Patents by Inventor Qing Ji
Qing Ji 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: 20240407128Abstract: The application discloses a method for controlling a fan speed. The method is applied to a server including a power supply unit, a first fan, and a second fan. The method includes: obtaining a first current control data and comparing the first current control data with a second current control data. A next-stage control data of the second fan is determined according to the first current control data and an increment if it is determined that the first current control data is greater than the second current control data. The second current control data is determined to be the next-stage control data if it is determined that the first current control data is less than or equal to the second current control data.Type: ApplicationFiled: September 6, 2023Publication date: December 5, 2024Inventors: JIA-QING JI, HAI-XIANG LIN, HUA-XIN HU
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Patent number: 11996914Abstract: Supporting distributed massive multiple-input multiple-output (DM-MIMO) in a distributed communications system (DCS) is disclosed. The DCS includes multiple remote units each configured to communicate downlink and uplink radio frequency (RF) communications signals with a number of user equipment (UEs) at different UE locations in the DCS. Each remote unit includes multiple antennas, multiple RF chains, and an RF switch circuit configured to dynamically couple the RF chains to a subset of antennas in accordance to the UE locations such that the subset of antennas can be activated to concurrently radiate the downlink RF communications signals and absorb the uplink RF communications signals. By dynamically activating the subset of antennas in accordance to the UE locations, it is possible to optimize signal strength and channel quality for each UE in the DCS, thus making it possible to improve wireless data capacity of the DCS with negligible additional hardware cost.Type: GrantFiled: December 6, 2022Date of Patent: May 28, 2024Assignee: Corning IncorporatedInventors: Solomon Tesfay Abraha, Qing Ji, Xiaojun Liang, Anthony Ng'oma
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Publication number: 20230096561Abstract: Supporting distributed massive multiple-input multiple-output (DM-MIMO) in a distributed communications system (DCS) is disclosed. The DCS includes multiple remote units each configured to communicate downlink and uplink radio frequency (RF) communications signals with a number of user equipment (UEs) at different UE locations in the DCS. Each remote unit includes multiple antennas, multiple RF chains, and an RF switch circuit configured to dynamically couple the RF chains to a subset of antennas in accordance to the UE locations such that the subset of antennas can be activated to concurrently radiate the downlink RF communications signals and absorb the uplink RF communications signals. By dynamically activating the subset of antennas in accordance to the UE locations, it is possible to optimize signal strength and channel quality for each UE in the DCS, thus making it possible to improve wireless data capacity of the DCS with negligible additional hardware cost.Type: ApplicationFiled: December 6, 2022Publication date: March 30, 2023Inventors: Solomon Tesfay Abraha, Qing Ji, Xiaojun Liang, Anthony Ng'oma
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Publication number: 20220401753Abstract: Disclosed herein are methods of increasing response to radiation therapy in subjects afflicted with cancer. In some embodiments, the method comprises reducing the ability of an immune suppressor cell (e.g., MDSC) to migrate to the microenvironment of the cancer. In some embodiments, the method further comprises suppressing the migration of the immune suppressor cell to a non-malignant cell and/or suppressing the malignant transformation of the non-malignant cells.Type: ApplicationFiled: August 10, 2022Publication date: December 22, 2022Inventors: Mark Greene, Hongtao Zhang, Hiromichi Tsuchiya, Yasuhiro Nagai, Lian Lam, Aaron Runkle, Jeffrey Drebin, Mei Qing Ji
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Patent number: 11528063Abstract: Supporting distributed massive multiple-input multiple-output (DM-MIMO) in a distributed communications system (DCS) is disclosed. The DCS includes multiple remote units each configured to communicate downlink and uplink radio frequency (RF) communications signals with a number of user equipment (UEs) at different UE locations in the DCS. Each remote unit includes multiple antennas, multiple RF chains, and an RF switch circuit configured to dynamically couple the RF chains to a subset of antennas in accordance to the UE locations such that the subset of antennas can be activated to concurrently radiate the downlink RF communications signals and absorb the uplink RF communications signals. By dynamically activating the subset of antennas in accordance to the UE locations, it is possible to optimize signal strength and channel quality for each UE in the DCS, thus making it possible to improve wireless data capacity of the DCS with negligible additional hardware cost.Type: GrantFiled: November 22, 2021Date of Patent: December 13, 2022Assignee: Corning IncorporatedInventors: Solomon Tesfay Abraha, Qing Ji, Xiaojun Liang, Anthony Ng'oma
