System for monitoring health, wellness and fitness having a method and apparatus for improved measurement of heat flow
First Claim
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1. An apparatus for measuring heat flow between a living body and an ambient environment, comprising:
- a heat pipe configuration having;
i) a heat flux sensor having a first side and a second side, said second side adapted to be in thermal communication with said ambient environment; and
ii) a heat conduit having a first surface adapted to be in thermal communication with said living body and having a second surface adapted to be in thermal communication with said first side of said heat flux sensor;
wherein said first surface of said heat conduit is adapted to contact said living body and comprises a hypoallergenic material, said hypoallergenic material comprising stainless steel.
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Abstract
Means and methods for measuring heat flux between a living body and an ambient atmosphere and for generating information related thereto. Means include a heat pipe configuration comprising at least one heat conduit in thermal communication with a heat flux sensor and a surface of a living body. Methods include employing such a heat pipe configuration. Heat pipe configuration may be used in a device included in a system for detecting, monitoring and reporting human physiological information.
846 Citations
142 Claims
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1. An apparatus for measuring heat flow between a living body and an ambient environment, comprising:
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a heat pipe configuration having;
i) a heat flux sensor having a first side and a second side, said second side adapted to be in thermal communication with said ambient environment; and
ii) a heat conduit having a first surface adapted to be in thermal communication with said living body and having a second surface adapted to be in thermal communication with said first side of said heat flux sensor;
wherein said first surface of said heat conduit is adapted to contact said living body and comprises a hypoallergenic material, said hypoallergenic material comprising stainless steel.
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2. An apparatus for measuring heat flow between a living body and an ambient environment, comprising:
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a heat pipe configuration having;
i) a heat flux sensor having a first side and a second side, said second side adapted to be in thermal communication with said ambient environment; and
ii) a heat conduit having a first surface adapted to be in thermal communication with said living body and having a second surface adapted to be in thermal communication with said first side of said heat flux sensor;
wherein said first surface of said heat conduit is adapted to contact said living body and wherein a ratio of the surface area of said first suffice of said heat conduit to the surface area of said first side of said heat flux sensor is in the range of from about 0.5 to about 2.
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3. An apparatus for measuring heat flow between a living body and an ambient environment, comprising:
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a heat pipe configuration having;
i) a heat flux sensor having a first side and a second side, said second side adapted to be in thermal communication with said ambient environment; and
ii) a heat conduit having a first surface adapted to be in thermal communication with said living body and having a second surface adapted to be in thermal communication with said first side of said heat flux sensor;
wherein said first surface of said heat conduit is adapted to contact said living body and wherein said second surface of said heat conduit is biased away from being in thermal communication with said first side of said heat flux sensor when said first surface of said heat conduit is not in contact with said living body.
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4. An apparatus for measuring heat flow between a living body and an ambient environment, comprising:
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a heat pipe configuration having;
i) a heat flux sensor having a first side and a second side, said second side adapted to be in thermal communication with said ambient environment; and
ii) a heat conduit having a first surface adapted to be in thermal communication with said living body and having a second surface adapted to be in thermal communication with said first side of said heat flux sensor;
wherein said heat pipe configuration includes a thermally conductive interface material layer and said thermally conductive interface material layer is in contact with at least one of said heat flux sensor and said heat conduit, and wherein said thermally conductive interface material layer comprises at least one of the group consisting of a thermally conductive gap filler, a thermally conductive phase change interface material, a thermally conductive tape, a thermally conductive cure-in-place compound, a thermally conductive cure-in-place epoxy, and a thermal grease.
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5. An apparatus for measuring heat flow between a living body and an ambient environment, comprising:
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a heat pipe configuration having;
i) a heat flux sensor having a first side and a second side, said second side adapted to be in thermal communication with said ambient environment; and
ii) a heat conduit having a first surface adapted to be in thermal communication with said living body and having a second surface adapted to be in thermal communication with said first side of said heat flux sensor;
wherein said heat pipe configuration includes a thermally conductive interface material layer and said thermally conductive interface material layer is in contact with at least one of said heat flux sensor and said heat conduit, and wherein said thermally conductive interface material layer comprises a silicone elastomer containing boron nitride and alumina and having an aluminum foil carrier.
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6. An apparatus for measuring heat flow between a living body and an ambient environment, comprising:
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a heat pipe configuration having;
i) a heat flux sensor having a first side and a second side, said second side adapted to be in thermal communication with said ambient environment; and
ii) a heat conduit having a first surface adapted to be in thermal communication with said living body and having a second surface adapted to be in thermal communication with said first side of said heat flux sensor;
wherein said heat conduit has at least one internal void.
