| Patent application number | Description | Published |
|---|
| 20080238414 | MOTOR FUNCTION MEASURING SENSOR, MOTOR FUNCTION MEASURING APPARATUS, AND MOTOR FUNCTION ANALYZING APPARATUS - A motion sensor for measuring motion information of a subject comprises a coil substrate having transmitting or receiving coils piled one on top of another and a holder in which the coil substrate is mounted. Formed on the holder are curved surfaces to which an adhesive sheet is stuck and at which the holder is attached to a nail of a subject via the adhesive sheet. Further, there is provided a casing where first and second containing space are formed to contain measurement instruments including an adhesive member where a plurality of the adhesive sheets are laid one on top of another, the motion sensor, and the like. | 10-02-2008 |
| 20080284413 | Method and system for detection of biomaterials using magnetic marker - Accurate measurement cannot be performed due to magnetic signals from magnetic impurities included in a specimen container. By finding a difference between two measurement signals obtained by applying an external magnetic field for orientation to respective normal and reverse directions, the magnetic signals from the magnetic impurities included in the specimen container which are not dependent on the external magnetic field for orientation can be cancelled. The influence of the magnetic impurities included in the specimen container is reduced, and the signal of the intended bound magnetic marker can be measured with high sensitivity. | 11-20-2008 |
| 20080306373 | Swallowing test apparatus - Disclosed is a swallowing test apparatus including a laryngeal part displacement detection apparatus for detecting a distance of two positions located laterally at a laryngeal part of a subject, a swallowing sound detection apparatus for detecting a swallowing sound of the patient during swallowing, a display, a processing apparatus for displaying a waveform representing the distance of the two positions at the laryngeal part generated based on a signal obtained from the laryngeal part displacement detection apparatus, and a waveform representing the swallowing sound generated based on a signal obtained from the swallowing sound detection apparatus on the display. | 12-11-2008 |
| 20090118648 | LIVING BODY INSPECTION SYSTEM, LIVING BODY INSPECTION APPARATUS, AND LIVING BODY INSPECTION METHOD - Motion of fingers of a subject is dynamically analyzed to provide an estimation index in a hardness of a muscle used in the motion of the fingers. A processing part calculates a speed and acceleration of two fingers on the basis of the motion data of the fingers obtained by a tapping detecting unit, calculates a ratio between the speed and the acceleration, and calculates as an estimation index a mechanical impedance regarding extending force of the fingers and a mechanical impedance regarding opening and closing force of the fingers by applying the calculated ratio to a predetermined equation based on a muscle dynamic model. | 05-07-2009 |
| 20090143665 | MAGNETIC DETECTION COIL AND APPARATUS FOR MAGNETIC FIELD MEASUREMENT - It is an aspect of the present invention to provide a magnetic detection coil | 06-04-2009 |
| 20090192418 | Moving Body Inspection Apparatus And Method of Comparing Phases Between Movement Waveforms - In a moving body inspection apparatus, sequential waveform data obtained from a movement sensor is analyzed, wherein a plurality of waveforms from the waveform data is generated; phases compared among a plurality of movement waveforms; and a result of comparing phases are displayed. A partial waveform in a frequency analysis time interval having a predetermined length is extracted from a plurality of the movement waveforms. A frequency analysis operation is performed for the extracted partial waveforms to calculate phases at maximum power frequencies in the frequency analysis time interval; a phase difference is calculated among a plurality of the movement waveforms. The peaks may be detected in a plurality of movement waveforms. Peak intervals are calculated as time intervals between adjoining peaks. The peaks among the movement waveforms are matched. Phase differences are calculated among a plurality of the movement waveforms. | 07-30-2009 |
| 20100106060 | METHOD OF ESTIMATING FINGER-TAPPING FORCE - In a bioinstrument system S of the present invention, a processor unit | 04-29-2010 |
| 20110054361 | MOTOR FUNCTION ESTIMATING SYSTEM, MOTOR FUNCTION ESTIMATING METHOD AND PROGRAM - The motor function estimating system | 03-03-2011 |