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Publication number: 20220390398Abstract: The present invention discloses a laser heating single-sensor fast scanning calorimeter, which comprises an FSC sample chamber, a chip sensor positioned in the FSC sample chamber and used for loading a sample, a laser heater for heating the sample, an infrared camera for shooting a sample image, a communication terminal and a control electronic element, wherein a perspective window serving as a light path channel is arranged in a center of the FSC sample chamber, and the laser heater and the infrared camera are positioned at the top of the perspective window; the infrared camera is connected with the communication terminal; one end of the control electronic element is connected with the communication terminal, and the other end of the control electronic element is connected with the laser heater and the chip sensor.Type: ApplicationFiled: December 5, 2019Publication date: December 8, 2022Applicants: SHEYANG RESEARCH INSTITUTE OF NANJING UNIVERSITY, NANJING UNIVERSITYInventors: Dongshan ZHOU, Evgeny ZHURAVLEV, Jing JIANG, Qi XUE, Shaochuan LUO, Xiaoliang WANG, Wei JIANG, Qing JI
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Publication number: 20220369977Abstract: An intelligent psychological assessment and intervention system based on an independent space, comprising a psychological intervention cabin and a central database which achieves data interaction with the psychological intervention cabin.Type: ApplicationFiled: September 28, 2020Publication date: November 24, 2022Inventors: Erdong WANG, Jinwen SHEN, Donghai XUE, Zhifeng ZHAO, Qing JI
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Patent number: 11446516Abstract: Disclosed herein are methods of increasing response to radiation therapy in subjects afflicted with cancer. In some embodiments, the method comprises reducing the ability of an immune suppressor cell (e.g., MDSC) to migrate to the microenvironment of the cancer. In some embodiments, the method further comprises suppressing the migration of the immune suppressor cell to a non-malignant cell and/or suppressing the malignant transformation of the non-malignant cells.Type: GrantFiled: July 14, 2021Date of Patent: September 20, 2022Assignee: The Trustees of the University of PennsylvaniaInventors: Mark Greene, Hongtao Zhang, Hiromichi Tsuchiya, Yasuhiro Nagai, Lian Lam, Aaron Runkle, Jeffrey Drebin, Mei Qing Ji
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Publication number: 20220166471Abstract: Supporting distributed massive multiple-input multiple-output (DM-MIMO) in a distributed communications system (DCS) is disclosed. The DCS includes multiple remote units each configured to communicate downlink and uplink radio frequency (RF) communications signals with a number of user equipment (UEs) at different UE locations in the DCS. Each remote unit includes multiple antennas, multiple RF chains, and an RF switch circuit configured to dynamically couple the RF chains to a subset of antennas in accordance to the UE locations such that the subset of antennas can be activated to concurrently radiate the downlink RF communications signals and absorb the uplink RF communications signals. By dynamically activating the subset of antennas in accordance to the UE locations, it is possible to optimize signal strength and channel quality for each UE in the DCS, thus making it possible to improve wireless data capacity of the DCS with negligible additional hardware cost.Type: ApplicationFiled: November 22, 2021Publication date: May 26, 2022Inventors: Solomon Tesfay Abraha, Qing Ji, Xiaojun Liang, Anthony Ng'oma
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Publication number: 20220040498Abstract: Disclosed herein are methods of increasing response to radiation therapy in subjects afflicted with cancer. In some embodiments, the method comprises reducing the ability of an immune suppressor cell (e.g., MDSC) to migrate to the microenvironment of the cancer. In some embodiments, the method further comprises suppressing the migration of the immune suppressor cell to a non-malignant cell and/or suppressing the malignant transformation of the non-malignant cells.Type: ApplicationFiled: July 14, 2021Publication date: February 10, 2022Inventors: Mark GREENE, Hongtao ZHANG, Hiromichi TSUCHIYA, Yasuhiro NAGAI, Lian LAM, Aaron RUNKLE, Jeffrey DREBIN, Mei Qing JI
