Broadcast monitoring and control system
First Claim
Patent Images
1. A method of monitoring the quality of a broadcast comprising:
- receiving a broadcast signal at a receiver;
measuring the power of the received signal in a carrier band;
measuring the power of the received signal in a sideband;
determining a time at which the ratio of the power of the received signal in the carrier band to the power of the received signal in the sideband is indicative of a carrier to noise ratio of the received signal at the receiver; and
storing the carrier to noise ratio of the received signal at the receiver.
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Abstract
A system and method are disclosed for monitoring the quality of a broadcast. A broadcast signal is received at a receiver and the power of the received signal in a carrier band is measured. The power of the received signal in a sideband is also measured. A time is determined at which the ratio of the power of the received signal in the carrier band to the power of the received signal in the sideband is indicative of a carrier to noise ratio of the received signal at the receiver and the carrier to noise ratio of the received signal is stored at the receiver.
52 Citations
18 Claims
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1. A method of monitoring the quality of a broadcast comprising:
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receiving a broadcast signal at a receiver;
measuring the power of the received signal in a carrier band;
measuring the power of the received signal in a sideband;
determining a time at which the ratio of the power of the received signal in the carrier band to the power of the received signal in the sideband is indicative of a carrier to noise ratio of the received signal at the receiver; and
storing the carrier to noise ratio of the received signal at the receiver. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
receiving a synchronization signal from a transmitter wherein the synchronization signal indicates a specified time at which the received signal substantially corresponds to an unmodulated carrier; and
selecting the ratio of the power of the received signal in the carrier band to the power of the received signal in the sideband measured at the specified time as the carrier to noise ratio of the received signal.
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8. A method of monitoring the quality of a broadcast as recited in claim 7 wherein the synchronization time corresponds to a naturally occurring pause in broadcast speech.
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9. A method of monitoring the quality of a broadcast as recited in claim 1 wherein determining a time at which the ratio of the power of the received signal in the carrier band to the power of the received signal in the sideband is indicative of a carrier to noise ratio of the received signal includes determining a maximum carrier to sideband signal to noise ratio over a period of time and designating the maximum carrier to sideband signal to noise ratio as the carrier to noise ratio.
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10. A method of monitoring the quality of a broadcast as recited in claim 1 wherein the broadcast signal has a carrier frequency and measuring the power of the received signal in a sideband includes measuring the power in a symmetric sideband comprising a two bands symmetrically selected at frequencies above and below the carrier frequency.
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11. A method of monitoring the quality of a broadcast as recited in claim 10 further including determining whether power measured in the two symmetric bands is substantially equal and discarding the measurement of the power of the received signal in the sideband if the power measured in the two symmetric bands is not substantially equal.
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12. A method of monitoring the quality of a broadcast as recited in claim 1 wherein the received signal is converted to a lower frequency before measuring the power of the received signal in the carrier band and the sideband.
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13. A method of monitoring the quality of a broadcast as recited in claim 1 further including adjusting the measured carrier to noise ratio at the receiver to correspond to an expected carrier to noise ratio at a location that is remote from the receiver.
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14. A method of monitoring the quality of a broadcast as recited in claim 13 wherein adjusting the measured carrier to noise ratio at the receiver includes using an ionospheric model to determine an attenuation factor to correct for different characteristics of a first signal path between the receiver and a transmitter and the receiver and a second signal path between the location that is remote from the receiver and the transmitter.
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15. A method of monitoring the quality of a broadcast as recited in claim 13 wherein adjusting the measured carrier to noise ratio at the receiver includes using an ionospheric model to determine a gain factor to correct for different characteristics of a first signal path between the receiver and a transmitter and the receiver and a second signal path between the location that is remote from the receiver and the transmitter.
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16. A method of monitoring the quality of a broadcast as recited in claim 13 wherein adjusting the measured carrier to noise ratio at the receiver includes using an antenna model to determine an antenna gain factor to correct for different antenna gains at the receiver location and the location that is remote from the receiver and the transmitter.
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17. A monitoring receiver configured to monitor the quality of a broadcast comprising:
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a receiving circuit configured to receive a broadcast signal;
a power measurement processor configured to measure the power of the received signal in a carrier band and in a sideband;
a selecting processor configured to determine a time at which the ratio of the power of the received signal in the carrier band to the power of the received signal in the sideband is indicative of a carrier to noise ratio of the received signal at the receiver; and
a memory configured to store the carrier to noise ratio of the received signal at the receiver. - View Dependent Claims (18)
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Specification