Transmission gap interference measurement
First Claim
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1. A signal-receiving method for use in a DSSS CDMA communication, comprising:
- locating a first control channel that is multiplexed with an other channel in a received communication signal, the first control channel using a first PN code that differs from another PN code that is used by the other channel;
selecting a transmission gap in the first control channel;
measuring interference in the transmission gap; and
determining a signal quality for the received communication signal as a function of the measured interference.
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Abstract
The present invention is directed to systems and methods for measuring the interference for computation of signal to interference ratio (SIR) in DSSS CDMA cellular communication systems, by selectively using a transmission gap in one of the control channels. A specific example embodiment is directed to the computation of the SIR in a system, such as the 3GPP system, where PCCPCH data is multiplexed with SCH data in the downlink from the base station. At the mobile unit, once the PCCPCH is located in the received communication signal, the receiver measures the traffic interference in a chip period in the PCCPCH channel that corresponds to an interval where there is a transmission gap in the PCCPCH data. This gap is provided in the 3GPP system for permit the transmission of primary and secondary SCH data. The SIR is readily determined using the measured interference in the transmission gap.
50 Citations
25 Claims
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1. A signal-receiving method for use in a DSSS CDMA communication, comprising:
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locating a first control channel that is multiplexed with an other channel in a received communication signal, the first control channel using a first PN code that differs from another PN code that is used by the other channel;
selecting a transmission gap in the first control channel;
measuring interference in the transmission gap; and
determining a signal quality for the received communication signal as a function of the measured interference. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
selecting the transmission gap includes identifying a chip interval not greater than 256 chips. -
3. The method of claim 2, wherein
determining a signal quality for the received communication signal includes determining a signal to interference ratio. -
4. The method of claim 1, wherein
selecting the transmission gap includes identifying a chip interval in which data for the other channel is being provided. -
5. The method of claim 4, wherein the chip interval is 256 chips.
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6. The method of claim 4, wherein
the first control channel is a primary common control physical channel and the data includes control information for the other control channel. -
7. The method of claim 4, wherein
the first control channel is a primary common control physical channel and the data includes control information for a primary SCH and a secondary SCH. -
8. The method of claim 1, wherein
the first control channel is a primary common control physical channel. -
9. The method of claim 1, further including
demodulating the received communication signal to produce a demodulated signal and determining a CDMA slot in which data for the first control channel is transmitted, wherein measuring interference in the transmission gap includes measuring a power level of the demodulated signals.
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10. A signal-receiving method for use in a DSSS CDMA communication system that multiplexes PCCPCH data with SCH data, and that uses orthogonal variable spreading factor (OVSF) and PN codes in spreading the data, the method comprising:
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despreading a received communication signal using corresponding OVSF and PN codes and locating the PCCPCH in the received communication signal;
selecting a chip period in the PCCPCH channel that corresponds to an interval where there is a transmission gap in the PCCPCH data and where SCH data is being transmitted; and
measuring interference in the transmission gap and determining therefrom a signal interference ratio for the received communication signal. - View Dependent Claims (11)
demodulating signals intended for reception elsewhere in the received signal and determining a CDMA slot in which data for the first control channel is transmitted, wherein measuring interference in the transmission gap includes measuring a power level of the demodulated signals.
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12. A signal-receiving arrangement for use in a DSSS CDMA communication, comprising:
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means for locating a first control channel that is multiplexed with another channel in a received communication signal, the first control channel using a first PN code that differs from another PN code that is used by the another channel;
means for selecting a transmission gap in the first control channel where data is being transmitted in place of the first control channel;
means for measuring interference in the transmission gap and for determining a signal quality for the received communication signal as a function of the measured interference.
