System and method for generating signal waveforms in a CDMA cellular telephone system
First Claim
1. A spread spectrum communication system comprising:
- a plurality of base stations each operable for communication with at least one user unit;
two receiving systems each for receiving independently a user unit signal transmitted from a user unit as a direct sequence spread spectrum signal within which an information signal is modulated; and
a diversity combiner coupled to the two receiving system for combining signals received thereby to reconstruct the user unit signal.
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Abstract
A system and method for communicating information signals using spread spectrum communication techniques. PN sequences are constructed that provide orthogonality between the users so that mutual interference will be reduced, allowing higher capacity and better link performance. With orthogonal PN codes, the cross-correlation is zero over a predetermined time interval, resulting in no interference between the orthogonal codes, provided only that the code time frames are time aligned with each other. In an exemplary embodiment, signals are communicated between a cell-site and mobile units using direct sequence spread spectrum communication signals. In the cell-to-mobile link, pilot, sync, paging and voice channels are defined. Information communicated on the cell-to-mobile link channels are, in general, encoded, interleaved, bi-phase shift key (BPSK) modulated with orthogonal covering of each BPSK symbol along with quadrature phase shift key (QPSK) spreading of the covered symbols. In the mobile-to-cell link, access and voice channels are defined. Information communicated on the mobile-to-cell link channels are, in general, encoded, interleaved, orthogonal signaling along with QPSK spreading.
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Citations
14 Claims
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1. A spread spectrum communication system comprising:
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a plurality of base stations each operable for communication with at least one user unit;
two receiving systems each for receiving independently a user unit signal transmitted from a user unit as a direct sequence spread spectrum signal within which an information signal is modulated; and
a diversity combiner coupled to the two receiving system for combining signals received thereby to reconstruct the user unit signal. - View Dependent Claims (2, 3)
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4. A communications system comprising:
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a first cell site unit configured to communicate through a direct-sequence spread-spectrum digital wireless link with at least one mobile unit; and
a second cell site unit configured to communicate through a direct-sequence spread-spectrum digital wireless link with at least one mobile unit, and wherein the first and second cell site units are synchronized to each other. - View Dependent Claims (5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
the first cell site is configured to generate a first spreading sequence for use in the direct-sequence spread-spectrum digital wireless link; and
the second cell site is configured to generate a second spreading sequence for use in the direct-sequence spread-spectrum digital wireless link, which second spreading sequence is a synchronized, time-shifted version of the first spreading sequence.
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9. The communications system of claim 8, wherein:
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the first cell site is configured to generate a pilot signal from the first spreading sequence; and
the second cell site is configured to generate a pilot signal from the second spreading sequence.
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10. The communications system of claim 8, wherein:
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the first cell site is configured to generate a sync signal from the first spreading sequence; and
the second cell site is configured to generate a sync signal from the second spreading sequence.
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11. The communications system of claim 8, wherein:
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the first cell site is configured to generate the first spreading sequence using a first code polynomial; and
the second cell site is configured to generate the second spreading sequence using the first code polynomial.
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12. The communications system of claim 4, wherein the first and second cell site units each generate a synchronized PN sequence.
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13. The communications system of claim 12, wherein the synchronized PN sequence generated by each cell site unit has a chip rate of 1.2288 Mchips/sec.
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14. The communications system of claim 12, wherein the synchronized PN sequence generated by each cell site unit has a length of 32,768 chips.
Specification
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- Resources
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Current AssigneeQualcomm, Inc.
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Original AssigneeQualcomm, Inc.
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InventorsWheatley, Charles E. III, Gilhousen, Klein S., Padovani, Roberto, Jacobs, Irwin M., Viterbi, Andrew J., Weaver, Lindsay A. Jr.
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Primary Examiner(s)Tran, Khai
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Application NumberUS10/263,898Publication NumberTime in Patent Office342 DaysField of Search375/141, 375/130, 375/140, 375/142, 375/144, 375/220, 375/219, 370/320, 370/335, 370/342, 370/350US Class Current375/141CPC Class CodesH04B 1/707 using direct sequence modul...H04B 1/70757 with increased resolution, ...H04B 1/7115 Constructive combining of m...H04B 2201/70701 featuring pilot assisted re...H04B 2201/70703 using multiple or variable ...H04B 7/2618 using hybrid code-time divi...H04B 7/2628 using code-division multipl...H04B 7/2637 for logical channel controlH04J 13/0022 PN, e.g. KroneckerH04J 13/0048 WalshH04J 13/12 Generation of orthogonal codesH04J 3/02 Details electronic switchin...H04J 3/1688 the demands of the users be...H04J 3/22 in which the sources have d...H04L 1/0002 by adapting the transmissio...H04L 1/0071 Use of interleaving interle...H04L 1/0072 Error control for data othe...H04L 1/06 using space diversityH04L 1/08 by repeating transmission, ...H04L 23/02 adapted for orthogonal sign...View All
