| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 600501000 | Waveform graph-type pulse recorder | 12 |
| 20090043216 | HEART BEAT SIGNAL RECOGNITION - A subject's heart rate is determined by recognizing heart beat patterns in a heart beat signal. A heart rate monitor receives a Doppler signal reflected from an artery of a target, performs demodulation and heart beat recognition techniques on the received signal to determine a set or sequence of features in each frame of the signal. Once a feature sequence is extracted from the signal, pattern classification is performed to determine if the extracted feature sequence is associated with one or more heart beats. The pattern classification may include finding the optimal state sequence by calculating the probability of each allowable state sequence based on the extracted feature sequence and heart beat models or additional noise models. Another pattern classification technique may determine a heart beat candidate using frame energy and dynamic thresholding methods followed by computing the probabilities between the feature sequence and each stored heart beat model or additional noise models. A further pattern classification technique may identify heart beat candidates using frame energy and dynamic thresholding methods and compute the similarity between the feature sequences and each of the stored heart beat templates. Post-processing is applied to heart beat candidates to determine if the candidates are associated with a true heartbeat, noise or some other signal source. Once a true heart beat is identified, the subject heart rate is updated based on the detected heart beat and displayed for a user. | 02-12-2009 |
| 20090171224 | SENSOR WITH INTEGRATED LIVING HINGE AND SPRING - Embodiments of the present disclosure relate generally to a sensor assembly. In various embodiments the sensor assembly includes a body having a first segment, a second segment, and a living hinge. The living hinge has a pivot axis and mechanically couples the first segment and the second segment. Further, the living hinge facilitates the first segment and the second segment to pivoting relative to one another about the pivot axis. Embodiments may also relate to a method of manufacturing a sensor frame. The method may include forming an integral sensor body having a first frame segment, a second frame segment, and a living hinge. The first frame segment and the second frame segment are configured to pivot relative to one another about a pivot axis of the living hinge. The method may also include coupling one or more biasing mechanisms to the first frame segment and the second frame segment. The biasing mechanism is configured to generate a moment about the pivot axis of the living hinge. The moment biases the first segment and second segment into a closed position. | 07-02-2009 |
| 20100152594 | NON-INVASIVE DEVICE NADI TARANGINI USEFUL FOR QUANTITAVE DETECTION OF ARTERIAL NADI PULSE WAVEFORM - The present invention discloses the procedure for obtaining complete spectrum of the Nadi pulses, as a time series and capable of detecting the major types and the subtypes of the Nadi pulses. The device of this invention involves three diaphragm elements equipped with strain gauge, three transmitters cum amplifiers, and a digitizer for quantifying analog signal. The system acquires the data with 12-bit accuracy with practically no electronic and/or external interfering noise. The pertaining proofs are given which clearly shows the capability of delivering the accurate spectrums, with repeatability of the pulses from the invented system. ‘Nadi-Nidan’ is a prominent method in Ayurveda (Ayurveda is a Sanskrit word derived from ‘Ayus’ and ‘vid’, meaning life and knowledge respectively. It is a holistic science encompassing mental, physical and spiritual health), which is known to dictate all the salient features of a human body. Nadi-Nidan is a specialty of ‘Vaidyas’ (Ayurvedic physicians) and hence the present system would enable the diagnosis accurately, quantitatively and independent of any human errors. | 06-17-2010 |
| 20100198088 | METHOD, APPARATUS AND SYSTEM FOR DETECTION OF ARTERIAL STIFFNESS AND ARTERY TONUS BY PULSE CURVE GEOMETRY ANALYSIS - System and method for determining a condition of a cardiovascular system are provided. One or more pulse curves may be obtained. At least two points on the pulse curve, substantially including a dicrotic notch may be selected. A first parameter pertaining to a section of the pulse curve contained by the selected points may be calculated. A second parameter pertaining to a curve other than the pulse curve and traversing the selected points may be calculated. A notch coefficient may be computed by relating the first parameter to the second parameter. Other embodiments are described and claimed. | 08-05-2010 |
