Patents by Inventor Xiangrong LI
Xiangrong LI 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: 20240101619Abstract: A protein with an activity of inhibiting angiogenesis and inflammation, and a specific structure, use, and preparation method thereof are provided. The protein can inhibit both angiogenesis and inflammation, and can prevent and alleviate ophthalmic diseases such as age-related macular degeneration (AMD), diabetic retinopathy (DR), and pterygium to some extent based on a dual action mechanism.Type: ApplicationFiled: January 13, 2021Publication date: March 28, 2024Applicant: ZHAOKE (GUANGZHOU) OPHTHALMOLOGY PHARMACEUTICAL LTD.Inventors: Xiaoyi LI, Xiangrong DAI, Li FANG, Fang QIAN, Yinping YAN, Zicheng DAI, Luoyi LI
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Publication number: 20230126060Abstract: The present disclosure discloses a surface acoustic wave temperature sensor and a manufacturing method thereof. The surface acoustic wave temperature sensor includes a sensing module and an antenna module electrically connected to each other. The antenna module includes a first high-temperature-resistant substrate and a patterned antenna formed on a surface of the first high-temperature-resistant substrate, a recess is formed in a first surface of the first high-temperature-resistant substrate, and the sensing module is fixed in the recess. The sensing module and the antenna module of the surface acoustic wave temperature sensor provided by the present disclosure form a whole. Therefore, compared with the prior art, the volume is greatly reduced, and wireless passive temperature monitoring in a high-temperature and narrow space can be better implemented. Moreover, the sensing module can be integrated in the antenna module, and such a structure is more convenient for batch processing.Type: ApplicationFiled: June 16, 2022Publication date: April 27, 2023Inventors: Qiulin TAN, Xiaorui LIANG, Xiangrong LI, Lei ZHANG, Wendong ZHANG, Jijun XIONG
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Publication number: 20230071375Abstract: A method of protecting confidentiality of air-gapped logs comprises: generating, during a first log processing cycle, a data processor key and a drive encryption key, wherein the data processor key and the drive encryption key are unique to a log drive mounted to at least one computer processor; wrapping the drive encryption key with the computer processor key; storing the drive encryption key wrapped by the computer processor key in a database, where the database is mapped to data uniquely identifying the log drive; wrapping the drive encryption key with a default key that is known to at least one originator device; wiping the log drive; and writing the drive encryption key wrapped by the default key to the log drive. Some methods described also include a method of processing logs by an originator. Systems and computer program products are also provided.Type: ApplicationFiled: September 3, 2021Publication date: March 9, 2023Inventors: Xiangrong Li, Michael Maass, Andrew Spangler, Marwan Abi-Antoun
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Patent number: 11181608Abstract: Disclosed are examples of a method, system and asset tag that enables general, coarse and fine estimates of a location of the asset tag. The asset tag receives a signal transmitted from radio frequency (RF)-enabled nodes within a space. Each respective received signal includes a unique node identifier of the respective RF node that transmitted the respective received radio signal. Each RF node has a physical node location in the space that is associated with the unique node identifier. The tag measures the received signal strength of each respective received signal that is associated with the node identifier of the RF node that transmitted the respective received signal. The strongest measured received signal strengths are selected, and a tuple containing the node identifiers for the selected strongest signal strengths is forwarded for estimating a location of the asset tag by a computing device.Type: GrantFiled: August 8, 2019Date of Patent: November 23, 2021Assignee: ABL IP HOLDING LLCInventors: Xiangrong Li, Mitri J. Abou-Rizk
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Patent number: 10891448Abstract: Examples of a system and a method for asset tracking are provided. The system includes wireless communication nodes in a space that receive a basic message including an asset tracking tag identifier and a basic message sequence number transmitted by an asset tracking tag. The wireless communication nodes measure a received basic message signal attribute, and transmit a node asset message including the asset tracking tag identifier, the basic message sequence number, a node identifier, and the measured signal attribute of the received basic message to an edge gateway. The edge gateway may receive the transmitted node asset message transmitted by each of some number of the wireless communication nodes and rank respective node identifiers extracted from the received node asset messages based the measured signal attribute. The edge gateway forwards an aggregated message to a fog gateway for obtaining an estimate of the location of the asset tracking tag.Type: GrantFiled: January 30, 2019Date of Patent: January 12, 2021Assignee: ABL IP HOLDING LLCInventors: Xiangrong Li, Jesse Grant, Sajin George, Emanuel Paul Malandrakis, Mitri J. Abou-Rizk
