Wireless body sensor with small size background
First Claim
1. A wireless body sensor device for collecting bio-potential measurements from a user, wherein the wireless body sensor device has a small form factor that is defined according to an area associated with a watch battery, the wireless body sensor device comprising:
- a first bio-potential probe that is in contact with the user at a first location, wherein the first bio-potential probe is arranged to provide a first input signal in response to the bio-potential measurements from the user at the first location;
a second bio-potential probe that is in contact with the user at a second location, wherein the second bio-potential probe is arranged to provide a second input signal in response to the bio-potential measurements from the user at the second location, wherein the distance between the first location and the second location is less than 2 cm; and
a wireless electronic system that has a form factor matched to the area associated with the watch battery, the wireless electronic system comprising;
a signal amplifier that is arranged to amplify a difference between the first input signal and the second input signal to provide an amplified signal;
an analog-to-digital converter circuit that is arranged to convert the amplified signal to a digital signal;
a digital signal processor that is arranged to encode the digital signal for transmission as an encoded signal;
a radio system that is arranged to generate a transmission signal from the encoded signal; and
an antenna system that is arranged in cooperation with the radio system to wirelessly transmit the transmission signal as a wireless transmission, wherein the wireless transmission is arranged for reception by either another wireless body sensor device or a computing device.
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Accused Products
Abstract
A wireless body sensor device includes a number of small probes that are arranged about a wireless electronics system. The wireless electronics system can process bio-potential signals from the probes and communicate bio-potential data to another device such as a wireless telephone, wrist watch, personal data assistant (PDA), laptop computer or any other appropriate device. By forming the probes within a confined short range of the wireless electronics system, interference and noise is greatly reduced. The wireless electronics system includes signal amplifiers that increase the signal levels associated with the bio-potential probes so that the signals can be converted to bio-potential data through an analog-to-digital conversion (ADC) process. Once the bio-potential data is in digital form, the data can be processed by a digital signal processor (DSP), encoded into a signal transmission, and communicated to another device with a radio system and its corresponding antenna.
17 Citations
20 Claims
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1. A wireless body sensor device for collecting bio-potential measurements from a user, wherein the wireless body sensor device has a small form factor that is defined according to an area associated with a watch battery, the wireless body sensor device comprising:
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a first bio-potential probe that is in contact with the user at a first location, wherein the first bio-potential probe is arranged to provide a first input signal in response to the bio-potential measurements from the user at the first location; a second bio-potential probe that is in contact with the user at a second location, wherein the second bio-potential probe is arranged to provide a second input signal in response to the bio-potential measurements from the user at the second location, wherein the distance between the first location and the second location is less than 2 cm; and a wireless electronic system that has a form factor matched to the area associated with the watch battery, the wireless electronic system comprising; a signal amplifier that is arranged to amplify a difference between the first input signal and the second input signal to provide an amplified signal; an analog-to-digital converter circuit that is arranged to convert the amplified signal to a digital signal; a digital signal processor that is arranged to encode the digital signal for transmission as an encoded signal; a radio system that is arranged to generate a transmission signal from the encoded signal; and an antenna system that is arranged in cooperation with the radio system to wirelessly transmit the transmission signal as a wireless transmission, wherein the wireless transmission is arranged for reception by either another wireless body sensor device or a computing device. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A method for collecting bio-potential measurements from a user with an array of wireless body sensor devices, wherein the wireless body sensor device has a small form factor that is defined according to an area associated with a watch battery, the method comprising:
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receiving one of a plurality of wireless transmissions from a respective one of a plurality of wireless body sensor devices, wherein the received wireless transmission includes bio-potential data encoded therein; decoding the bio-potential data from the received transmission; identifying the received transmission with a corresponding Cartesian coordinate that is associated with a location of the corresponding wireless body sensor on the user; and associating the bio-potential data with the identified Cartesian coordinate; and storing the bio-potential data. - View Dependent Claims (14, 15)
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16. System for wirelessly collecting bio-potential measurements from an array of locations associated with the user, the system comprising:
a plurality of wireless body sensor devices, wherein each wireless body sensor device is a small form factor device that is located at a corresponding one of the array of locations, wherein each wireless body sensor comprises; a first bio-potential probe that is in arranged to provide a first input signal; a second bio-potential probe that is in arranged to provide a second input signal; a third bio-potential probe that is in arranged to provide a third input signal; a fourth bio-potential probe that is arranged to provide a fourth input signal, wherein the first, second, third and fourth bio-potential probes are arranged radially about the corresponding location with a radius of less than 1 cm; and a wireless electronic system that is centrally located with respect to the first, second, third, and fourth bio-potential probes, the wireless electronic system comprising; a first signal amplifier with a first input terminal and a second input terminal, wherein the first signal amplifier is arranged to provide a first amplified signal in response to signals received at the first and second input terminals; a second signal amplifier with a third input terminal and a fourth input terminal, wherein the second signal amplifier is arranged to provide a second amplified signal in response to signals received at the third and fourth input terminals; a MEMS switch array that is arranged to selectively couple two of the first, second, third and fourth input signals to the first and second input terminals, and also arranged to selectively couple the other two of the first, second, third and fourth input signals to the third and fourth input terminals; an analog-to-digital converter circuit that is arranged to convert the first amplified signal to a first digital signal and also convert the second amplified signal to a second digital signal; a digital signal processor that is arranged to encode the first digital signal and the second digital signal for transmission as an encoded signal; a radio system that is arranged to generate a transmission signal from the encoded signal; and an antenna system that is arranged in cooperation with the radio system to wirelessly transmit the transmission signal as a wireless transmission. - View Dependent Claims (17, 18, 19, 20)
Specification