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13. A signal-receiving arrangement for use in a DSSS CDMA communication system that multiplexes PCCPCH data with SCH data, and that uses orthogonal variable spreading factor (OVSF) and PN codes in spreading/modulating the data, comprising:
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means for despreading a received communication signal using corresponding OVSF and PN codes and locating the PCCPCH in the received communication signal;
means for selecting a chip period in the PCCPCH channel that corresponds to an interval where there is a transmission gap in the PCCPCH data and where SCH data is being transmitted; and
means for measuring interference in the transmission gap and determining therefrom a signal interference ratio for the received communication signal.
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14. A signal-receiving arrangement for use in a DSSS CDMA communication, comprising:
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a receiver front end adapted to demodulate a received communication signal;
a data sampling circuit coupled to the receiver front end and adapted to locate a first control channel that is multiplexed with another channel in the received communication signal, the first control channel using a first PN code that differs from another PN code that is used by the another channel; and
a signal processor coupled to the data sampling circuit and adapted to select a transmission gap in the first control channel where data is being transmitted in place of the first control channel and to measure interference in the transmission gap and determine a signal quality for the received communication signal as a function of the measured interference. - View Dependent Claims (15, 16, 17, 18, 19)
the receiver front end includes a down-converter. -
16. The arrangement of claim 15, further including
a CDMA slot synchronizer adapted to locate a CDMA slot in which data for the first control channel is transmitted. -
17. The arrangement of claim 16, wherein
the interference in the transmission gap corresponds to despread signals. -
18. The arrangement of claim 17, wherein
the data sampling circuit includes a rake receiver. -
19. The arrangement of claim 14, wherein
the data sampling circuit includes a rake receiver having a plurality of rake finger circuits, each rake finger circuit including a PN generator and a data despreader.
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20. A signal-receiving arrangement for use in a DSSS CDMA communication, comprising:
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a receiver front end adapted to down-convert a received communication signal; and
a signal processor including a data sampling circuit coupled to the receiver front end and adapted to locate a first control channel that is multiplexed with another channel in the received communication signal, the first control channel using a first PN code that differs from another PN code that is used by the another channel, and a rake receiver coupled to the data sampling circuit and adapted to select a transmission gap in the first control channel where data is being transmitted in place of the first control channel, adapted to measure interference in the transmission gap, and adapted to determine a signal quality for the received communication signal as a function of the measured interference. - View Dependent Claims (21, 22, 23)
a plurality of base stations, each base station being configured and arranged to generate the communication signal for reception by the receiver front end, and multiplex the first control channel with the other channel. -
22. The signal-receiving arrangement of claim 20, wherein
the rake receiver includes a dedicated rake finger adapted to select the first control channel. -
23. The signal-receiving arrangement of claim 22, wherein
each base station is further configured and arranged to generate the interference as communication signals intended for other rake receivers.
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24. A receiver for use in a DSSS CDMA communication system, comprising
a downsampler that is configured to downsample a received signal that includes PCCPCH data with SCH data that is encoded via PN codes that spread the data across a frequency spectrum, the PCCPCH data having a first PN code that differs from a second PN code of the SCH data, a despreader that is configured to despread the received signal using the first PN code, and a processor, operably coupled to the despreader, that is configured to measure a signal level from the despreader during a period of transmission of the PCCPCH data, and an interference level from the despreader during a period of transmission of the SCH data.
Specification
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Current AssigneeBreakwaters Innovations LLC
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Original AssigneeKoninklijke Philips Electronics N.V. (Koninklijke Philips N.V.)
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InventorsHirsch, Olaf
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Primary Examiner(s)Tran, Sinh
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Assistant Examiner(s)RAMOS FELICIANO, ELISEO
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Application NumberUS09/447,541Time in Patent Office1,659 DaysField of Search375/140, 375/206, 375/145, 375/296, 375/346, 375/144, 375/148, 375/227, 375/348, 370/18, 370/19, 370/342, 370/528, 370/535, 370/534, 370/540, 370/335, 370/332, 370/140.1, 370/140.6, 370/145, 370/333, 370/441US Class Current370/342CPC Class CodesH04B 1/7103 the interference being mult...H04B 17/336 Signal-to-interference rati...H04W 24/10 Scheduling measurement repo...
