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Michael Steven Fang, 4616827 Magnolia Blvd, Encino, CA 91436

Known as:
Michael S Fang Michael F Sang Mike S Fang
Related to:
Robin C Fang 61

Michael Fang Phones & Addresses

16827 Magnolia Blvd, Encino, CA 91436    847-3724515   

200 Grand Ave, Chicago, IL 60610    312-4949475   

200 W Grand Ave #1905, Chicago, IL 60654    312-4949475   

Oak Park, CA   

La Mirada, CA   

Woodland Hills, CA   

Los Angeles, CA   

Cypress, CA   

Elgin, IL   

Work

Company: Straits Investment & Management Address: 2020 S. Hacienda Blvd, #M, Hacienda Heights, CA 91745 Phones: 626-6260611 (Office) 626-3635685 (Cell) 626-6260614 (Fax)

Languages

Mandarin

Images

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Mentions for Michael Steven Fang

Career records & work history

Real Estate Brokers

Michael Fang Photo 1

Pmc

Specialties:
Buyer's Agent, Short-Sale, Commercial R.E., Property Management
Work:
Straits Investment & Management
2020 S. Hacienda Blvd, #M, Hacienda Heights, CA 91745
626-6260611 (Office), 626-3635685 (Cell), 626-6260614 (Fax)
Experience:
20 years
Languages:
Mandarin
Links:
Site
Facebook

Medicine Doctors

Michael Fang Photo 2

Dr. Michael S Fang, Rosemead CA - MD (Doctor of Medicine)

Specialties:
Internal Medicine
Address:
Rosemead Dialysis Cenen
7403 Hellman Ave, Rosemead, CA 91770
626-2806161 (Phone)
933 S Sunset Ave, West Covina, CA 91790
Languages:
English
Chinese
Spanish
Hospitals:
Rosemead Dialysis Cenen
7403 Hellman Ave, Rosemead, CA 91770
933 S Sunset Ave, West Covina, CA 91790
Garfield Medical Center
525 North Garfield Avenue, Monterey Park, CA 91754
San Gabriel Valley Medical Center
438 West Las Tunas Drive, San Gabriel, CA 91776
Education:
Medical School
George Washington School Of Medicine
Graduated: 1997
Michael Fang Photo 3

Dr. Michael Fang, Hammond IN - MD (Doctor of Medicine)

Specialties:
Geriatric Medicine
Address:
5454 Hohman Ave, Hammond, IN 46320
219-9322300 (Phone) 219-8522502 (Fax)
LA PORTE HOSPITAL
1007 Lincolnway, La Porte, IN 46350
219-3262324 (Phone) 219-3262605 (Fax)
Languages:
English
Education:
Medical School
Nwu Fienberg Sch Of Med
Graduated: 2003

Michael S. Fang

Specialties:
Nephrology
Work:
Ambrose Tsang MD
11480 Brookshire Ave STE 302, Downey, CA 90241
562-8620804 (phone) 562-8628184 (fax)
Education:
Medical School
St. George's University School of Medicine, St. George's, Greneda
Graduated: 1997
Procedures:
Dialysis Procedures
Conditions:
Acute Renal Failure, Chronic Renal Disease, Kidney Cancer, Nephrotic Syndrome
Languages:
English
Description:
Dr. Fang graduated from the St. George's University School of Medicine, St. George's, Greneda in 1997. He works in Downey, CA and specializes in Nephrology. Dr. Fang is affiliated with PIH Health Hospital Downey and PIH Health Hospital Whittier.
Michael Fang Photo 4

Michael Fang, Hammond IN

Specialties:
Allergy & Immunology
Hospitalist
Internal Medicine
Geriatric Medicine
Work:
St Margaret Mercy Hlthcare Ctrs Inc Sc
5454 Hohman Ave, Hammond, IN 46320
Education:
Northwestern University
Michael Fang Photo 5

Michael Shaoyi Fang, Downey CA

Specialties:
Nephrologist
Address:
11480 Brookshire Ave, Downey, CA 90241
933 S Sunset Ave, West Covina, CA 91790
17360 Colima Rd, Rowland Heights, CA 91748

Michael Fang resumes & CV records

Resumes

Michael Fang Photo 43

Sales Representative

Location:
Chicago, IL
Industry:
Business Supplies And Equipment
Work:
Zhejiang Huatai Aluminum Wheel Manufacturing
Sales Representative Lanxi Jingding Carports Manufacture
Sales and Marketing Manager Yueqing Quancheng Electric Feb 2012 - Dec 2015
Sales Manager Yueqing Wosn Electron Tech Mar 2009 - Feb 2012
Marketing Manager Lanxi Jingding Carports Manufacture Mar 2009 - Feb 2012
Manager
Education:
Zhejiang University 2004 - 2008
Bachelors, Bachelor of Science, Electronics Engineering
Skills:
Sales Management, Negotiation, Teamwork, New Business Development, Engineering, Key Account Management, Business Strategy, Business Development, International Trade, Purchasing
Languages:
English
Michael Fang Photo 44

