Patents by Inventor Qiang Sun
Qiang Sun 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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Patent number: 12389316Abstract: Embodiments of this application disclose a communication processing method. The method includes: a baseband processing unit (BBU) receives an uplink measurement signal sent by a first terminal device. The BBU generates an air interface measurement report based on the uplink measurement signal, where the air interface measurement report includes an air interface channel quality value between the first terminal device and at least one pico remote radio unit (pRRU) in a cell in which the first terminal device is located. The BBU selects a target pRRU from the at least one pRRU based on the air interface measurement report, where a quantity of target pRRUs is less than a quantity of the at least one pRRU. The target pRRU is configured to send a downlink signal of the first terminal device to the first terminal device.Type: GrantFiled: April 22, 2022Date of Patent: August 12, 2025Assignee: HUAWEI TECHNOLOGIES CO., LTD.Inventor: Qiang Sun
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Publication number: 20250250271Abstract: The present disclosure provides KRAS inhibitors. Methods of treating cancers using the compounds are also provided.Type: ApplicationFiled: March 6, 2025Publication date: August 7, 2025Inventors: Brian Edward FINK, Pravin S. SHIRUDE, Amit Kumar CHATTOPADHYAY, Laxmi Narayan NANDA, Vishweshwaraiah BALIGAR, Balaji SESHADRI, T.G. Murali DHAR, Li-Qiang SUN, Zhizhen Barbara ZHENG, Manoranjan PANDA, Maximilian David PALKOWITZ, Sirish Kaushik LAKKARAJU, Moloy BANERJEE
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Publication number: 20250163046Abstract: The present disclosure provides KRAS inhibitors. Methods of treating cancers using the compounds are also provided.Type: ApplicationFiled: June 28, 2024Publication date: May 22, 2025Inventors: Brian Edward FINK, Pravin S. SHIRUDE, Amit Kumar CHATTOPADHYAY, Laxmi Narayan NANDA, Vishweshwaraiah BALIGAR, Balaji SESHADRI, T.G. Murali DHAR, Li-Qiang SUN, Zhizhen Barbara ZHENG, Manoranjan PANDA, Maximilian David PALKOWITZ, Sirish Kaushik LAKKARAJU, Moloy BANERJEE
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Publication number: 20250154284Abstract: Disclosed herein are anti-MASP-2 antibodies and antigen-binding fragments, polynucleotides encoding the antibodies and antigen-binding fragments, and pharmaceutical compositions comprising the antibodies and antigen-binding fragments. Uses of the anti-MASP-2 antibodies and antigen-binding fragments described herein in treatment of conditions and disorders associated completement activation are also disclosed.Type: ApplicationFiled: February 24, 2023Publication date: May 15, 2025Inventors: Chongtian GUO, Run LEI, Pengcheng FAN, Lihua FAN, Zhihao XU, Qiang SUN, Jonathan Jian WANG
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Publication number: 20250154148Abstract: The present disclosure provides KRAS inhibitors. Methods of treating cancers using the compounds are also provided.Type: ApplicationFiled: June 28, 2024Publication date: May 15, 2025Inventors: Brian Edward FINK, Pravin S. SHIRUDE, Amit Kumar CHATTOPADHYAY, Laxmi Narayan NANDA, Vishweshwaraiah BALIGAR, Balaji SESHADRI, T.G. Murali DHAR, Li-Qiang SUN, Zhizhen Barbara ZHENG, Manoranjan PANDA, Maximilian David PALKOWITZ, Sirish Kaushik LAKKARAJU, Moloy BANERJEE
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Publication number: 20250145590Abstract: Compounds having the following formula I or a stereoisomer or pharmaceutically-acceptable salt thereof, where all substituents are as defined herein, are inhibitors of USP1 useful for treating diseases including, among others, treating proliferative, metabolic, allergic, autoimmune and inflammatory diseases.Type: ApplicationFiled: October 30, 2024Publication date: May 8, 2025Applicant: BRISTOL-MYERS SQUIBB COMPANYInventors: KHEHYONG NGU, ROBERT J. CHERNEY, YANTING HUANG, WEI MENG, MURALI T.G. DHAR, LI-QIANG SUN, ZHIZHEN BARBARA ZHENG, JAMES AARON BALOG
