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Xiaojun Michael Liu

from Lake Forest, CA
Age ~60
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Also known as:
Xiaojun M Liu, Xiaojun X Liu, Mike X Liu, Xiao Jun Liu, Michael X Liu, Xiaojn M Liu, Xingzhou Liu, Liu Xiaojun
Related to:
Fang Liu, 45
Connected to:
Abraham C Liu, 109Adele T Liu, 65Adi P Liu, 35Alan Y Liu, 39Albert Y Liu, 36Alen K Liu, 39Alma R Liu, 73Amanda T Liu, 54Ambrose M Liu, 52An P Liu, 59

Xiaojun Liu Phones & Addresses

  • Lake Forest, CA
  • 3810 Fish Pond Ln, Glen Allen, VA 23060
  • Rochester, NY
  • Maynard, MA
  • 19 Cambric Cir, Pittsford, NY 14534 (585) 381-5465
  • Los Altos, CA
  • Lowell, MA
  • Dracut, MA
  • 19 Cambric Cir, Pittsford, NY 14534 (585) 703-5610

Work

Company: New world language insitution - China, ME Jul 2012 Position: Japanese tutor and maths tutor

Education

School / High School: Nazareth College- Rochester, NY 2013 Specialities: BA in East Asian Studies

Skills

JLPT(International Japanese Test) N1 • Chinese and English • Microsoftoffice • human resource mangagement • international business

Emails

x***[email protected]

Resumes

Resumes

Xiaojun Liu Photo 1

Xiaojun Liu Rochester, NY

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Work:
New World language insitution
China, ME
Jul 2012 to Sep 2012
Japanese tutor and maths tutor
Xu Bao Company, Guang Dong Province
Foshan
Jul 2012 to Aug 2012
Japanese, Chinese and English Translator
Education:
Nazareth College
Rochester, NY
2013 to 2014
BA in East Asian Studies
Huzhou University
HuZhou
2010 to 2014
Bachelor's in Japanese Language and Culture
Skills:
JLPT(International Japanese Test) N1, Chinese and English, Microsoftoffice, human resource mangagement, international business

Publications

Us Patents

High Refractive Index Polysiloxane Prepolymers

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US Patent:
6956087, Oct 18, 2005
Filed:
Dec 13, 2002
Appl. No.:
10/319131
Inventors:
Yu-Chin Lai - Pittsford NY, US
Edmond T. Quinn - Rochester NY, US
Xiaojun Michael Liu - Pittsford NY, US
Assignee:
Bausch & Lomb Incorporated - Rochester NY
International Classification:
C08G077/06
C08G077/20
B21D011/00
G02C007/02
US Classification:
525478, 264 132, 351159, 351167, 524267, 524268, 524588, 528 15, 528 20, 528 22, 528 31, 528 32, 528 43
Abstract:
A process for producing polysiloxane prepolymers of improved homogeneity for use in the production of relatively high refractive index polymeric compositions is described herein. Polymeric compositions so produced are useful in the production of ophthalmic devices such as for example intraocular lenses and corneal inlays.

High Refractive Index Polysiloxane Prepolymers

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US Patent:
20050176898, Aug 11, 2005
Filed:
Apr 14, 2005
Appl. No.:
11/106308
Inventors:
Yu-Chin Lai - Pittsford NY, US
Edmond Quinn - Rochester NY, US
Xiaojun Liu - Pittsford NY, US
Edmund Maziarz - Brockport NY, US
International Classification:
C08G077/38
US Classification:
525478000
Abstract:
A process for producing polysiloxane prepolymers of improved homogeneity for use in the production of relatively high refractive index polymeric compositions is described herein. Polymeric compositions so produced are useful in the production of ophthalmic devices such as for example intraocular lenses and corneal inlays.

Method And Apparatus For Direct Control Of The Inter-Area Dynamics In Large Electric Power Systems

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US Patent:
55174221, May 14, 1996
Filed:
Oct 12, 1993
Appl. No.:
8/134280
Inventors:
Marija Ilic - Sudbury MA
Xiaojun Liu - Belmont MA
Assignee:
Massachusetts Institute of Technology - MA
International Classification:
H02J 306
G06F 1900
US Classification:
364492
Abstract:
A method and apparatus for directly controlling the net power flow on tie lines between different areas of a large electric power system, which provides automatic dynamic control to maintain the stability of the system. Utilizing a sensitivity matrix and simple measurements of real power output from each of the generators in a given area, it is possible to dynamically control the entire system in a way which accounts for loading changes in any area. The control can be implemented using a Flexible AC Transmission Systems (FACTS) technology controller which utilizes the measurements and sensitivity matrix from a given area to determine a derived net power flow from the first area to the remainder of the system, and for comparing the derived net power flow to a set point to provide an error signal which approaches zero as the controller adjusts, for example, a phase angle difference across the tie line to adjust the net power flow thereon. Alternatively, the derived net power flow can be used for scheduling the generation of power in a given area and/or to control a local controller at the generator level.
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Xiaojun Michael Liu from Lake Forest, CA, age ~60 Get Report