Method and system for determining the integrity of a received signal
First Claim
1. A method for determining whether the quality of a signal is acceptable, comprising the steps of:
- measuring the frequency of said signal N times;
computing a statistic concerning said frequency of said signal;
if said statistic is less than a first predetermined value then declaring said quality to be acceptable;
if said statistic is greater than said first predetermined value then determining whether said statistic is greater than a second predetermined value;
if said statistic is greater than said second predetermined value then declaring said signal to be unacceptable;
if said statistic is less than said second predetermined value then measuring the strength of said signal; and
if said signal strength is less than a predetermined signal strength value then declaring said received signal to be acceptable whereby quality use of the signal is maximized by accepting signals of relatively low signal strength having little interference and rejecting signals of high signal strength having interference.
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Accused Products
Abstract
A method for determining the integrity of a received signal in a frequency tracking environment so that a determination can be made whether Automatic Frequency Control (AFC) can be utilized. Several samples of the frequency are taken (205). At least one statistic based on these frequency samples is calculated for use in determining whether the received signal may be used for AFC operation. These statistics may include, for example, the mean, the mean deviation, the standard deviation, and the variance of the measured frequency. A strong signal limit and a weak signal limit are used to determine whether AFC operation should be disabled. If the calculated statistic is less than the strong signal limit (210) then AFC operation is enabled. If the calculated statistic is also greater than the weak signal limit (220) then AFC operation is disabled (225). This allows the receiver to continue AFC operation until the signal level is so weak as to cause erroneous frequency measurements. If the calculated statistic is between the strong signal limit (210) and the weak signal limit (220) then the signal strength is tested (230). If the signal strength is below a minimum value then AFC operation is enabled but if the signal strength is above this minimum value then AFC operation is disabled because a strong interfering signal may be present.
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Citations
16 Claims
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1. A method for determining whether the quality of a signal is acceptable, comprising the steps of:
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measuring the frequency of said signal N times; computing a statistic concerning said frequency of said signal; if said statistic is less than a first predetermined value then declaring said quality to be acceptable; if said statistic is greater than said first predetermined value then determining whether said statistic is greater than a second predetermined value; if said statistic is greater than said second predetermined value then declaring said signal to be unacceptable; if said statistic is less than said second predetermined value then measuring the strength of said signal; and if said signal strength is less than a predetermined signal strength value then declaring said received signal to be acceptable whereby quality use of the signal is maximized by accepting signals of relatively low signal strength having little interference and rejecting signals of high signal strength having interference. - View Dependent Claims (2, 3, 4, 5)
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6. A method for determing whether to enable automatic frequency control (AFC) operation based upon the quality of a signal, comprising the steps of:
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measuring the frequency of said signal N times; computing a statistic concerning said frequency of said signal; if said statistic is less than a first predetermined value then enabling said AFC operation; if said statistic is greater than said first predetermined value then determining whether said statistic is greater than a second predetermined value; if said statistic is greater than said second predetermined value then disabling said AFC operation; if said statistic is less than said second predetermined value then measuring the strength of said signal and determining whether said strength is less than a predetermined signal strength value; and if said strength is less than said predetermined signal value then enabling said AFC operation, whereby AFC use of the signal is maximized by accepting signals of relatively low signal strength having little interference and rejecting signals of high signal strength having interference. - View Dependent Claims (7, 8, 9, 10)
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11. A receiver, comprising:
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a mixer for mixing a first signal and a second signal to provide a third signal; an oscillator for providing said second signal; a frequency control circuit responsive to said third signal for controlling the frequency of said oscillator; a circuit for measuring the frequency of said third signal; and a controller comprising means for determining a statistic on said frequency of said third signal and enabling said frequency control circuit if said statistic is less than a first predetermined value, means for determining whether said statistic is greater than a second predetermined value if said statistic is greater than said first predetermined value, and means for disabling said frequency control circuit if said statistic is greater than said second predetermined value. - View Dependent Claims (12, 13, 14, 15, 16)
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Specification
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Current AssigneeMatsushita Communication Industrial Corporation of USA (Panasonic Holdings Corporation)
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Original AssigneeMatsushita Communication Industrial Corporation of USA (Panasonic Holdings Corporation)
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InventorsDaughtry, Earl A. Jr., Ruff, Mark A.
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Primary Examiner(s)CANGIALOSI, SALVATORE A
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Application NumberUS08/804,716Time in Patent Office907 DaysField of Search455/164.1, 455/182.2, 455/183.2, 455/161.3, 455/161.2, 455/226.3, 455/67.3, 455/296, 455/311, 455/292, 455/192.2, 455/226.2, 455/423US Class Current455/182.2CPC Class CodesH03J 7/04 where the frequency control...H03J 7/06 using counters or frequency...H04B 1/1027 assessing signal quality or...
