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Michael J Brienza

from New Bern, NC
Age ~44
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Also known as:
Michael John Brienza, Rienta B Michael, Mike Brienza, L Brienza
Related to:
Kathleen P Maracle, 65Jeannette Knopf, 77Lori Gooden, 65Janine Cline, 49Stephanie George, 43Donna Vuckovich, 91
Connected to:
Christopher C Brienza, 67Lewis G Brienza, 74Lorraine P Brienza, 74Mario G Brienza, 72Suzanne K Brienza, 67William S Brienza, 71Michele S Brienze, 60Deanna R Brienzi, 38Alicia F Brier, 37Cheri A Brier, 63

Michael Brienza Phones & Addresses

  • New Bern, NC
  • 300 Lighthouse Ln APT B2, Swansboro, NC 28584 (910) 382-3070
  • Cedar Point, NC
  • Emerald Isle, NC
  • Port Jefferson Station, NY
  • Oswego, NY
  • Liverpool, NY
  • 5812 Landing Ct, Emerald Isle, NC 28594

Education

Degree: Associate degree or higher

Resumes

Resumes

Michael Brienza Photo 1

Owner And Certified Residential Appraiser

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Location:
300 Lighthouse Ln, Cedar Point, NC 28584
Industry:
Real Estate
Work:
Mb Appraisal Services
Owner and Certified Residential Appraiser
Lusk Appraisal Company
Appraiser
Ocsa
Coach
Carteret County Schools Aug 2007 - Jun 2011
Teacher
Education:
Lemoyne College 2003 - 2005
Master of Science, Masters, Teaching, Education, Special Education State University of New York College at Oswego 1998 - 2002
Bachelors, Bachelor of Science, Accounting Comsewogue Senior High School
Comswegoue High School
State University of New York College at Oswego
Lemoyne College, Syracuse, Ny
Master of Science, Masters, Teaching, Education
Skills:
Appraisals
Reo
Condos
Foreclosures
Investment Properties
Investors
Powerpoint
Real Estate
Relocation
Short Sales
Single Family Homes
Michael Brienza Photo 2

Michael Brienza

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Business Records

Name / Title
Company / Classification
Phones & Addresses
Michael Brienza
Instructor-physics
FAIRFIELD UNIVERSITY
College/University · University · College/University Elementary/Secondary School · School/Educational Services · Library · Boys School · College/University Vocational School · Schools
1073 N Benson Rd, Fairfield, CT 06824
(203) 254-4000, (203) 254-4111, (203) 254-4044, (203) 254-4280

Publications

Us Patents

Radar Target Signature Detector

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US Patent:
51913437, Mar 2, 1993
Filed:
Feb 10, 1992
Appl. No.:
7/836668
Inventors:
Paul M. Danzer - Norwalk CT
Michael J. Brienza - Easton CT
Assignee:
United Technologies Corporation - Hartford CT
International Classification:
G01S 1387
US Classification:
342 21
Abstract:
An improved radar system utilizing the principle of nonlinear contact effects for detecting and identifying a target, includes two radar transmitters (12,16) at least one of which is a baseband pulse radar transmitter. Both transmitters illuminate the same target and the signals from each transmitter are mixed in a nonlinear junction (40) of the target. Mixing the two signals provides a target return signal whose frequency spectrum contains cross product frequency components having high resolution target data due to the broad spectral content of the baseband pulse, and thus provides a system capable of detecting and identifying the illuminated target.

Modulator For Electrical Signals Processed In A Laser-Acoustic Delay Line

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US Patent:
39434648, Mar 9, 1976
Filed:
Aug 30, 1973
Appl. No.:
5/392893
Inventors:
Michael J. Brienza - Westport CT
Frederik Weindling - Stamford CT
Assignee:
United Technologies Corporation - Hartford CT
International Classification:
G02F 118
H01J 314
US Classification:
332 751
Abstract:
Either of two beams of coherent light has components which are phase shifted and/or attenuated; the phase shifting is alternatively provided in different embodiments by (a) transmitting the coherent light through a phase plate (which may be of variable opacity); (b) processing the coherent light in a second laser-acoustic delay line through which an acoustic wave has been transmitted, or (c) providing in the laser acoustic delay line two acoustic traveling waves, one of which interacts at the Bragg angle with the coherent light. An interaction at the Bragg angle between either of the light beams and a traveling wave generated in a laseracoustic delay line by an electrical rf signal provides a diffracted light beam having a frequency equal to the sum of the light beam frequency and that of the rf signal. A photodetector heterodynes the two light beams thereby providing a modulated rf signal with phase or amplitude modulation in accordance with the phase shift or attenuation of either of the light beams.

