Abstract
A method and apparatus for demodulation in high rate CDMA wireless communication is described. In a described high rate CDMA wireless system a transmitter forms a set of individually gain adjusted subscriber channels using a set of orthogonal subchannel codes having a small number of PN spreading chips per orthogonal waveform period. An illustrative high rate CDMA wireless system uses Walsh codes each having a duration of fewer than sixty-four chips per orthogonal waveform period. A receiver demodulates each of the subscriber channels using the same orthogonal subchannel codes.
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| Not Available | 18/10/2001 | ISLD-200111-002 | QUALCOMM INC | No | Family Member | ||||
| Not Available | 12/06/2006 | ISLD-200612-006 | QUALCOMM INC | No | Family Member | ||||
| Not Available | 12/06/2006 | ISLD-200612-006 | QUALCOMM INC | Yes | Basis Patent | ||||
| 4G | 02/03/2010 | ISLD-201004-005 | QUALCOMM INC | No | Family Member | ||||
| Not Available | 02/03/2010 | ISLD-201004-005 | QUALCOMM INC | No | Family Member | ||||
Specification Information
Specification Information
Technologies
Family Information
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| US2001055329A1 | Not Available | 18/10/2001 | ISLD-200111-002 | QUALCOMM INC |
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| US2001055329A1 | Not Available | 12/06/2006 | ISLD-200612-006 | QUALCOMM INC |
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| US2001055329A1 | Not Available | 12/06/2006 | ISLD-200612-006 | QUALCOMM INC |
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| US2004190600A1 | Not Available | 18/10/2001 | ISLD-200111-002 | QUALCOMM INC |
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| US2001007572A1 | Not Available | 18/10/2001 | ISLD-200111-002 | QUALCOMM INC |
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| US2010177744A1 | Not Available | 18/10/2001 | ISLD-200111-002 | QUALCOMM INC |
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| US8213485B2 | Not Available | 18/10/2001 | ISLD-200111-002 | QUALCOMM INC |
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| US2012263162A1 | Not Available | 18/10/2001 | ISLD-200111-002 | QUALCOMM INC |
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Technologies
Resource configuration
Product
Use Cases
Wireless communication
Services
Claim
1. A method for demodulating a signal comprising:', 'complex-multiplying a complex received signal by an in-phase pseudorandom spreading code and a quadrature-phase pseudorandom spreading code to provide an in-phase sample stream and a quadrature-phase sample stream;', 'filtering the in-phase sample stream to provide an in-phase pilot filter signal;', 'filtering the quadrature-phase sample stream to provide a quadrature-phase pilot filter signal;', 'multiplying the in-phase sample stream by a first short Walsh cover having a duration of fewer than sixty-four chips per orthogonal waveform period to produce an in-phase short Walsh despread symbol first channel stream;', 'multiplying the quadrature-phase sample stream by the first short Walsh cover to produce a quadrature-phase short Walsh despread symbol first channel stream; and', 'phase rotating and scaling the in-phase short Walsh despread symbol first channel stream and the quadrature-phase short Walsh despread symbol first channel stream based on the in-phase pilot filter signal and the quadrature-phase pilot filter signal to produce a soft decision first channel data stream.
2. The method of claim 1 further comprising:', 'summing the in-phase short Walsh despread symbol first channel stream based on the duration of the first short Walsh cover; and', 'summing the quadrature-phase short Walsh despread symbol first channel stream based on the duration of the first short Walsh cover.
3. The method of claim 1 wherein the phase rotating and scaling comprises:', 'multiplying the in-phase short Walsh despread symbol first channel stream by the in-phase pilot filter signal; and', 'multiplying the quadrature-phase short Walsh despread symbol first channel stream by the quadrature-phase pilot filter signal.
4. The method of claim 1 wherein the first short Walsh cover has a duration of four chips.
5. The method of claim 1 wherein the first short Walsh cover is equal to +, +,âx88x92,âx88x92.
6. The method of claim 1 wherein the first short Walsh cover is equal to +, âx88x92, +, âx88x92.
7. The method of claim 1 further comprising:', 'multiplying the in-phase sample stream by a second short Walsh cover to produce an in-phase short Walsh despread symbol second channel stream, wherein the second short Walsh cover is orthogonal to the first short Walsh cover and has a duration of fewer than sixty-four chips per orthogonal waveform period;', 'multiplying the quadrature-phase sample stream by the second short Walsh cover to produce a quadrature-phase short Walsh despread symbol second channel stream; and', 'phase rotating and scaling the in-phase short Walsh despread symbol second channel stream and the quadrature-phase short Walsh despread symbol second channel stream to produce a soft decision second channel data stream.
8. The method of claim 7 further comprising summing the soft decision second channel stream to produce a summed soft decision second channel stream.
