving and demodulating a coherent CDMA signal including at least one user data channel and a separate pilot channel over a plurality of L paths, L> or =2 where a desired data channel is orthogonal to the pilot channel for a given path, the method comprising the steps of:
- at each of L path demodulators, estimating a data channel and a pilot channel from a CDMA signal received over one of the L paths and generating L-1 cancellation signals, and
- at each of L subtractor means, subtracting the L-1 cancellation signals produced by different ones of other L-1 path demodulators from the CDMA signal associated with that subtractor.
CROSS-REFERENCE TO RELATED APPLICATIONS
Related subject matter is disclosed in the previously filed applications entitled "DEMODULATOR PHASE CORRECTION FOR CODE DIVISION MULTIPLE ACCESS RECEIVER" by S. ten Brink, Ser. No. 08/699,008, filed on Aug. 16, 1996; "METHOD AND APPARATUS OF A MULTI-CODE CODE DIVISION MULTIPLE ACCESS RECEIVER HAVING SHARED ACCUMULATOR CIRCUITS", by H. C. Huang, C.-L. I, A. Partyka, S. ten Brink, and C. A. Webb III, Ser. No. 08/700,257, filed on Aug. 20, 1996 ; "METHOD AND APPARATUS OF A MULTI-CODE CODE DIVISION MULTIPLE ACCESS RECEIVER USING A SINGLE DATA CORRELATOR", H. C. Huang, C.-L. I, S. ten Brink, and C. A. Webb III, Ser. No. 08/700,262, filed on Aug. 20, 1996; and "AN IMPROVED MULTI-CODE CODE DIVISION MULTIPLE ACCESS RECEIVER," by C.-L. I, A. Partyka, and C. A. Webb III, now U.S. Pat. No. 5,737,326 issued , filed on Apr. 7, 1998, all of which are assigned to the same Assignee.
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