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Patent number: 10685194Abstract: A system includes a plurality of lighting devices connected in a network to communicate in a service area, and a smart tag configured to communicate with one or more of the lighting devices. Each respective lighting device is configured to transmit a radio frequency signal including a device identifier of the respective lighting device. In response to expiration of a time period or an occurrence of an event, the smart tag is configured to transition from a low power consumption sleep mode to an awake mode. During the awake mode, the smart tag is configured to provide information that enables a processor or other computing device to determine a position of the smart tag or any asset associated with the smart tag in the service area. Upon transmission of the information, the smart tag is transitioned from the awake mode back to the low power consumption sleep mode.Type: GrantFiled: May 15, 2019Date of Patent: June 16, 2020Assignee: ABL IP HOLDING LLCInventors: Yenpao Lu, Kelby Edward Green, Emanuel Paul Malandrakis, Sajin George, Mitri J. Abou-Rizk, Xiangrong Li
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Patent number: 10502811Abstract: Radio frequency-enabled nodes, in an example asset tracking system, receive a basic message including an asset tracking tag identifier from an asset tag. The nodes measure a signal attribute of the received message; and each receiving node transmits a node asset message including the asset tag identifier, a respective node identifier, and the measured signal attribute. Edge gateways each receive one or more node asset messages transmitted by some number of the radio frequency-enabled nodes and rank respective node identifiers based on the measured signal attribute. Each edge gateway forwards an aggregated message to a fog gateway, which parses data from the aggregated messages to form a node identifier tuple identifying at least three nodes near the asset tag. Ordered identifiers from the tuple and known locations of the identified nearby nodes can then be processed to estimate of the location of the asset tag.Type: GrantFiled: March 7, 2019Date of Patent: December 10, 2019Assignee: ABL IP HOLDING LLCInventors: Xiangrong Li, Jesse Grant, Sajin George, Emanuel Paul Malandrakis, Mitri J. Abou-Rizk
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Publication number: 20190361089Abstract: Disclosed are examples of a method, system and asset tag that enables general, coarse and fine estimates of a location of the asset tag. The asset tag receives a signal transmitted from radio frequency (RF)-enabled nodes within a space. Each respective received signal includes a unique node identifier of the respective RF node that transmitted the respective received radio signal. Each RF node has a physical node location in the space that is associated with the unique node identifier. The tag measures the received signal strength of each respective received signal that is associated with the node identifier of the RF node that transmitted the respective received signal. The strongest measured received signal strengths are selected, and a tuple containing the node identifiers for the selected strongest signal strengths is forwarded for estimating a location of the asset tag by a computing device.Type: ApplicationFiled: August 8, 2019Publication date: November 28, 2019Inventors: Xiangrong LI, Mitri J. ABOU-RIZK
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Publication number: 20190294833Abstract: A system includes a plurality of lighting devices connected in a network to communicate in a service area, and a smart tag configured to communicate with one or more of the lighting devices. Each respective lighting device is configured to transmit a radio frequency signal including a device identifier of the respective lighting device. In response to expiration of a time period or an occurrence of an event, the smart tag is configured to transition from a low power consumption sleep mode to an awake mode. During the awake mode, the smart tag is configured to provide information that enables a processor or other computing device to determine a position of the smart tag or any asset associated with the smart tag in the service area. Upon transmission of the information, the smart tag is transitioned from the awake mode back to the low power consumption sleep mode.Type: ApplicationFiled: May 15, 2019Publication date: September 26, 2019Inventors: Yenpao LU, Kelby Edward GREEN, Emanuel Paul MALANDRAKIS, Sajin GEORGE, Mitri J. ABOU-RIZK, Xiangrong LI
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Patent number: 10422848Abstract: Disclosed are examples of a method, system and asset tag that enables general, coarse and fine estimates of a location of the asset tag. The asset tag receives a signal transmitted from radio frequency (RF)-enabled nodes within a space. Each respective received signal includes a unique node identifier of the respective RF node that transmitted the respective received radio signal. Each RF node has a physical node location in the space that is associated with the unique node identifier. The tag measures the received signal strength of each respective received signal that is associated with the node identifier of the RF node that transmitted the respective received signal. The strongest measured received signal strengths are selected, and a tuple containing the node identifiers for the selected strongest signal strengths is forwarded for estimating a location of the asset tag by a computing device.Type: GrantFiled: March 9, 2018Date of Patent: September 24, 2019Assignee: ABL IP HOLDING LLCInventors: Xiangrong Li, Mitri J. Abou-Rizk
