Patents by Inventor Zachary WU

Zachary WU 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: 20240192331
    Abstract: A method for reducing interference in a light ranging and detection (LiDAR) system is provided. The method comprises receiving noise by a light detector of the LiDAR system, determining whether the received noise is caused by interference from at least one other LiDAR system, and in accordance with a determination that the detected noise is caused by interference from the at least one other LiDAR system, de-synchronizing the LiDAR system with the at least one other LiDAR system.
    Type: Application
    Filed: December 7, 2023
    Publication date: June 13, 2024
    Applicant: Innovusion, Inc.
    Inventors: Zachary Wu, Philip Andrew Wingard, Wenxu Zhang, Peng Wan
  • Patent number: 11929152
    Abstract: Techniques for predicting a pair of an enzyme primary sequence and a substrate, and interaction probability for the pair are described. An exemplary method includes receiving a request to predict a pair of an enzyme primary sequence and a substrate, and interaction probability for the pair; combining an enzyme vector, a substrate vector, and an interaction indication for the enzyme and substrate to form a machine learning model input; applying a machine learning model to the machine learning model input to predict the pair of an enzyme primary sequence and a substrate, and interaction probability for the pair; and outputting a result of the application of the machine learning model including the predicted pair of an enzyme primary sequence and a substrate, and interaction probability for the pair.
    Type: Grant
    Filed: June 9, 2020
    Date of Patent: March 12, 2024
    Assignee: Amazon Technologies, Inc.
    Inventors: Alexander Sewall Ford, Zachary Wu, Layne Christopher Price, Franziska Seeger, Yen Ling Adelene Sim
  • Patent number: 11842005
    Abstract: In some examples, a touch screen includes resistors between the touch electrodes and routing traces. In some examples, the resistors can include a transparent conductive material included in the touch electrodes of the touch screen. The resistors can be located in a border region of the touch screen that can surround an active area of the touch screen that can include the touch electrodes and display pixels of the touch screen, for example. In some examples, the resistors included in the touch screen can have different resistances from each other and the same outer dimensions as one another. The resistors can reduce the variation in resistance from channel to channel in the touch screen, which can improve touch screen performance, for example.
    Type: Grant
    Filed: February 13, 2023
    Date of Patent: December 12, 2023
    Assignee: Apple Inc.
    Inventors: Zhou Lu, Isaac Wing-Tak Chan, Justin Zachary Wu, Rangarajan Krishnan, Qingbo Guo, Chao Zhang
  • Publication number: 20230245722
    Abstract: The disclosure provides systems and methods for generating a signal peptide amino acid sequence using deep learning.
    Type: Application
    Filed: June 4, 2020
    Publication date: August 3, 2023
    Inventors: Michael LISZKA, Zachary WU, Kevin YANG
  • Publication number: 20230234989
    Abstract: The disclosure provides for artificial signal peptides generated by systems and methods utilizing deep learning.
    Type: Application
    Filed: June 4, 2021
    Publication date: July 27, 2023
    Inventors: Michael LISZKA, Alina BATZILLA, Zachary WU, Frances ARNOLD
  • Publication number: 20230195254
    Abstract: In some examples, a touch screen includes resistors between the touch electrodes and routing traces. In some examples, the resistors can include a transparent conductive material included in the touch electrodes of the touch screen. The resistors can be located in a border region of the touch screen that can surround an active area of the touch screen that can include the touch electrodes and display pixels of the touch screen, for example. In some examples, the resistors included in the touch screen can have different resistances from each other and the same outer dimensions as one another. The resistors can reduce the variation in resistance from channel to channel in the touch screen, which can improve touch screen performance, for example.
    Type: Application
    Filed: February 13, 2023
    Publication date: June 22, 2023
    Inventors: Zhou LU, Isaac Wing-Tak CHAN, Justin Zachary WU, Rangarajan KRISHNAN, Qingbo GUO, Chao ZHANG
  • Patent number: 11592929
    Abstract: In some examples, a touch screen includes resistors between the touch electrodes and routing traces. In some examples, the resistors can include a transparent conductive material included in the touch electrodes of the touch screen. The resistors can be located in a border region of the touch screen that can surround an active area of the touch screen that can include the touch electrodes and display pixels of the touch screen, for example. In some examples, the resistors included in the touch screen can have different resistances from each other and the same outer dimensions as one another. The resistors can reduce the variation in resistance from channel to channel in the touch screen, which can improve touch screen performance, for example.
    Type: Grant
    Filed: January 24, 2022
    Date of Patent: February 28, 2023
    Assignee: Apple Inc.
    Inventors: Zhou Lu, Isaac Wing-Tak Chan, Justin Zachary Wu, Rangarajan Krishnan, Qingbo Guo, Chao Zhang
  • Publication number: 20220147217
    Abstract: In some examples, a touch screen includes resistors between the touch electrodes and routing traces. In some examples, the resistors can include a transparent conductive material included in the touch electrodes of the touch screen. The resistors can be located in a border region of the touch screen that can surround an active area of the touch screen that can include the touch electrodes and display pixels of the touch screen, for example. In some examples, the resistors included in the touch screen can have different resistances from each other and the same outer dimensions as one another. The resistors can reduce the variation in resistance from channel to channel in the touch screen, which can improve touch screen performance, for example.
    Type: Application
    Filed: January 24, 2022
    Publication date: May 12, 2022
    Inventors: Zhou LU, Isaac Wing-Tak CHAN, Justin Zachary WU, Rangarajan KRISHNAN, Qingbo GUO, Chao ZHANG
  • Publication number: 20220050571
    Abstract: In some examples, a touch screen includes resistors between the touch electrodes and routing traces. In some examples, the resistors can include a transparent conductive material included in the touch electrodes of the touch screen. The resistors can be located in a border region of the touch screen that can surround an active area of the touch screen that can include the touch electrodes and display pixels of the touch screen, for example. In some examples, the resistors included in the touch screen can have different resistances from each other and the same outer dimensions as one another. The resistors can reduce the variation in resistance from channel to channel in the touch screen, which can improve touch screen performance, for example.
    Type: Application
    Filed: August 14, 2020
    Publication date: February 17, 2022
    Inventors: Zhou LU, Isaac Wing-Tak CHAN, Justin Zachary WU, Rangarajan KRISHNAN, Qingbo GUO, Chao ZHANG
  • Patent number: 11231807
    Abstract: In some examples, a touch screen includes resistors between the touch electrodes and routing traces. In some examples, the resistors can include a transparent conductive material included in the touch electrodes of the touch screen. The resistors can be located in a border region of the touch screen that can surround an active area of the touch screen that can include the touch electrodes and display pixels of the touch screen, for example. In some examples, the resistors included in the touch screen can have different resistances from each other and the same outer dimensions as one another. The resistors can reduce the variation in resistance from channel to channel in the touch screen, which can improve touch screen performance, for example.
    Type: Grant
    Filed: August 14, 2020
    Date of Patent: January 25, 2022
    Assignee: Apple Inc.
    Inventors: Zhou Lu, Isaac Wing-Tak Chan, Justin Zachary Wu, Rangarajan Krishnan, Qingbo Guo, Chao Zhang