Patents Assigned to University of Science and Technology of China
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Publication number: 20200038803Abstract: The invention relates to a regeneration system for a carbon-rich amine solution produced in carbon dioxide capture from a mixed gas and a method for using the same. This regeneration system is composed of a bipolar membrane electrodialysis apparatus and a carbon dioxide removal apparatus, wherein the bipolar membrane electrodialysis apparatus is composed of a bipolar membrane electrodialysis membrane stack fixed between an anode plate and a cathode plate, the carbon dioxide removal apparatus is composed of one or more hollow fiber membrane contactors, the inlet of the carbon dioxide removal apparatus is fluidly connected with the outlet of the acid chamber of the bipolar membrane electrodialysis apparatus, the outlet of the carbon dioxide removal apparatus is fluidly connected with the acid solution storage tank, and carbon dioxide gas removed by the carbon dioxide removal apparatus is collected in a carbon dioxide storage tank.Type: ApplicationFiled: January 29, 2019Publication date: February 6, 2020Applicant: UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINAInventors: Tongwen XU, Chenxiao JIANG, Xia CHEN, Rongqiang FU, Zhaoming LIU
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Patent number: 10552222Abstract: Embodiments of the present invention provide a task scheduling method and apparatus on a heterogeneous multi-core reconfigurable computing platform. The method includes: when determining that a to-be-executed hardware task is in a ready state, adding the to-be-executed hardware task into a target hardware task queue corresponding to a function of the to-be-executed hardware task; reconfiguring, according to a priority of the to-be-executed hardware task and a usage status of multiple reconfigurable resource packages, at least one reconfigurable resource package in the multiple reconfigurable resource packages into a target intellectual property IP core that can execute the to-be-executed hardware task.Type: GrantFiled: July 14, 2017Date of Patent: February 4, 2020Assignees: Huawei Technologies Co., Ltd., University of Science and Technology of ChinaInventors: Chao Wang, Xi Li, Xuehai Zhou, Junneng Zhang, Peng Chen, Qi Guo
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Publication number: 20200003713Abstract: A magnetic resonance spectrometer and a control apparatus for the magnetic resonance spectrometer based on an FPGA. The control apparatus includes a control unit and a conversion receiving unit. The control unit includes a clock source. A waveform generation unit and a signal receiving unit inside the control apparatus are synchronized by means of the same clock source. The control apparatus includes two working modes: a continuous wave mode and an impulse wave mode. The control apparatus can output a microwave signal which is modulated by any wave and has higher synchronism and time resolution.Type: ApplicationFiled: May 5, 2016Publication date: January 2, 2020Applicant: University of Science and Technology of ChinaInventors: Xing RONG, Zhifu SHI, Xi QIN, Yijin XIE, Lin WANG, Zhen JIANG, Jiangfeng DU
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Patent number: 10452605Abstract: A method for task scheduling on a heterogeneous multi-core reconfigurable computing platform is disclosed, the method includes: determining an execution manner of a target task according to popularity of the to-be-executed target task and usage of a reconfigurable resource of the heterogeneous multi-core reconfigurable computing platform, where the execution manner includes a hardware manner or a software manner, for the target task, there is no corresponding target intellectual property IP core for executing the target task on the heterogeneous multi-core reconfigurable computing platform, the popularity of the target task is used to indicate central processing unit CPU usage of the target task, and the usage of the reconfigurable resource is used to indicate a usage status of the reconfigurable resource; and executing the target task according to the determined execution manner.Type: GrantFiled: June 13, 2017Date of Patent: October 22, 2019Assignees: Huawei Technologies Co., Ltd., University of Science and Technology of ChinaInventors: Chao Wang, Xi Li, Xuehai Zhou, Junneng Zhang, Peng Chen, Qi Guo
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Patent number: 10450529Abstract: Provided are a method for simultaneously and stably dispersing spherical nanoparticles in an oil medium by using layered nanosheets and an application thereof. The method comprises: (1) mixing the layered nanosheets and oil-soluble alkylamines to obtain a first mixture containing intercalated/exfoliated nano sheets; (2) mixing spherical nanoparticles and the oil medium to obtain a second mixture; and (3) mixing the first mixture, the second mixture and the oil medium to obtain a third mixture.Type: GrantFiled: September 23, 2014Date of Patent: October 22, 2019Assignee: SOUTH UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINAInventors: Huaisong Yong, Dazhi Sun
