Patents by Inventor Shian LIU
Shian LIU 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).
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Publication number: 20250190021Abstract: A foldable electronic apparatus is provided and comprises a base unit and a display unit. The display unit includes: a main panel body having a first side and a bottom side perpendicular to each other, in which the bottom side is connected to the base unit; a first folding module provided on the first side and having at least one first encoding unit; a first side panel body provided on the first folding module; and a flexible screen including a main display area and a first side display area. The first encoding unit is used to detect a first angle between the main panel body and the first side panel body, and display states of the main display area and the first side display area are switched by the foldable electronic apparatus according to the first angle.Type: ApplicationFiled: October 21, 2024Publication date: June 12, 2025Inventors: Ching-Hui Yen, Yu-Shian Liu, Ya-Hui Chen
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Publication number: 20250148795Abstract: A pallet positioning method includes: defining a size parameter of a pallet; defining a pallet feature of the pallet according to the size parameter; obtaining an on-site image; defining a projection datum; calculating a projection plane coordinate based on the projection datum; transforming the on-site image to a perspective adjusted image according to the projection plane coordinate; obtaining a first pallet image in the perspective adjusted image according to the pallet feature; calculating an inclined angle of the first pallet image; rotating the first pallet image according to the inclined angle; obtaining a second pallet image; obtaining a position information of the pallet based on the second pallet image; and obtaining a three dimensional information of the pallet according to the inclined angle and the position information. A pallet positioning system is also disclosed.Type: ApplicationFiled: August 22, 2024Publication date: May 8, 2025Inventors: Jan-Shian LIU, Hao-Yu CHIEN, Yi-Fu TIAN, Yuan-Hsiang YANG
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Publication number: 20240402002Abstract: A system to convert vibration to a sound signal includes a vibration sensing device and a control device. The vibration sensing device is disposed on the surface of a device under test (DUT), and detects a time-domain vibration signal when the DUT is in operation. The control device receives the time-domain vibration signal, and converts the time-domain vibration signal into a sound signal. The sound signal is loaded in a computer playable audio file.Type: ApplicationFiled: November 17, 2023Publication date: December 5, 2024Inventors: Ding-Shian LIU, Chia WANG
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Publication number: 20230416813Abstract: This disclosure provides a biochip comprising a plurality of wells. The biochip includes a membrane that is disposed in or adjacent to an individual well of the plurality of wells. The membrane comprises a nanopore, and the individual well comprises an electrode that detects a signal upon ionic flow through the pore in response to a species passing through or adjacent to the nanopore. The electrode can be a non-sacrificial electrode. A lipid bilayer can be formed over the plurality of wells using a bubble.Type: ApplicationFiled: June 19, 2023Publication date: December 28, 2023Applicant: Roche Sequencing Solutions, Inc.Inventors: Randall W. Davis, Edward Shian Liu, Eric Takeshi Harada, Anne Aguirre, Andrew Trans, James Pollard, Cynthia Cech
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Publication number: 20230380043Abstract: A display device is provided. The display device includes a supporting stand, a display, a wireless charging module and a control module. The display is disposed on the supporting stand and the orientation of the display is changeable between portrait and landscape relative to the supporting stand. The wireless charging module includes a transmitting unit and a receiving unit disposed on the display and the supporting stand respectively. The transmitting unit has a transmitting coil. The receiving unit is coupled to the electronic component. The receiving unit has a receiving coil. The control module controls the transmitting unit to transmit mixed signals. When the distance between the receiving coil and the transmitting coil is less than a maximum sensing distance, the receiving unit receives the mixed signals and selectively transmits the enabling signal to at least one of the electronic components according to the mixed signal.Type: ApplicationFiled: August 8, 2022Publication date: November 23, 2023Inventors: Yu-Shian LIU, Ching-Hui YEN