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7. An apparatus for measuring heat flow between a living body and an ambient environment, comprising:
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a heat pipe configuration having;
i) a heat flux sensor having a first side and a second side, said second side adapted to be in thermal communication with said ambient environment; and
ii) a heat conduit having a first surface adapted to be in thermal communication with said living body and having a second surface adapted to be in thermal communication with said first side of said heat flux sensor;
wherein said heat conduit has an inner passage. - View Dependent Claims (8, 9)
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10. An apparatus for measuring heat flow between a living body and an ambient environment, comprising:
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a beat pipe configuration having;
i) a heat flux sensor having a first side and a second side, said second side adapted to be in thermal communication with said ambient environment; and
ii) a heat conduit having a first surface adapted to be in thermal communication with said living body and having a second surface adapted to be in thermal communication with said first side of said heat flux sensor;
wherein said heat conduit comprises a plurality of individual heat conduits, each of said individual heat conduits having a first surface adapted to be in thermal communication with said living body and a second surface adapted to be in thermal communication with said first side of said heat flux sensor, a rid wherein at least one of said individual heat conduits has a surface adapted to contact said living body. - View Dependent Claims (11, 12, 13, 14)
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15. An apparatus for measuring heat flow between a living body and an ambient environment, comprising:
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a heat pipe configuration having;
i) a heat flux sensor having a first side and a second side;
ii) a first heat conduit having a first surface adapted to be in thermal communication with said living body and having a second surface adapted to be in thermal communication with said first side of said heat flux sensor; and
iii) a second heat conduit having a first surface adapted to be in thermal communication with said second side of said heat flux sensor and having a second surface adapted to be in thermal communication with said ambient environment. - View Dependent Claims (16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59)
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60. A system for detecting, monitoring and reporting human physiological information, comprising:
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a) a sensor device adapted to be placed in contact with an individual'"'"'s body, said sensor device including a heat pipe configuration, said sensor device being adapted to generate data indicative of heat flow from said individual and derived data from said data indicative of said heat flow, said heat pipe configuration having;
i) a heat flux sensor having a first side and a second side, said second side adapted to be in thermal communication with an ambient environment; and
ii) a first heat conduit having a first surface adapted to be in thermal communication with said body and having a second surface adapted to be in thermal communication with said first side of said heat flux sensor;
b) a central monitoring unit remote from said sensor device adapted for the generation of analytical status data from at least a portion of at least one of said data indicative of said heat flow, said derived data and said analytical status data, said central monitoring unit including a data storage device for retrievably storing at least one of said data indicative of said heat flow, said derived data and said analytical status data;
c) data transfer means for establishing at least temporary electronic communication between said sensor device and said central monitoring unit; and
d) means for transmitting at least one of said data indicative of said heat flow, said derived data and said analytical status data to a recipient;
wherein said sensor device has a first surface adapted to contact said body, said first surface of said sensor device having an outer perimeter, and wherein said first surface of said heat conduit is positioned to contact said body near said outer perimeter, and wherein said sensor device has a first surface adapted to contact said body, said first surface of said sensor device having an area covered by a thermally conductive material, and wherein said first surface of said heat conduit is positioned to contact said body near said area, and wherein said thermally conductive material is stainless steel.