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Patent number: 10436722Abstract: The invention provides a positive/negative phase shift bimetallic zone plate and production method thereof, wherein the positive/negative phase shift bimetallic zone plate comprises: a first metallic material having a positive phase shift; a second metallic material having a negative phase shift at a working energy point; wherein the first metallic material and the second metallic material are alternately arranged, so that the second metallic material replaces the blank portion in a cycle of a traditional zone plate.Type: GrantFiled: May 22, 2014Date of Patent: October 8, 2019Assignee: University of Science And Technology of ChinaInventors: Kun Gao, Jian Chen, Renfang Hu, Zhili Wang, Dajiang Wang, Zhiyun Pan, Wangsheng Chu, Shiqiang Wei
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Publication number: 20190249337Abstract: Disclosed is a method for preparing a quantum rod/polymer fiber membrane by using electrospinning technique. The method comprises the following steps: (1) preparing a quantum rod solution; (2) preparing a polymer solution, and adding the quantum rod solution obtained in step (1) into the polymer solution so as to form an electrospinning precursor solution with a volume concentration of the quantum rods of 5%-80%; and (3) adding the electrospinning precursor solution into an electrospinning device, regulating the voltage of a generator and the receiving distance, and then performing electrospinning to prepare the quantum rod/polymer fiber membrane. By adjusting the concentration of the quantum rod solution and parameters in the electrospinning process, the method realizes directional arrangements of the quantum rods in the electrospinning process, thereby obtaining the quantum rod/polymer fiber membrane with high degree of polarization performance.Type: ApplicationFiled: November 15, 2016Publication date: August 15, 2019Applicant: SOUTH UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINAInventors: Kai Wang, Ziming Zhou, Jing Qin, Zuoliang Wen, Shang Li, Junjie Hao, Wei Chen, Xiaowei Sun
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Publication number: 20190196999Abstract: An FPGA-based square-wave generator and a square-wave generation method.Type: ApplicationFiled: January 18, 2016Publication date: June 27, 2019Applicant: University of Science and Technology of ChinaInventors: Xi QIN, Yijin XIE, Xing RONG, Yu HE, Lin WANG, Zhifu SHI, Jiangfeng DU
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Patent number: 10301548Abstract: This disclosure provides high-efficiency and low-energy-consumption synthetic methods of a series of phosphorus-nitrogen-based intumescent flame retardants and the use thereof in paint flame retarding. 1 part by weight of a phosphorization agent and 0.5-4.0 parts by weight of a nitrogen-containing foaming agent are uniformly mixed and stirred at room temperature, and an amount of water is further added to emit heat and initiate reaction. 0.5-3.0 parts by weight of a charring agent and 0.5-4.0 parts by weight of a hydroxy-containing polyfuctional crosslinking agent are then added, and reacted with stirring. An amine compound is finally added for neutralization until pH value is 5-8, and solid liquid separation is performed. The solid portion is dried to obtain a main body portion of a phosphorus-nitrogen-based intumescent flame retardant. The resultant filtrate is diluted with ?-? volume of water, and a flame retardant product is obtained.Type: GrantFiled: May 23, 2014Date of Patent: May 28, 2019Assignee: Institute of Advanced Technology, University of Science and Technology of ChinaInventor: Zhiyong Wang
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Patent number: 10258699Abstract: The present application relates to the molecular labeling and in vivo imaging of amyloids. Specifically, the present application relates to a polypeptide-based method/vector for targeting amyloids. Such a method/vector enables the transportation of compounds or drugs across blood-brain-barrier of an individual and then binding to amyloids in brain. Particularly, the vector of the present application can transport an imaging group linked to the vector across the blood-brain-barrier, and can binds to amyloids in brain, and thus enables the labeling and imaging of amyloid deposits. When used as an imaging agent for detecting amyloid deposits in body or tissues, the vector may be labeled with suitable optical imaging groups, radioactive isotopes or imaging groups suitable for MRI or CT detection.Type: GrantFiled: October 24, 2014Date of Patent: April 16, 2019Assignee: University Of Science and Technology of ChinaInventors: Jiangning Zhou, Chenwei Wang, Doudou Nan, Xinmeng Wang