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Patent number: 11825582Abstract: A display device is provided. The display device includes a supporting stand, a display, a wireless charging module and a control module. The display is disposed on the supporting stand and the orientation of the display is changeable between portrait and landscape relative to the supporting stand. The wireless charging module includes a transmitting unit and a receiving unit disposed on the display and the supporting stand respectively. The transmitting unit has a transmitting coil. The receiving unit is coupled to the electronic component. The receiving unit has a receiving coil. The control module controls the transmitting unit to transmit mixed signals. When the distance between the receiving coil and the transmitting coil is less than a maximum sensing distance, the receiving unit receives the mixed signals and selectively transmits the enabling signal to at least one of the electronic components according to the mixed signal.Type: GrantFiled: August 8, 2022Date of Patent: November 21, 2023Assignee: SYNCMOLD ENTERPRISE CORP.Inventors: Yu-Shian Liu, Ching-Hui Yen
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Patent number: 11746491Abstract: A construction process of soil nailing wall for geological disaster control is provided, which uses a construction equipment of soil nailing wall for geological disaster control, including underframe, lifting assembly and etc.; a lifting assembly is installed on the left side of the upper side of the underframe. When in use, the disclosure can automatically cut off the tree trunks extending out of the slope surface, and then install the grouting rods in the soil slope holes. At the same time, the disclosure can adapt to the tree trunks with different bending degrees to cut them, which solves the problem of tree trunks interfering with the construction, greatly improves the efficiency, prevents the cut tree trunks from falling onto the slope, avoids damaging the slope surface, and can adapt to a variety of situations to cut off the tree trunks.Type: GrantFiled: November 15, 2022Date of Patent: September 5, 2023Assignee: Qingdao Geo-Engineering Survering Institute (Qingdao Geological Exploration Development Bureau)Inventors: Honghua Liu, Lei Cao, Zhongsheng Wang, Jie Dong, Peng Yu, Wanlong Qu, Shian Liu, Zhaojie Gu, Jiani Fu
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Patent number: 11725236Abstract: This disclosure provides a biochip comprising a plurality of wells. The biochip includes a membrane that is disposed in or adjacent to an individual well of the plurality of wells. The membrane comprises a nanopore, and the individual well comprises an electrode that detects a signal upon ionic flow through the pore in response to a species passing through or adjacent to the nanopore. The electrode can be a non-sacrificial electrode. A lipid bilayer can be formed over the plurality of wells using a bubble.Type: GrantFiled: April 27, 2021Date of Patent: August 15, 2023Inventors: Randall W. Davis, Edward Shian Liu, Eric Takeshi Harada, Anne Aguirre, Andrew Trans, James Pollard, Cynthia Cech
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Publication number: 20230151578Abstract: A construction process of soil nailing wall for geological disaster control is provided, which uses a construction equipment of soil nailing wall for geological disaster control, including underframe, lifting assembly and etc.; a lifting assembly is installed on the left side of the upper side of the underframe. When in use, the disclosure can automatically cut off the tree trunks extending out of the slope surface, and then install the grouting rods in the soil slope holes. At the same time, the disclosure can adapt to the tree trunks with different bending degrees to cut them, which solves the problem of tree trunks interfering with the construction, greatly improves the efficiency, prevents the cut tree trunks from falling onto the slope, avoids damaging the slope surface, and can adapt to a variety of situations to cut off the tree trunks.Type: ApplicationFiled: November 15, 2022Publication date: May 18, 2023Inventors: Honghua LIU, Lei CAO, Zhongsheng WANG, Jie DONG, Peng YU, Wanlong QU, Shian LIU, Zhaojie GU, Jiani FU
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Publication number: 20210324462Abstract: This disclosure provides a biochip comprising a plurality of wells. The biochip includes a membrane that is disposed in or adjacent to an individual well of the plurality of wells. The membrane comprises a nanopore, and the individual well comprises an electrode that detects a signal upon ionic flow through the pore in response to a species passing through or adjacent to the nanopore. The electrode can be a non-sacrificial electrode. A lipid bilayer can be formed over the plurality of wells using a bubble.Type: ApplicationFiled: April 27, 2021Publication date: October 21, 2021Applicant: Roche Sequencing Solutions, Inc.Inventors: Randall W. DAVIS, Edward Shian LIU, Eric Takeshi HARADA, Anne AGUIRRE, Andrew TRANS, James POLLARD, Cynthia CECH
