Wireless motion sensor system and method
First Claim
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1. A motion analysis system comprising a wearable measurement unit, a signal relay unit, and a data analysis server, wherein:
- the system is configured for displaying and controlling a 3-dimensional object on a 2-dimensional display;
the wearable measurement unit comprises;
a user wearable glove;
a first orientation sensor located on the glove comprising an accelerometer that generates a tilt signal relative to a gravitational vector wherein;
the title signal is measured as a response to the projection of static gravity on the tilted accelerometer; and
the tilt signal comprises a pitch signal and a roll signal where pitch and roll are rotations about two perpendicular axes orthogonal to the gravitational vector;
a linear input device responsive to an input from the user wherein the linear input element generates a linear input signal having a magnitude proportional to the user input;
a processor responsive to the accelerometer pitch and roll signals from the first orientation sensor and the linear input signal; and
a measurement unit communication module configured for transmitting a wireless signal responsive to the pitch signal, the roll signal, and the linear input signal using a technology selected from the group of Bluetooth and WiFi;
the signal relay unit comprises;
a relay unit communication module configured for receiving the pitch signal, the roll signal, and the linear input signal from the measurement unit communication module; and
the data analysis server comprises;
a data analysis module configured for receiving the pitch signal, the roll signal, and the linear input signal from the relay unit;
a data storage module responsive to the relay unit signal;
anda graphical data presentation module responsive to the data analysis module wherein;
the graphical data presentation module is configured for displaying a 3-dimensional object on a 2-dimensional display in response to the pitch signal, the roll signal, and the linear input signal; and
the graphical data presentation module presents the 3-dimensional object on the 2-dimensional display using a mathematical representation of the 3-dimensional space using spherical coordinates, the pitch signal, the roll signal, and the linear input signal.
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Abstract
A wireless motion sensor system comprising a wearable inertial measurement unit, a wireless signal relay unit, and a data analysis server can be used in low power sensing and control applications, such as continuous monitoring and recording of motion and other parameters before, during, and after the occurrence of an unpredictable event. Data from the inertial measurement unit could be analyzed and presented on a graphical presentation unit.
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Citations
20 Claims
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1. A motion analysis system comprising a wearable measurement unit, a signal relay unit, and a data analysis server, wherein:
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the system is configured for displaying and controlling a 3-dimensional object on a 2-dimensional display; the wearable measurement unit comprises; a user wearable glove; a first orientation sensor located on the glove comprising an accelerometer that generates a tilt signal relative to a gravitational vector wherein; the title signal is measured as a response to the projection of static gravity on the tilted accelerometer; and the tilt signal comprises a pitch signal and a roll signal where pitch and roll are rotations about two perpendicular axes orthogonal to the gravitational vector; a linear input device responsive to an input from the user wherein the linear input element generates a linear input signal having a magnitude proportional to the user input; a processor responsive to the accelerometer pitch and roll signals from the first orientation sensor and the linear input signal; and a measurement unit communication module configured for transmitting a wireless signal responsive to the pitch signal, the roll signal, and the linear input signal using a technology selected from the group of Bluetooth and WiFi; the signal relay unit comprises; a relay unit communication module configured for receiving the pitch signal, the roll signal, and the linear input signal from the measurement unit communication module; and the data analysis server comprises; a data analysis module configured for receiving the pitch signal, the roll signal, and the linear input signal from the relay unit; a data storage module responsive to the relay unit signal; and a graphical data presentation module responsive to the data analysis module wherein; the graphical data presentation module is configured for displaying a 3-dimensional object on a 2-dimensional display in response to the pitch signal, the roll signal, and the linear input signal; and the graphical data presentation module presents the 3-dimensional object on the 2-dimensional display using a mathematical representation of the 3-dimensional space using spherical coordinates, the pitch signal, the roll signal, and the linear input signal. - View Dependent Claims (2, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
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3. A wireless motion sensor system comprising a measurement unit, a signal relay unit, and a data analysis unit, wherein:
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the system is configured for displaying and controlling a 3-dimensional object on a 2-dimensional display; the measurement unit comprises; a user wearable glove; a first orientation sensor comprising an accelerometer that generates a tilt signal relative to a gravitational vector wherein; the title signal is measured as a response to the projection of static gravity on the tilted accelerometer; and the tilt signal comprises a pitch signal and a roll signal where pitch and roll are rotations about two perpendicular axes orthogonal to the gravitational vector; a linear input device responsive to an input from the user wherein the linear input element generates a signal having a magnitude proportional to the user input; a measurement unit processor responsive to the accelerometer pitch and roll signals from the first orientation sensor and the linear input signal; and a measurement unit communication module configured for transmitting a wireless signal responsive to the pitch signal, the roll signal, and the linear input signal; the signal relay unit comprises; a communication unit configured for receiving the wireless signal responsive to the the pitch signal, the roll signal, and the linear input signal from the measurement unit; and the data analysis server comprises; a data analysis module configured for receiving the signal from the signal relay unit; a data storage module; and a graphical data presentation module responsive to the data analysis module wherein; the graphical data presentation module is configured for displaying a 3-dimensional object on a 2-dimensional display in response to the pitch signal, the roll signal, and the linear input signal; the graphical data presentation module presents the 3-dimensional object on the 2-dimensional display using a mathematical representation of the 3-dimensional space using spherical coordinates, the pitch signal, the roll signal, and the linear input signal. - View Dependent Claims (19)
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4. A method for wireless communication of sensed motion information for the display and control of a 3-dimensional object on a 2-dimensional display comprising the steps of:
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establishing an inertial measurement unit comprising; a glove that comprises an orientation sensor comprising an accelerometer; a linear input device responsive to a user input; a processor responsive to the orientation sensor and the linear input device; and a transmitter configured for transmitting a wireless signal responsive to the orientation sensor and the linear input device; establishing a wireless signal relay unit comprising; a receiver configured for receiving the wireless signal from the transmitter of the inertial measurement unit; establishing a data analysis server comprising; a data storage module; a data analysis module; and a graphical data presentation module; generating a tilt signal on the orientation sensor accelerometer wherein; the tilt signal is measured as a response to the projection of static gravity on the tilted accelerometer; and the tilt signal comprises a pitch signal and a roll signal where pitch and roll are rotations about two perpedicular axes orthogonal to the gravitational vector; generating a linear input signal wherein the magnitude of the linear input signal is proportional to input from a user; transmitting the wireless signal from the the wearable inertial measurement unit to the data analysis server wherein the wireless signal is responsive to the tilt signal, the roll signal, and the linear input signal; presenting a 3-dimensional object on a 2-dimensional display wherein; the three-dimensional object is responsive to the wireless signal that has been transmitted to the data analysis server; and presenting the 3-dimensional object further comprises a mathematical representation of the 3-dimensional object using spherical coordinates, the tilt signal, the roll signal, and the linear input signal. - View Dependent Claims (20)
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Specification