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Patent number: 10257802Abstract: A binding registration method includes: an SDN controller receiving a first bearer message that is forwarded by a first MAG in multiple MAGs and that carries a first L2 attach request message; sending, to each of the first MAG and an LMA, a message for establishing a tunnel between the first MAG and the LMA; sending, to each of the first MAG and the LMA, a message for adjusting a flow entry of an MN; configuring an HNP(s) for the MN, and encapsulating the HNP(s) into an RA message; and sending the RA message to the first MAG.Type: GrantFiled: November 23, 2016Date of Patent: April 9, 2019Assignees: Huawei Technologies Co., Ltd., University of Science and Technology of ChinaInventors: Kaiping Xue, Yizhen Wu, Dan Ni, Fang Yu
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Method for signal transmission to multiple user equipments utilizing reciprocity of wireless channel
Patent number: 10236958Abstract: The present disclosure provides a method for transmitting a signal to multiple User Equipments (UEs) utilizing reciprocity of a wireless channel. In this method, a vector channel from the base station to each UE can be converted into an equivalent Single Input Single Output (SISO) channel having a strong Light-of-Sight (LOS) component using channel feedback. In this way, a reliable signal transmission to multiple UEs can be achieved with little channel training overhead. The present disclosure has prominent advantages such as simplicity in implementation, low processing complexity and very low channel training overhead and is particularly applicable in low-speed transmission of broadcast signaling in a massive MIMO system and scenarios where the base station is to page inactive UEs.Type: GrantFiled: March 21, 2016Date of Patent: March 19, 2019Assignee: University of Science and Technology of ChinaInventors: Wenyi Zhang, Cong Shen, Ning Liang -
Publication number: 20190060463Abstract: This invention relates to a bridged polyethylene glycol-aliphatic polyester block copolymer, which can be used in the production of delivery carriers for micromolecular chemotherapeutic drugs and nucleic acid drugs. Nanoscale pharmaceutical carriers produced from the bridged block polymer may be subjected to specific degradation under pH environments in tumor tissues or tumor cells so as to change the structure of nanoparticles, enhance cell uptake or intracellular drug release, and improve the sensitivity of tumor cells to drugs.Type: ApplicationFiled: November 3, 2015Publication date: February 28, 2019Applicant: University Of Science And Technology Of ChinaInventors: Jun Wang, Chunyang Sun, Congfei Xu, Zhiting Cao, Hongjun Li
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Publication number: 20190056663Abstract: An expansion polymerization imprinting glue for nano-imprinting. Raw materials required for the preparation of the expansion polymerization imprinting glue comprise a low polymer and an expansion monomer. Compared with the prior art, after the expansion monomer is introduced into the expansion polymerization imprinting glue for nano-imprinting, the expansion monomer can be polymerized with the low polymer, the volume change of the imprinting glue after polymerization can be adjusted, and accordingly the volume shrinkage after the imprinting glue is cured is reduced or even eliminated; and the imprinting glue having zero curing shrinkage or volume expansion can be obtained by adjusting the content of the expansion monomer. The imprinting glue can effectively reduce the residual stress in a micro-nano pattern, and the generation of pattern defects in the nano-imprinting demolding process caused by the residual stress is reduced while accurate pattern copying is implemented.Type: ApplicationFiled: July 6, 2015Publication date: February 21, 2019Applicant: SOUTH UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINAInventors: XING CHENG, Ziping LI, Zengju FAN, Yangqing TIAN, Bingqing LUO, Yulong CHEN, Shuimiao JING, Bo YU
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Patent number: 10211957Abstract: A simultaneous information and energy transfer method and system with a guard interval signal are provided. The method comprises the steps of generating, by a transmitting terminal, a controllable guard interval signal according to the current energy demand and environment conditions for channel transmission. The system comprises a transmitting terminal configured to generate a controllable guard interval signal. In the system and method, the guard interval time is fully utilized to transfer a guard interval signal with controllable amount of energy, which not only prevents intersymbol interference, but also provides controllable energy signals within the guard interval time at the same time, thus improving the energy transfer performance of the system and reducing the probability that the receiving terminal is unable to operate normally due to energy shortage. The present invention can be widely applied to a variety of simultaneous wireless information and energy transfer systems.Type: GrantFiled: December 4, 2017Date of Patent: February 19, 2019Assignee: SOUTH UNIVERSITY OF SCIENCE & TECHNOLOGY OF CHINAInventors: Yi Gong, Zidong Han, Yue Zhang, Xiaoyang Li, Mingzhe Li