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61. A system for detecting, monitoring and reporting human physiological information, comprising:
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a) a sensor device adapted to be placed in contact with an individual'"'"'s body, said sensor device including a heat pipe configuration, said sensor device being adapted to generate data indicative of heat flow from said individual and derived data from said data indicative of said heat flow, said heat pipe configuration having;
i) a heat flux sensor having a first side and a second side, said second side adapted to be in thermal communication with an ambient environment; and
ii) a first heat conduit having a first surface adapted to be in thermal communication with said body and having a second surface adapted to be in thermal communication with said first side of said heat flux sensor, b) a central monitoring unit remote from said sensor device adapted for the generation of analytical atatus data from at least a portion of at least one of said data indicative of said heat flow, said derived data and said analytical status data, said central monitoring unit including a data storage device for retrievably storing at least one of said data indicative of said heat flow, said derived data and said analytical status data;
c) data transfer means for establishing at least temporary electronic communication between said sensor device and said central monitoring unit; and
d) means for transmitting at least one of said data indicative of said heat flow, said derived data and said analytical status data to a recipient;
wherein said sensor device further comprises a processor adapted to generate said derived data and a computer housing for containing said processor and first and second flexible members, each of said first and second flexible members extending opposingly outward from said computer housing and being adapted to wrap around a portion of an upper arm of said individual, wherein said first and second flexible members in conjunction with each other and said computer housing do not encircle the upper arm of said individual. - View Dependent Claims (62, 63)
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64. A system for detecting, monitoring and reporting human physiological information, comprising:
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a) a sensor device adapted to be placed in contact with an individual'"'"'s body, said sensor device including a heat pipe configuration, said sensor device being adapted to generate data indicative of heat flow from said individual and derived data from said data indicative of said heat flow, said heat pipe configuration having;
i) a heat flux sensor having a first side and a second side, said second side adapted to be in thermal communication with an ambient environment; and
ii) a first heat conduit having a first surface adapted to be in thermal communication with said body and having a second surface adapted to be in thermal communication with said first side of said heat flux sensor;
b) a central monitoring unit remote from said sensor device adapted for the generation of analytical status data from at least a portion of at least one of said data indicative of said heat flow, said derived data and said analytical status data, said central monitoring unit including a data storage device for retrievably storing at least one of said data indicative of said heat flow, said derived data and said analytical status data;
c) data transfer means for establishing at least temporary electronic communication between said sensor device and said central monitoring unit; and
d) means for transmitting at least one of said data indicative of said heat flow, said derived data and said analytical status data to a recipient;
wherein said sensor device further comprises a wireless receiver for receiving data from a wireless device worn by or located near said individual, and wherein said wireless device comprises a heart rate monitor, said data received from said wireless device comprises data indicative of heart rate of said individual, and said derived data and said analytical status data are also generated from at least a portion of said data indicative of heart rate.
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65. A system for detecting, monitoring and reporting human physiological information, comprising:
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a) a sensor device adapted to be placed in contact with an individual'"'"'s body, said sensor device including a heat pipe configuration, said sensor device being adapted to generate data indicative of heat flow from said individual and derived data from said data indicative of said heat flow, said heat pipe configuration having;
i) a heat flux sensor having a first side and a second side, said second side adapted to be in thermal communication with an ambient environment; and
ii) a first heat conduit having a first surface adapted to be in thermal communication with said body and having a second surface adapted to be in thermal communication with said first side of said heat flux sensor;
b) a central monitoring unit remote from said sensor device adapted for the generation of analytical status data from at least a portion of at least one of said data indicative of said heat flow, said derived data and said analytical status data, said central monitoring unit including a data storage device for retrievably storing at least one of said data indicative of said heat flow, said derived data and said analytical status data;
c) data transfer means for establishing at least temporary electronic communication between said sensor device and said central monitoring unit; and
d) means for transmitting at least one of said data indicative of said heat flow, said derived data and said analytical status data to a recipient;
wherein said derived data comprises at least one of calories burned, sleep onset and wake, stress level and relaxation level.
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66. A system for monitoring the degree to which an individual has followed a suggested routine, comprising:
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a) a sensor device adapted to be placed in contact with said individual'"'"'s body, said sensor device including a heat pipe configuration, said sensor device being adapted to generate data indicative of heat flow from said individual and derived data from said data indicative of said heat flow, said heat pipe configuration having;
i) a heat flux sensor having a first side and a second side, said second side adapted to be in thermal communication with an ambient environment; and
ii) a first heat conduit having a first surface adapted to be in thermal communication with said body and having a second surface adapted to be in thermal communication with said first side of said heat flux sensor;
b) means for transmitting at least one of said data indicative of said heat flow and said derived data from said sensor device to a central monitoring unit remote from said sensor device; and
c) means for providing life activities data of said individual to said central monitoring unit;
wherein said central monitoring unit is adapted to generate and provide feedback to a recipient relating to the degree to which said individual has followed said suggested routine, said feedback being generated from at least a portion of at least one of said data indicative of said heat flow, said derived data and said life activities data. - View Dependent Claims (67, 68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78)
