Patents by Inventor James Kang
James Kang 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).
-
Patent number: 11999999Abstract: Disclosed herein, inter alia, are compounds, compositions, and methods of use thereof in the sequencing of a nucleic acid.Type: GrantFiled: July 12, 2021Date of Patent: June 4, 2024Assignee: THE TRUSTEES OF COLUMBIA UNIVERSITY IN THE CITY OF NEW YORKInventors: Jingyue Ju, Xiaoxu Li, Xin Chen, Zengmin Li, Shiv Kumar, Shundi Shi, Cheng Guo, Jianyi Ren, Min-Kang Hsieh, Minchen Chien, Chuanjuan Tao, Ece Erturk, Sergey Kalachikov, James J. Russo
-
Patent number: 11995609Abstract: In one embodiment, a processing device receives a first digital fingerprint of a media item along with a first content management rule. The processing device separately receives a second digital fingerprint of the media item along with a second content management rule. The processing device determines that the received digital fingerprints are for the same media item based upon a match between the first digital fingerprint and the second digital fingerprint. The processing device determines that all rights to the media item have been accounted for, and then determines a set of actions to be performed for hosted media items comprising the media item based at least in part upon the first content management rule and the second content management rule. Processing logic may also perform a conflict resolution process for conflicting rights claims to the media item.Type: GrantFiled: November 9, 2022Date of Patent: May 28, 2024Assignee: Audible Magic CorporationInventors: Vance Ikezoye, David Price Williams, Michael Thomas Edwards, Stephen John Grillos, John R. Williams, James E. McNeill, Jr., Jay Friedman, Kuniyuki Takahashi, Sergio Alberto Orozco Ramos, Jesus Antonio Barajas Romero, Srinidhi Srinivasa Raghavan, Nancy Kang, Garen Levon Azizian, Edgar Escobar Baez
-
Publication number: 20240146491Abstract: Embodiments include methods for a network node to activate semi-persistent sounding reference signal (SP-SRS) resources for transmission by a user equipment (UE). Such methods include sending, to the UE, a control message comprising configuration of a set of SP-SRS resources associated with a particular serving cell of the wireless communication network. Such methods include sending to the UE a further control message for activating the configured set of SP-SRS resources. The further control message includes information identifying an SP-SRS resource of the set of SP-SRS resources to be activated, and an indication of the identified SP-SRS resource's spatial relation with a further resource that is not associated with the particular serving cell. The indication comprising an identity of a further serving cell that is different from the particular serving cell and that is associated with the further resource. Other embodiments include complementary methods for a UE.Type: ApplicationFiled: January 4, 2024Publication date: May 2, 2024Inventors: Stephen Grant, Sebastian Faxér, Claes Tidestav, James Kang
-
Patent number: 11959137Abstract: Disclosed herein, inter alia, are compounds, compositions, and methods of use thereof in the sequencing of a nucleic acid.Type: GrantFiled: August 9, 2022Date of Patent: April 16, 2024Assignee: THE TRUSTEES OF COLUMBIA UNIVERSITY IN THE CITY OF NEW YORKInventors: Jingyue Ju, Xiaoxu Li, Xin Chen, Zengmin Li, Shiv Kumar, Shundi Shi, Cheng Guo, Jianyi Ren, Min-Kang Hsieh, Minchen Chien, Chuanjuan Tao, Ece Erturk, Sergey Kalachikov, James J. Russo
-
Patent number: 11955765Abstract: Techniques are provided for controlling an output laser pulse signal of a medical device. A control device defines a time duration of capacitive discharge to a laser device. The time duration corresponds to an intended energy of the output laser pulse signal. The control device generates a plurality of sub-pulse control signals. The sub-pulse control signals define a series of capacitive discharge events of the capacitor bank. The control device modulates one or more of a sub-pulse control signal period or a sub-pulse time duration of the sub-pulse control signals to modify the capacitive discharge of the capacitor bank to the laser device during the time duration.Type: GrantFiled: September 25, 2020Date of Patent: April 9, 2024Assignee: Boston Scientific Scimed, Inc.Inventors: Jian James Zhang, Baocheng Yang, Xirong Yang, Hyun Wook Kang, Brian Cheng, Peter Bull, Rongwei Jason Xuan, Thomas C. Hasenberg
-
Publication number: 20230104799Abstract: Disclosed in the present application is a use of a composition in treating atherosclerosis. Specifically, the present application relates to a use of a composition comprising microbubbles and copper ions in treating atherosclerosis.Type: ApplicationFiled: February 7, 2021Publication date: April 6, 2023Inventor: Yujian James Kang
-
Patent number: 11439731Abstract: The invention relates to the technical filed of tissue engineering and 3D printing, particularly relates to an artificial tissue progenitor and a method for preparing the same.Type: GrantFiled: August 27, 2018Date of Patent: September 13, 2022Assignee: REVOTEK CO., LTD.Inventors: Yujian James Kang, Xiao Zuo, Mingchun Du
-
