Abstract: A blood pressure monitor including a cuff, a pressure sensor which detects a pressure in the cuff, a pressure regulating device which increases the pressure of the cuff, a pulse-amplitude determining device for determining an amplitude of each of pulses of a pulse wave which are produced in the cuff and detected by the pressure sensor while the cuff pressure is increased, a candidate determining device for determining, as a diastolic BP candidate, a pressure of the cuff which is detected by the pressure sensor and which corresponds to an amplitude of a first pulse of the pulses determined by the pulse-amplitude determining device, by judging whether the amplitude of the first pulse is not greater than a reference value which is smaller than an amplitude of at least one second pulse of the pulses, by a predetermined proportion of the amplitude of the second pulse, the amplitude of the second pulse being determined by the pulse-amplitude determining device after the amplitude of the first pulse is determined, a

Abstract: An automatic blood pressure measuring system employs an oscillometric method, a cuff applying pressure to an arterial vessel and then gradually reducing the pressure. On a distal side of the cuff, as seen from the heart of the subject, a pulse wave sensor presses against a distal section of the vessel. If the pulse wave sensor detects a pulse wave from the distal section of the vessel after the force applied by the cuff reaches a first target value, indicating that the initial pressure was insufficiently low, the force is increased to a second target value. After determining a relationship between the blood pressure and the magnitude of the pulse wave detected by the pulse wave sensor, blood pressure can be monitored by the pulse wave sensor.

Abstract: An apparatus for detecting a pressure pulse wave from a living subject, including a pressure pulse wave sensor which detects a pressure pulse wave which is produced from an artery of the subject, a pressing device which presses the sensor against the artery via a body surface of the subject, a position changing device which moves the sensor and thereby changes a position of the sensor relative to the artery in a direction of width of the artery, and a control device which determines, based on the pulse wave detected by the sensor, an optimum pressing position of the sensor where the sensor is pressed against the artery by the pressing device, and controls the position changing device to position the sensor at the optimum pressing position, the control device functioning as a moving device for controlling the position changing device to move the sensor relative to the artery while the sensor is pressed on the body surface by the pressing device, a determining device for determining the optimum pressing positio

Abstract: A pulse wave detecting apparatus including a pulse wave sensor having a press surface and including at least one array of pressure sensing elements provided in the press surface; a pressing device which produces a pressing force to press the press surface of the pulse wave sensor against an arterial vessel via body surface; a regulating device for changing the pressing force of the pressing device applied to the pulse wave sensor, determining an optimum value of the pressing force based on at least one of the pulse wave signals generated from the pressure sensing elements, and holding the pressing force of the pressing device at the thus determined optimum value; a lower-peak variation determining device for determining a lower peak of at least one pulse of each of the pulse waves represented by the respective pulse wave signals from the pressure sensing elements, the lower-peak variation determining device iteratively determining a variation of the respective lower peaks of the pulse waves with respect to th

Abstract: A blood pressure monitor system including a pressure sensor having a press surface and including pressure sensing elements provided in the press surface; a pressing device which presses the pressure sensor against an artery via a body surface so that each pressure sensing element measures a pressure value at the body surface; a first device for determining an optimum pressing force of the pressing device at which a portion of a wall of the artery is flattened under the pressure sensor; a second device for changing pressing forces of the pressing device, and determining a point of inflection of a curve representing a relationship between the changed pressing forces and pressure values measured by the pressure sensor at the body surface; a third device for determining a correction value based on the pressure value of the determined point of inflection; and a blood-pressure determining device for operating the pressing device to maintain the determined optimum pressing force and press the pressure sensor against

Abstract: An oscillometric-type automatic blood pressure measuring apparatus, including a pressure device such as a cuff, an oscillometric-type blood pressure measuring device for (a) occluding an artery of a patient by increasing the cuff pressure, (b) detecting a first pulse wave transmitted from the artery to the cuff by reducing the increased cuff pressure, and (c) determining a first systolic blood pressure of the patient based on variation in amplitude of successive pulses of the first pulse wave, a display for indicating the determined first systolic blood pressure, a detecting device disposed downstream of the cuff, for detecting a second pulse wave produced from a portion of the artery located downstream of the cuff, a first determining device for determining, as an initial-pulse detection pressure, a cuff pressure at the time of detection of an initial pulse of the second pulse wave after the commencement of reduction of the cuff pressure in each of periodic measurement cycles, a second determining device for

Abstract: A blood pressure monitor system for monitoring blood pressure of a living subject, including a pulse wave detecting device detecting a first pulse wave produced from an artery of the subject via a body surface of the subject over the artery, an inflatable cuff pressing a body portion of the subject, a blood pressure measuring device measuring a systolic and a mean blood pressure of the subject, based on variation in amplitude of pulses of a second pulse wave transmitted to the cuff by changing a pressure in the cuff, and a blood pressure determining device determining a relationship between blood pressure and pulse wave magnitude, based on the systolic and mean blood pressure values measured by the blood pressure measuring device and an upper-peak magnitude and a mean magnitude of the first pulse wave detected by the pulse wave detecting device, and continuously determining, according to the relationship, blood pressure values of the subject based on magnitudes of the first pulse wave detected by the pulse wa

Abstract: A blood pressure measure system for iteratively measuring a blood pressure of a living subject at predetermined intervals of time, the monitor system including a pressing device pressing a body portion of the subject; a regulating device regulating the pressing force of the pressing device; a blood pressure measuring device iteratively measuring at least a systolic blood pressure of the subject at the intervals of time, each of the iterative blood pressure measurements being effected when the pressing force of the pressing device is decreased at a predetermined rate by the regulating device; a pulse rate measuring device measuring, as a pulse rate, a pulse number per unit time of the subject; a first determining device determining, by utilizing the pulse rate, a pressing force increase amount such that as the pulse rate is increased the increase amount is decreased; and a second determining device determining a target pressing force to be greater by the increase amount than a systolic blood pressure measured

Abstract: A method and apparatus for efficiently coupling a transceiver to an AC power line transmission system. The preferred embodiment of the coupling system comprises a line coupling network and first and second filter ports. The first filter port is connected to a resonant circuit having bandpass filtering characteristics adapted to the specific needs of the transmitter portion of the transceiver. The second filter port is isolated from the low impedance of the AC power line and is connected to a high quality factor filter having bandpath filtering characteristics adapted to the specific needs of the receiver portion of the transceiver.

Abstract: An automatic blood pressure measuring apparatus including an occluding device having a cuff to apply a pressure to a body member of a subject, and a blood-pressure determining device to determine a blood pressure according to a variation in a pulse wave in relation to a change in the cuff pressure. The apparatus comprises a detector for monitoring a blood circulatory system of the subject, and generating signals representing an abnormality associated with the circulatory system. The apparatus further comprises a control device for actuating the occluding device to apply the cuff pressure to the body member, and causing the blood-pressure determining device to execute a predetermined series of blood-pressure measuring steps to measure the blood pressure, thereby permitting an automatic measurement of the blood pressure of the subject when the blood circulatory system is found abnormal by the detector.