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79. A system for detecting, monitoring and reporting human physiological information, comprising:
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a) a sensor device adapted to be placed in contact with an individual'"'"'s body, said sensor device including a heat pipe configuration, said sensor device being adapted to generate data indicative of heat flow from said individual and derived data from said data indicative of said heat flow, said heat pipe configuration having;
i) a heat flux sensor having a first side and a second side;
ii) a first heat conduit having a first surface adapted to be in thermal communication with said body and having a second surface adapted to be in thermal communication with said first side of said heat flux sensor; and
iii) a second heat conduit having a first surface adapted to be in thermal communication with said second side of said heat flux sensor and having a second surface adapted to be in thermal communication with an ambient environment;
b) a central monitoring unit remote from said sensor device adapted for the generation of analytical status data from at least a portion of at least one of said data indicative of said heat flow, said derived data and said analytical status data, said central monitoring unit including a data storage device for retrievably storing at least one of said data indicative of said heat flow, said derived data and said analytical status data;
c) data transfer means for establishing at least temporary electronic communication between said sensor device and said central monitoring unit; and
d) means for transmitting at least one of said data indicative of said heat flow, said derived data and said analytical status data to a recipient. - View Dependent Claims (80, 81, 82, 83, 84, 85, 86, 89)
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90. A system for monitoring the degree to which an individual has followed a suggested routine, comprising:
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a) a sensor device adapted to be placed in contact with said individual'"'"'s body, said sensor device including a heat pipe configuration, said sensor device being adapted to generate data indicative of heat flow from said individual and derived data from said data indicative of said heat flow, said heat pipe configuration having;
i) a heat flux sensor having a first side and a second side;
ii) a first heat conduit having a first surface adapted to be in thermal communication with said body and having a second surface adapted to be in thermal communication with said first side of said heat flux sensor; and
iii) a second heat conduit having a first surface adapted to be in thermal communication with said second side of said heat flux sensor and having a second surface adapted to be in thermal communication with an ambient environment;
b) means for transmitting at least one of said data indicative of said heat flow and said derived data from said sensor device to a central monitoring unit remote from said sensor device; and
c) means for providing life activities data of said individual to said central monitoring unit;
wherein said central monitoring unit is adapted to generate and provide feedback to a recipient relating to the degree to which said individual has followed said suggested routine, said feedback being generated from at least a portion of at least one of said data indicative of said heat flow, said derived data and said life activities data. - View Dependent Claims (87, 88, 91, 92, 93, 94, 95, 96, 97, 98, 99, 100, 101, 102)
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103. A method for measuring heat flow between a living body and an ambient environment, comprising:
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a) placing a first surface of a heat conduit into thermal communication with said living body;
b) placing a second surface of said heat conduit into thermal communication with a first side of a heat flux sensor; and
c) placing a second side of said heat flux sensor into thermal communication with said ambient environment;
wherein said step (a) includes providing said first heat conduit in the form of a plurality of individual heat conduits.
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104. A method for measuring heat flow between a living body and an ambient environment, comprising:
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a) placing a first surface of a heat conduit into thermal communication with said living body;
b) placing a second surface of said heat conduit into thermal communication with a first side of a heat flux sensor; and
c) placing a second side of said heat flux sensor into thermal communication with said ambient environment;
wherein step (a) includes placing a thermally conductive interface material layer into contact with at least one of said heat flux sensor and said heat conduit and selecting said thermally conductive interface material layer from a group consisting of a thermally conductive gap filler, a thermally conductive phase change interface material, a thermally conductive tape, a thermally conductive cure-in-place compound, a thermally conductive cure-in-place epoxy, and a thermal grease.
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105. A method for measuring heat flow between a living body and an ambient environment, comprising:
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a) placing a first surface of a heat conduit into thermal communication with said living body;
b) placing a second surface of said heat conduit into thermal communication with a first side of a heat flux sensor; and
c) placing a second side of said heat flux sensor into thermal communication with said ambient environment;
wherein step (a) includes placing a thermally conductive interface material layer into contact with at least one of said heat flux sensor and said heat conduit and selecting said thermally conductive interface material layer to comprise a silicone elastomer containing boron nitride and alumina and having an aluminum foil carrier.
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106. A method for measuring heat flow between a living body and an ambient environment, comprising:
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a) placing a first surface of a first heat conduit into thermal communication with said living body;
b) placing a second surface of said first heat conduit into thermal communication with a first side of a heat flux sensor;
c) placing a first surface of a second heat conduit into thermal communication with a second side of said heat flux sensor; and
d) placing a second surface of said second heat conduit into thermal communication with said ambient environment. - View Dependent Claims (107, 108, 109, 110, 111, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126, 127, 128, 129, 130)
e) coupling said heat flux sensor to a processor; and
f) processing an output of said heat flux sensor with said processor.
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108. A method according to claim 106, wherein step (a) includes placing said first surface of said first heat conduit into contact with said living body.