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Patent number: 12280741Abstract: A control apparatus and a method for locking or unlocking a door include a smart key including a door locking and unlocking button provided thereon and configured for transmitting a control signal for locking or unlocking the door through a door locking and unlocking button; a smart key check module configured to determine whether the smart key is in a vehicle; and a door control module configured to determine whether the vehicle is in a started state or a turned-off state, determine whether to receive a control signal for locking or unlocking the door from the smart key according to a result of the determining whether the smart key is in the vehicle when the vehicle is in the started state, and control a corresponding door of the vehicle when receiving the control signal for locking or unlocking the door from the smart key.Type: GrantFiled: February 13, 2023Date of Patent: April 22, 2025Assignees: Hyundai Motor Company, Kia CorporationInventors: Bing Le Cong, Jing Song Sun, Xu Qiang Sun
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Publication number: 20250119857Abstract: The present disclosure address systems and methods for improving the performance of Interest of Things (IoT) devices in receiving Beacon signals. The method includes receiving a first signal from an access point (AP) of a network environment, extracting a time synchronization value of the AP from the first signal, obtaining a local time synchronization value corresponding to the time synchronization value of the AP, and determining whether a preset condition is satisfied. The preset condition may indicate that the receiving of the first signal is to be interrupted. The method further includes in response to a determination that the preset condition is satisfied, obtaining a time synchronization offset value, adjusting the local time synchronization value based on the time synchronization offset value and the time synchronization value of the AP, and preparing to receive a second signal according to the adjusted local time synchronization value.Type: ApplicationFiled: October 31, 2023Publication date: April 10, 2025Applicant: Beken CorporationInventors: Qiang SUN, Yin WANG, Huaming JIANG, Yantao LI
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Publication number: 20250112353Abstract: A liquid crystal antenna includes a first substrate, a second substrate oppositely arranged to the first substrate, a plurality of first conductive parts located over one side of the first substrate adjacent to the second substrate, a plurality of second conductive parts located over one side of the second substrate adjacent to the first substrate, a third substrate, a plurality of third conductive parts located over one side of the third substrate away from the second substrate, a liquid crystal layer, and a frame adhesive located between the first substrate and the second substrate. The third substrate is positioned over one side of the second substrate away from the first substrate, at least one side surface of the second substrate, and the side of the second substrate adjacent to the first substrate.Type: ApplicationFiled: August 6, 2024Publication date: April 3, 2025Inventors: Qingsan ZHU, Yifan XING, Baiquan LIN, Kerui XI, Ping SU, Ximin QI, Qiang SUN, Jiayun CHEN, Yi WANG
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Publication number: 20250103775Abstract: A multi-objective optimized evaluation method of anti-seismic performance of a slope reinforced by a pile-anchor system is provided. The method includes: training an initial three-dimensional slope numerical calculation model to obtain an target three-dimensional slope numerical calculation model; determining numerical values to be imported into the target three-dimensional slope numerical calculation model according to deformation differences, to obtain a model analysis result; obtaining a simulation operation result according to a reinforcement scheme working condition table of the pile-anchor system; based on the model analysis result and the simulation operation result, evaluating anti-seismic reinforcing performance of the pile-anchor system to obtain comprehensive evaluation values, and then optimizing and evaluating the reinforcement schemes of an overall slope to be reinforced.Type: ApplicationFiled: April 19, 2024Publication date: March 27, 2025Inventors: Lei XUE, Longfei LI, Chao XU, Songfeng GUO, Hongyan LIU, Mengyang ZHAI, Xiaolin HUANG, Yuan CUI, Qiang SUN, Guoliang LI, Bowen ZHENG, Zhiqing LI, Jie GUO, Haijun ZHAO, Xueliang WANG
