DISTRIBUTED MULTI-CHANNEL PHYSIOLOGICAL MONITORING AND ANALYZING SYSTEM
First Claim
1. A distributed multi-channel physiological monitoring and analyzing system, comprising:
- an assembly of plural biosignal collecting units, for acquiring multiple physiological signals from an user, wherein each biosignal collecting unit comprises;
a processor;
at least a sensor/electrode for acquiring at least one channel of physiological signal;
a wireless module for data and commands communication;
a memory for storing the acquired physiological signals, anda real-time clock module for providing a time base to sample the physiological signal and generating time axis information of the physiological signal; and
a processing unit, having a wireless module for receiving physiological signals from the biosignal collecting units for on-line monitoring,whereina time matching operation is performed by aligning the time axis information among the processing unit and plural biosignal collecting units; and
one single set of time-correlated physiological data is formed based on the acquired multiple physiological signals and the result of the time matching operation for further analysis.
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Abstract
A distributed multi-channel physiological monitoring and analyzing system including an assembly of plural biosignal collecting units and a processing unit is provided. The plural biosignal collecting units are implemented to acquire multiple physiological signals from an user. Each biosignal collecting unit includes at least a sensor/electrode for acquiring at least one channel of physiological signal, a processor for data processing, a wireless module for data transmission and communication, a memory for storing the acquired physiological signals, and a real-time clock module for providing a time base to sample the physiological signal and providing time axis information of the physiological signal. Moreover, the processing unit includes a wireless module for receiving physiological signals from the biosignal collecting units for on-line monitoring. Furthermore, a time matching operation is performed by aligning the time axis information among the processing unit and plural biosignal collecting units, and one single set of time-correlated physiological data is formed based on the acquired multiple physiological signals and the result of the time matching operation for further analysis.
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Citations
32 Claims
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1. A distributed multi-channel physiological monitoring and analyzing system, comprising:
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an assembly of plural biosignal collecting units, for acquiring multiple physiological signals from an user, wherein each biosignal collecting unit comprises; a processor; at least a sensor/electrode for acquiring at least one channel of physiological signal; a wireless module for data and commands communication; a memory for storing the acquired physiological signals, and a real-time clock module for providing a time base to sample the physiological signal and generating time axis information of the physiological signal; and a processing unit, having a wireless module for receiving physiological signals from the biosignal collecting units for on-line monitoring, wherein a time matching operation is performed by aligning the time axis information among the processing unit and plural biosignal collecting units; and one single set of time-correlated physiological data is formed based on the acquired multiple physiological signals and the result of the time matching operation for further analysis. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 27, 28)
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26. The system as claimed in claim 26, wherein the wireless module of the processing unit is built in or externally connected to the processing unit.
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29. A distributed multi-channel physiological diagnostic system, comprising:
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an assembly of plural biosignal collecting units, for acquiring multiple physiological signals from an user, wherein each biosignal collecting unit comprises; a processor; at least a sensor/electrode for acquiring at least one channel of physiological signal; a memory for storing the acquired physiological signals, and a real-time clock module for providing a time base to sample the physiological signal and providing time axis information of the physiological signal; and a processing unit, for receiving the physiological signals stored in the memories, wherein a time matching operation is performed by aligning the time axis information among the processing unit and plural biosignal collecting units; and one single set of time-correlated physiological data is formed based on the acquired multiple physiological signals and the result of the time matching operation for further analysis. - View Dependent Claims (30, 31, 32)
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Specification