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109. A method according to claim 108, wherein said first surface of said first heat conduit is selected to comprise a hypoallergenic material.
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110. A method according to claim 106, wherein step (b) includes placing said second surface of said first heat conduit into contact with said first side of said heat flux sensor.
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111. A method according to claim 106, wherein step (a) includes providing said first heat conduit in the form of a plurality of individual heat conduits and arranging each of said individual heat conduits to have a first surface in thermal communication with said living body, and wherein said step (b) includes arranging each of said individual heat conduits to have a second surface in thermal communication with said first side of said heat flux sensor.
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112. A method according to claim 106, wherein step (c) includes providing said second heat conduit in the form of a plurality of individual heat conduits and arranging each of said individual heat conduits to have a first surface in thermal communication with said second side of said heat flux sensor, and wherein said step (d) includes arranging each of said individual heat conduits to have a second surface in thermal communication with said ambient environment.
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113. A method according to claim 106, wherein step (b) includes placing a thermally conductive interface material layer into contact with at least one of said heat flux sensor and said first heat conduit.
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114. A method according to claim 113, wherein step (b) includes selecting said thermally conductive interface material layer from a group consisting of a thermally conductive gap filler, a thermally conductive phase change interface material, a thermally conductive tape, a thermally conductive cure-in-place compound, a thermally conductive cure-in-place epoxy, and a thermal grease.
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115. A method according to claim 113, wherein step (b) includes selecting said thermally conductive interface material layer to comprise a silicone elastomer containing boron nitride and alumina and having an aluminum foil carrier.
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116. A method according to claim 106, wherein step (c) includes placing a thermally conductive interface material layer into contact with at least one of said heat flux sensor and said second heat conduit.
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117. A method according to claim 116, wherein step (c) includes selecting said thermally conductive interface material layer from a group consisting of a thermally conductive gap filler, a thermally conductive phase change interface material, a thermally conductive tape, a thermally conductive cure-in-place compound, a thermally conductive cure-in-place epoxy, and a thermal grease.
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118. A method according to claim 116, wherein step (c) includes selecting said thermally conductive interface material layer to comprise a silicone elastomer containing boron nitride and alumina and having an aluminum foil carrier.
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119. A method according to claim 106, further comprising the step of selecting at least one of said first heat conduit and said second heat conduit to have a thermal conductivity that is at least as great as that of stainless steel.
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120. A method according to claim 106, further comprising the step of selecting at least one of said first heat conduit and said second heat conduit to comprise a thermally anisotropic material.
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121. A method according to claim 120, wherein said thermally anisotropic material is selected to comprise a thermally conductive plastic.
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122. A method according to claim 106, wherein step (c) includes placing said first surface of said second heat conduit into contact with said second side of said heat flux sensor.
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123. A method according to claim 106, wherein step (d) includes placing said second surface of said second heat conduit into contact with said ambient environment.
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124. A method according to claim 123, further comprising the step of locating said second surface of said second heat conduit in a near-body zone.
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125. A method according to claim 124, further comprising the step of shielding said second surface of said heat conduit from drafts.
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126. A method according to claim 124, further comprising the step of shading said second surface of said heat conduit from direct sunlight.
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127. A method according to claim 106, wherein said living body is a human body.
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128. A method according to claim 127, wherein step (a) includes placing said first surface of said first heat conduit into thermal communication with a surface of at least one of said body'"'"'s foot, ankle, shin, calf, knee, upper leg, stomach, chest, back, neck, head, upper arm, elbow, lower arm, wrist, hand, and finger.
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129. A method according to claim 106, further comprising the step of situating said first heat conduit, said second heat conduit, said heat flux sensor, and said processor within a device that is wearable on said living body.
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130. A method according to claim 129, further comprising the step of wearing said device on said body.
