Michael Steven Parker
Combative Sports in Tucson, AZ
License number
Utah 8021847-4801
Issued Date
Jun 4, 2011
Expiration Date
Jun 4, 2012
Category
Unarmed Combat
Type
Professional Contestant
Address
Address
Tucson, AZ
Personal information
See more information about Michael Steven Parker at radaris.comName
Address
Phone
925 Roadrunner Dr, Higley, AZ 85236
914 Osborn Rd, Phoenix, AZ 85014
8964 Sutton Dr, Scottsdale, AZ 85260
8203 Oraibi Dr, Peoria, AZ 85382
7101 Grandview Dr, Prescott Valley, AZ 86314
Professional information
Sales Consultant At Conn's
Position:
Sales Consultant at Conn's
Location:
United States
Industry:
Electrical/Electronic Manufacturing
Work:
Conn's
- Craycoft and Broadway since Jun 2013
-
Sales Consultant
Windmill Suites
- Tucson, Arizona Area Jan 2012 - May 2013
-
Director of Sales
Mikes Lights
Jul 2008 - Jun 2012
-
Owner
Mikes Lights
Aug 2009 - Apr 2010
-
Owner
Radisson Suites Tucson
- Tucson AZ Nov 2007 - Jul 2009
-
National Sales Manager
Ricoh Business Systems
2004 - 2005
-
Sales Manager
Ricoh Americas Corporation
2000 - 2005
-
Marketing Manager
Ricoh Company Ltd.
Nov 1998 - Sep 2005
-
National Marketing Manager
xerox
1987 - 1995
-
Main Frame and Network Service Manager
xerox
1987 - 1995
-
Customer Service Technicain
Operation Get Down Food Cooperative
- Greater Detroit Area Jan 1976 - Jan 1987
-
Assistant Director
Education:
Pepperdine University, The George L. Graziadio School of Business and Management 1993 - 1995
BSM, Management
BSM, Management
Skills:
Sales Process, Solution Selling, New Business Development, Management
Independent Financial Services Professional
Location:
Tucson, Arizona Area
Industry:
Financial Services
Work:
United States Marine Corps
Apr 1996 - Oct 2008
-
Quality Assurance Rep.
HMLA 369
1996 - 2004
-
Flight Line
Education:
Palomar College 2004 - 2006
University of Arizona 2008
University of Arizona 2008
Michael Parker - Tucson, AZ
Work:
Windmill Suites
Director of Sales Sun Lighting Inc - Tucson, AZ
Sales and Marketing P& L - Tucson, AZ
L, marketing efforts, business development, sales and pricing Radisson Suites Tucson - Tucson, AZ
National Sales Manager Ricoh Business Systems - Tustin, CA
Area Sales Manager Ricoh Corporation - Tustin, CA
National Marketing Manager Xerox - Los Angeles, CA
Service Manager
Director of Sales Sun Lighting Inc - Tucson, AZ
Sales and Marketing P& L - Tucson, AZ
L, marketing efforts, business development, sales and pricing Radisson Suites Tucson - Tucson, AZ
National Sales Manager Ricoh Business Systems - Tustin, CA
Area Sales Manager Ricoh Corporation - Tustin, CA
National Marketing Manager Xerox - Los Angeles, CA
Service Manager
Education:
Pepperdine University
Bachelors of Science in Business Management
Bachelors of Science in Business Management
Aerospace Propulsion Technician At Us Air Force
Position:
Aerospace Propulsion Technician at US Air Force
Location:
Tucson, Arizona Area
Industry:
Defense & Space
Work:
US Air Force
-
Aerospace Propulsion Technician
Independent Education Management Professional
Location:
Tucson, Arizona Area
Industry:
Education Management
Precision Geolocation Of Moving Or Fixed Transmitters Using Multiple Observers
US Patent:
8077089, Dec 13, 2011
Filed:
Aug 17, 2009
Appl. No.:
12/542541
Inventors:
Michael Noel Parker - Tucson AZ, US
Assignee:
Rincon Research Corporation - Tucson AZ
International Classification:
G01S 5/04, G01S 1/18
US Classification:
342442, 342413
Abstract:
A method of geolocating a stationary transmitter observed by a fixed receiver device and at least two receiver devices, at least one of the receiver devices moving includes obtaining wavelength-scaled phase difference measurements between pairs of receiver devices, and obtaining a result lattice of possible locations of the transmitter, one location more probable than the remainder. A method of geolocating a moving transmitter observed by a plurality of fixed or nearly fixed receiver devices, and a moving receiver device, includes obtaining wavelength-scaled phase difference measurements from the plurality of fixed or nearly fixed receiver devices to obtain a shape of the transmitter trajectory, measuring the phase difference between the moving receiver device and at least one of the plurality of fixed or nearly fixed receiver devices to obtain a phase error residual, and moving an estimated starting point of the transmitter to obtain a best-fit residual.