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Publication number: 20190277939Abstract: Radio frequency-enabled nodes, in an example asset tracking system, receive a basic message including an asset tracking tag identifier from an asset tag. The nodes measure a signal attribute of the received message; and each receiving node transmits a node asset message including the asset tag identifier, a respective node identifier, and the measured signal attribute. Edge gateways each receive one or more node asset messages transmitted by some number of the radio frequency-enabled nodes and rank respective node identifiers based on the measured signal attribute. Each edge gateway forwards an aggregated message to a fog gateway, which parses data from the aggregated messages to form a node identifier tuple identifying at least three nodes near the asset tag. Ordered identifiers from the tuple and known locations of the identified nearby nodes can then be processed to estimate of the location of the asset tag.Type: ApplicationFiled: March 7, 2019Publication date: September 12, 2019Inventors: Xiangrong LI, Jesse GRANT, Sajin GEORGE, Emanuel Paul MALANDRAKIS, Mitri J. ABOU-RIZK
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Publication number: 20190277937Abstract: Disclosed are examples of a method, system and asset tag that enables general, coarse and fine estimates of a location of the asset tag. The asset tag receives a signal transmitted from radio frequency (RF)-enabled nodes within a space. Each respective received signal includes a unique node identifier of the respective RF node that transmitted the respective received radio signal. Each RF node has a physical node location in the space that is associated with the unique node identifier. The tag measures the received signal strength of each respective received signal that is associated with the node identifier of the RF node that transmitted the respective received signal. The strongest measured received signal strengths are selected, and a tuple containing the node identifiers for the selected strongest signal strengths is forwarded for estimating a location of the asset tag by a computing device.Type: ApplicationFiled: March 9, 2018Publication date: September 12, 2019Inventors: Xiangrong LI, Mitri J. ABOU-RIZK
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Publication number: 20190278952Abstract: Examples of a system and a method for asset tracking are provided. The system includes wireless communication nodes in a space that receive a basic message including an asset tracking tag identifier and a basic message sequence number transmitted by an asset tracking tag. The wireless communication nodes measure a received basic message signal attribute, and transmit a node asset message including the asset tracking tag identifier, the basic message sequence number, a node identifier, and the measured signal attribute of the received basic message to an edge gateway. The edge gateway may receive the transmitted node asset message transmitted by each of some number of the wireless communication nodes and rank respective node identifiers extracted from the received node asset messages based the measured signal attribute. The edge gateway forwards an aggregated message to a fog gateway for obtaining an estimate of the location of the asset tracking tag.Type: ApplicationFiled: January 30, 2019Publication date: September 12, 2019Inventors: Xiangrong LI, Jesse GRANT, Sajin GEORGE, Emanuel Paul Malandrakis, Mitri J. ABOU-RIZK
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Patent number: 10346649Abstract: A tag is configured to provide information that enables a processor or other computing device to locate the tag and any asset associated with the tag in an area. The tag incorporates a motion sensor responsive to movements of the tag above a predetermined rate and a predetermined magnitude. In response to the movements above the predetermined rate and magnitude, the motion sensor generates a voltage exceeding a predetermined threshold. An energy-saving process exploits the tag's microcontroller's transitions between a “sleep” state and an “awake” state. While asleep, the microcontroller maintains a clock and data in memory, and monitors an input from the motion sensor. In response to voltages at the input over the predetermine threshold, the microcontroller receives signals from one or more nearby beacon nodes in a network operating in the area, process the signals and transmit information based on the processed signals, for a position determination.Type: GrantFiled: January 9, 2018Date of Patent: July 9, 2019Assignee: ABL IP HOLDING LLCInventors: Yenpao Lu, Kelby Edward Green, Emanuel Paul Malandrakis, Sajin George, Mitri J. Abou-Rizk, Xiangrong Li
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Patent number: 10210353Abstract: Examples of a system and a method for asset tracking are provided. The system includes wireless communication nodes in a space that receive a basic message including an asset tracking tag identifier and a basic message sequence number transmitted by an asset tracking tag. The wireless communication nodes measure a received basic message signal attribute, and transmit a node asset message including the asset tracking tag identifier, the basic message sequence number, a node identifier, and the measured signal attribute of the received basic message to an edge gateway. The edge gateway may receive the transmitted node asset message transmitted by each of some number of the wireless communication nodes and rank respective node identifiers extracted from the received node asset messages based the measured signal attribute. The edge gateway forwards an aggregated message to a fog gateway for obtaining an estimate of the location of the asset tracking tag.Type: GrantFiled: March 9, 2018Date of Patent: February 19, 2019Assignee: ABL IP HOLDING LLCInventors: Xiangrong Li, Jesse Grant, Sajin George, Emanuel Paul Malandrakis, Mitri J. Abou-Rizk
