Body detector
First Claim
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1. A method for detecting the absence of a body, said method comprising steps of:
- measuring a first dielectric constant of a region within which said body should reside;
generating a baseline value in response to said first dielectric constant, said baseline value corresponding to a baseline dielectric constant;
retaining said baseline value in a memory;
measuring a second dielectric constant of said region within which said body should reside, wherein said measuring steps are carried out by a self-contained, portable unit comprising an item of wrist apparel having a circuit housing and a strap and said self-contained, portable unit comprises a capacitor including a first electrode disposed on said housing and a second electrode disposed on said strap; and
evaluating said second dielectric constant measurement and said baseline value from said memory to determine whether said second dielectric constant is less than said baseline dielectric constant;
wherein said measuring steps comprise steps of;
producing a signal exhibiting a parameter responsive to a current capacitance of said capacitor by an oscillator coupled to said capacitor, said signal oscillating at a frequency that varies in response to said current capacitance, said current capacitance corresponding to said second dielectric constant; and
generating a clocking signal by a clocking circuit, wherein a first counter is coupled to said clocking circuit and to said oscillator and wherein said first counter is configured to count said clock signal for a duration controlled by said signal produced by said oscillator to provide a control value; and
wherein said retaining step includes a step of recording said control value in a memory, said memory comprising a second counter having a clock input coupled to said clocking circuit, a terminal count output and a load input, said load input coupled to said terminal count output; and
wherein said evaluating step includes steps of;
determining, by a threshold detector coupled to said oscillator and said memory, when;
(i) said current capacitance is less than said baseline value by at least a first predetermined threshold value;
(ii) said current capacitance exhibited by said capacitor is greater than said baseline value by at least a second predetermined threshold value;
(iii) said current capacitance is less than a predetermined minimum capacitance; and
(iv) said current capacitance is greater than a predetermined maximum capacitance, said threshold detector being configured to count oscillations of said signal for a duration determined in response to said control value;
replacing said control value recorded in said memory with a new control value via an up/down counter having a clock input coupled to said terminal count output, an up/down input coupled to a most significant bit of a data output of said first counter and having a data output coupled to a data input of said second counter; and
communicating an alarm when said current capacitance is less than said baseline value.
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Abstract
A body detector (10) detects when a body (12) is absent from a region (26) being monitored. The body (12) has a different dielectric constant than air. The region (26) is configured as a capacitor (20) in which the body (12), if present, serves as a dielectric. The capacitance of the capacitor (20) is measured (28). This measurement influences a baseline value (30). The capacitance is measured (38) a second time. The second measurement is checked to verify that it is within minimum (42) and maximum (46) values. In addition, it is checked to verify that it is within a more narrow range (54) that is defined in response to the baseline value. The second measurement is then used to adjust the baseline value and the process repeats. The range (54) within which the capacitance must stay slowly adapts to changes in the capacitance of the capacitor (20). Abrupt changes in the capacitance cause an alarm to be annunciated.
