High data rate CDMA wireless communication system
First Claim
1. A method for generating modulated data for transmission from a first subscriber unit in a set of subscriber units to a base station in communication with the set of subscriber units comprising the steps of:
- a) modulating first data with a first orthogonal code to generate first channel data;
b) modulating second data with a second orthogonal code to produce second channel data;
c) summing said first channel data and said second channel data to generate summed data;
d) modulating said summed data with a long code to generate the modulated data;
e) gain adjusting said first channel data by a first amount; and
f) gain adjusting said second channel data by a second amount.
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Accused Products
Abstract
A novel and improved method and apparatus for high rate CDMA wireless communication is described. In accordance with one embodiment of the invention, a set of individually gain adjusted subscriber channels are formed via the use of a set of orthogonal subchannel codes having a small number of PN spreading chips per orthogonal waveform period. Data to be transmitted via one of the transmit channels is low code rate error correction encoded and sequence repeated before being modulated with one of the subchannel codes, gain adjusted, and summed with data modulated using the other subchannel codes. The resulting summed data is modulated using a user long code and a pseudorandom spreading code (PN code) and upconverted for transmission. The use of the short orthogonal codes provides interference suppression while still allowing extensive error correction coding and repetition for time diversity to overcome the Raleigh fading commonly experienced in terrestrial wireless systems. In the exemplary embodiment of the invention provided, the set of sub-channel codes are comprised of four Walsh codes, each orthogonal to the remaining set and four chips in duration. The use of four sub-channels is preferred as it allows shorter orthogonal codes to be used, however, the use of a greater number of channels and therefore longer codes is consistent with the invention.
297 Citations
10 Claims
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1. A method for generating modulated data for transmission from a first subscriber unit in a set of subscriber units to a base station in communication with the set of subscriber units comprising the steps of:
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a) modulating first data with a first orthogonal code to generate first channel data; b) modulating second data with a second orthogonal code to produce second channel data; c) summing said first channel data and said second channel data to generate summed data; d) modulating said summed data with a long code to generate the modulated data; e) gain adjusting said first channel data by a first amount; and f) gain adjusting said second channel data by a second amount. - View Dependent Claims (2, 3, 4, 5, 6, 9, 10)
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7. A wireless communications system comprising:
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a first subscriber unit for transmitting a first reverse link signal that includes a first set of orthogonal subchannels including a first pilot channel and a first traffic channel; a second subscriber unit for transmitting a second reverse link signal that includes a second set of orthogonal subchannels including a second pilot channel and a second traffic channel; and a base station for receiving said first reverse link signal and said second reverse link signal, wherein each orthogonal channel in said first set of orthogonal channels is individually gain adjusted, and each orthogonal channel in said second set of orthogonal channels is individually gain adjusted.
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8. A method for transmitting a frame of data comprising the steps of:
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generating multiple symbols for each bit of data via convolutional coding to create a symbol sequence; repeating said symbol sequence a sufficient number of times to generate a set of symbols containing a predetermined number of symbols; modulating each symbol from said set of symbols with a first orthogonal code having fewer than sixteen chips to generate first orthogonal code modulated data; combining said first orthogonal code modulated data with pilot data to produce combined data; and transmitted said combined data; gain adjusting said first orthogonal modulated data by a first amount; and gain adjusting said pilot data by a second amount.
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Specification