Dr. Liu graduated from the Bethune Med Univ, Changchun City, Jilin, China in 1987. She works in Galesburg, IL and specializes in Internal Medicine and Emergency Medicine. Dr. Liu is affiliated with Galesburg Cottage Hospital and OSF St Mary Medical Center.
Medical School The Third Military Med Univ, Chongqing City, Sichuan, China Graduated: 1983
Languages:
Chinese English
Description:
Dr. Liu graduated from the The Third Military Med Univ, Chongqing City, Sichuan, China in 1983. She works in Alexandria, VA and specializes in Anatomic Pathology and Clinical Pathology. Dr. Liu is affiliated with Inova Alexandria Hospital.
United States University Los Angeles, CA Mar 2012 to Mar 2013 Assistant ProfessorLouisiana Tech University Ruston, LA Jun 2006 to Mar 2012 Teaching AssistantJiangxi Highway Development Co
Oct 2001 to Feb 2004 Assistant General ManagerDirector of Department Jun 2001 to Nov 2002Computer System Administrator Jul 1996 to Nov 2002Director of Department Jul 1998 to Jun 2001River Bridge Computer System
Oct 1998 to Dec 1998 Quality Control Engineer of Jiujiang YangtsePublic Bidding Invitation
Jul 1996 to Jul 1997 Project Management
Education:
Louisiana Tech University 2012 Doctor of Business AdministrationLouisiana Tech University 2009 Master of Business AdministrationNanChang University 1996 Bachelor of Science
Complete Genomics Inc. Mountain View, CA Jun 2014 to Dec 2014 Research Intern (paid)San Francisco State University Department of Cell & Molecular Biology, Romeo Lab San Francisco, CA Sep 2013 to May 2014 Undergraduate Research Assistant
Education:
San Francisco State University San Francisco, CA 2012 to 2014 B.Sc. in Cell & Molecular BiologyCity College of San Francisco San Francisco, CA 2012 Certificate in Biotechnology
Skills:
Experimental design for optimization. Assay development. Mammalian cell & bacterium culturing. PCR & gel electrophoresis. Software: Excel, PowerPoint, Word Processing.
Ernst & Young San Jose, CA Jan 2012 to May 2012 Analyst Intern, Accounting and Finance Honors PracticumShared Service Center Kuala Lumpur Nov 2011 to Jan 2012 Finance InternLam Research Corp Fremont, CA Aug 2011 to Dec 2011 Analyst Intern, Accounting and Finance Honors Practicum
Education:
San Jose State University San Jose, CA 2012 BS in Business Administration
Isbn (Books And Publications)
Zhongguo Bi Jiao Wen Xue Shi Lun: Theory of Chinese Comparative Literature
Yan Liu - Santa Clara CA Nebojsa Avdalovic - El Dorado Hills CA Hamish Small - Leland MI
Assignee:
Dionex Corporation - Sunnyvale CA
International Classification:
G01N 3002
US Classification:
436161, 422 70
Abstract:
A combination electrolytic suppressor and separate eluent generator and method. The suppressor includes a chromatography effluent flow channel, an ion receiving flow channel, and a first suppressor ion exchange barrier therebetween permeable to electrolyte ions but not liquid flow. The effluent from the chromatography effluent compartment flows through the detector, the ion receiving channel, and to an eluent generator. The generator includes a first generator electrode in a first generator electrode chamber, an electrolyte ion reservoir, a first charged generator barrier separating the first eluent generator electrode chamber from the electrolyte ion reservoir, preventing liquid flow but permitting transport of said electrolyte ions, and a second generator electrode on the opposite side of the first generator barrier from the first generator electrode. Fluid flows from the ion receiving flow channel past the second generator electrode. Acid or base electrolytically generated in the first generator electrode chamber flows as an eluent stream to the chromatographic separator.
