Abstract: A medical cloud system with an automatically checking and feeding back self-status function utilizes a database to receive and integrate a physiological information, an electronic physiological monitoring device intrinsic information, an electronic physiological monitoring device status information, an electronic physiological monitoring device error code or a miss operation information from an electronic physiological monitoring device through a smart transmitting unit. The database can notify user or manager of the electronic physiological monitoring device of arising of the electronic physiological monitoring device status information, the electronic physiological monitoring device error code or the miss operation information, and confirm the system status.

Abstract: A medical cloud system with an automatically checking and feeding back self-status function utilizes a database to receive and integrate a physiological information, an electronic physiological monitoring device intrinsic information, an electronic physiological monitoring device status information, an electronic physiological monitoring device error code or a miss operation information from an electronic physiological monitoring device through a smart transmitting unit. The database can notify user or manager of the electronic physiological monitoring device of arising of the electronic physiological monitoring device status information, the electronic physiological monitoring device error code or the miss operation information, and confirm the system status.

Abstract: A WiFi cloud electronic vital-sign monitoring system has the function of monitoring physiological information and the WiFi transmission unit for transmitting the physiological information or the computation result to a cloud system. Thus, the WiFi cloud electronic vital-sign monitoring system with the WiFi distant transmission function can provide suitable and convenient assistance to the hospitals, the tele-care centers, the nursing homes, the elderly communities and the family care users.

Abstract: A ward cloud system comprises an intelligent cloud database and an intelligent electronic vital-sign monitoring device. The intelligent cloud database receives first vital-sign information detected by the intelligent electronic vital-sign monitoring device and second vital-sign information manually input by users through an intelligent transmission unit, integrates received information and undertakes far-end clock synchronization of the intelligent cloud database and intelligent electronic vital-sign monitoring device. The ward cloud system further comprises a far-end calibration unit using the intelligent cloud database to examine and calibrate accuracy of the intelligent electronic vital-sign monitoring device through the intelligent transmission unit from a far end.

Abstract: The present invention discloses an electronic vital-sign system with a manual vital-sign data input function, wherein a vital-sign recording unit is added to an electronic vital-sign system and used to input vital-sign data manually. The electronic vital-sign system detects vital-sign data automatically and receives other vital-sign data manually input by the user, such as the data of at least one of respiration rate, blood glucose, body temperature, body weight, food intake volume, fluid infusion volume, urine volume, stool volume and pain score. The system transmits the detected vital-sign data and manually-input vital-sign data to a cloud database where the vita-sign data is processed and integrated.

Abstract: This is one analysis method about probing into relationship of beating signal and heart function. It is used to deal with one beating signal, which is measured from one subject under any activity condition in a period of time with an electric manometer. And this analysis could be the reference target of the heart function of the subject. This method includes: (1) to transform the beating signal into the power spectrum, (2) to normalize the outcome of the power spectrum transformation, and (3) to compute an advance defining heart index from the normalized power spectrum diagram, and supply the reference target of the heart function from the subject with the heart index.