Orthogonal code synchronization system and method for spread spectrum CDMA communications
First Claim
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1. A mobile terminal for use in a spread spectrum CDMA communication system, the mobile terminal comprising:
- means for receiving from a base station, a base-pilot signal and a base-data signal, each with a pseudo random chip code sequence;
means for transmitting to the base station a remote-pilot signal and a remote-data signal, each with a pseudo random chip code sequence;
means for synchronizing the chip code sequence of the transmitted remote-pilot signal to the chip code sequence of the received base-pilot signal for enabling the base station to generate a range determination;
means for receiving a range determination from the base station;
code phase adjustment means responsive to a mode control means for adjusting a phase of the remote-data signal and remote-pilot signal; and
the mode control means for selecting one of a plurality of operating modes of the mobile terminal;
wherein the plurality of operating modes comprises a first mode in which the chip code sequence of the remote-pilot signal is synchronized to the chip code sequence of the received base-pilot signal, a second mode in which the remote-data signal is range adjusted, and a third mode in which the remote-pilot signal is range adjusted, whereby the base station receives the range adjusted remote-data signal and the range-adjusted remote-pilot signal orthogonal to other range adjusted signals.
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Abstract
A cellular radio system in which a base station receiver can receive, on the reverse link, data from a mobile terminal in one of four control modes. In the first mode, the mobile terminal sends an independent user pilot, not synchronized with the base station, on the reverse link and the user data channel is synchronized to this independent user pilot. In the second mode, the mobile terminal slaves its user pilot to the pilot it receives from the base station and the user data channel is synchronized with this slaved user pilot. This second mode allows the user terminal to receive round trip delay information for purposes of geolocation and rapid reacquisition. In the third mode, the mobile terminal slaves its user pilot to the incoming base station pilot, as in the case of mode two, but the user data channel operates in the orthogonal mode using the ranging information received from the base station. The phase relationship between the user pilot channel and the user data channel is calibrated. The user pilot carrier is also the carrier for the user data channel and can be used as the carrier reference for detecting the user data channel. In the fourth mode, the slaved pilot implementation of mode three is used for acquisition but, after acquisition, the user pilot code is phase shifted to be synchronous with the user data channel, thus also making it an orthogonal channel. In this mode, the pilots no longer contribute interference to the user data channels, within the cell, and can be transmitted at higher power levels.
114 Citations
13 Claims
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1. A mobile terminal for use in a spread spectrum CDMA communication system, the mobile terminal comprising:
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means for receiving from a base station, a base-pilot signal and a base-data signal, each with a pseudo random chip code sequence; means for transmitting to the base station a remote-pilot signal and a remote-data signal, each with a pseudo random chip code sequence; means for synchronizing the chip code sequence of the transmitted remote-pilot signal to the chip code sequence of the received base-pilot signal for enabling the base station to generate a range determination; means for receiving a range determination from the base station; code phase adjustment means responsive to a mode control means for adjusting a phase of the remote-data signal and remote-pilot signal; and the mode control means for selecting one of a plurality of operating modes of the mobile terminal;
wherein the plurality of operating modes comprises a first mode in which the chip code sequence of the remote-pilot signal is synchronized to the chip code sequence of the received base-pilot signal, a second mode in which the remote-data signal is range adjusted, and a third mode in which the remote-pilot signal is range adjusted, whereby the base station receives the range adjusted remote-data signal and the range-adjusted remote-pilot signal orthogonal to other range adjusted signals. - View Dependent Claims (2, 3, 4)
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5. A spread spectrum CDMA communication system comprising:
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a base station comprising; means for transmitting a base-pilot signal and a base-data signal, each with a pseudo random chip code sequence; means for receiving from each of multiple mobile terminals a remote-pilot signal and a remote-data signal, each with a pseudo random chip code sequence; means for identifying a range determination associated with a selected mobile terminal based on the chip code sequence of the received remote-pilot signal from the selected mobile station; and means for transmitting the range determination to the selected mobile terminal; and a plurality of mobile terminals capable of being selected, each of the plurality of mobile terminals comprising; means for transmitting the remote-pilot signal and the remote-data signal; means for receiving the base-pilot signal and the base-data signal; means for synchronizing the chip code sequence of the transmitted remote-pilot signal to the chip code sequence of the received base-pilot signal for enabling the base station to generate a range determination; means for receiving a range determination from the base station; code phase adjustment means responsive to a mode control means for adjusting a phase of the transmitted remote-data signal and remote-pilot signal; and mode control means for selecting one of a plurality of operating modes of the mobile terminal;
wherein the plurality of operating modes comprises a first mode in which the chip code sequence of the remote-pilot signal is synchronized to the chip code sequence of the received base-pilot signal, a second mode in which the remote-data signal is range adjusted, and a third mode in which the remote pilot signal is range adjusted, whereby the base station receives the range adjusted remote-data signal and the range-adjusted remote-pilot signal orthogonal to other range adjusted signals. - View Dependent Claims (6, 7, 8)
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9. A method for orthogonally receiving spread spectrum CDMA signals from a plurality of mobile terminals by a base station within a CDMA spread spectrum communication system, the method comprising:
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transmitting a base-pilot signal and a base-data signal, each with a pseudo random chip code sequence from the base station; a selected mobile terminal receiving the base-pilot signal and the base-data signal; synchronizing at the selected mobile terminal a chip code sequence of its remote-pilot signal to the chip code sequence of the received base-pilot signal; transmitting from the selected mobile terminal a remote-pilot signal and a remote-data signal, the remote-pilot signal and the remote-data signal, each with a pseudo random chip code sequence; receiving at said base station from each of a plurality of mobile terminals including the selected mobile terminal, a remote-pilot signal and a remote-data signal; identifying at said base station a range determination associated with the selected mobile terminal based on the chip code sequence of the received remote-pilot signal from the selected terminal; transmitting the range determination to the selected mobile terminal; receiving at the selected mobile terminal the range determination; adjusting in response to a selected one of a plurality of operating modes a phase of the remote-data signal and the remote-pilot signal of the selected mobile terminal; and selecting the one operating mode of the selected mobile terminal;
the plurality of operating modes comprises a first mode in which the chip code sequence of the remote-pilot signal is synchronized to the chip code sequence of the received base-pilot signal, a second mode in which the remote-data signal is range adjusted, and a third mode in which the remote-pilot signal is range adjusted, whereby the base station receives the range adjusted remote-data signal and the range-adjusted remote-pilot signal orthogonal to other range adjusted signals. - View Dependent Claims (10, 11, 12, 13)
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Specification
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Current AssigneeInterdigital Technology Corporation (InterDigital, Inc.)
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Original AssigneeInterdigital Technology Corporation (InterDigital, Inc.)
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InventorsLavean, Gil
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Primary Examiner(s)Pham, Chi H.
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Assistant Examiner(s)NGUYEN, STEVEN H D
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Application NumberUS09/280,327Time in Patent Office582 DaysField of Search370/335, 370/342, 370/503, 370/508, 370/509, 370/512, 370/514, 370/515, 370/516, 370/517, 370/519, 370/208, 370/209, 375/200, 375/206, 375/207, 375/208, 375/209, 375/210, 375/356, 375/362, 375/367, 375/375, 375/376, 375/134, 375/133, 375/137, 375/140, 375/141, 375/142, 375/143, 375/144 , 375/145, 375/146, 375/147, 375/148, 375/149, 455/502, 455/506US Class Current370/335CPC Class CodesH04B 1/707 using direct sequence modul...H04B 1/7085 using a code tracking loop,...H04B 2201/70701 featuring pilot assisted re...H04B 2201/709709 Methods of preventing inter...H04J 13/0048 WalshH04J 3/0682 by delay compensation, e.g....