Continuous Electrolytically Regenerated Packed Suppressor For Ion Chromatography
Yan Liu - Santa Clara CA Kannan Srinivasan - Sunnyvale CA Nebojsa Avdalovic - Cuppertino CA Hamish Small - Leland MI John M. Riviello - Santa Cruz CA
Assignee:
Dionex Corporation - Sunnyvale CA
International Classification:
G01N 3002
US Classification:
436161, 436150, 204542, 210656, 2101982, 422 70
Abstract:
An electrolytic suppressor including (a) packing (a suppressor bed of ion exchange resin or a flow-through monolith), (b) an electrode chamber adjacent the suppressor, (c) a first electrode in the electrode chamber, (d) a barrier separating the packing from the first electrode chamber preventing significant liquid flow but permitting transport of ions only of the same charge as the packing, (e) a second electrode in electrical communication with the resin bed, and (f) a recycle conduit between the suppressor outlet port and said electrode chamber. Charged transverse partitions with openings may be included to create a serpentine liquid path. For anion analysis, the method of using the apparatus includes: (a) flowing an aqueous liquid sample stream containing anions to be detected and cation hydroxide through the separator bed, (b) flowing the aqueous effluent from the separator bed through the flow-through packing, (c) flowing the effluent liquid from the suppressor past a detector, (d) recycling said liquid effluent from the detector through a cathode chamber proximate to the packing and separated by the first barrier, and (e) applying an electrical potential between the cathode and the anode. Water is electrolyzed at the anode to cause cations on the cation exchange packing to electromigrate toward the barrier and to be transported across the barrier toward the cathode while water in the cathode chamber is electrolyzed to generate hydroxide ions which combine with the transported cations to form cation hydroxide in the cathode chamber.
Method and apparatus for generating an acid or base, e. g. for chromatographic analysis of anions. For generating a base the method includes the steps of providing a cation source in a cation source reservoir, flowing an aqueous liquid stream through a base generation chamber separated from the cation source reservoir by a barrier (e. g. a charged membrane) substantially preventing liquid flow while providing a cation transport bridge, applying an electric potential between an anode cation source reservoir and a cathode in the base generation chamber to electrolytically generate hydroxide ions therein and to cause cations in the cation source reservoir to electromigrate and to be transported across the barrier toward the cathode to combine with the transported cations to form cation hydroxide, and removing the cation hydroxide in an aqueous liquid stream as an effluent from the first base generation chamber. Suitable cation sources include a salt solution, a cation hydroxide solution or cation exchange resin.
Method And Apparatus For Performing Mpeg Ii Dequantization And Idct
Yan Liu - San Jose CA Jack Ouyang - Cupertino CA Xiaoping Hu - San Jose CA Roger Hsu - Fremont CA
Assignee:
Intel Corporation - Santa Clara CA
International Classification:
H04N 712
US Classification:
37524003
Abstract:
A dequantization block is provided for performing dequantization calculations on a block of encoded video signal data using a modified standard quantization matrix. The modified standard quantization matrix is a product of a standard quantization matrix and a diagonal cosine matrix. The dequantization block receives a modified standard quantization matrix, the modified standard quantization matrix being a product of a standard quantization matrix corresponding to the encoded video data stream and a diagonal cosine matrix. In addition the dequantization block receives a scale representing a compression ratio of the encoded video data stream and non-zero IDCT coefficient matrix corresponding to a block of the encoded video data. The dequantization block then multiplies the scale, the non-zero IDCT coefficient matrix and the modified standard quantization matrix. An IDCT block is provided for performing IDCT calculations on each block processed by the dequantization block.
Method And System For Data Management In A Video Decoder
Hungviet Nguyen - Fremont CA Xiaoping Hu - San Jose CA Yan Liu - San Jose CA
Assignee:
Intel Corporation - Santa Clara CA
International Classification:
H04B 166
US Classification:
37524025
Abstract:
A method and system for minimizing bus traffic in a video decoder is disclosed. A method and system for processing a portion of a reference picture includes designating the reference picture, selecting a display picture within the reference picture, transmitting a display picture size, and sending a display picture offset. A method and system for compressing IDCT coefficients corresponding to a macroblock, the macroblock having a plurality of blocks, includes locating each non-zero IDCT coefficient corresponding to one of the plurality of blocks, assigning an index to the non-zero IDCT coefficient, the index designating a location within the one of the plurality of blocks, packing the non-zero IDCT coefficient in little endian format, and specifying a terminator bit corresponding to the non-zero coefficient, the terminator bit indicating the end of all non-zero IDCT coefficients for the one of the plurality of blocks. A method and system for selectively controlling each hardware device within a video decoder includes obtaining a video stream, performing VLC decoding, encoding a plurality of instructions to control each hardware device within the video decoder, decoding each one of the plurality of instructions, and optionally performing an IDCT in response to each one of the plurality of instructions.