Michael Fang

Location:
Markham, IL
Industry:
Computer Software
Work:
Google Oct 2012 - Oct 2013
Senior Software Engineer Amazon Sep 2011 - Oct 2012
Software Development Engineer University of Houston May 2011 - Sep 2011
Research Technician Ii University of Houston Aug 2007 - May 2011
Research Assistant University of Houston Jan 2007 - Dec 2008
Instructional Assistant
Education:
University of Houston 2007 - 2011
Master of Science, Masters, Computer Science Zhejiang University City College 2002 - 2006
Bachelor of Engineering, Bachelors Hangzhou High School 1999 - 2002
Skills:
Algorithms, C++, Python, Machine Learning, Computer Vision, Matlab, Opencv, Opengl, Qt, Image Processing, C, Computer Science, Linux, Latex, Java, Software Development, Computer Graphics, Data Structures, Bash, Pattern Recognition, Software Engineering, Visual Studio, Software Design, Stl, Distributed Systems, Artificial Intelligence, Eclipse, Object Oriented Design, Data Mining, Subversion, Cmake, Ruby, Django
Interests:
Traveling
Photography
Basketball
Singing
Languages:
English
Mandarin
Certifications:
Machine Learning
Introduction To Recommender Systems
Coursera
Michael Fang Photo 45

Michael Fang

Michael Fang Photo 46

Construction Consultant

Work:
Park Ridge Community Bank
Construction Consultant
Michael Fang Photo 47

Michael Fang

Michael Fang Photo 48

Michael Fang

Michael Fang Photo 49

Michael Fang

Michael Fang Photo 50

Michael Fang

Location:
Greater Los Angeles Area
Industry:
Information Technology and Services

Publications & IP owners

Us Patents

Techniques For Bidirectional Transduction Of Quantum Level Signals Between Optical And Microwave Frequencies Using A Common Acoustic Intermediary

US Patent:
2022035, Nov 10, 2022
Filed:
Jul 15, 2022
Appl. No.:
17/866281
Inventors:
- Pasadena CA, US
Jie Luo - Pasadena CA, US
Michael T. Fang - Pasadena CA, US
Alp Sipahigil - Pasadena CA, US
Paul B. Dieterle - Somerville MA, US
Mahmoud Kalaee - Pasadena CA, US
Johannes M. Fink - Klosterneuburg, AT
Andrew J. Keller - Los Angeles CA, US
Gregory MacCabe - Los Angeles CA, US
Hengjiang Ren - Pasadena CA, US
Justin D. Cohen - Annandale VA, US
Assignee:
California Institute of Technology - Pasadena CA
International Classification:
B81B 3/00
B82Y 40/00
B82Y 10/00
G11C 13/02
B82Y 20/00
G06N 10/00
G01H 11/08
Abstract:
Embodiments described herein include systems and techniques for converting (i.e., transducing) a quantum-level (e.g., single photon) signal between the three wave forms (i.e., optical, acoustic, and microwave). A suspended crystalline structure is used at the nanometer scale to accomplish the desired behavior of the system as described in detail herein. Transducers that use a common acoustic intermediary transform optical signals to acoustic signals and vice versa as well as microwave signals to acoustic signals and vice versa. Other embodiments described herein include systems and techniques for storing a qubit in phonon memory having an extended coherence time. A suspended crystalline structure with specific geometric design is used at the nanometer scale to accomplish the desired behavior of the system.

Shielded Bridges For Quantum Circuits

US Patent:
2021015, May 20, 2021
Filed:
Dec 18, 2020
Appl. No.:
17/127605
Inventors:
- Pasadena CA, US
Seyed Mohammad Mirhosseini Niri - Pasadena CA, US
Eun Jong Kim - Pasadena CA, US
Alp Sipahigil - Pasadena CA, US
Vinicius Thaddeu dos Santos Ferreira - Pasadena CA, US
Andrew J. Keller - Los Angeles CA, US
Mahmoud Kalaee - Pasadena CA, US
Michael T. Fang - Pasadena CA, US
Assignee:
CALIFORNIA INSTITUTE OF TECHNOLOGY - Pasadena CA
International Classification:
H01P 3/00
G06N 10/00
Abstract:
A shielded bridge for a coplanar waveguide (CPW) includes a signal bridge extending from a first terminal of the CPW to a second terminal of the CPW. The signal bridge has a raised central portion that extends over a separate signal conductor. The shielded bridge for the CPW also includes a ground bridge extending from a first ground plane on a first side of the separate signal conductor to a second ground plane on a second side of the separate signal conductor. The ground bridge is positioned between the signal bridge and the separate signal conductor.