Patent number: 11224680Abstract: A bio-ink composition comprises a plurality of bio-block, in which the bio-blocks can serve as basic building blocks in cell-based bioprinting. The bio-blocks, pharmaceutical compositions comprising the bio-blocks, methods of preparing artificial tissues, tissue progenitors, or multi-dimensional constructs, and methods of preparing the bio-blocks are also provided. The bio-blocks, and the multi-dimensional constructs, artificial tissues, and tissue progenitors comprising the bio-blocks or prepared by the methods described herein are useful for tissue engineering, in vitro research, stem cell differentiation, in vivo research, drug screening, drug discovery, tissue regeneration, and regenerative medicine.Type: GrantFiled: April 14, 2017Date of Patent: January 18, 2022Assignee: REVOTEK CO., LTDInventors: Yujian James Kang, Xiao Zuo
-
Patent number: 11223964Abstract: A dynamic temperature manager of a wireless system determines a threshold temperature defined by one or more operating parameters of the wireless system, the threshold temperature indicating a temperature in response to which power consumption of the wireless system is to be reduced. The dynamic temperature manager receives an indication of a temperature of the wireless system. A determination is made that the temperature exceeds the threshold temperature. The dynamic temperature manager provides an indication to cause a media access control (MAC) processing circuitry of the wireless system to adjust the one or more operating parameters of the wireless system to reduce the power consumption and the temperature of the wireless system based on the determination that the temperature exceeds the threshold temperature.Type: GrantFiled: August 21, 2020Date of Patent: January 11, 2022Assignee: NXP USA, Inc.Inventors: Arnab Kumar Mitra, Deepak Nagawade, James Kang-Wuu Jan, Rajas Ravindra Mahajan, Ashish Vijay Bhattad, Vishal Veeragandham, Yui Lin, Sridhar Reddy Narravula
-
Publication number: 20210379102Abstract: Methods of ischemic tissue repair and regeneration through promoting tissue redistribution and reuse of copper by administering a composition comprising a copper chelating tetramine, such as trientine. Methods and compositions for increasing intracellular copper lever and/or inducing repair of an ischemic tissue in an individual. Increased copper level in an ischemic tissue may promote copper-dependent HIF-1 transcriptional activities and tissue repair.Type: ApplicationFiled: May 10, 2021Publication date: December 9, 2021Inventor: Yujian James KANG
-
Patent number: 11149240Abstract: The present invention relates to a rotary rod for 3D bio-printing, in which the rotary rod is arranged horizontally and is driven to rotate, the rotary rod has a hollow structure and provided with at least one hole in a surface thereof, such that during a 3D bio-printing process, a nutrition solution passes through the hollow structure and a portion of the nutrition solution exudes via at least one hole. The present invention further provides a 3D bio-printing platform for supplying nutrition, comprising the rotary rod and a nutrition supply system, and a method of printing a tubular tissue using the bio-printing platform. The present invention, which reduces the possibility of resulting in tissue collapse from the effect of gravity, provides a new method of 3D bio-printing a tubular tissue and supplying nutrition in a printing process, with a wide application prospect.Type: GrantFiled: March 31, 2015Date of Patent: October 19, 2021Assignee: REVOTEK CO., LTDInventors: Yujian James Kang, Huixing Zhou
-
Patent number: 11141510Abstract: A bio-ink composition comprises a plurality of bio-block, in which the bio-blocks can serve as basic building blocks in cell-based bioprinting. The bio-blocks, pharmaceutical compositions comprising the bio-blocks, methods of preparing artificial tissues, tissue progenitors, or multi-dimensional constructs, and methods of preparing the bio-blocks are also provided. The bio-blocks, and the multi-dimensional constructs, artificial tissues, and tissue progenitors comprising the bio-blocks or prepared by the methods described herein are useful for tissue engineering, in vitro research, stem cell differentiation, in vivo research, drug screening, drug discovery, tissue regeneration, and regenerative medicine.Type: GrantFiled: March 22, 2019Date of Patent: October 12, 2021Assignee: Revotek Co., Ltd.Inventors: Yujian James Kang, Xiao Zuo
-
Patent number: 11077138Abstract: The disclosure provides local delivery of a trace element to a site of tissue injury, which triggers the body' inherent tissue repair mechanism. Local delivery of copper to the site of injury induces migration (i.e., homing) of stem cells to the site of injury, triggers differentiation of stem cells at the site of injury, induces tissue regeneration at the site of injury, induces signaling molecules that trigger tissue regeneration, reverses damage at the site of injury, and/or reconstructs the microenvironment of neurofibril cells and neurosecretory cells at the site of injury. In another aspect, delivering a trace element (for example, copper) directly to the site of injury and associated methods are disclosed.Type: GrantFiled: April 8, 2016Date of Patent: August 3, 2021Assignee: INNOLIFE CO., LTD.Inventor: Yujian James Kang
-