9. The method of claim 7 wherein the second short Walsh cover has a duration of four chips
10. The method of claim 7 wherein the duration of the first short Walsh cover is equal to the duration of the second short Walsh cover
11. The method of claim 7 wherein the second short Walsh cover is equal to +, +, âx88x92, âx88x92
12. The method of claim 7 wherein the second short Walsh cover is equal to +, âx88x92, +, âx88x92
13. A receiver apparatus comprising:', 'a complex-multiplier configured to complex-multiply a complex received signal by an in-phase pseudorandom spreading code and a quadrature-phase pseudorandom spreading code to provide an in-phase sample stream and a quadrature-phase sample stream;', 'a first pilot filter configured to filter the in-phase sample stream to provide an in-phase pilot filter signal;', 'a second pilot filter configured to filter the quadrature-phase sample stream to provide a quadrature-phase pilot filter signal;', 'a first multiplier configured to multiply the in-phase sample stream by a first short Walsh cover having a duration of fewer than sixty-four chips per orthogonal waveform period to produce an in-phase short Walsh despread symbol first channel stream;', 'a second multiplier configured to multiply the quadrature-phase sample stream by the first short Walsh cover to produce a quadrature-phase short Walsh despread symbol first channel stream; and', 'first means for phase rotating and scaling the in-phase short Walsh despread symbol first channel stream and the quadrature-phase short Walsh despread symbol first channel stream based on the in-phase pilot filter signal and the quadrature-phase pilot filter signal to produce a soft decision first channel data stream
14. The apparatus of claim 13 further comprising:', 'a first summer configured to sum the in-phase short Walsh despread symbol first channel stream based on the duration of the first short Walsh cover; and', 'a second summer configured to sum the quadrature-phase short Walsh despread symbol first channel stream based on the duration of the first short Walsh cover
15. The apparatus of claim 13 further comprising:', 'a third multiplier configured to multiply the in-phase short Walsh despread symbol first channel stream by the in-phase pilot filter signal; and', 'a fourth multiplier configured to multiply the quadrature-phase short Walsh despread symbol first channel stream by the quadrature-phase pilot filter signal
16. The apparatus of claim 13 wherein the first short Walsh cover has a duration of four chips
17. The apparatus of claim 13 wherein the first short Walsh cover is equal to +, +, âx88x92, âx88x92
18. The apparatus of claim 13 wherein the first short Walsh cover is equal to +, âx88x92, +, âx88x92
19. The apparatus of claim 13 further comprising:', 'a third multiplier configured to multiply the in-phase sample stream by a second short Walsh cover to produce an in-phase short Walsh despread symbol second channel stream, wherein the second short Walsh cover is orthogonal to the first short Walsh cover and has a duration of fewer than sixty-four chips per orthogonal waveform period;', 'a fourth multiplier configured to multiply the quadrature-phase sample stream by the second short Walsh cover to produce a quadrature-phase short Walsh despread symbol second channel stream; and', 'second means for phase rotating and scaling the in-phase short Walsh despread symbol second channel stream and the quadrature-phase short Walsh despread symbol second channel stream to produce a soft decision second channel data stream.
20. The apparatus of claim 19 wherein the duration of the first short Walsh cover is equal to the duration of the second short Walsh cover.
21. The apparatus of claim 19 wherein the second short Walsh cover has a duration of four chips.
22. The apparatus of claim 19 wherein the second short Walsh cover is equal to +, +, âx88x92, âx88x92.
23. The apparatus of claim 19 wherein the second short Walsh cover is equal to +, âx88x92, +, âx88x92.
24. The apparatus of claim 19 further comprising a summer configured to sum the soft decision second channel stream to produce a summed soft decision second channel stream.
25. A receiver apparatus comprising:', 'means for complex-multiplying a complex received signal by an in-phase pseudorandom spreading code and a quadrature-phase pseudorandom spreading code to provide an in-phase sample stream and a quadrature-phase sample stream;', 'means for filtering the in-phase sample stream to provide an in-phase pilot filter signal;', 'means for filtering the quadrature-phase sample stream to provide a quadrature-phase pilot filter signal;', 'means for multiplying the in-phase sample stream by a first short Walsh cover having a duration of fewer than sixty-four chips per orthogonal waveform period to produce an in-phase short Walsh despread symbol first channel stream;', 'means for multiplying the quadrature-phase sample stream by the first short Walsh cover to produce a quadrature-phase short Walsh despread symbol first channel stream; and', 'means for phase rotating and scaling the quadrature-phase short Walsh despread symbol first channel stream and the in-phase short Walsh despread symbol first channel stream based on the in-phase pilot filter signal and the quadrature-phase pilot filter signal to produce a soft decision first channel data stream.']
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