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Publication number: 20250056648Abstract: Methods and systems for dynamic network keep-alive are described. In one embodiment, the method comprises establishing a link with an access point, determining a client station time interval and iteratively adjusting the duration of the client station time interval to approximate the access point time interval until the client station time interval is a close approximation of the access point time interval, thereby performing the keep-alive process at an efficient manner.Type: ApplicationFiled: August 17, 2023Publication date: February 13, 2025Applicant: Beken CorporationInventors: Qiang SUN, Xiangdong WANG, Yin WANG, Xueli LYU
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Publication number: 20250051433Abstract: Provided herein are anti-TSLP antibodies or antigen-binding fragments thereof, isolated poly nucleotides encoding the same, pharmaceutical compositions comprising the same, and the uses thereof.Type: ApplicationFiled: December 23, 2022Publication date: February 13, 2025Inventors: Run LEI, Chongtian GUO, Pengcheng FAN, Zhihao XU, Qiang SUN, Jonathan Jian WANG
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Patent number: 12221722Abstract: The present disclosure provides a melt electrospinning device. The melt electrospinning device includes a melting unit, a spinning unit, an electrostatic generating unit, a collection unit, and a sealed cavity. A lining of the melting unit is made of a material having a melting point greater than 500° C. The spinning unit is connected to the bottom of the melting unit and includes a spinneret made from a conductive material having a melting point greater than 500° C. The melt electrospinning process is performed in the sealed cavity. The present disclosure further provides a melt electrospinning method.Type: GrantFiled: January 20, 2020Date of Patent: February 11, 2025Assignees: China ENFI Engineering Corporation, China Silicon Corporation Ltd.Inventors: Tao Yang, Dazhou Yan, Cheng Liu, Wenxue Si, Qiang Sun, Ye Wan, Shengxue Zhang
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Publication number: 20250033929Abstract: The invention relates to a method for triggering an acquisition of image data of an empty elevator car. The method comprises obtaining door status data representing a status of the door of the elevator car, obtaining occupancy status data representing an occupancy status of the elevator car, detecting based on the obtained door status data that the door of the elevator car is closed, detecting based on the obtained occupancy status data that the elevator car is empty, and generating a control signal to an imaging device arranged inside the elevator car in response to the detecting that the door of the elevator car is closed and the elevator car is empty. The control signal comprises an instruction to trigger the acquisition of the image data of the empty elevator car. The invention relates also to a triggering system for triggering an acquisition of image data of an empty elevator car and to an elevator system comprising a triggering system.Type: ApplicationFiled: October 17, 2024Publication date: January 30, 2025Applicant: KONE CORPORATIONInventors: Qiang Sun, Yong Qing Lu, Pasi Raitola, Mari Zakrzewski, Ari Pitkänen
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Patent number: 12200505Abstract: Disclosed are a data processing method and apparatus, which relate to the field of wireless communication technologies. In one example, a BBU determines an amount of user data in a logical cell covered by the BBU, where the amount of the user data in the logical cell covered by the BBU is a total amount of to-be-processed data in the logical cell covered by the BBU; and the BBU configures, based on the amount of the user data in the logical cell covered by the BBU, M L1 processing resources whose data processing capacity meets the amount of the user data in the logical cell covered by the BBU, and processes the to-be-processed data by using the M L1 processing resources.Type: GrantFiled: June 3, 2022Date of Patent: January 14, 2025Assignee: Huawei Technologies Co., Ltd.Inventors: Qiang Sun, Jindong Peng
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Publication number: 20250002593Abstract: Provided are anti-IL-36R antibodies or antigen-binding fragments thereof, isolated polynucleotides encoding the same, pharmaceutical compositions comprising the same and the uses thereof.Type: ApplicationFiled: October 27, 2022Publication date: January 2, 2025Inventors: Pengcheng FAN, Run LEI, Chongtian GUO, Lihua FAN, Qiang SUN, Zhihao XU
