- Princeton NJ, US Amy C. Hart - Ewing NJ, US John E. Macor - Washington Crossing PA, US Michael E. Mertzman - New Hope PA, US William J. Pitts - Newtown PA, US Steven H. Spergel - Warrington PA, US Scott Hunter Watterson - Pennington NJ, US Murugaiah Andappan Murugaiah Subbaiah - Tamil Radu, IN Jie Chen - Cambridge MA, US Carolyn Diane Dzierba - Middletown CT, US Guanglin Luo - Newtown PA, US Jianliang Shi - Furlong PA, US
International Classification:
C07D 471/04
Abstract:
Compounds having formula (I)-(IX), and enantiomers, and diastereomers, stereoisomers, pharmaceutically acceptable salts and prodrugs thereof, are useful as kinase modulators, including RIPK1 modulation. All the variables are as defined herein.
In accordance with example embodiments of the present disclosure there is at least a method and apparatus to perform communicating between a network node and a user equipment of a communication network, authorization for the user equipment to join a group of user equipment to enable the user equipment to receive multicast configurations for multicast signaling authorized for the group, wherein the authorization is based on configurations in common between the user equipment and the group of user equipment; and based on the joining, utilizing the configurations in common to produce signaling between the communication network and the user equipment to receive multicast configurations for the multicast signaling authorized for the group.
Machine Learning Based Channel State Information Estimation And Feedback Configuration
- Espoo, FI Amitabha Ghosh - Buffalo Grove IL, US Gilsoo Lee - Naperville IL, US Jie Chen - Naperville IL, US Jun Tan - Glenview IL, US
International Classification:
H04B 17/391 G06N 20/00 H04B 7/06
Abstract:
Systems, methods, apparatuses, and computer program products for machine learning based channel state information (CSI) estimation and feedback configuration are provided. A method may include learning channel state information feedback from one or more user equipment as time series data. The method may also include building a predictive model for user equipment feedback based on the learned channel state information feedback. The method may further include configuring a channel state information trigger with the one or more user equipment based on the predictive model. In addition, the method may include signaling predicted channel state information to the one or more user equipment.
Early Termination With Distributed Crc Polar Codes
- Espoo, FI Jie CHEN - Schaumburg IL, US Dongyang DU - Hangzhou, Zhejiang, CN Yu CHEN - Shanghai, CN
International Classification:
H04L 1/00
Abstract:
A method for encoding a sequence of control information bits comprising: generating a sequence of error detection bits based on the sequence of control information bits; generating a sequence of error correction bits based on the sequence of control information bits; and distributing the sequence of error detection bits and the sequence of error correction bits between the sequence of control information bits to form a combined sequence of bits, such that the bit order of the combined sequence of bits following the distribution enables an error detection check to be performed before or after a first error correction check bit.
Action Recognition With High-Order Interaction Through Spatial-Temporal Object Tracking
- Princeton NJ, US Asim KADAV - Jersey City NJ, US Jie CHEN - Bellevue WA, US
Assignee:
NEC LABORATORIES AMERICA, INC - Princeton NJ
International Classification:
G06K 9/00
Abstract:
Aspects of the present disclosure describe systems, methods, and structures that provide action recognition with high-order interaction with spatio-temporal object tracking. Image and object features are organized into into tracks, which advantageously facilitates many possible learnable embeddings and intra/inter-track interaction(s). Operationally, our systems, method, and structures according to the present disclosure employ an efficient high-order interaction model to learn embeddings and intra/inter object track interaction across the space and time for AR. Each frame is detected by an object detector to locate visual objects. Those objects are linked through time to form object tracks. The object tracks are then organized and combined with the embeddings as the input to our model. The model is trained to generate representative embeddings and discriminative video features through high-order interaction which is formulated as an efficient matrix operation without iterative processing delay.
- Espoo, FI - Shanghai, CN Dongyang DU - Zhejiang, CN Jie CHEN - Schaumburg IL, US
International Classification:
H03M 13/09 H03M 13/27
Abstract:
A method including determining a cyclic redundancy check (CRC) generator sequence defining a one to one mapping between a sequence of control information values and cyclic redundancy check (CRC) sequence values; and determining a combined sequence, the combined sequence formed by distributing the cyclic redundancy check (CRC) value sequence within the sequence of control information values, wherein the distributing the cyclic redundancy check (CRC) value sequence within the sequence of control information values is based on a selected part of the cyclic redundancy check (CRC) generator sequence.
- Princeton NJ, US Amy C. Hart - Ewing NJ, US John E. Macor - Washington Crossing PA, US Michael E. Mertzman - New Hope PA, US William J. Pitts - Newtown PA, US Steven H. Spergel - Warrington PA, US Scott Hunter Watterson - Pennington NJ, US Murugaiah Andappan Murugaiah Subbaiah - Tamil Radu, IN Jie Chen - Cambridge MA, US Carolyn Diane Dzierba - Middletown CT, US Guanglin Luo - Newtown PA, US Jianliang Shi - Furlong PA, US
International Classification:
C07D 471/04
Abstract:
Compounds having formula (I) (IX), and enantiomers, and diastereomers, stereoisomers, pharmaceutically acceptable salts and prodrugs thereof, are useful as kinase modulators, including RIPK1 modulation. All the variables are as defined herein: (I), (II), (III), (IV), (V), (VI), (VII), (VIII), (IX).