Precision Geolocation Of Moving Or Fixed Transmitters Using Multiple Observers
US Patent:
2012003, Feb 9, 2012
Filed:
Oct 21, 2011
Appl. No.:
13/278905
Inventors:
Michael Noel Parker - Tucson AZ, US
Assignee:
RINCON RESEARCH CORPORATION - Tucson AZ
International Classification:
G01S 5/04
US Classification:
342442
Abstract:
A method of geolocating a stationary transmitter observed by a fixed receiver device and at least two receiver devices, at least one of the receiver devices moving includes obtaining wavelength-scaled phase difference measurements between pairs of receiver devices, and 10 obtaining a result lattice of possible locations of the transmitter, one location more probable than the remainder. A method of geolocating a moving transmitter observed by a plurality of fixed or nearly fixed receiver devices, and a moving receiver device, includes obtaining wavelength-scaled phase difference measurements from the plurality of fixed or nearly fixed receiver devices to obtain a shape of the transmitter trajectory, measuring the phase difference 15 between the moving receiver device and at least one of the plurality of fixed or nearly fixed receiver devices to obtain a phase error residual, and moving an estimated starting point of the transmitter to obtain a best-fit residual.
Method Of Correlating Known Image Data Of Moving Transmitters With Measured Radio Signals
US Patent:
8471766, Jun 25, 2013
Filed:
Apr 30, 2012
Appl. No.:
13/460471
Inventors:
Michael N. Parker - Tucson AZ, US
Assignee:
Rincon Research Corporation - Tucson AZ
International Classification:
G01S 3/28
US Classification:
342378
Abstract:
Systems and methods of correlating potential transmitters with received radio signals is provided. Image data is provided including paths traveled by potential transmitter. Potential transmitters are identified within the image data along with path segments traveled by potential transmitters. A first and second transmitter calculate certain parameters of received signals assuming that signals originated along the path segments. The calculated signal parameters are then compared to measured signal parameter to determine whether a transmitter is associated with a particular path.
Geo-Directed Adaptive Antenna Array
US Patent:
8565798, Oct 22, 2013
Filed:
Jul 26, 2010
Appl. No.:
12/843531
Inventors:
Michael N. Parker - Tucson AZ, US
Assignee:
Rincon Research Corporation - Tucson AZ
International Classification:
H04B 7/00
US Classification:
455501, 455 631, 455 6713, 4551142, 375327, 342181
Abstract:
Systems and methods for on-the-fly characterization of an arbitrary array of antenna elements are provided. An array of arbitrary antenna elements and a reference receiver is provided. A location for a target source of signals is provided or assumed. Cross ambiguity functions are computed between the signal received by the reference receiver and the signal received by each antenna element. The cross ambiguity functions are analyzed to determine the phase and amplitude response of the antenna array to signals originating from the location of the target source of signals.
Method Of Correlating Known Image Data Of Moving Transmitters With Measured Radio Signals
US Patent:
8174444, May 8, 2012
Filed:
Sep 26, 2009
Appl. No.:
12/567749
Inventors:
Michael N. Parker - Tucson AZ, US
Assignee:
Rincon Research Corporation - Tucson AZ
International Classification:
G01S 3/16, G01S 3/28
US Classification:
342378
Abstract:
Systems and methods of correlating potential transmitters with received radio signals is provided. Image data is provided including paths traveled by potential transmitter. Potential transmitters are identified within the image data along with path segments traveled by potential transmitters. A first and second transmitter calculate certain parameters of received signals assuming that signals originated along the path segments. The calculated signal parameters are then compared to measured signal parameter to determine whether a transmitter is associated with a particular path.