Patents Assigned to MING YOUNG BIOMEDICAL CORP.
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Patent number: 10290444Abstract: A cloth material that can form an electronic component includes a cloth material layer, which includes at least one crevice; and a conductive area included in the cloth material layer, wherein a shape of the crevice and a shape of the conductive area change with an outside force. A cloth material that can form an electronic component includes two cloth material layers stacked to form a crevice therebetween; and a conductive area located on the two cloth material layers spanning from one side of the crevice to the other side of the crevice, wherein a shape of the crevice and the conductive area changes with an outside force.Type: GrantFiled: September 3, 2008Date of Patent: May 14, 2019Assignee: MING YOUNG BIOMEDICAL CORP.Inventors: Changming Yang, Tzulin Yang, Chingwen Yang, Hao Yang
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Patent number: 9462978Abstract: A sensing device comprises a substrate material layer and a plurality of sensors provided on the substrate material layer. The plurality of sensors is electrically connected to form a loop. The loop has two output ends. There is a loop output value between the two output ends. The loop output value varies when the sensors are subjected to an external force. Each sensor has one induction value. The induction value of each sensor is different from each other. A total induction value of any one or more sensors is different from a total induction value of the other one or more sensors.Type: GrantFiled: January 24, 2009Date of Patent: October 11, 2016Assignee: Ming Young Biomedical Corp.Inventors: Chang-Ming Yang, Tzulin Yang, Hao Yang
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Patent number: 8961439Abstract: A system for analyzing gait using textile sensors is disclosed. A system includes a sock sensing system, which comprises a sock and at least one switch, tension sensor, or pressure sensor for sensing a posture or movement; and a processor configured to receive signals from the sock sensing system and to analyze a gait parameter, wherein the processor is configured to calculate the gait parameter using a signal from the sock sensing system as a trigger point.Type: GrantFiled: March 5, 2012Date of Patent: February 24, 2015Assignee: Ming Young Biomedical Corp.Inventors: Chang-Ming Yang, Tzu Lin Yang, Ching Wen Yang, Hao Yang
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Publication number: 20120253234Abstract: A system for analyzing gait using textile sensors is disclosed. A system includes a sock sensing system, which comprises a sock and at least one switch, tension sensor, or pressure sensor for sensing a posture or movement; and a processor configured to receive signals from the sock sensing system and to analyze a gait parameter, wherein the processor is configured to calculate the gait parameter using a signal from the sock sensing system as a trigger point.Type: ApplicationFiled: March 5, 2012Publication date: October 4, 2012Applicant: MING YOUNG BIOMEDICAL CORP.Inventors: Chang-Ming Yang, Tzu Lin Yang, Ching Wen Yang, Hao Yang
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Publication number: 20120215076Abstract: An article for detecting physiological function and posture status is disclosed. The article touches body directly or indirectly; wherein at least a group of non-posture physiological sensors are configured on this object and at least a switch, tension sensor, pressure sensor or pressure applicator are coupled with or touch this object; the switch, tension sensor, pressure sensor or pressure applicator are configured on a different or the same object with the physiological sensors, or divided into two parts that contact each other while external force applied; the non-posture physiological sensors sense the physiological function and posture status of the user.Type: ApplicationFiled: February 21, 2012Publication date: August 23, 2012Applicant: MING YOUNG BIOMEDICAL CORP.Inventors: Chang-Ming Yang, Tzu-Lin Yang, Hao Yang
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Publication number: 20110282164Abstract: A sensing device comprises a substrate material layer and a plurality of sensors provided on the substrate material layer. The plurality of sensors is electrically connected to form a loop. The loop has two output ends. There is a loop output value between the two output ends. The loop output value varies when the sensors are subjected to an external force. Each sensor has one induction value. The induction value of each sensor is different from each other. A total induction value of any one or more sensors is different from a total induction value of the other one or more sensors.Type: ApplicationFiled: January 24, 2009Publication date: November 17, 2011Applicant: MING YOUNG BIOMEDICAL CORP.Inventors: Chang-Ming Yang, Tzulin Yang, Hao Yang