- Espoo, FI Jorma Johannes Kaikkonen - Oulu, FI Sami-Jukka Hakola - Kemple, FI Jie Chen - Schaumburg IL, US
International Classification:
H04L 5/00 H04L 1/00 H04B 7/06
Abstract:
Embodiments described herein encode data for multiple-segment transmission in a communication channel by encoding payload bits with an outer code and distributing the outer encoded payload bits to a plurality of N element coders, where N is an integer greater than one. At each of the N element coders the respectively input outer encoded payload bits are encoded with a respective element code. Outputs of the N element coders are encoded with an inner code such that the inner code applied to at least one of the outputs of the N element coders is a function of the output of at least one other of the N element coders. Finally, N discrete inner coded outputs are provided for transmission in respective N discrete segments of a wireless channel. The examples present polar element coders and the inner code combines outputs of certain element coders with an exclusive-OR function.
Joint position by Purdue University and Total West Lafayette, IN Oct 2013 to Oct 2015 Industrial Postdoc Research AssociateSchlumberger-Doll Research Cambridge, MA Jun 2013 to Oct 2013 InternshipUniversity of Washington Seattle, WA Oct 2010 to Jun 2013 Research AssistantUniversity of Washington Houston, TX Jun 2012 to Sep 2012 InternshipGeorgia Southern University Statesboro, GA 2008 to 2009 Research Assistant
Education:
University of Washington Seattle, WA 2009 to 2013 Ph.D in Department of MathematicsGeorgia Southern University May 2009 M.Sc. in Mathematical ScienceZhejiang University Hangzhou, CN 2003 to 2007 B.S. in Applied Math
WesternGeco, Schlumberger Houston, TX Jun 2012 to Sep 2012 InternshipUniversity of Washington Seattle, WA 2011 to 2012 Research AssistantGeorgia Southern University Statesboro, GA 2008 to 2009 Research Assistant
Education:
Georgia Southern University May 2009 M.Sc. in Department of Mathematical ScienceUniversity of Washington Ph.D in Department of Mathematics
Geo-Mathematical Imaging Group, Dept. of Math, Purdue University
Oct 2013 to 2000 Industrial Postdoc Research Associate funded by TotalSchlumberger-Doll Research Cambridge, MA Jun 2013 to Oct 2013 InternshipUniversity of Washington Seattle, WA Oct 2010 to Jun 2013 Research AssistantWesternGeco, Schlumberger Houston, TX Jun 2012 to Sep 2012 InternshipGeorgia Southern University Statesboro, GA 2008 to 2009 Research Assistant
Education:
University of Washington Seattle, WA 2009 to 2013 Ph.D in Department of MathematicsGeorgia Southern University May 2009 M.Sc. in Department of Mathematical ScienceZhejiang University Hangzhou, China 2003 to 2007 BS in Applied math
International Community Health Services Administrative Office · Health/Allied Services Management Services · Health/Allied Services · Physical Exams and Testing Service
PO Box 3007, Seattle, WA 98114 412 A Mnr, Seattle, WA 98104 2064613617, 2067883700
Jie Chen Pharmacist
Holly Park Medical Dental Clinic Medical Doctor's Office Dentist's Office · Offices of Dentists
3815 S Othello St, Seattle, WA 98118 2067883500, 2064614948
Jie Chen
CHINA LONGYI GROUP INTERNATIONAL HOLDINGS LIMITED
Jie Chen Principal
International Society Forbiopharmaceutical Statist Business Services at Non-Commercial Site · Nonclassifiable Establishments
304 Evening Walk Ln, Warrington, PA 18976
Jie Chen Director of Data Processing
Siemens Financial Services, Inc Misc Business Credit Institutions
51 Vly Strm Pkwy, Frazer, PA 19355
Jie Chen Director of Data Processing, Software Engineer
Siemens Energy, Inc Ret Lumber/Building Materials
51 Vly Strm Pkwy, Frazer, PA 19355 100 Matsonford Rd, Wayne, PA 19087 6109718611
University Of Virginia Transplant Center 1300 Jefferson Park Ave FL 4, Charlottesville, VA 22903 4349248604 (phone), 4349240017 (fax)
UVA Medical Center Inpatient Transplant Surgery & Urology 1215 Lee St 5 W, Charlottesville, VA 22908 4349242338 (phone), 4349242355 (fax)
Languages:
English
Description:
Ms. Chen works in Charlottesville, VA and 1 other location and specializes in Transplant Surgery. Ms. Chen is affiliated with University Of Virginia Medical Center.
atusik, a professor of electrical engineering and computer science at MIT who leads the Computational Design and Fabrication Group within the Computer Science and Artificial Intelligence Laboratory (CSAIL); Meng Jiang, associate professor at the University of Notre Dame; and senior author Jie Chen,