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Dong Luo

from South Windsor, CT
Age ~58
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Connected to:
Anna S Luo, 62Audrey Luo, 29Billy G Luo, 72Bin Luo, 67Brince Luo, 77Christina M Luo, 55Chuanjiang Luo, 42Claudia H Luo, 56Congyun C Luo, 63Dengpan Luo, 54

Dong Luo Phones & Addresses

  • 52 Sally Dr, South Windsor, CT 06074 (860) 648-2905
  • 1 Kingsley Ct, Rocky Hill, CT 06067
  • 126 Kings Park Dr, Liverpool, NY 13090
  • Quincy, MA
  • Cambridge, MA
  • Syracuse, NY
  • 52 Sally Dr, South Windsor, CT 06074 (860) 472-9582

Work

Company: Umass boston - Boston, MA Position: Programmer, problem solver

Education

School / High School: Boston University- Boston, MA 2009 Specialities: PhD

Skills

Heavy user of C • Java. Familiar with Objective-C • IOKit C++ • Python • GTK • Tcl/tk. Know Javascript • SQL • C# • ASP.NET • Weka • MATLAB. Skilled with Windows • Mac • Linux operating systems. Technical Skill... • Objective-C • Java • Tcl/tk • XHTML • CSS • Javascript • SQL Tools: Hadoop • Weka • Arcmap • MATLAB • Eclipse • Visual Studio • SVN • Git Bio-Tools: VMD • NAMD • Coot • PHENIX Operating Systems: Windows • Mac • Linux

Resumes

Resumes

Dong Luo Photo 1

Senior Ic Design Engineer

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Location:
San Diego, CA
Industry:
Consumer Electronics
Work:
Cavium Inc
Senior Ic Design Engineer
Mediatek Feb 2009 - Jun 2011
Senior Ic Design Engineer
Education:
University of Science and Technology Beijing 2006 - 2009
Masters, Architecture University of Science and Technology Beijing 2002 - 2006
Bachelors, Computer Science
Skills:
Verilog
Integrated Circuit Design
Soc
Asic
Ic
Debugging
Semiconductors
Fpga
Arm
Embedded Systems
Digital Signal Processors
Mixed Signal
Cmos
Eda
Firmware
Dong Luo Photo 2

Frontend Web Developer

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Location:
South Windsor, CT
Industry:
Information Technology And Services
Work:
Technomax Llc
Front End Developer
Morgan Stanley
Frontend Web Developer
Education:
University of Southern California 2012 - 2014
Masters
Skills:
Front End Development
Html
Css
Javascript
Angularjs
Bootstrap
Jquery
Unit Testing
Node.js
Angular Material
Angular Ui
Express.js
Mongodb
Sass
Semantic Ui
Dong Luo Photo 3

Research Engineer

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Location:
South Windsor, CT
Work:

Research Engineer
Dong Luo Photo 4

Research Engineer And Scientist

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Location:
South Windsor, CT
Work:
United Technologies Research Center
Research Engineer and Scientist
Education:
Massachusetts Institute of Technology 1997 - 2001
Doctorates, Doctor of Philosophy, Philosophy
Dong Luo Photo 5

Dong Luo

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Dong Luo Photo 6

Dong Luo Boston, MA

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Work:
UMass Boston
Boston, MA
Programmer, problem solver
Education:
Boston University
Boston, MA
2009
PhD
Fudan University
2001
MS
Fudan University
1998
BS in Biochemistry
Umass Boston
Boston, MA
2012
Computer Science
Skills:
Heavy user of C, Java. Familiar with Objective-C, IOKit C++, Python, GTK, Tcl/tk. Know Javascript, SQL, C#, ASP.NET, Weka, MATLAB. Skilled with Windows, Mac, Linux operating systems. Technical Skills Languages: C/C++, Objective-C, Java, Tcl/tk, XHTML, CSS, Javascript, SQL Tools: Hadoop, Weka, Arcmap, MATLAB, Eclipse, Visual Studio, SVN, Git Bio-Tools: VMD, NAMD, Coot, PHENIX Operating Systems: Windows, Mac, Linux