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Patent number: 11021745Abstract: This disclosure provides a biochip comprising a plurality of wells. The biochip includes a membrane that is disposed in or adjacent to an individual well of the plurality of wells. The membrane comprises a nanopore, and the individual well comprises an electrode that detects a signal upon ionic flow through the pore in response to a species passing through or adjacent to the nanopore. The electrode can be a non-sacrificial electrode. A lipid bilayer can be formed over the plurality of wells using a bubble.Type: GrantFiled: February 11, 2019Date of Patent: June 1, 2021Assignee: Roche Sequencing Solutions, Inc.Inventors: Randall W. Davis, Edward Shian Liu, Eric Takeshi Harada, Anne Aguirre, Andrew Trans, James Pollard, Cynthia Cech
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Publication number: 20190185927Abstract: This disclosure provides a biochip comprising a plurality of wells. The biochip includes a membrane that is disposed in or adjacent to an individual well of the plurality of wells. The membrane comprises a nanopore, and the individual well comprises an electrode that detects a signal upon ionic flow through the pore in response to a species passing through or adjacent to the nanopore. The electrode can be a non-sacrificial electrode. A lipid bilayer can be formed over the plurality of wells using a bubble.Type: ApplicationFiled: February 11, 2019Publication date: June 20, 2019Applicant: Genia Technologies, Inc.Inventors: Randall W. DAVIS, Edward Shian LIU, Eric Takeshi HARADA, Anne AGUIRRE, Andrew TRANS, James POLLARD, Cynthia CECH
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Patent number: 10273536Abstract: A biochip for molecular detection and sensing is disclosed. The biochip includes a substrate. The biochip includes a plurality of discrete sites formed on the substrate having a density of greater than five hundred wells per square millimeter. Each discrete site includes sidewalls disposed on the substrate to form a well. Each discrete site includes an electrode disposed at the bottom of the well. In some embodiments, the wells are formed such that cross-talk between the wells is reduced. In some embodiments, the electrodes disposed at the bottom of the wells are organized into groups of electrodes, wherein each group of electrodes shares a common counter electrode. In some embodiments, the electrode disposed at the bottom of the well has a dedicated counter electrode. In some embodiments, surfaces of the sidewalls are silanized such that the surfaces facilitate the forming of a membrane in or adjacent to the well.Type: GrantFiled: March 10, 2016Date of Patent: April 30, 2019Assignees: GENIA TECHNOLOGIES, INC., ROCHE MOLECULAR SYSTEMS, INC.Inventors: Randall W. Davis, Edward Shian Liu, Eric Takeshi Harada, Anne Aguirre, Andrew Trans, James Pollard, Cynthia Cech, Hui Tian, Robert Yuan, John Foster, Roger Chen
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Patent number: 10246743Abstract: This disclosure provides a biochip comprising a plurality of wells. The biochip includes a membrane that is disposed in or adjacent to an individual well of the plurality of wells. The membrane comprises a nanopore, and the individual well comprises an electrode that detects a signal upon ionic flow through the pore in response to a species passing through or adjacent to the nanopore. The electrode can be a non-sacrificial electrode. A lipid bilayer can be formed over the plurality of wells using a bubble.Type: GrantFiled: December 20, 2016Date of Patent: April 2, 2019Assignee: GENIA TECHNOLOGIES, INC.Inventors: Randall W. Davis, Edward Shian Liu, Eric Takeshi Harada, Anne Aguirre, Andrew Trans, James Pollard, Cynthia Cech
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Publication number: 20170198343Abstract: This disclosure provides a biochip comprising a plurality of wells. The biochip includes a membrane that is disposed in or adjacent to an individual well of the plurality of wells. The membrane comprises a nanopore, and the individual well comprises an electrode that detects a signal upon ionic flow through the pore in response to a species passing through or adjacent to the nanopore. The electrode can be a non-sacrificial electrode. A lipid bilayer can be formed over the plurality of wells using a bubble.Type: ApplicationFiled: December 20, 2016Publication date: July 13, 2017Inventors: Randall W. DAVIS, Edward Shian LIU, Eric Takeshi HARADA, Anne AGUIRRE, Andrew TRANS, James POLLARD, Cynthia CECH
