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Kuan J Lee

from Irvine, CA
Age ~76
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Also known as:
Kuan Jhy Lee, Kuan T Lee, Jhy Lee Kuan
Phone and address:
17 Riveroaks, Irvine, CA 92602
(714) 368-0078
Related to:
Dong R Lee, 32Peter S Chon, 91Roy Surry Lee, 78Chris H Lee, 44Hye Young Lee, 49Rachel J Lee, 49Eui Hyun LeeChris Lee, 60Chris Lee, 63Hye Young Lee
Connected to:
Aarron Lee, 39Ada P Lee, 66Adam Y Lee, 63Adrienna V Lee, 57Aekyung P Lee, 66Aeron C Lee, 48Ahmed F Lee, 57Ahran Lee, 38Ahrom A Lee, 37Aiesha M Lee, 40

Kuan Lee Phones & Addresses

  • 17 Riveroaks, Irvine, CA 92602 (714) 368-0078
  • Orange, CA
  • Aulander, NC
  • Arcadia, CA
  • Artesia, CA
  • Bellflower, CA
  • Alhambra, CA

Resumes

Resumes

Kuan Lee Photo 1

Programmer At Next Day Flyers

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Position:
Programmer at NextDayFlyers.com, Programmer at Next Day Flyers
Location:
Orange County, California Area
Industry:
Computer Software
Work:
NextDayFlyers.com since 2008
Programmer
Next Day Flyers since Sep 2007
Programmer
Educational Insights Aug 1998 - May 2007
Programmer
Education:
California State University-Long Beach 1994 - 1998
BS, Computer Science
Kuan Lee Photo 2

Senior Associate At Pricewaterhousecoopers

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Location:
Orange County, California Area
Industry:
Management Consulting
Work:
PricewaterhouseCoopers - Irvine, CA Jul 2009 - Oct 2012
Senior Associate, Transfer Pricing

Business Records

Name / Title
Company / Classification
Phones & Addresses
Kuan Ting Lee
President
RPA INTERNATIONAL INC
Supply Plastic · Whol Plastic Materials/Shapes
2322 Troy Ave, South El Monte, CA 91733
(626) 448-1628
Kuan Ting Lee
Ktl Investments, LLC
2322 Troy Ave, El Monte, CA 91733

Publications

Isbn (Books And Publications)

From Third World to First: The Singapore Story 1965-2000

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Author

Kuan Yew Lee

ISBN #

0060197765

The Singapore Story: Memoirs of Lee Kuan Yew

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Author

Kuan Yew Lee

ISBN #

0130208035

The Commonwealth:a Continuity of Association after Empire: A Continuity of Association after Empire

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Author

Kuan Yew Lee

ISBN #

0521077362

Jahrhundertwende: Gesprache Mit Lee Kuan Yew, Jimmy Carter, Shimon Peres, Valery Giscard D'Estaing, Ralf Dahrendorf, Michail Gorbatschow, Rainer Barzel, Henry Kissinger, Helmut Kohl Und Henning Vo

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Author

Kuan Yew Lee

ISBN #

3886806499

Us Patents

Compact Wide Scan Periodically Loaded Edge Slot Waveguide Array

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US Patent:
6781554, Aug 24, 2004
Filed:
Aug 14, 2002
Appl. No.:
10/218792
Inventors:
Kuan M. Lee - Brea CA
Reinhardt W. Krueger - Anaheim CA
Fangchou Yang - Los Angeles CA
Assignee:
Raytheon Company - Waltham MA
International Classification:
H01Q 1310
US Classification:
343771, 343768, 343770
Abstract:
A unit element of a periodically loaded edge slot array includes a reduced-height waveguide section having top and bottom walls and opposed first and second sidewalls defining a waveguide space. A slot is formed in the first side wall at an angle with respect to a waveguide longitudinal axis. At least one conductive post protrudes from the top wall into the waveguide space. The unit element can be incorporated into sticks of an electronically scanned antenna.