Large Capacity Acid Or Base Generator And Method Of Use
Method and apparatus for generating an acid or base, e. g. for chromatographic analysis of anions. For generating a base the method includes the steps of providing a cation source in a cation source reservoir, flowing an aqueous liquid stream through a base generation chamber separated from the cation source reservoir by a barrier (e. g. a charged membrane) substantially preventing liquid flow while providing a cation transport bridge, applying an electric potential between an anode cation source reservoir and a cathode in the base generation chamber to electrolytically generate hydroxide ions therein and to cause cations in the cation source reservoir to electromigrate and to be transported across the barrier toward the cathode to combine with the transported cations to form cation hydroxide, and removing the cation hydroxide in an aqueous liquid stream as an effluent from the first base generation chamber. Suitable cation sources include a salt solution, a cation hydroxide solution or cation exchange resin.
Method Of Detecting Polarity Reversal In A Magnetoresistive Sensor
Shanlin Duan - Fremont CA, US Yan Liu - Cupertino CA, US Li Tang - Fremont CA, US
Assignee:
Hitachi Global Storage Technologies Netherlands B.V. - Amsterdam
International Classification:
G11B027/36 G01R033/12
US Classification:
324210, 360 31
Abstract:
A method is provided for testing a magnetoresistive sensor for polarity reversal. In one embodiment, the method includes: writing a test pattern on a magnetic disk; providing a mechanical or thermal stress to the magnetoresistive sensor for a period of time; and, comparing the polarity of the test pattern before and after the application of stress.
Temperature Measurement Apparatuses And Method Utilizing The Alexandrite Effect
A method and apparatuses for measuring the temperature of a radiating body utilizing the alexandrite effect. The method includes the steps of generating a mathematical relationship between a hue value and temperature for an alexandrite effect filter, receiving radiation from the radiating body, measuring a spectral power distribution of the radiation, calculating the hue value based on the spectral power distribution, and determining the temperature using the mathematical relationship. To implement the method, the apparatuses include an optical probe, a spectral or calorimetric measurement device, and a computer. The apparatuses can measure the temperature of any radiating body with or without spectral lines in the spectral power distribution, and are particularly advantageous to measure high to ultrahigh temperature for radiating bodies with spectral lines, such as plasma, electric arc, and high temperature flames.
For the study, published in the current issue of Nature Biotechnology, Zhang and first author Yan Liu, a postdoctoral associate at the Waisman Center on campus, chemically directed the human embryonic stem cells to begin differentiation into neural cells, and then injected those intermediate cells.
dden inside the volcanically produced moon dust. In a new paper, Yan Liu, a research professor at the University of Tennessee, makes the case that rather than being delivered to the moon by an icy comet or asteroid, water formed right there on the surface thanks to a phenomenon known as solar wind.
Yan Liu of China Short Program at 2009 Nebelhorn Trophy in Oberstdorf ...
Category:
Sports
Uploaded:
27 Sep, 2009
Duration:
2m 53s
Yan Liu - 2007 Cup of Russia FS
LIU Yan (CHN), ladies free skating. 2007 Cup of Russia, Moscow (RUS) 2...
Category:
Sports
Uploaded:
11 Aug, 2009
Duration:
7m 41s
Yan Liu 06 Oly SP
Yan Liu 06 Oly SP 3lutz-2toe, 3loop, 2axel.
Category:
Sports
Uploaded:
25 Sep, 2006
Duration:
6m 5s
Yan Liu 06 Oly LP
Yan Liu 06 Oly LP,placed 11th in her first olympic trip.
Category:
Sports
Uploaded:
02 Oct, 2006
Duration:
7m 36s
2009 Nebelhorn Trophy - Yan Liu FS
Yan Liu of China Free Skate at 2009 Nebelhorn Trophy in Oberstdorf TSS...
Category:
Sports
Uploaded:
27 Sep, 2009
Duration:
4m 17s
2010 Worlds -12- Yan Liu FS
Category:
Sports
Uploaded:
16 Dec, 2010
Duration:
7m 45s
Googleplus
Yan Liu
Education:
Syracuse University, Peking University
About:
Yan is a graduate student in sociology.
Yan Liu
Work:
Ludong U - Lecturer
Education:
Tongji University - Engineering Mechanics
Yan Liu
Work:
The Boston Consulting Group - Student
Education:
Johann Wolfgang-Goethe University of Frankfurt am Main - Wirtschaftswissenschaften
Relationship:
In_a_relationship
Yan Liu
Education:
Xi'an International Studies University - Finance
Yan Liu
Work:
University of British Columbia
Yan Liu
Education:
University of Auckland
Yan Liu
Yan Liu
About:
Mrsing originated in picturesque Australia, it is one of the famous snow boots brand. As Australia sheepskin boots family, Mrsing committed intelligent design products made from the highest quality AA...