MINIATURE, WIRELESS APPARATUS FOR PROCESSING PHYSIOLOGICAL SIGNALS AND USE THEREOF
First Claim
1. An apparatus for processing physiological signal comprising:
- (a) a signal-receiving element;
(b) a signal-processing element;
wherein said signal-receiving element receives plural of signals input from external sensors and transmits the signals to said signal-processing element; and
said signal-processing element divides the receiving-time into n equal intervals and corresponds each divided time-interval to a signal detected by one sensor; and
wherein said signal-receiving element is capable of sending a feedback signal to said external sensors so that said plural of signals input from external sensors are received by said signal-receiving element in a synchronized pattern, and that in turn said external sensors are finely tuned by said signal-receiving element.
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Abstract
The present invention provides a miniature, wireless apparatus for processing physiological signals comprising a signal-receiving element and a signal-processing element, wherein said signal-receiving element receives plural of signals input from external sensors and transmits the signals to said signal-processing element. Then said signal-processing element divides the receiving-time into n equal intervals and corresponds each divided time-interval to signals received by one sensor.
The present invention further provides a method for processing physiological signals comprising receiving the signals by signal-receiving element, dividing the receiving-time into n equal intervals by signal-processing element, and corresponding each divided time-interval to signals received by one sensor.
14 Citations
21 Claims
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1. An apparatus for processing physiological signal comprising:
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(a) a signal-receiving element; (b) a signal-processing element; wherein said signal-receiving element receives plural of signals input from external sensors and transmits the signals to said signal-processing element; and
said signal-processing element divides the receiving-time into n equal intervals and corresponds each divided time-interval to a signal detected by one sensor; andwherein said signal-receiving element is capable of sending a feedback signal to said external sensors so that said plural of signals input from external sensors are received by said signal-receiving element in a synchronized pattern, and that in turn said external sensors are finely tuned by said signal-receiving element. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
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17. A method for processing physiological signals comprising:
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(a) receiving the signals by signal-receiving element; and (b)dividing the receiving-time into n equal intervals by signal-processing element and corresponding each divided time-interval to a signal which is detected by one sensor; and wherein said signal-receiving element is capable of sending a feedback signal to said external sensors so that said plural of signals input from external sensors are received by said signal-receiving element in a synchronized pattern, and that in turn said external sensors are finely tuned by said signal-receiving element. - View Dependent Claims (18, 19, 20, 21)
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Specification