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Patent number: 9567630Abstract: This disclosure provides a biochip comprising a plurality of wells. The biochip includes a membrane that is disposed in or adjacent to an individual well of the plurality of wells. The membrane comprises a nanopore, and the individual well comprises an electrode that detects a signal upon ionic flow through the pore in response to a species passing through or adjacent to the nanopore. The electrode can be a non-sacrificial electrode. A lipid bilayer can be formed over the plurality of wells using a bubble.Type: GrantFiled: October 22, 2014Date of Patent: February 14, 2017Assignee: Genia Technologies, Inc.Inventors: Randall W. Davis, Edward Shian Liu, Eric Takeshi Harada, Anne Aguirre, Andrew Trans, James Pollard, Cynthia Cech
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Publication number: 20160327507Abstract: A biochip for molecular detection and sensing is disclosed. The biochip includes a substrate. The biochip includes a plurality of discrete sites formed on the substrate having a density of greater than five hundred wells per square millimeter. Each discrete site includes sidewalls disposed on the substrate to form a well. Each discrete site includes an electrode disposed at the bottom of the well. In some embodiments, the wells are formed such that cross-talk between the wells is reduced. In some embodiments, the electrodes disposed at the bottom of the wells are organized into groups of electrodes, wherein each group of electrodes shares a common counter electrode. In some embodiments, the electrode disposed at the bottom of the well has a dedicated counter electrode. In some embodiments, surfaces of the sidewalls are silanized such that the surfaces facilitate the forming of a membrane in or adjacent to the well.Type: ApplicationFiled: March 10, 2016Publication date: November 10, 2016Inventors: Randall W. DAVIS, Edward Shian LIU, Eric Takeshi HARADA, Anne AGUIRRE, Andrew TRANS, James POLLARD, Cynthia CECH, Hui TIAN, Robert YUAN, John FOSTER, Roger CHEN
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Patent number: 9322062Abstract: A biochip for molecular detection and sensing is disclosed. The biochip includes a substrate. The biochip includes a plurality of discrete sites formed on the substrate having a density of greater than five hundred wells per square millimeter. Each discrete site includes sidewalls disposed on the substrate to form a well. Each discrete site includes an electrode disposed at the bottom of the well. In some embodiments, the wells are formed such that cross-talk between the wells is reduced. In some embodiments, the electrodes disposed at the bottom of the wells are organized into groups of electrodes, wherein each group of electrodes shares a common counter electrode. In some embodiments, the electrode disposed at the bottom of the well has a dedicated counter electrode. In some embodiments, surfaces of the sidewalls are silanized such that the surfaces facilitate the forming of a membrane in or adjacent to the well.Type: GrantFiled: October 22, 2014Date of Patent: April 26, 2016Inventors: Randall W. Davis, Edward Shian Liu, Eric Takeshi Harada, Anne Aguirre, Andrew Trans, James Pollard, Cynthia Cech, Hui Tian, Robert Yuan, John Foster, Roger Chen
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Publication number: 20150152494Abstract: This disclosure provides a biochip comprising a plurality of wells. The biochip includes a membrane that is disposed in or adjacent to an individual well of the plurality of wells. The membrane comprises a nanopore, and the individual well comprises an electrode that detects a signal upon ionic flow through the pore in response to a species passing through or adjacent to the nanopore. The electrode can be a non-sacrificial electrode. A lipid bilayer can be formed over the plurality of wells using a bubble.Type: ApplicationFiled: October 22, 2014Publication date: June 4, 2015Inventors: Randall W. DAVIS, Edward Shian LIU, Eric Takeshi HARADA, Anne AGUIRRE, Andrew TRANS, James POLLARD, Cynthia CECH
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Publication number: 20150153302Abstract: A biochip for molecular detection and sensing is disclosed. The biochip includes a substrate. The biochip includes a plurality of discrete sites formed on the substrate having a density of greater than five hundred wells per square millimeter. Each discrete site includes sidewalls disposed on the substrate to form a well. Each discrete site includes an electrode disposed at the bottom of the well. In some embodiments, the wells are formed such that cross-talk between the wells is reduced. In some embodiments, the electrodes disposed at the bottom of the wells are organized into groups of electrodes, wherein each group of electrodes shares a common counter electrode. In some embodiments, the electrode disposed at the bottom of the well has a dedicated counter electrode. In some embodiments, surfaces of the sidewalls are silanized such that the surfaces facilitate the forming of a membrane in or adjacent to the well.Type: ApplicationFiled: October 22, 2014Publication date: June 4, 2015Inventors: Randall W. DAVIS, Edward Shian LIU, Eric Takeshi HARADA, Anne AGUIRRE, Andrew TRANS, James POLLARD, Cynthia CECH