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Publication number: 20210329848Abstract: A dynamically LED plant light supplement system includes RGBW light-filling lamp, the light-filling lamp driving unit, the lighting intensity collection unit, the plant growth monitoring unit, the centralized control unit, and the planting think tank. The plant growth monitoring unit, planting think tank, and lighting intensity collection unit are used to dynamically adjust the lighting intensity, light quality ratio, photoperiod and light time distribution of the plant lamp according to the plant type and growth stage. Lighting parameters, including the combination of light quality, the intensity of each single light quality, the operating cycle of each single light quality and the alternating cycle of different light quality, can be set according to the lighting formula so that the growth stage of the plant can be automatically determined without human intervention and the lighting formula can be dynamically switched.Type: ApplicationFiled: February 17, 2021Publication date: October 28, 2021Inventors: Qing JI, Xinhao YANG, Min CHENG
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Patent number: 11092560Abstract: The present invention discloses an apparatus for realizing high-speed cooling of a trace material by using liquid drop cooling, which comprises an injector connected with an injection driver and used for dropwise adding a volatile cooling liquid; a temperature sensor placed below the injector; a data collector used for collecting a thermopile signal and a heating resistor signal of the temperature sensor; a gas purger used for purging a cooled sample; and a control center, wherein the injector, the temperature sensor, the data collector and the gas purger are all connected with the control center.Type: GrantFiled: March 29, 2019Date of Patent: August 17, 2021Assignee: NANJING UNIVERSITYInventors: Dongshan Zhou, Evgeny Zhuravlev, Jing Jiang, Shaochuan Luo, Christoph Schick, Qi Xue, Xiaoliang Wang, Wei Chen, Wei Jiang, Qing Ji
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Publication number: 20210151206Abstract: An apparatus and method for sourcing nuclear fusion products uses an electrochemical loading process to load low-kinetic-energy (low-k) light element particles into a target electrode, which comprises a light-element-absorbing material (e.g., Palladium). An electrolyte solution containing the low-k light element particles is maintained in contact with a backside surface of the target electrode while a bias voltage is applied between the target electrode and an electrochemical anode, thereby causing low-k light element particles to diffuse from the backside surface to an opposing frontside surface of the target electrode. High-kinetic-energy (high-k) light element particles are directed against the frontside, thereby causing fusion reactions each time a high-k light element particle operably collides with a low-k light element particle disposed on the frontside surface. Fusion reaction rates are controlled by adjusting the bias voltage.Type: ApplicationFiled: March 2, 2020Publication date: May 20, 2021Inventors: Thomas Schenkel, Ross Koningstein, Peter Seidl, Arun Persaud, Qing Ji, David K. Fork, Matthew D. Trevithick, Curtis Berlinguette, Philip A. Schauer, Benjamin P. MacLeod
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Patent number: 10912184Abstract: A wafer-based charged particle accelerator includes a charged particle source and at least one RF charged particle accelerator wafer sub-assembly and a power supply coupled to the at least one RF charged particle accelerator wafer sub-assembly. The wafer-based charged particle accelerator may further include a beam current-sensor. The wafer-based charged particle accelerator may further include at least a second RF charged particle accelerator wafer sub-assembly and at least one ESQ charged particle focusing wafer. Fabrication methods are disclosed for RF charged particle accelerator wafer sub-assemblies, ESQ charged particle focusing wafers, and the wafer-based charged particle accelerator.Type: GrantFiled: August 12, 2019Date of Patent: February 2, 2021Assignee: Cornell UniversityInventors: Amit Lal, Thomas Schenkel, Arun Persaud, Qing Ji, Peter Seidl, Will Waldron, Serhan Ardanuc, Vinaya Kumar Kadayra Basavarajappa
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Publication number: 20200187344Abstract: A wafer-based charged particle accelerator includes a charged particle source and at least one RF charged particle accelerator wafer sub-assembly and a power supply coupled to the at least one RF charged particle accelerator wafer sub-assembly. The wafer-based charged particle accelerator may further include a beam current-sensor. The wafer-based charged particle accelerator may further include at least a second RF charged particle accelerator wafer sub-assembly and at least one ESQ charged particle focusing wafer. Fabrication methods are disclosed for RF charged particle accelerator wafer sub-assemblies, ESQ charged particle focusing wafers, and the wafer-based charged particle accelerator.Type: ApplicationFiled: August 12, 2019Publication date: June 11, 2020Applicant: Cornell UniversityInventors: Amit Lal, Thomas Schenkel, Arun Persaud, Qing Ji, Peter Seidl, Will Waldron, Serhan Ardanuc, Vinaya Kumar Kadayra Basavarajappa