Techniques For Transduction And Storage Of Quantum Level Signals

US Patent:
2021013, May 13, 2021
Filed:
Nov 2, 2020
Appl. No.:
17/087316
Inventors:
- Pasadena CA, US
Jie Luo - Pasadena CA, US
Michael T. Fang - Pasadena CA, US
Alp Sipahigil - Pasadena CA, US
Paul B. Dieterle - Somerville MA, US
Mahmoud Kalaee - Pasadena CA, US
Johannes M. Fink - Klosterneuburg, AT
Andrew J. Keller - Los Angeles CA, US
Gregory MacCabe - Los Angeles CA, US
Hengjiang Ren - Pasadena CA, US
Justin D. Cohen - Annandale VA, US
Assignee:
California Institute of Technology - Pasadena CA
International Classification:
B81B 3/00
B82Y 40/00
B82Y 10/00
G11C 13/02
B82Y 20/00
G06N 10/00
G01H 11/08
Abstract:
Embodiments described herein include systems and techniques for converting (i.e., transducing) a quantum-level (e.g., single photon) signal between the three wave forms (i.e., optical, acoustic, and microwave). A suspended crystalline structure is used at the nanometer scale to accomplish the desired behavior of the system as described in detail herein. Transducers that use a common acoustic intermediary transform optical signals to acoustic signals and vice versa as well as microwave signals to acoustic signals and vice versa. Other embodiments described herein include systems and techniques for storing a qubit in phonon memory having an extended coherence time. A suspended crystalline structure with specific geometric design is used at the nanometer scale to accomplish the desired behavior of the system.

Techniques For Bidirectional Transduction Of Quantum Level Signals Between Optical And Microwave Frequencies Using A Common Acoustic Intermediary

US Patent:
2021011, Apr 22, 2021
Filed:
Nov 2, 2020
Appl. No.:
17/087400
Inventors:
- Pasadena CA, US
Jie Luo - Pasadena CA, US
Michael T. Fang - Pasadena CA, US
Alp Sipahigil - Pasadena CA, US
Paul B. Dieterle - Somerville MA, US
Mahmoud Kalaee - Pasadena CA, US
Johannes M. Fink - Klosterneuburg, AT
Andrew J. Keller - Los Angeles CA, US
Gregory MacCabe - Los Angeles CA, US
Hengjiang Ren - Pasadena CA, US
Justin D. Cohen - Annandale VA, US
Assignee:
California Institute of Technology - Pasadena CA
International Classification:
B81B 3/00
B82Y 40/00
B82Y 10/00
G11C 13/02
B82Y 20/00
G06N 10/00
G01H 11/08
Abstract:
Embodiments described herein include systems and techniques for converting (i.e., transducing) a quantum-level (e.g., single photon) signal between the three wave forms (i.e., optical, acoustic, and microwave). A suspended crystalline structure is used at the nanometer scale to accomplish the desired behavior of the system as described in detail herein. Transducers that use a common acoustic intermediary transform optical signals to acoustic signals and vice versa as well as microwave signals to acoustic signals and vice versa. Other embodiments described herein include systems and techniques for storing a qubit in phonon memory having an extended coherence time. A suspended crystalline structure with specific geometric design is used at the nanometer scale to accomplish the desired behavior of the system.

Techniques For Transduction And Storage Of Quantum Level Signals

US Patent:
2020006, Feb 27, 2020
Filed:
Mar 5, 2019
Appl. No.:
16/293455
Inventors:
- Pasadena CA, US
Jie Luo - Pasadena CA, US
Michael T. Fang - Pasadena CA, US
Alp Sipahigil - Pasadena CA, US
Paul B. Dieterle - Somerville MA, US
Mahmoud Kalaee - Pasadena CA, US
Johannes M. Fink - Klosterneuburg, AT
Andrew J. Keller - Los Angeles CA, US
Gregory MacCabe - Los Angeles CA, US
Hengjiang Ren - Pasadena CA, US
Justin D. Cohen - Annadale VA, US
Assignee:
CALIFORNIA INSTITUTE OF TECHNOLOGY - Pasadena CA
International Classification:
B81B 3/00
G06N 10/00
G01H 11/08
B82Y 10/00
Abstract:
Embodiments described herein include systems and techniques for converting (i.e., transducing) a quantum-level (e.g., single photon) signal between the three wave forms (i.e., optical, acoustic, and microwave). A suspended crystalline structure is used at the nanometer scale to accomplish the desired behavior of the system as described in detail herein. Transducers that use a common acoustic intermediary transform optical signals to acoustic signals and vice versa as well as microwave signals to acoustic signals and vice versa. Other embodiments described herein include systems and techniques for storing a qubit in phonon memory having an extended coherence time. A suspended crystalline structure with specific geometric design is used at the nanometer scale to accomplish the desired behavior of the system.