Built-In System For Antenna Calibration, Performance Monitoring And Fault Isolation Of Phased Array Antenna Using Signal Injections And Rf Switches

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US Patent:
52531880, Oct 12, 1993
Filed:
Apr 19, 1991
Appl. No.:
7/688651
Inventors:
Kuan M. Lee - Brea CA
Ruey S. Chu - Cerritos CA
Assignee:
Hughes Aircraft Company - Los Angeles CA
International Classification:
G01R 3500
US Classification:
36457102
Abstract:
An apparatus for testing a microwave phased array antenna having a plurality of radiating elements includes a transmission line for signal injection and switching components to selectively establish signal paths from a transmitter, and through a plurality of transmit/receive modules, to a performance monitor. In accordance with the present invention the switching components can be set to establish a receive signal path through the apparatus to test the receive mode of the individual modules. Alternatively, the switching components can be set to establish a transmit signal path through the apparatus to test the transmit mode of the individual modules. Further, the switching components can be set to selectively establish a receive signal path or a transmit signal path through either isolated individual modules or through all modules simultaneously. The system monitor then tests the signals which pass through the modules on the receive signal path and the transmit signal path to determine the operational status of the module and the phased array antenna.

Ultra Wideband Phased Array Antenna

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US Patent:
53899393, Feb 14, 1995
Filed:
Mar 31, 1993
Appl. No.:
8/040788
Inventors:
Raymond Tang - Fullerton CA
Kuan M. Lee - Brea CA
Assignee:
Hughes Aircraft Company - Los Angeles CA
International Classification:
H01Q 1906
US Classification:
343754
Abstract:
An ultra wideband (UWB) phased array antenna using a frequency-multiplexing, space-fed lens with a UWB feed horn achieves multi-octave bandwidth. The lens includes two UWB radiating apertures with relatively narrow band phase shifters connecting corresponding radiating elements of the arrays. Each aperture multiplexes the incoming UWB signal into separate frequency bands so that the phase shifters need only be tuned to these narrower frequency bands, and are set to form a beam in the desired direction. For wide instantaneous bandwidth operation, the beams from the various frequency bands are collimated in the same direction. For multi-mode operation, the beams corresponding to the various frequency bands are formed in different directions. The phase shifters need have a maximum phase shift of 360 degrees.

Radar Cross Section Enhancement Using Phase Conjugated Impulse Signals

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US Patent:
52238385, Jun 29, 1993
Filed:
Apr 7, 1992
Appl. No.:
7/864733
Inventors:
Raymond Tang - Fullerton CA
Kuan M. Lee - Brea CA
Gordon L. Howard - La Habra CA
Assignee:
Hughes Aircraft Company - Los Angeles CA
International Classification:
G01S 700
US Classification:
342 13
Abstract:
An apparatus and a method for enhancing the radar cross section of a target. The present invention is an impulse radar system that implements a method that comprises the following steps. A pilot impulse radar pulse is transmitted at a target. The pilot pulse comprises a plurality of individual pulses having respective distinct frequencies generated by the impulse radar system. A return pulse from the target is received by the impulse radar system and provides information indicative of target scattering centers. The return pulse is used as a calibration signal for generating a phase conjugated pulse. The phase conjugated pulse is then transmitted at the target. Processing a target return signal derived from the transmitted phase conjugated pulse enhances the radar cross section of the target because the waveform of the transmitted phase conjugated pulse is matched to the characteristics of the target. The present invention is adapted to detect low radar cross section targets without encountering the problems and frequency restrictions with conventional radar systems. In a second embodiment of the present invention, when a progressive phase variation is applied to the transmit pulses, the radar cross section contributed by backward travelling wave is made to add in phase in the received direction by processing the received target return pulses while adaptively adjusting the phase sequence of the transmitted pulses.

Low-Profile, Integrated Radiator Tiles For Wideband, Dual-Linear And Circular-Polarized Phased Array Applications

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US Patent:
61149977, Sep 5, 2000
Filed:
May 27, 1998
Appl. No.:
9/085157
Inventors:
Kuan M. Lee - Brea CA
Allen T. S. Wang - Buena Park CA
Loc Chau - Canoga Park CA
Assignee:
Raytheon Company - Lexington MA
International Classification:
H01Q 138
US Classification:
343700MS
Abstract:
A planar, low-profile, very wide frequency bandwidth, wide-scan, dual-linear or circular-polarized phased array antenna using integrated stacked-disc radiator tiles. The stacked-disc radiator configuration comprises a lower active radiator fed by a pair of probes for each polarization state, and a parasitic radiator separated from the active radiator by dielectric material. The stacked-disc radiator is integrated with its multi-layer feed circuits in a very compact package. The feed circuits include 90. degree. hybrid coupler circuits and 180. degree. hybrid coupler circuits that couple dual linear or dual circular polarized energy to and from the disk radiators.