Publications

Us Patents

Refrigerant Charge Status Indication Method And Device

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US Patent:
7610765, Nov 3, 2009
Filed:
Dec 27, 2004
Appl. No.:
11/025836
Inventors:
Pengju Kang - Hartford CT, US
Alan M. Finn - Hebron CT, US
Sivakumar Gopalnarayanan - Simsbury CT, US
Dong Luo - South Windsor CT, US
Timothy P. Galante - West Hartford CT, US
Assignee:
Carrier Corporation - Farmington CT
International Classification:
F25B 49/00
F25B 45/00
US Classification:
62127, 62129, 62149
Abstract:
A method and apparatus for determining the sufficiency of the refrigerant charge in an air conditioning system by use of temperature measurements. The temperature of the liquid refrigerant leaving the condenser coil and the outdoor temperature are sensed and representative electrical signals are generated. The electrical signals are converted to digital values that are than compared to predetermined optimal values to determine whether the system is properly charged with refrigerant. An appropriate LED is lighted to indicate that the system is undercharged, overcharged or properly charged. For non-TXV/EXV systems a third parameter i. e. the return air wet bulb temperature is also sensed and a representative digital value thereof is included in the comparison with the predetermined known values to determine if the charge is proper.

Refrigerant Charge Adequacy Gauge

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US Patent:
7712319, May 11, 2010
Filed:
Dec 27, 2004
Appl. No.:
11/025787
Inventors:
Pengju Kang - Hartford CT, US
Julio I. Concha - Rocky Hill CT, US
Sivakumar Gopalnarayanan - Simsbury CT, US
Timothy P. Galante - West Hartford CT, US
Dong Luo - South Windsor CT, US
Craig Kersten - Mooresville IN, US
Assignee:
Carrier Corporation - Farmington CT
International Classification:
F25B 49/00
F25B 45/00
US Classification:
62126, 62 77, 62149
Abstract:
A method and apparatus for determining the sufficiency of refrigerant charge in an air conditioning system by the use of only two temperature measurements. The temperature of the liquid refrigerant leaving the condenser coil is sensed and the temperature of the condenser coil itself is sensed and the difference between these two measurements is calculated to provide an indication of the adequacy of refrigerant charge in the system. This process is refined by steps taken to eliminate measurements during transient operations and by filtering signals to eliminate undesirable noise. A permitted threshold of deviation is calculated by using probability theory.

Automatic Refrigerant Charging Apparatus

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US Patent:
20060137366, Jun 29, 2006
Filed:
Dec 27, 2004
Appl. No.:
11/025351
Inventors:
Pengju Kang - Hartford CT, US
Sivakumar Gopalnarayanan - Simsbury CT, US
Dong Luo - South Windsor CT, US
Timothy Galante - West Hartford CT, US
Assignee:
Carrier Corporation - Farmington CT
International Classification:
F25B 45/00
G01K 13/00
US Classification:
062149000, 062077000
Abstract:
An air conditioning system includes a plurality of sensors for sensing temperature and/or pressure conditions of the system which collectively indicate the actual refrigerant charge level in the system. This level is then compared with optimum level values that are stored in memory, and the difference between the two is used to indicate whether the system is properly charged. If not, the difference is applied to open a charge valve or a purge valve to automatically install additional refrigerant or to remove refrigerant so as to establish an optimum volume of refrigerant in the system.

Visual Display Of Temperature Differences For Refrigerant Charge Indication

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US Patent:
20060137368, Jun 29, 2006
Filed:
Dec 27, 2004
Appl. No.:
11/025353
Inventors:
Pengju Kang - Hartford CT, US
Alan Finn - Hebron CT, US
Sivakumar Gopalnarayanan - Simsbury CT, US
Dong Luo - South Windsor CT, US
Timothy Galante - West Hartford CT, US
Assignee:
Carrier Corporation - Farmington CT
International Classification:
F25B 45/00
G01K 13/00
US Classification:
062149000, 062077000
Abstract:
The sufficiency of refrigerant charge in an air conditioning system is determined by a comparison of two sensed temperatures in the system, one being the liquid line temperature and the other being either the outdoor temperature or the condenser coil temperature. In one embodiment the two sensed temperatures are displayed on respective thermochromic strips which are so calibrated and juxtaposed as to provide a visual indication, by the relative positions of the two displayed sensed temperatures, as to whether the refrigerant charge is adequate. In another embodiment, the sensed liquid line temperature is displayed by way of a plurality of LEDs and the other temperature is displayed by way of a marker on a temperature scale. If the two displayed temperatures are aligned, then the refrigerant charge is optimized, and if they are not aligned, the system is undercharged or overcharged.