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131. A method of using a heat pipe configuration to measure the heat flow between a living body and an ambient atmosphere, comprising:
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a) providing a heat pipe configuration having;
i) a heat flux sensor having a first side and a second side;
ii) a first heat conduit having a first surface adapted to be in thermal communication with said living body and having a second surface adapted to be in thermal communication with said first side of said heat flux sensor; and
iii) a second heat conduit having a first surface adapted to be in thermal communication with said second side of said heat flux sensor and having a second surface adapted to be in thermal communication with said ambient environment;
b) situating said heat pipe configuration in a sensor device having a processor so that said second side of said heat flux sensor is in thermal communication with said ambient environment and so that said processor receives an output from said heat flux sensor; and
c) positioning said device so that said first surface of said first heat conduit is in thermal communication with said living body. - View Dependent Claims (132, 133, 134, 135, 136)
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137. A system for detecting, monitoring and reporting human physiological information, comprising:
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a) a sensor device adapted to be placed in contact with an individual'"'"'s body, said sensor device including a heat pipe configuration, said sensor device being adapted to generate data indicative of heat flow from said individual, said heat pipe configuration having;
i) a heat flux sensor having a first side and a second side, said second side adapted to be in thermal communication with an ambient environment; and
ii) a first heat conduit having a first surface adapted to be in thermal communication with said body and having a second surface adapted to be in thermal communication with said first side of said heat flux sensor;
b) a central monitoring unit remote from said sensor device, said central monitoring unit including a data storage device for retrievably storing said data indicative of said heat flow;
c) data transfer means for establishing at least temporary electronic communication between said sensor device and said central monitoring unit; and
d) means for transmitting said data indicative of said heat flow to a recipient;
wherein said sensor device has a first surface adapted to contact said body, said first surface of said sensor device having an area covered by a thermally conductive material, and wherein said first surface of said heat conduit is positioned to contact said body near said area and wherein said thermally conductive material is stainless steel.
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138. A system for detecting, monitoring and reporting human physiological information, comprising:
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a) a sensor device adapted to be placed in contact with an individual'"'"'s body, said sensor device including a heat pipe configuration, said sensor device being adapted to generate data indicative of heat flow from said individual, said heat pipe configuration having;
i) a heat flux sensor having a first side and a second side, said second side adapted to be in thermal communication with an ambient environment; and
ii) a first heat conduit having a first surface adapted to be in thermal communication with said body and having a second surface adapted to be in thermal communication with said first side of said heat flux sensor;
b) a central monitoring unit remote from said sensor device, said central monitoring unit including a data storage device for retrievably storing said data indicative of said heat flow;
c) data transfer means for establishing at least temporary electronic communication between said sensor device and said ventral monitoring unit; and
d) means for transmitting said data indicative of said heat flow to a recipient;
wherein said sensor device further comprises a processor adapted to generate said derived data and a computer housing for containing said processor and first and second flexible members, each of said first and second flexible members extending opposingly outward from said computer housing and being adapted to wrap around a portion of an upper arm of said individual, wherein said first and second flexible members in conjunction wit each other and said computer housing do not encircle the upper arm of said individual. - View Dependent Claims (139, 140)
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141. A system for detecting, monitoring and reporting human physiological information, comprising:
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a) a sensor device adapted to be placed in contact with an individual'"'"'s body, said sensor device including a heat pipe configuration, said sensor device being adapted to generate data indicative of heat flow from said individual, said heat pipe configuration having;
i) a heat flux sensor having a first side and a second side, said second side adapted to be in thermal communication with an ambient environment; and
ii) a first heat conduit having a first surface adapted to be in thermal communication with said body and having a second surface adapted to be in thermal communication with said first side of said heat flux sensor;
b) a central monitoring unit remote from said sensor device, said central monitoring unit including a data storage device for retrievably storing said data indicative of said heat flow;
c) data transfer means for establishing at least temporary electronic communication between said sensor device and said central monitoring unit; and
d) means for transmitting said data indicative of said heat flow to a recipient;
wherein said sensor device further comprises a wireless receiver for receiving data from a wireless device worn by or located near said individual and wherein said wireless device comprises a heart rate monitor, said data received from said wireless device comprises data indicative of heart rate of said individual, and said derived data and said analytical status data are also generated from at least a portion of said data indicative of heart rate.
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142. A system for detecting, monitoring and reporting human physiological information, comprising:
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a) a sensor device adapted to be placed in contact with an individual'"'"'s body, said sensor device including a heat pipe configuration, said sensor device being adapted to generate data indicative of heat flow from said individual, said heat pipe configuration having;
i) a heat flux sensor having a first side and a second side, said second side adapted to be in thermal communication with an ambient environment; and
ii) a first heat conduit having a first surface adapted to be in thermal communication with said body and having a second surface adapted to be in thermal communication with said first side of said heat flux sensor;
b) a central monitoring unit remote from said sensor device, said central monitoring unit including a data storage device for retrievably storing said data indicative of said heat flow;
c) data transfer means for establishing at least temporary electronic communication between said sensor device and said central monitoring unit; and
d) means for transmitting said data indicative of said heat flow to a recipient;
wherein said derived data comprises at least one of calories burned, sleep onset and wake, stress level and relaxation level.
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Specification