Patents by Inventor Jung-Hao Wang

Jung-Hao Wang has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Publication number: 20230203530
    Abstract: This disclosure relates to an efficient protein expression system that utilizes piggyBac transposons and/or regulatory elements.
    Type: Application
    Filed: February 18, 2021
    Publication date: June 29, 2023
    Inventors: Ji Chen, Yu Zhang, Jung-hao Wang, Yarong Li, Bin Zhao, Dujuan Lian, Yuchen Zhang, Cui Huang, Zheng Zhang, Jiexing Cai
  • Publication number: 20230204558
    Abstract: A water quality monitoring device and a monitoring method thereof are provided. The water quality monitoring device includes a water tank, a first and a second optical detection devices and a control circuit. The water tank has an accommodating space to carry a liquid. The first optical detection device provides a first light to detect and obtain a first reference light intensity, a first scattered light intensity, and a first penetrating light intensity. The second optical detection device provides a second light to detect and obtain a second reference light intensity, a second scattered light intensity, and a second penetrating light intensity. The control circuit calculates a water quality detection value of the liquid based on the first reference light intensity, the first scattered light intensity, the first penetrating light intensity, the second reference light intensity, the second scattered light intensity, and the second penetrating light intensity.
    Type: Application
    Filed: December 24, 2021
    Publication date: June 29, 2023
    Applicant: Industrial Technology Research Institute
    Inventors: Chen-Hua Chu, Chun-Kuo Liu, Yi-Hong Liu, Chi-Fan Wang, Jung-Hao Wang, Sheng-Wei Peng, Yu-Xuan Lin
  • Patent number: 11134861
    Abstract: An exercise state evaluation method having the following steps is provided. The steps includes: obtaining a plurality of sensing signals by a foot information sensing module; recording a receiving time of each of the sensing signals by a processing unit and generating a plurality of pressure values, a plurality of center of gravity values, and a center of gravity trajectory information corresponding a human body according to each of the sensing signals; determining a start time, an acting time and a finish time corresponding to an exercise according to the receiving time, the pressure values, the center of gravity values and the center of gravity trajectory information; obtaining an act time value according to the start time, the acting time and the finish time; and integrating the pressure values, the center of gravity values, the center of gravity trajectory information and the act time value to an user interface.
    Type: Grant
    Filed: August 15, 2019
    Date of Patent: October 5, 2021
    Assignees: Industrial Technology Research Institute, National Taiwan University of Sport
    Inventors: Jian-Hong Wu, Ren-Der Jean, Pin-Chou Li, Jyh-How Huang, Jung-Hao Wang, Szu-Ju Li
  • Publication number: 20210190752
    Abstract: A multi-function water quality monitoring device is provided, which includes a multi-function water quality monitoring probe and a control module. The multi-function water quality monitoring probe includes a first signal electrode, a first sensing electrode, a second signal electrode and a second sensing electrode. The control module is connected to the probe. When the control module outputs a first time-variant signal to drive the first signal electrode, the first sensing electrode outputs a first water quality signal. When the control module outputs a second time-variant signal to drive the second signal electrode, the first sensing electrode and the second sensing electrode output the first sensing signal and a second sensing signal respectively. When the control module outputs the first time-variant signal and the second time-variant signal to simultaneously drive the first signal electrode and the second signal electrode, the first sensing electrode outputs the first water quality signal.
    Type: Application
    Filed: December 18, 2020
    Publication date: June 24, 2021
    Inventors: SZU-JU LI, LI-DUAN TSAI, JUNG-HAO WANG, ZHI-SHENG HUANG, CHUN-LIN CHENG
  • Patent number: 10895561
    Abstract: An embedding sensor module includes a cylinder and at least one flake sensor. A fluid tank is surrounded by the cylinder. The cylinder has a plurality of orifice connected to the fluid tank. The flake sensor is embedded in the fluid tank.
    Type: Grant
    Filed: December 15, 2017
    Date of Patent: January 19, 2021
    Assignee: INDUSTRIAL TECHNOLOGY RESEARCH INSTITUTE
    Inventors: Jung-Hao Wang, Che-Hsin Lin, Wei-Sin Kao, Pai-Hao Wu, Chen-Hua Chu, Cheng-Hung San
  • Patent number: 10779772
    Abstract: A movement assessing method and a movement assessing system are provided. The movement assessing method includes the following steps. At least one limb angle is obtained. A limb position accuracy is analyzed according to the limb angle. A center of gravity is obtained. A balance accuracy is analyzed according to the center of gravity. A movement index is calculated via a limb weight and a balance weight according to at least the limb position accuracy and the balance accuracy.
    Type: Grant
    Filed: November 3, 2017
    Date of Patent: September 22, 2020
    Assignee: INDUSTRIAL TECHNOLOGY RESEARCH INSTITUTE
    Inventors: Hsin-Hung Pan, Jung-Hao Wang, Guan-Ting Chen, Yao-Hsien Huang, Hsien-Te Peng
  • Publication number: 20200054248
    Abstract: An exercise state evaluation method having the following steps is provided. The steps includes: obtaining a plurality of sensing signals by a foot information sensing module; recording a receiving time of each of the sensing signals by a processing unit and generating a plurality of pressure values, a plurality of center of gravity values, and a center of gravity trajectory information corresponding a human body according to each of the sensing signals; determining a start time, an acting time and a finish time corresponding to an exercise according to the receiving time, the pressure values, the center of gravity values and the center of gravity trajectory information; obtaining an act time value according to the start time, the acting time and the finish time; and integrating the pressure values, the center of gravity values, the center of gravity trajectory information and the act time value to an user interface.