Patent number: 11033579Abstract: Methods of ischemic tissue repair and regeneration through promoting tissue redistribution and reuse of copper by administering a composition comprising a copper chelating tetramine, such as trientine. Methods and compositions for increasing intracellular copper lever and/or inducing repair of an ischemic tissue in an individual. Increased copper level in an ischemic tissue may promote copper-dependent HIF-1 transcriptional activities and tissue repair.Type: GrantFiled: September 23, 2016Date of Patent: June 15, 2021Assignee: INNOLIFE CO., LTD.Inventor: Yujian James Kang
-
Publication number: 20210058802Abstract: A dynamic temperature manager of a wireless system determines a threshold temperature defined by one or more operating parameters of the wireless system, the threshold temperature indicating a temperature in response to which power consumption of the wireless system is to be reduced. The dynamic temperature manager receives an indication of a temperature of the wireless system. A determination is made that the temperature exceeds the threshold temperature. The dynamic temperature manager provides an indication to cause a media access control (MAC) processing circuitry of the wireless system to adjust the one or more operating parameters of the wireless system to reduce the power consumption and the temperature of the wireless system based on the determination that the temperature exceeds the threshold temperature.Type: ApplicationFiled: August 21, 2020Publication date: February 25, 2021Inventors: Arnab Kumar Mitra, Deepak Nagawade, James Kang-Wuu Jan, Rajas Ravindra Mahajan, Ashish Vijay Bhattad, Vishal Veeragandham, Yui Lin, Sridhar Reddy Narravula
-
Patent number: 10820371Abstract: A wireless data transceiver includes a media access controller (MAC) configured to receive an inbound data packet from an air interface and to buffer the inbound packet for transport to a host, and to receive an outbound data packet from elsewhere in the transceiver and to transfer the outbound packet to the air interface. The transceiver further includes a host interface configured to receive the inbound packet transported from the MAC and to transfer the inbound packet to the host, and to receive the outbound packet from the host for transfer to the MAC. The transceiver also includes transport controller circuitry configured to execute instructions to generate and transfer management packets. In addition, the wireless data transceiver includes hardware data transport circuitry for transporting the inbound packet from the MAC to the host interface, and for transporting the outbound packet from the host interface to the MAC, without executing instructions.Type: GrantFiled: May 24, 2019Date of Patent: October 27, 2020Assignee: Marvell Asia Pte, Ltd.Inventors: Frank Huang, Tao Song, Xinyu Zang, Zheng Cao, James Kang-Wuu Jan
-
Publication number: 20190328935Abstract: The invention relates to the technical filed of tissue engineering and 3D printing, particularly relates to an artificial tissue progenitor and a method for preparing the same.Type: ApplicationFiled: September 14, 2017Publication date: October 31, 2019Inventors: Yujian James KANG, Xiao ZUO, Mingchun DU
-
Publication number: 20190216988Abstract: A bio-ink composition comprises a plurality of bio-block, in which the bio-blocks can serve as basic building blocks in cell-based bioprinting. The bio-blocks, pharmaceutical compositions comprising the bio-blocks, methods of preparing artificial tissues, tissue progenitors, or multi-dimensional constructs, and methods of preparing the bio-blocks are also provided. The bio-blocks, and the multi-dimensional constructs, artificial tissues, and tissue progenitors comprising the bio-blocks or prepared by the methods described herein are useful for tissue engineering, in vitro research, stem cell differentiation, in vivo research, drug screening, drug discovery, tissue regeneration, and regenerative medicine.Type: ApplicationFiled: March 22, 2019Publication date: July 18, 2019Inventors: Yujian James KANG, Xiao ZUO
-
Publication number: 20190038809Abstract: The invention relates to the technical filed of tissue engineering and 3D printing, particularly relates to an artificial tissue progenitor and a method for preparing the same.Type: ApplicationFiled: August 27, 2018Publication date: February 7, 2019Inventors: Yujian James KANG, Xiao ZUO, Mingchun DU
-
Patent number: 10121153Abstract: A method of using an escrow service within a services exchange medium allows a buyer to deposit asset for a project into escrow. The asset is released to a service provider once the project is completed and approved by the buyer. The buyer and the service provider are able to ascribe escrow status to the project before starting the project. The buyer is able to upon posting the project. The service provider is able to while bidding on the project even if the buyer had not ascribe the escrow status to the project upon posting. The escrow service includes a tax filing feature and a dispute assistance feature. The tax filing feature issues 1099 U.S. federal tax forms on behalf of U.S. buyers to the I.R.S. after each tax year. The dispute assistance feature facilitates discussion between the service provider and the buyer to foster a resolution of a dispute.Type: GrantFiled: May 17, 2011Date of Patent: November 6, 2018Assignee: ELANCE, INC.Inventors: Jonathan Paul Diller, Rajasekhar L. Kovuru, James Kang-Koog Lee