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Patent number: 10383205Abstract: A wafer-based charged particle accelerator includes a charged particle source and at least one RF charged particle accelerator wafer sub-assembly and a power supply coupled to the at least one RF charged particle accelerator wafer sub-assembly. The wafer-based charged particle accelerator may further include a beam current-sensor. The wafer-based charged particle accelerator may further include at least a second RF charged particle accelerator wafer sub-assembly and at least one ESQ charged particle focusing wafer. Fabrication methods are disclosed for RF charged particle accelerator wafer sub-assemblies, ESQ charged particle focusing wafers, and the wafer-based charged particle accelerator.Type: GrantFiled: May 4, 2017Date of Patent: August 13, 2019Assignee: Cornell UniversityInventors: Amit Lal, Thomas Schenkel, Arun Persaud, Qing Ji, Peter Seidl, Will Waldron, Serhan Ardanuc, Vinaya Kumar Kadayra Basavarajappa
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Publication number: 20190242837Abstract: The present invention discloses an apparatus for realizing high-speed cooling of a trace material by using liquid drop cooling, which comprises an injector connected with an injection driver and used for dropwise adding a volatile cooling liquid; a temperature sensor placed below the injector; a data collector used for collecting a thermopile signal and a heating resistor signal of the temperature sensor; a gas purger used for purging a cooled sample; and a control center, wherein the injector, the temperature sensor, the data collector and the gas purger are all connected with the control center.Type: ApplicationFiled: March 29, 2019Publication date: August 8, 2019Inventors: Dongshan ZHOU, Evgeny ZHURAVLEV, Jing JIANG, Shaochuan LUO, Christoph SCHICK, Qi XUE, Xiaoliang WANG, Wei CHEN, Wei JIANG, Qing JI
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Publication number: 20190159331Abstract: A wafer-based charged particle accelerator includes a charged particle source and at least one RF charged particle accelerator wafer sub-assembly and a power supply coupled to the at least one RF charged particle accelerator wafer sub-assembly. The wafer-based charged particle accelerator may further include a beam current-sensor. The wafer-based charged particle accelerator may further include at least a second RF charged particle accelerator wafer sub-assembly and at least one ESQ charged particle focusing wafer. Fabrication methods are disclosed for RF charged particle accelerator wafer sub-assemblies, ESQ charged particle focusing wafers, and the wafer-based charged particle accelerator.Type: ApplicationFiled: May 4, 2017Publication date: May 23, 2019Applicant: CORNELL UNIVERSITYInventors: Amit Lal, Thomas Schenkel, Arun Persaud, Qing JI, Peter Seidl, Will Waldron, Serhan Ardanuc, Vinaya Kumar Kadayra Basavarajappa
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Patent number: 10138192Abstract: One-step cyanide-catalyzed benzoin condensations for synthesizing shape persistent cyclobenzoin macrocycles. Selected dialdehydes, and cyanide salts are reacted in aqueous solvents to form such cyclobenzoin macrocycles.Type: GrantFiled: March 17, 2016Date of Patent: November 27, 2018Assignee: UNIVERSITY OF HOUSTON SYSTEMInventors: Ognjen Miljanic, Qing Ji
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Publication number: 20180057603Abstract: The present invention provides a fusion proteins comprising (a) a first stretch of consecutive amino acids, the sequence of which is the sequence of an anti-p185her2/neu polypeptide or an anti-EGFR polypeptide; (b) a second stretch of consecutive amino acids, the sequence of which is the sequence of a polypeptide capable of binding at least one polypeptide other than p185her2/neu or EGFR; and (c) a third stretch of consecutive amino acids, the sequence of which comprises the sequence of a biologically active portion of interferon-gamma (IFN?), wherein (b) is located at the carboxy-terminal end of (a), and (c) is located at the carboxy-terminal end of (b). The present invention provides methods and compositions treating or preventing cancer and for sensitizing cancer cells to radiation or a chemotherapeutic agent, which comprises administering i) an anti-p185her2/neu antibody, an anti-EGFR antibody or an erbB kinase inhibitor and interferon-gamma (IFN?); or ii) a fusion protein of the invention.Type: ApplicationFiled: February 9, 2016Publication date: March 1, 2018Applicant: The Trustees of the University of PennsylvaniaInventors: Mark Greene, Hongtao Zhang, Hiromichi Tsuchiya, Yasuhiro Nagai, Lian Lam, Aaron Runkle, Jeffrey Drebin, Mei Qing Ji