| 20120157863 | CIRCULATORY FUNCTION MEASUREMENT DEVICE - A circulatory function measurement device that accurately measures a subject's circulatory function. A pulse wave accumulated value calculation unit calculates a pulse wave accumulated value by accumulating the amplitude values of pulse waves in chorological order as the compressing pressure changes. A blood vessel hardness measurement unit measures blood vessel hardness based on the relationship between the calculated pulse wave accumulated value and the compressing pressure. | 06-21-2012 |
| 20120184861 | Diagnostic Classifications of Pulse Signal Waveform Data - Diagnostic classifications of pulse signal waveform data is provided. In one example, diagnosis or prediction of a disease may be performed by analyzing pulse signal waveform data, and comparing aspects of the pulse signal waveform data with a morphology pattern that has been found to indicate a subject is suffering from a specific disease. A pulse signal can be captured via wrist electrodes using bio-electric sensors based on an impedance plethysmographic principle, for example, and processed using feature extraction for diagnosis and assessment of the subject's proneness to a disease. Analysis of the pulse signal and pulse morphology patterns provides an in-vitro, non-invasive, and low-cost method for diagnosing diseases. | 07-19-2012 |
| 20120226175 | TOUCH-SENSITIVE DISPLAY APPARATUS CAPABLE OF MEASURING PULSE RATE AND METHOD THEREOF - A touch-sensitive display apparatus includes a multi-touch screen, a processor, and a network unit. The processor controls the apparatus to enter a pulse rate measuring mode, records the number of the touched touch points in each scanning period, and determines a curve according to all the recorded numbers within a preset period, the number of wave crests of the curve, and pulse rates per minute according to the number of the wave crests. A related method is also provided. | 09-06-2012 |
| 20130018272 | PULSE WAVE VELOCITY MEASUREMENT DEVICE, PULSE WAVE VELOCITY MEASUREMENT METHOD AND PULSE WAVE VELOCITY MEASUREMENT PROGRAMAANM Hori; AtsushiAACI Osaka-shiAACO JPAAGP Hori; Atsushi Osaka-shi JP - A pulse wave velocity measurement device comprises a pulse wave detection unit ( | 01-17-2013 |
| 20130060154 | ATRIAL FIBRILLATION DECISION APPARATUS, AND METHOD AND PROGRAM FOR DECIDING PRESENCE OF ATRIAL FIBRILLATION - An atrial fibrillation decision apparatus includes an acquisition unit that acquires a detected waveform signal indicating a detection result of an electrocardiogram or pulse wave, an RR interval calculation unit that calculates a parameter corresponding to the RR interval with respect to each frame on the basis of a spectrum of each frame obtained through frequency analysis of the detected waveform signal acquired, and an RR waveform signal that indicates a temporal change of the parameter, a power calculation unit that calculates a temporal change of power of a predetermined frequency band of the RR waveform signal, and a decision unit that decides whether the calculated power satisfies a specific condition and outputs information indicating whether atrial fibrillation is taking place, on the basis of the detection result. | 03-07-2013 |
| 20130296723 | PORTABLE BLOOD PRESSURE MEASURING APPARATUS AND BLOOD PRESSURE MEASURING METHOD IN PORTABLE TERMINAL - A method and apparatus for readily measuring a blood pressure without using a cuff includes measuring, by a portable blood pressure measuring apparatus, an electrocardiogram signal and a pulse wave signal, transmitting the measured electrocardiogram signal and pulse wave signal to a portable terminal, calculating, by the portable terminal, a Pulse Transit Time (PTT) and a Pulse Wave Velocity (PWV) using the transmitted electrocardiogram signal and the pulse wave signal, and calculating a blood pressure value based on the PTT and the PWV. Therefore, users may readily measure a blood pressure at any time and place and may be provided with a customized blood pressure measurement result. | 11-07-2013 |
| 20160058393 | DIAGNOSTIC APPARATUS, DIAGNOSTIC METHOD, AND COMPUTER-READABLE STORAGE MEDIUM - A sensor part has sensor cells provided in a matrix arrangement on a sensor that detects a pulse within a region in which the pulse of a diagnostic target is detected, in a state in which a pressure is applied to the region through the sensor. A diagnostic apparatus acquires a distribution of a pulse waveform based on the pulse detected in a state in which the pressure is constant, determines observation positions within the region, and determines a maximum amplitude at the observation positions that are determined by increasing the pressure, based on the distribution of the pulse waveform. A digitized score of the pulse at each observation position is computed based on the pressure at a time when the pulse waveform having the maximum amplitude is obtained at each observation position. | 03-03-2016 |
| 20160198967 | METHOD AND SYSTEM FOR DETECTING SIGNALS OF PULSE DIAGNOSIS, AND DETECTING DEVICE OF PULSE DIAGNOSIS | 07-14-2016 |