Multi-Frequency Band Phased-Array Antenna Using Multiple Layered Dipole Arrays

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US Patent:
54851670, Jan 16, 1996
Filed:
Jan 18, 1994
Appl. No.:
8/183205
Inventors:
Nam S. Wong - Fullerton CA
Kuan M. Lee - Brea CA
Raymond Tang - Fullerton CA
Assignee:
Hughes Aircraft Company - Los Angeles CA
International Classification:
H01Q 1502
H01Q 502
H01Q 2112
US Classification:
343753
Abstract:
A multiple layer dipole array that provides for a multi-frequency band phased array antenna. Several layers of dipole pair arrays, each tuned to a different frequency band, are stacked relative to each other along the transmission/reception direction. The highest frequency array is in front of the next lowest frequency array and so forth. Due to the frequency selective property of the arrays, incident high frequency signals are completely absorbed by the highest frequency array. In regard to incident low frequency signals, the insertion loss due to higher frequency arrays is small resulting in good performance of the lower frequency arrays. The multi-frequency band phased array antenna may use active or driven dipole pairs, or parasitic elements that form the multiple layer dipoles. The multiple layer dipole array of the present invention may employ corporate feed circuit boards and a corporate feed power divider, using strip transmission line circuits, for example. The multiple layer dipole phased array of the present invention may also employ a feed-through lens arrangement to simplify the feed network.

Multiband, Phased-Array Antenna With Interleaved Tapered-Element And Waveguide Radiators

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US Patent:
55572910, Sep 17, 1996
Filed:
May 25, 1995
Appl. No.:
8/451084
Inventors:
Kuan M. Lee - Brea CA
Allen T. S. Wang - Buena Park CA
Assignee:
Hughes Aircraft Company - Los Angeles CA
International Classification:
H01Q 2100
H01Q 1310
H01Q 1300
US Classification:
343725
Abstract:
A multiband phased-array antenna interleaves tapered-element radiators with waveguide radiator to facilitate the simultaneous radiation of antenna beams across a bandwidth in excess of two octaves. The launch ends of the waveguide radiators collectively define a ground plane. The tapered-element radiators have pairs of tapered wings which are extended past the ground plane by a distance which is selected to establish a predetermined tapered wing radiation impedance. The radiators of each type are spaced apart by a span which insures that they will not generate grating lobes at the highest frequency which they respectively radiate.

Interleaved Waveguide And Dipole Dual Band Array Antenna

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US Patent:
46238948, Nov 18, 1986
Filed:
Jun 22, 1984
Appl. No.:
6/623857
Inventors:
Kuan M. Lee - Brea CA
Ruey S. Chu - Cerritos CA
Nam S. Wong - Fullerton CA
James U. Clark - Anaheim CA
Raymond Tang - Fullerton CA
Assignee:
Hughes Aircraft Company - Los Angeles CA
International Classification:
H01Q 2128
US Classification:
343700MS
Abstract:
A dual band array antenna is disclosed having interleaved waveguide and dipole arrays, each operating in a different frequency band. The orientation of the waveguides and dipoles is such that polarization of the signals of the two frequency bands is perpendicular to each other, thus reducing mutual coupling. The waveguides are used for the higher frequency band and their cutoff frequency is selected to be above the lower frequency band at which the dipoles operate, in order to reduce mutual coupling into the waveguides. In one embodiment the dipoles are printed on a substrate having a dielectric constant selected so that dipole spacing is the same as the waveguide spacing. This eliminates grating lobe formation in the radiation pattern of the waveguide array. A low pass filter is included in the dipole feed circuit to reject the frequencies at which the waveguides operate. As a result of the invention, two beams of two different frequency bands are independently and simultaneously steerable in a single antenna aperture.
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Kuan J Lee from Irvine, CA, age ~76 Get Report