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Publication number: 20180196972Abstract: A tag is configured to provide information that enables a processor or other computing device to locate the tag and any asset associated with the tag in an area. The tag incorporates a motion sensor responsive to movements of the tag above a predetermined rate and a predetermined magnitude. In response to the movements above the predetermined rate and magnitude, the motion sensor generates a voltage exceeding a predetermined threshold. An energy-saving process exploits the tag's microcontroller's transitions between a “sleep” state and an “awake” state. While asleep, the microcontroller maintains a clock and data in memory, and monitors an input from the motion sensor. In response to voltages at the input over the predetermine threshold, the microcontroller receives signals from one or more nearby beacon nodes in a network operating in the area, process the signals and transmit information based on the processed signals, for a position determination.Type: ApplicationFiled: January 9, 2018Publication date: July 12, 2018Inventors: Yenpao LU, Kelby Edward GREEN, Emanuel Paul MALANDRAKIS, Sajin GEORGE, Mitri J. ABOU-RIZK, Xiangrong LI
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Patent number: 9922453Abstract: A system and method for generating a shrink wrap around a model. The method includes detecting non-manifold edges in an octree generated shrink wrap by counting a number of faces adjacent to each edge, removing the non-manifold edges by cloning the edges or vertices shared by the non-manifold edge, and generating a first projection for the wrapper by moving each wrapper vertex towards a nearest location on the model. The method includes determining a set of wrapper vertices for reprojection based on the computation of a projection angle and a rotational angle and generating a second projection for the set the wrapper vertices using a seed-based closest point method or the center of the adjacent wrapper vertices.Type: GrantFiled: May 3, 2013Date of Patent: March 20, 2018Assignee: MSC.Software CorporationInventors: Kunaseelan Kanthasamy, Xiangrong Li
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Patent number: 9604301Abstract: The invention discloses a method to determine the weld joint penetration from arc voltage measurements in gas tungsten arc welding (GTAW). It is based on an observation on the dynamic weld pool surface in GTAW—the surface tends to first expand toward the electrode and then be pushed away from the electrode after full penetration is established. For the pool surface in GTAW, localized partial keyholes around the arc axis as in plasma arc welding are not significant. The pool surface is relatively smooth. The arc voltage that reflects changes in the arc length thus first tends to reduce and then increases after full penetration is established. This invention thus tracks the arc voltage until the decrease slope becomes insignificant. Once full penetration is established, the current is reduced to decrease the weld penetration or first decrease the penetration growth for a certain period and then decrease the weld penetration.Type: GrantFiled: November 13, 2012Date of Patent: March 28, 2017Inventors: YuMing Zhang, Xiangrong Li, Zeng Shao
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Patent number: 9497504Abstract: A method for enhancing fast backward performance includes: with regard to a plurality of offsets of a multimedia file, respectively storing corresponding cluster numbers into a first buffering region/buffer, where the offsets respectively correspond to different playback time points, and the cluster numbers respectively represent a plurality of clusters belonging to the multimedia file; and utilizing at least one portion of the offsets and the cluster numbers to perform a fast backward operation of the multimedia file. An associated electronic device is further provided.Type: GrantFiled: January 18, 2010Date of Patent: November 15, 2016Assignee: Silicon Motion Inc.Inventor: Xiangrong Li
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Publication number: 20160212813Abstract: Techniques and systems for deep dimming in an LED lighting system using any general microcontroller with a 16-bit timer/PWM module are provided. The techniques combines PWM (pulse width modulation) and PFM (pulse frequency modulation), and makes use of standard features of general microcontroller to reach a deep dimming level (such as 0.1% of the maximum output) without special hardware between microcontroller outputs to LED array. The overall complexity and cost are reduced while the lighting performance stays at high level. The methods and systems reduce the overall complexity of the LED driver circuits used to reach deep dimming, while also reducing the cost for achieving deep dimming in an LED lighting system. Additionally, the techniques and systems are able to maintain high switching frequency for most of the dimming range, which allows for flicker-free dimming performance.Type: ApplicationFiled: December 23, 2015Publication date: July 21, 2016Inventor: Xiangrong LI