    Type: Application
    Filed: August 15, 2019
    Publication date: February 20, 2020
    Applicants: Industrial Technology Research Institute, National Taiwan University of Sport
    Inventors: Jian-Hong Wu, Ren-Der Jean, Pin-Chou Li, Jyh-How Huang, Jung-Hao Wang, Szu-Ju Li
  • Patent number: 10383537
    Abstract: A physiological signal measuring method and a physiological signal measuring device are provided. The physiological signal measuring method includes the following steps: A first inputting signal having a first frequency, a second inputting signal having a second frequency and a third inputting signal having a third frequency are respectively inputted to at least two electrode sheets attached on a skin. A first impedance value corresponding to the first inputting signal, a second impedance value corresponding to the second inputting signal and a third impedance value corresponding to the third inputting signal are respectively measured. An interference impedance between the electrode sheets and the skin is obtained according to the first frequency, the second frequency, the third frequency, the first impedance value, the second impedance value and the third impedance value. A measured physiological signal is corrected according to the interference impedance to obtain a corrected physiological signal.
    Type: Grant
    Filed: August 18, 2017
    Date of Patent: August 20, 2019
    Assignee: INDUSTRIAL TECHNOLOGY RESEARCH INSTITUTE
    Inventors: Szu-Ju Li, Pai-Hao Wu, I-Cherng Chen, Hsin-Hung Pan, Jung-Hao Wang, Ren-Der Jean, Meng-Song Yin, Chun-Te Chuang
  • Publication number: 20190187112
    Abstract: An embedding sensor module includes a cylinder and at least one flake sensor. A fluid tank is surrounded by the cylinder. The cylinder has a plurality of orifice connected to the fluid tank. The flake sensor is embedded in the fluid tank.
    Type: Application
    Filed: December 15, 2017
    Publication date: June 20, 2019
    Applicant: INDUSTRIAL TECHNOLOGY RESEARCH INSTITUTE
    Inventors: Jung-Hao WANG, Che-Hsin LIN, Wei-Sin KAO, Pai-Hao WU, Chen-Hua CHU, Cheng-Hung SAN
  • Publication number: 20180168474
    Abstract: A physiological signal measuring method and a physiological signal measuring device are provided. The physiological signal measuring method includes the following steps: A first inputting signal having a first frequency, a second inputting signal having a second frequency and a third inputting signal having a third frequency are respectively inputted to at least two electrode sheets attached on a skin. A first impedance value corresponding to the first inputting signal, a second impedance value corresponding to the second inputting signal and a third impedance value corresponding to the third inputting signal are respectively measured. An interference impedance between the electrode sheets and the skin is obtained according to the first frequency, the second frequency, the third frequency, the first impedance value, the second impedance value and the third impedance value. A measured physiological signal is corrected according to the interference impedance to obtain a corrected physiological signal.
    Type: Application
    Filed: August 18, 2017
    Publication date: June 21, 2018
    Applicant: INDUSTRIAL TECHNOLOGY RESEARCH INSTITUTE
    Inventors: Szu-Ju LI, Pai-Hao WU, I-Cherng CHEN, Hsin-Hung PAN, Jung-Hao WANG, Ren-Der JEAN, Meng-Song YIN, Chun-Te CHUANG
  • Publication number: 20180140259
    Abstract: A movement assessing method and a movement assessing system are provided. The movement assessing method includes the following steps. At least one limb angle is obtained. A limb position accuracy is analyzed according to the limb angle. A center of gravity is obtained. A balance accuracy is analyzed according to the center of gravity. A movement index is calculated via a limb weight and a balance weight according to at least the limb position accuracy and the balance accuracy.
    Type: Application
    Filed: November 3, 2017
    Publication date: May 24, 2018
    Applicant: INDUSTRIAL TECHNOLOGY RESEARCH INSTITUTE
    Inventors: Hsin-Hung PAN, Jung-Hao WANG, Guan-Ting CHEN, Yao-Hsien HUANG, Hsien-Te PENG
  • Patent number: 9823141
    Abstract: A sensing device has a first substrate, a second substrate, a plurality of sets of first electrodes, a plurality of second electrodes, a plurality of first axis signal lines, a plurality of second axis signal lines, and a plurality of second signal lines. The second substrate is above the first substrate and has a reset structure. The second electrodes are on the first surface of the second substrate in array. Each set of first electrodes is on the first substrate in array, corresponding to one of the plurality of second electrodes, and having at least one first axis electrode and at least one second axis electrode. The first axis electrode and the second axis electrode both partially overlap with the corresponding second electrode.
    Type: Grant
    Filed: January 25, 2016
    Date of Patent: November 21, 2017
    Assignee: INDUSTRIAL TECHNOLOGY RESEARCH INSTITUTE
    Inventors: Szu-Ju Li, Jung-Hao Wang, Hsin-Hung Pan, Meng-Song Yin
  • Publication number: 20160363489
    Abstract: A sensing device has a first substrate, a second substrate, a plurality of sets of first electrodes, a plurality of second electrodes, a plurality of first axis signal lines, a plurality of second axis signal lines, and a plurality of second signal lines. The second substrate is above the first substrate and has a reset structure. The second electrodes are on the first surface of the second substrate in array. Each set of first electrodes is on the first substrate in array, corresponding to one of the plurality of second electrodes, and having at least one first axis electrode and at least one second axis electrode. The first axis electrode and the second axis electrode both partially overlap with the corresponding second electrode.
    Type: Application
    Filed: January 25, 2016
    Publication date: December 15, 2016
    Inventors: Szu-Ju Li, Jung-Hao Wang, Hsin-Hung Pan, Meng-Song Yin