72 Citations
21 Claims
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1. A method for detecting the absence of a body, said method comprising steps of:
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measuring a first dielectric constant of a region within which said body should reside; generating a baseline value in response to said first dielectric constant, said baseline value corresponding to a baseline dielectric constant; retaining said baseline value in a memory; measuring a second dielectric constant of said region within which said body should reside, wherein said measuring steps are carried out by a self-contained, portable unit comprising an item of wrist apparel having a circuit housing and a strap and said self-contained, portable unit comprises a capacitor including a first electrode disposed on said housing and a second electrode disposed on said strap; and evaluating said second dielectric constant measurement and said baseline value from said memory to determine whether said second dielectric constant is less than said baseline dielectric constant;
wherein said measuring steps comprise steps of;producing a signal exhibiting a parameter responsive to a current capacitance of said capacitor by an oscillator coupled to said capacitor, said signal oscillating at a frequency that varies in response to said current capacitance, said current capacitance corresponding to said second dielectric constant; and generating a clocking signal by a clocking circuit, wherein a first counter is coupled to said clocking circuit and to said oscillator and wherein said first counter is configured to count said clock signal for a duration controlled by said signal produced by said oscillator to provide a control value; and
wherein said retaining step includes a step of recording said control value in a memory, said memory comprising a second counter having a clock input coupled to said clocking circuit, a terminal count output and a load input, said load input coupled to said terminal count output; and
wherein said evaluating step includes steps of;determining, by a threshold detector coupled to said oscillator and said memory, when; (i) said current capacitance is less than said baseline value by at least a first predetermined threshold value; (ii) said current capacitance exhibited by said capacitor is greater than said baseline value by at least a second predetermined threshold value; (iii) said current capacitance is less than a predetermined minimum capacitance; and (iv) said current capacitance is greater than a predetermined maximum capacitance, said threshold detector being configured to count oscillations of said signal for a duration determined in response to said control value; replacing said control value recorded in said memory with a new control value via an up/down counter having a clock input coupled to said terminal count output, an up/down input coupled to a most significant bit of a data output of said first counter and having a data output coupled to a data input of said second counter; and communicating an alarm when said current capacitance is less than said baseline value. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method for adaptively determining absence of a body, said method comprising steps of:
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configuring a capacitor so that said body, if present, forms at least a portion of a dielectric for said capacitor, wherein said capacitor comprises a self-contained, portable unit comprising an item of wrist apparel having a circuit housing and a strap, including a first electrode disposed on said housing and a second electrode disposed on said strap; establishing a control value corresponding to a baseline capacitance; retaining said control value in a memory; measuring a current capacitance exhibited by said capacitor; determining if said current capacitance exhibited by said capacitor is less than said baseline capacitance by at least a predetermined threshold value; and updating said control value with a new control value that is responsive to said current capacitance exhibited by said capacitor; producing a signal exhibiting a parameter responsive to said current capacitance of said capacitor by an oscillator coupled to said capacitor, said signal oscillating at a frequency that varies in response to said current capacitance; generating a clocking signal by a clocking circuit, wherein a first counter is coupled to said clocking circuit and to said oscillator and wherein said first counter is configured to count said clock signal for a duration controlled by said signal produced by said oscillator; recording said control value in said memory, said memory comprising a second counter having a clock input coupled to said clocking circuit, a terminal count output and a load input, said load input coupled to said terminal count output; determining, by a threshold detector coupled to said oscillator and said memory, when; (i) said current capacitance is less than said baseline capacitance by at least a first predetermined threshold value; (ii) said current capacitance exhibited by said capacitor is greater than said baseline capacitance by at least a second predetermined threshold value; (iii) said current capacitance is less than a predetermined minimum capacitance; and (iv) said current capacitance is greater than a predetermined maximum capacitance, said threshold detector being configured to count oscillations of said signal for a duration determined in response to said control value; replacing said control value recorded in said memory with a new control value via an up/down counter having a clock input coupled to said terminal count output, an up/down input coupled to a most significant bit of a data output of said first counter and having a data output coupled to a data input of said second counter; and communicating an alarm when said current capacitance is less than said baseline capacitance. - View Dependent Claims (9, 10, 11, 12)
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13. An apparatus for adaptively detecting absence of a body, said apparatus including a clocking circuit for generating a clocking signal, said apparatus comprising:
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a capacitor exhibiting an associated current capacitance, said capacitor being a self-contained, portable unit comprising an item of wrist apparel having a circuit housing and a strap, including a first electrode disposed on said housing and a second electrode disposed on said strap, said capacitor configured so that said body, if present, forms at least a portion of a dielectric for said capacitor; an oscillator, coupled to said capacitor, for producing a signal exhibiting a parameter responsive to said current capacitance of said capacitor; a storage element for recording a control value that corresponds to a baseline capacitance; means, coupled to said storage element, for replacing said control value recorded in said storage element with a new control value; a threshold detector, coupled to said oscillator and said storage element, for determining when said current capacitance is less than said baseline capacitance by at least a predetermined threshold value, wherein said threshold detector comprises; a first counter configured to count oscillations of said signal for a duration determined in response to said control value, said threshold detector for determining when; (i) said current capacitance is less than said baseline capacitance by at least a first predetermined threshold value; (ii) said current capacitance exhibited by said capacitor is greater than said baseline capacitance by at least a second predetermined threshold value; (iii) said current capacitance is less than a predetermined minimum capacitance; and (iv) said current capacitance is greater than a predetermined maximum capacitance; and wherein said storage element comprises; a second counter having a clock input coupled to said clocking circuit, a terminal count output and a load input, said load input coupled to said terminal count output; and
wherein said replacing means comprises an up/down counter having a clock input coupled to said terminal count output, an up/down input coupled to a most significant bit of a data output of said first counter and having a data output coupled to a data input of said second counter. - View Dependent Claims (14, 15, 16, 17, 18, 19)
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20. An apparatus for adaptively detecting absence of a body, said apparatus comprising:
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a capacitor exhibiting an associated current capacitance, said capacitor being a self-contained, portable unit comprising an item of wrist apparel having a circuit housing and a strap, including a first electrode disposed on said housing and a second electrode disposed on said strap, said capacitor configured so that said body, if present, forms at least a portion of a dielectric for said capacitor; an oscillator, coupled to said capacitor, for producing a signal exhibiting a parameter responsive to said current capacitance of said capacitor, said oscillator configured so that said signal oscillates at a frequency that varies in response to said current capacitance; a clocking circuit for providing a clocking signal; a storage element for recording a control value that corresponds to a baseline capacitance, wherein said storage element comprises a second counter having a clock input coupled to said clocking circuit, a terminal count output and a load input, said load input coupled to said terminal count output; a threshold detector, coupled to said oscillator and said storage element, said threshold detector for determining when; (i) said current capacitance is less than said baseline capacitance by at least a first predetermined threshold value; (ii) said current capacitance exhibited by said capacitor is greater than said baseline capacitance by at least a second predetermined threshold value; (iii) said current capacitance is less than a predetermined minimum capacitance; and (iv) said current capacitance is greater than a predetermined maximum capacitance, said threshold detector comprising a first counter configured to count oscillations of said signal for a duration determined in response to said control value; means, coupled to said storage element, for replacing said control value recorded in said storage element with a new control value, said replacing means coupled to said threshold detector and configured so that said new control value is responsive to said current capacitance exhibited by said capacitor, wherein said replacing means comprises an up/down counter having a clock input coupled to said terminal count output, an up/down input coupled to a most significant bit of a data output of said first counter and having a data output coupled to a data input of said second counter; a clocking circuit for generating a clocking signal, wherein said first counter is coupled to said clocking circuit and to said oscillator and wherein said first counter is configured to count said clock signal for a duration controlled by said signal produced by said oscillator; and means, coupled to said threshold detector, for communicating an alarm when said current capacitance is less than said baseline capacitance. - View Dependent Claims (21)
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Specification
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Current AssigneeMotorola Solutions, Inc.
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Original AssigneeMotorola, Inc. (Motorola Solutions, Inc.)
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InventorsGerston, Charles, Fox, Thomas M.
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Primary Examiner(s)Horabik, Michael
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Assistant Examiner(s)DAY, MICHAEL HENRY
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Application NumberUS08/512,985Time in Patent Office356 DaysField of Search340/573, 340/539, 324/663, 324/678, 324/672-677, 324/681US Class Current340/573.4CPC Class CodesG08B 21/22 responsive to presence or a...G08B 29/24 Self-calibration, e.g. comp...H03K 2217/960715 Rc-timing; e.g. measurement...