Single Sensor Three-Step Refrigerant Charge Indicator

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US Patent:
20060137369, Jun 29, 2006
Filed:
Dec 27, 2004
Appl. No.:
11/025788
Inventors:
Timothy Galante - West Hartford CT, US
Sivakumar Gopalnarayanan - Simsbury CT, US
Dong Luo - South Windsor CT, US
Pengju Kang - Hartford CT, US
Robert Dold - Agawam MA, US
Assignee:
Carrier Corporation - Farmington CT
International Classification:
F25B 45/00
G01K 13/00
US Classification:
062149000, 062077000, 062129000
Abstract:
A method and apparatus for determining the sufficiency of refrigerant charge in an air conditioning system using a single temperature sensor for sensing three different temperatures within the system to compute a condenser approach temperature difference, which in then compared with a predetermined optimal condenser approach temperature difference to indicate the charge condition of the system. The device includes an absorbent pad for sensing wet bulb temperatures, and is formed as a clamshell that can be clamped onto the condenser liquid line. A microprocessor is included to make the comparison and to appropriately display the result as a visual indication of charge adequacy.

System And Method For Maintaining Air Temperature Within A Building Hvac System

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US Patent:
20120245739, Sep 27, 2012
Filed:
Sep 29, 2010
Appl. No.:
13/499188
Inventors:
Michel Grabon - Bressolles, FR
Shui Yuan - Simsbury CT, US
Yuhui Kuang - Shanghai, CN
Dong Luo - South Windsor CT, US
Stella M. Oggianu - West Hartford CT, US
Assignee:
CARRIER CORPORATION - Farmington CT
International Classification:
G05D 23/00
US Classification:
700276
Abstract:
A system and method for conditioning air within an air handling system of a building is provided. The building has a hot water source and a cold water source. The conditioning system includes at least one heating-cooling unit connected to the air handling system, a primary water storage device, at least one heat pump, and a controller. The heating-cooling unit, which includes at least one chilled beam, is operable to transfer heat into or out of air passing within the air handling system of the building. The primary water storage device is operable to store a volume of water within a predetermined temperature range. The primary water storage device is in communication with the hot water source and the cold water source. The heat pump is connected to the primary water storage device and the chilled beam. The controller is adapted to selectively drive the heat pump to transfer heat between the primary water storage device and the chilled beam. The controller is also adapted to selectively control the system to transfer heat into or out of the primary water storage device to maintain the water within the primary storage device within the predetermined temperature range.

Non-Azeotropic Working Fluid Mixtures For Rankine Cycle Systems

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US Patent:
20130174552, Jul 11, 2013
Filed:
Jan 6, 2012
Appl. No.:
13/345330
Inventors:
Ahmad M. Mahmoud - Bolton CT, US
Thomas D. Radcliff - Vernon CT, US
Jaeseon Lee - Glastonbury CT, US
Dong Luo - South Windsor CT, US
Frederick J. Cogswell - Glastonbury CT, US
Assignee:
UNITED TECHNOLOGIES CORPORATION - Hartford CT
International Classification:
F01K 25/06
F01K 25/00
US Classification:
60671
Abstract:
A power generation system includes a non-azeotropic working fluid mixture and a Rankine cycle system. The Rankine cycle system includes a turbine generator that is driven by vapor of the first working fluid mixture, and a condenser that exchanges thermal energy between the vapor received from the turbine generator and a cooling medium. The working fluid mixture is characterized by a condenser temperature glide during phase change between approximately five degrees and thirty degrees Kelvin, a condensing pressure between approximately one tenth of one percent and eleven percent of a critical pressure of the working fluid mixture, and a condenser bubble point temperature between approximately one degree and nine degrees Kelvin greater than a temperature at which the cooling medium is received by the condenser.

Method And Device For Air Conditioning With Humidity Control

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US Patent:
20130199220, Aug 8, 2013
Filed:
Nov 9, 2010
Appl. No.:
13/389576
Inventors:
Zidu Ma - Ellington CT, US
Yirong Jiang - Edina MN, US
Dong Luo - South Windsor CT, US
Assignee:
Carrier Corporation - Farmington CT
International Classification:
F24F 6/12
F24F 11/00
F24F 6/00
US Classification:
62 91, 62271, 62 94
Abstract:
An air temperature and humidity control device using a liquid-desiccant humidity controller thermally coupled to a heat pump is disclosed. The humidity controller may include a contactor having at least one contact module with a porous sidewall that is permeable to water vapor and impermeable to the liquid desiccant. The disclosed device provides air temperature control through heat transfer between the liquid desiccant and heat pump and provides humidity controls through water transfer between the desiccant and surrounding air.
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Dong Luo from South Windsor, CT, age ~58 Get Report