Metamaterial Waveguides And Shielded Bridges For Quantum Circuits

US Patent:
2020005, Feb 13, 2020
Filed:
Mar 5, 2019
Appl. No.:
16/293416
Inventors:
- Pasadena CA, US
Seyed Mohammad Mirhosseini Niri - Pasadena CA, US
Eun Jong Kim - Pasadena CA, US
Alp Sipahigil - Pasadena CA, US
Vinicius Thaddeu dos Santos Ferreira - Pasadena CA, US
Andrew J. Keller - Los Angeles CA, US
Mahmoud Kalaee - Pasadena CA, US
Michael T. Fang - Pasadena CA, US
Assignee:
CALIFORNIA INSTITUTE OF TECHNOLOGY - Pasadena CA
International Classification:
H01P 3/00
G06N 10/00
Abstract:
Metamaterial waveguides and shielded bridges are employed to improve the scalability and routing of quantum computing circuits. A metamaterial waveguide includes a signal conductor that has a periodic array of lumped element resonators distributed along and electrically coupled to a signal conductor. The periodic array of lumped element resonator pairs defines a bandgap within an operating bandwidth of the waveguide. Qubits can communicate within the operating bandwidth of the waveguide and communications via the waveguide can be controlled by changing a center frequency of the qubits. A shielded bridge is used to cross over high frequency communications and control CPW's in a quantum computing circuit. The shielded bridge includes a signal bridge that is elevated and extends over a separate CPW, and a ground bridge positioned between the signal bridge and the separate CPW.

Techniques For Bidirectionaltransduction Of Quantum Level Signals Between Optical And Microwave Frequencies Using A Common Acoustic Intermediary

US Patent:
2019027, Sep 5, 2019
Filed:
Mar 5, 2019
Appl. No.:
16/293457
Inventors:
- Pasadena CA, US
Jie Luo - Pasadena CA, US
Michael T. Fang - Pasadena CA, US
Alp Sipahigil - Pasadena CA, US
Paul B. Dieterle - Somerville MA, US
Mahmoud Kalaee - Pasadena CA, US
Johannes M. Fink - Klosterneuburg, AT
Andrew J. Keller - Los Angeles CA, US
Gregory MacCabe - Los Angeles CA, US
Justin D. Cohen - Annadale VA, US
Assignee:
CALIFORNIA INSTITUTE OF TECHNOLOGY - Pasadena CA
International Classification:
B81B 3/00
B82Y 40/00
B82Y 20/00
G11C 13/02
B82Y 10/00
Abstract:
Embodiments described herein include systems and techniques for converting (i.e., transducing) a quantum-level (e.g., single photon) signal between the three wave forms (i.e., optical, acoustic, and microwave). A suspended crystalline structure is used at the nanometer scale to accomplish the desired behavior of the system as described in detail herein. Transducers that use a common acoustic intermediary transform optical signals to acoustic signals and vice versa as well as microwave signals to acoustic signals and vice versa. Other embodiments described herein include systems and techniques for storing a qubit in phonon memory having an extended coherence time. A suspended crystalline structure with specific geometric design is used at the nanometer scale to accomplish the desired behavior of the system.

Wireless Kitchen Weighing Scale

US Patent:
2016001, Jan 21, 2016
Filed:
Jul 15, 2015
Appl. No.:
14/800688
Inventors:
Michael Fang - West Covina CA, US
International Classification:
G01G 23/37
H04B 1/40
H04W 4/00
Abstract:
A weighing scale may include a weighing platform, a weight measurement module, a wireless data communication module, a weight data processing and transmitting system, a display screen, and a control panel. In one embodiment, the weighing device can be a regular weighing scale, and in another embodiment, the weighing scale can be a wireless weighing scale which can store and transmit data generated by the weighing scale to external electronic devices or receive and store data coming from external electronic devices. In one embodiment, the wireless data communication module can be used to transmit data to or receive data from distant electronic devices via the wireless network data transmission system and Internet. In another embodiment, the wireless data communication module can be used to retrieve data from the onboard memory module and transmit them to distant electronic devices via the wireless network data transmission system and Internet.

Possible Relatives

Cynthia F Fang  David Fang  Aaron E Fang  Dong Y Fang  Elaine Y Fang  Evelyn Y Fang  Fang W Fang  Michael C Last  Michael C Johnson  Michael F Stamps 

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