Patent application number | Description | Published |
20100191135 | PEN SHAPED ANALYTICAL APPARATUS OF HEART RATE VARIABILITY - The present invention provides a pen shaped analytical apparatus of heart rate variability having a view to simplifying the analytical process and carrying out automation. The pen shaped analytical apparatus of heart rate variability mainly includes an electrocardiogram signal converter; a micro-controller unit; a feature extraction unit; a decision making unit; a display unit and a switching unit. It is noted that the pen shaped analytical apparatus of heart rate variability further comprises: a plurality of electrodes and a battery. In practice, the pen shaped analytical apparatus of heart rate variability put forth in the present invention is quite time-saving and easy to use, as it prints out a person heart rate variability analytical result and autonomic function data in just five minutes after a plurality of electrodes are pressed simultaneously. | 07-29-2010 |
20100228145 | DEVICE AND METHOD FOR EVALUATING SYMPATHETIC FUNCTION USING ELECTROOCULOGRAPHY - The present invention provides a device and method for evaluating sympathetic function using electrooculography having advantage of simply analytical process and portability. The device for evaluating sympathetic function using electrooculography mainly comprises a plurality of electrode pastes and an electrooculography detector. Moreover, the structure of the device is further selected from the group consisting of necklace, hat block, adhesive bandages, and button. In practice, the device and method for evaluating sympathetic function using electrooculography according to the present invention utilizes a technology of micro physiological wireless transmitter and sensing synchronizing with analysis to be a simple and precise detective tool of detecting sympathetic function with electro-oculogram (EOG). | 09-09-2010 |
20100234692 | SYSTEM FOR HEALTH MANAGEMENT USED IN VEHICLE AND METHOD THEREOF - This invention discloses a system of health management used in vehicle and a method thereof, the system comprising a host, a driving health monitoring center, a wireless transmission system, a vehicle speed monitoring device, a vehicle position detecting device, an alarm device, a bio-signal sensor, and a recording device. The bio-signal sensor detects a body information and the vehicle speed detecting device detects a acceleration/deceleration information to analyze the driving quality, and the vehicle position detecting device detects a latitude/longitude information and transmit them to the host. The recording device stores the information from the host, and transmits to the center to analyze, or presses the emergency button to respond to the host and the center, and then the center feedbacks to the host to control the telephone equipment, the alarm device, the low-voltage defibrillator or the high-voltage defibrillator to communicate, remind or rescue by the wireless transmission system. | 09-16-2010 |
20100245146 | INTELLIGENT ANALOG-DIGITAL CONVERTER CHIP - The present invention discloses an intelligent analog-digital converter chip. It mainly comprises an amplifier, a filter, an analog/digital converter and a central processing unit. The main feature of the present invention is that it can directly connect to the micro-controller and computer, and possess the advantages of lower power consumption, chip area reduction and stability enhancement. It plays a key component for the application of computer, communication and consumer electronic products. | 09-30-2010 |
20100268104 | METHOD AND SYSTEM OF AUDITORY EVOKED HEART RATE VARIABILITY ANALYSIS - The present invention provides a method and system of auditory evoked heart rate variability analysis having advantage of simply analytical process and portability. The disclosed method mainly includes the following steps of: stimulating the auditory system of a person by a sound through a sound transmission device, capturing an electrocardiogram signal of the person, performing analog-to-digital conversion of the electrocardiogram signal, selecting the peaks of the electrocardiogram signal and transforming the qualified peaks to a consecutive peak signal, and performing spectrum analysis to the peak signal in frequency domain, and obtaining the difference of the spectral parameters before and after the evoked sounds. Moreover, the sound further is selected from the group consisting of noise, short tone burst, click, and any other sound with the intensity of 30 dB to 100 dB. By comparing the heart rate variability analysis before or after sound stimulation in order to get the differences, the disclosed method and system of auditory evoked heart rate variability analysis can evaluate a changing index of stimulated autonomic functions. | 10-21-2010 |
20110137188 | SLEEP ASSISTANT SYSTEM - The present invention relates to a system for sleeping assistance which comprises an electrocardiogram collector, a heartbeat recognition device, a frequency domain analysis device and a nerve active judgment device. Frequency spectrum and heartbeat rate analysis are made by the measured electrocardiogram to find out what nerve actives effect sleeping and to give corresponding feedback. | 06-09-2011 |
20110137189 | PHYSIOLOGICAL SIGNAL SENSING SYSTEM WITHOUT TIME AND PLACE CONTRAINT AND ITS METHOD - A physiological signal sensing system and a physiological signal sensing method applied in any time and place are disclosed. The present invention is used by applying wireless transmitting electrocardiogram (ECG) data and contactless charging so as to achieve the purpose of sensing physiological signals without any time and place constraints. | 06-09-2011 |
20130072814 | BASAL BODY TEMPERATURE ANALYSIS AND THE METHOD THEREOF - The present invention provides a basal body temperature analysis system. The basal body temperature analysis system comprises an analysis unit, a router, a measurement unit, and a portable electronic device. The analysis unit is established in an internet server. The router is connected with the internet server by internet. The measurement unit comprises a basal body temperature measurement device and a wireless communication module. When the basal body temperature measurement device provides basal body temperature information, the wireless communication module transfers the basal body temperature information to the internet server through the router. After analyzing the basal body temperature information, the analysis unit will transfer an analyzed information to a portable electronic device. | 03-21-2013 |