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Patent number: 12148547Abstract: A method for developing an epoxy resin impregnated glass fiber Direct Current (DC) bushing, comprising: according to length parameters of each layer of capacitive screen or resistive screen designed depending on insulation requirements, selecting bushing design parameters, determining a winding machine program according to the bushing design parameters, and winding a core body according to the winding machine program, wherein during the core body winding process, the core body begins to be initially cured; after the core body is wound, curing the core body by an oven according to a preset oven temperature and duration; machining the cured core body according to a preset core body design drawing; after the inner wall of a flange is polished and cleaned and is heated and pretreated by the oven, injecting glue at the position of a glue injection hole of the flange for gluing the core body and the flange; sequentially assembling a collector ring, a hollow composite insulator, and a voltage-equalizing sealing coveType: GrantFiled: December 7, 2020Date of Patent: November 19, 2024Assignees: WUHAN NARI LIMITED LIABILITY COMPANY OF STATE GRID ELECTRIC POWER RESEARCH INSTITUTE, NARI GROUP CORPORATIONInventors: Jiangang Deng, Zhenbo Lan, Zhuolin Xu, You Song, Yu Nie, Lei Ke, Hao Zhan, Jun Fu, Qiang Sun, Yuefei Mao, Qian Ma, Qianwen Zhou, Kaikai Gu, Haoxin Li, Lei Shi, Yu Xu, Cheng Tang, Yakai Peng, Youyi Shi
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Publication number: 20240375254Abstract: Tooling is held within the nose of a rotary punch and as the tool is rotated and forced against a workpiece a fastener within the tool becomes affixed to the workpiece. The tools have displacers which non-destructively deform and reshape the workpiece without any loss of workpiece material. The tools have various types of displacers including: tapered and arcuate displacers which act in concert to progressively act upon the workpiece; spherical displacers which may be fixed. or a full-circle displacer ring which wobbles as it presses against the workpiece. In the case of fixed spherical displacers, a multi-stroke method can be employed where the tool is rotated after each stroke in a group of installation strokes.Type: ApplicationFiled: July 23, 2024Publication date: November 14, 2024Inventors: Michael Maloney, Kristina Valko, Jonathan Olson, Brian Bentrim, Qiang Sun, Ronald Dise, KEnt Johnston
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Publication number: 20240344212Abstract: A method for forming a recombination layer includes, for example, an ionomer and a nanocrystal catalyst disposed in the ionomer. A method for forming the recombination layer may include, for example, providing an ionomer dispersion, providing a compound having a catalyst having a charge, adding the catalyst in the compound to the ionomer to form a mixture, reducing the catalyst in the compound to a metal catalyst in the ionomer, and forming the mixture with the metal catalyst into a recombination layer for a proton exchange membrane.Type: ApplicationFiled: September 28, 2023Publication date: October 17, 2024Applicant: Plug Power Inc.Inventors: Cortney MITTELSTEADT, Qiang SUN, Fan YANG
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Patent number: 12115631Abstract: Tooling is held within the nose of a rotary punch and as the tool is rotated and forced against a workpiece a fastener within the tool becomes affixed to the workpiece. The tools have displacers which non-destructively deform and reshape the workpiece without any loss of workpiece material. The tools have various types of displacers including; tapered and arcuate displacers which act in concert to progressively act upon the workpiece; spherical displacers which may be fixed or rotatable such as caged ball bearings; and a full-circle displacer ring which wobbles as it presses against the workpiece. In the case of fixed spherical displacers, a multi-stroke method can be employed where the tool is rotated after each stroke in a group of installation strokes.Type: GrantFiled: April 21, 2021Date of Patent: October 15, 2024Assignee: Penn Engineering & Manufacturing Corp.Inventors: Michael Maloney, Kristina Valko, Jonathan Olson, Brian Bentrim, Qiang Sun, Ronald Dise, Kent Johnston