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Patent number: 10205615Abstract: A method is provided for digital Simultaneous Information and Energy Transfer (SIET), comprising the steps of receiving a serial SIET analog signal, and converting the serial SIET analog signal received into a parallel SIET analog signal, extracting an analog information signal and an analog energy signal from the parallel SIET analog signal, performing analog-to-digital conversion on the analog information signal to obtain a digital information signal, and performing information demodulation, parallel-to-serial conversion and decoding on the digital information signal in digital domain, and pre-processing the analog energy signal in analog domain and storing the preprocessed analog energy signal. As the information signal is processed in the digital domain and the energy signal is processed in the analog domain, the energy in the SIET signal can be full collected in receiving side.Type: GrantFiled: December 5, 2017Date of Patent: February 12, 2019Assignee: South University of Science & Technology of ChinaInventors: Yi Gong, Zhi Quan, Zidong Han
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Publication number: 20190026415Abstract: A structural design method of a product is provided. The method includes obtaining a preliminary design of a subsurface mesh structure by filling a body model of the product with spherical cells at preset positions of the body model and performing an finite element analysis and optimization; and optimizing, through a design method for optimizing functions, filling features of the spherical cells based on a simulation analysis so that the structure of the product satisfies a preset target.Type: ApplicationFiled: November 3, 2017Publication date: January 24, 2019Applicant: SOUTH UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINAInventors: Pinlian Han, Kun Zhang
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Patent number: 10123336Abstract: A resource allocation optimization method is provided for a Simultaneous Information and Energy Transfer (SIET) system. A baseband signal transmitted by a transmitting terminal of the system contain an information signal and an energy signals. The optimization method comprises a step P1 of determining a system pre-allocated parameter set, and solving steps for the step P1. The multicarrier broadband SIET optimization method disclosed is automatically configurable and feasible, giving consideration to both wireless energy supply and information transmission. The energy signal and the information signal are simultaneously and independently transmitted to the receiving terminal, therefore providing the energy required by the receiving terminal operating in a working mode. The method described can be widely applied into a variety of information and energy simultaneous transformation systems.Type: GrantFiled: December 4, 2017Date of Patent: November 6, 2018Assignee: S. University of Science and Technology of ChinaInventors: Yi Gong, Zidong Han
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Publication number: 20180219510Abstract: The application proposes a distributed solar energy concentrating and splitting utilization system, comprising N concentrating and splitting optical modules, each of the concentrating and splitting modules comprising of a condensing mechanism, a splitting mechanism and a photovoltaic power generating device, wherein the splitting mechanism is located at the spotlight. The light receiving surface of the light condensing mechanism and the light receiving surface of the light splitting mechanism are oppositely arranged. The light splitting film is arranged on the light receiving surface of the light splitting mechanism, and a light transmitting hole is arranged on the light condensing mechanism for collecting sunlight and irradiating the light splitting mechanism.Type: ApplicationFiled: August 3, 2016Publication date: August 2, 2018Applicant: INSTITUTE OF ADVANCED TECHNOLOGY, UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINAInventors: Wen LIU, Fangxin ZHANG, Dahan QIAN, Ming LI, Luqing LIU, Qixing WANG
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Patent number: 10000844Abstract: A magnetic field generator arranged behind a target and for generating a magnetic field on a front surface of the target based on magnetic force lines can include a ring-shaped outer magnetic body having a pole axis in a parallel direction (X-direction) with respect to the target surface, a center magnetic body arranged on an inner side of the outer magnetic body and having a pole axis in a parallel direction (X-direction) with the direction of the pole axis of the outer magnetic body, a yoke plate for supporting the outer magnetic body and the center magnetic body from behind, and a magnetic permeable plate for changing a magnetic field distribution of the front surface of the target. The magnetic permeable plate is arranged so as to be supported by the yoke plate from behind.Type: GrantFiled: August 30, 2011Date of Patent: June 19, 2018Assignees: SHINCRON CO., LTD., UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINAInventors: Wei Kong, Zijing Lin, Ming Li, Bin Xie, Haiqian Wang, Yousong Jiang, Ekishu Nagae