Method and apparatus for measuring power output of exercise
First Claim
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1. A portable exercise tracking system for measuring the power output of a plurality of motions by a user comprising a central mass unit placed substantially close to the center of gravity of said user, said central mass unit further comprising a first 3-axis accelerometer, a first 3-axis gyroscope, a first 3-axis magnetometer, a first computational unit, a first memory and a first radio circuit, said central mass unit being adapted to:
- receive a plurality of mass data comprising a first mass data;
in response to detecting a first motion associated with said plurality of motions by said user, measure a first plurality of motion data associated with said first motion, said first plurality of motion data further comprising;
a first acceleration data;
a first rotational data; and
a first magnetic field data;
calculate a first power output data as a function of said first plurality of motion data and said first mass data; and
transmit said first power output data.
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Abstract
In a portable exercise tracking system, a method and apparatus for measuring power output of exercise motion by a user. The system includes a wireless motion sensor and a wireless central mass unit. The wireless motion sensor detects, measures and transmits motion data associated with a first motion by the user. The central mass unit detects and measures motion data associated with a second motion by the user. The central mass unit also computes the power output of the first motion and the second motion as a function of the first motion data and the second motion data. The disclosed method and apparatus provides a more effective means of computing total power output of a user performing free body exercises.
7 Citations
5 Claims
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1. A portable exercise tracking system for measuring the power output of a plurality of motions by a user comprising a central mass unit placed substantially close to the center of gravity of said user, said central mass unit further comprising a first 3-axis accelerometer, a first 3-axis gyroscope, a first 3-axis magnetometer, a first computational unit, a first memory and a first radio circuit, said central mass unit being adapted to:
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receive a plurality of mass data comprising a first mass data; in response to detecting a first motion associated with said plurality of motions by said user, measure a first plurality of motion data associated with said first motion, said first plurality of motion data further comprising; a first acceleration data; a first rotational data; and a first magnetic field data; calculate a first power output data as a function of said first plurality of motion data and said first mass data; and transmit said first power output data. - View Dependent Claims (2)
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3. A method for measuring the power output of a plurality of motions by a user comprising:
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inputting a plurality of mass data, said plurality of mass data comprising a first mass data; detecting a first motion associated with said plurality of motions by said user; measuring and producing a first plurality of motion data associated with said first motion, wherein said first plurality of motion data comprises a first acceleration data;
a first rotational rate data; and
a first magnetic field data, and wherein said first plurality of motion data is produced by a central mass unit comprising a first 3-axis accelerometer, a first 3-axis gyroscope, a first 3-axis magnetometer, a first computational unit, a first memory, a first battery and a first radio circuit;calculating a first power output data as a function of said first plurality of motion data and said first mass data; and transmitting said first power output data. - View Dependent Claims (4)
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5. A portable exercise tracking system for measuring the power output of a plurality of motions by a user, said portable exercise tracking system comprising:
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a central mass unit placed substantially close to the center of gravity of said user, said central mass unit comprising a first 3-axis accelerometer, a first 3-axis gyroscope, a first 3-axis magnetometer, a first computational unit, a first memory and a first radio circuit, said central mass unit being adapted to; receive a plurality of mass data comprising a first mass data; in response to detecting a first motion associated with said plurality of motions by said user, measure a first plurality of motion data associated with said first motion, said first plurality of motion data comprising a first acceleration data;
a first rotational rate data; and
a first magnetic field data;calculate a first power output data as a function of said first plurality of motion data and said first mass data; and transmit said first power output data; a multi-purpose electronic device adapted to; receive said first power output data; and display said first power output data.
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Specification
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Current AssigneeRacer Development, Inc.
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Original AssigneeRaver Development Incorporated
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InventorsIshii, Seiji
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Primary Examiner(s)RICHMAN, GLENN E
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Application NumberUS14/937,030Publication NumberTime in Patent Office840 DaysField of SearchUS Class CurrentCPC Class CodesA61B 2503/10 AthletesA61B 5/0024 for multiple sensor units a...A61B 5/1114 Tracking parts of the bodyA61B 5/1118 Determining activity levelA63B 21/0724 Bar-bells; Hand barsA63B 21/0726 Dumb bells, i.e. with a cen...A63B 2220/12 Absolute positions, e.g. by...A63B 2220/40 AccelerationA63B 2220/72 TemperatureA63B 2220/75 HumidityA63B 2220/807 Photo camerasA63B 2220/89 Field sensors, e.g. radar s...A63B 2225/50 Wireless data transmission,...A63B 2225/54 Transponders, e.g. RFIDA63B 2230/06 heartbeat rate onlyA63B 2230/50 temperatureA63B 24/0062 Monitoring athletic perform...A63B 24/0087 Electric or electronic cont...