Extended Length Embedded Bragg Grating Manufacturing Method And Arrangement

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US Patent:
50661337, Nov 19, 1991
Filed:
Oct 18, 1990
Appl. No.:
7/600645
Inventors:
Michael J. Brienza - Easton CT
Assignee:
United Technologies Corporation - Hartford CT
International Classification:
G02B 518
US Classification:
359570
Abstract:
An arrangement for forming an extended length light redirecting embedded grating in an elongated solid material optical waveguide includes a source that directs a coherent light beam of a frequency in the ultraviolet range in a primary path transversely toward the waveguide. A section of a diffraction grating extends through the primary path at a spacing from the waveguide, and the diffraction grating has a dimension normal to the primary path that exceeds the corresponding dimension of the primary path. Relative movement is effectuated between the waveguide and diffraction grating in unison, and the primary path, so that the light beam is diffracted at the diffraction grating into two mutually frequency shifted partial light beams propagating in diverging secondary paths. The partial light beams are caused to travel toward a shared location of the waveguide where they form an interference pattern that moves longitudinally of the waveguide but respective high intensity fringes of which extend through the waveguide at respective positions that are stationary relative to the waveguide to effect refractive index changes at such positions along an extended length of the waveguide.

Adaptive Sewing Machine

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US Patent:
41664230, Sep 4, 1979
Filed:
Feb 28, 1978
Appl. No.:
5/881995
Inventors:
Michael J. Brienza - Westport CT
Stephen A. Garron - Elizabeth NJ
Robert Sedlatschek - Bridgewater NJ
Assignee:
The Singer Company - New York NY
International Classification:
D05B 4704
US Classification:
112254
Abstract:
A sewing machine is disclosed which includes at least one regulatable operating instrumentality, such as, for example, an adjustable needle thread tensioner. Means are provided for generating signals indicative of different parameters which affect the ultimate overall stitch, such as, for example, fabric thickness at the seam, thread type, and pattern type. A central processor is provided with an algorithm for controlling the thread tension so as to maintain uniform stitch quality as a function of the different parameters.

Monopulse Optical Receiver System

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US Patent:
39872971, Oct 19, 1976
Filed:
Jun 9, 1975
Appl. No.:
5/585273
Inventors:
Michael J. Brienza - Westport CT
Paul M. Danzer - Norwalk CT
Assignee:
United Technologies Corporation - Hartford CT
International Classification:
G01J 124
US Classification:
250209
Abstract:
A monopulse optical receiving system is comprised of a plurality of optical sensors for receiving an incident light pulse at angles of incidence within a field of view, and providing in response thereto an output voltage signal whose magnitude is a function of the incident angle, at least two of the sensors being relatively disposed so that a portion of the field of view of one of them overlaps with a portion of the field of view of another one of them to provide an overlapping field of view within which the two sensors provide complementary transmittance gradients, the two sensors further providing mutually complementary voltage signals in response to light incidence within the overlapping field of view, the system further comprising a processing unit which calculates both an immediate coarse angle value for the incident light pulse and a fine angle describing the precise incident angle relative to the coarse angle value.

Remote Optical Display Designator

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US Patent:
41502850, Apr 17, 1979
Filed:
Dec 27, 1977
Appl. No.:
5/864956
Inventors:
Michael J. Brienza - Westport CT
Jason M. Gordon - Katonah NY
Assignee:
United Technologies Corporation - Hartford CT
International Classification:
G01J 120
G01J 128
G01J 136
US Classification:
250203
Abstract:
An optical designator system employs a remote source of electromagnetic energy, such as a small hand-held infrared LED or the like, to generate an identifying beam which is directed to the same faceplate through which a displayed image is viewed. A diffuser medium is disposed at the image plane along the rear surface of the faceplate and scatters the incident beam of electromagnetic energy toward orthogonal pairs of photodetectors located adjacent to the edges of the faceplate. The output signals from the photodetectors are presented to a normalizer circuit which compensates for intensity variations of the source of electromagnetic energy into the faceplate. Therefore, the output signal from each normalizer circuit varies in a relationship which is proportional to the distance between the photodetectors at which the incident beam strikes the diffuser medium. The remote energy source is preferably modulated with a waveform which is discernible both from background ambient light and that of the displayed image. Optical and electrical filters associated with the photodetectors insure that normalizer circuits respond only to electromagnetic energy from the remote source.
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Michael J Brienza from New Bern, NC, age ~44 Get Report