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Alberico F Menozzi

from Raleigh, NC
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Also known as:
Alberico Federica Menozzi, Alberico Menozzi, Alverico Menozzi
Phone and address:
10101 Goodview Ct, Raleigh, NC 27613
(919) 846-2551
Connected to:
Daniel N Menozzi, 68Diego A Menozzi, 79Jennifer M Menozzi, 46Andreas Menrad, 45Adje Mensah, 44Agnes Mensah, 44Ama P Mensah, 37Andy Y Mensah, 32Atta P Mensah, 55Ben Mensah, 44

Alberico Menozzi Phones & Addresses

  • 10101 Goodview Ct, Raleigh, NC 27613 (919) 846-2551
  • 9430 Prince George Ln, Raleigh, NC 27615 (919) 846-2551
  • 1016 Sheetbend Ln, Raleigh, NC 27606
  • 13 Pocahontas Dr, Middletown, RI 02842 (401) 845-0392
  • 85 Mill St, Newport, RI 02840 (401) 845-0392
  • Cary, NC
  • 10101 Goodview Ct, Raleigh, NC 27613 (401) 952-3400

Work

Position: Sales Occupations

Education

Degree: Doctorates, Doctor of Philosophy School / High School: North Carolina State University Specialities: Electrical Engineering, Philosophy

Industries

Research

Resumes

Resumes

Alberico Menozzi Photo 1

Alberico Menozzi

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Location:
Raleigh, NC
Industry:
Research
Education:
North Carolina State University
Doctorates, Doctor of Philosophy, Electrical Engineering, Philosophy North Carolina State University
Master of Science, Masters, Computer Engineering University of Central Florida
Bachelors, Bachelor of Science, Computer Engineering

Publications

Us Patents

Auto-Catalytic Oscillators For Locomotion Of Underwater Vehicles

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US Patent:
7869910, Jan 11, 2011
Filed:
Sep 14, 2007
Appl. No.:
11/901546
Inventors:
Promode R. Bandyopadhyay - Middetown RI, US
Alberico Menozzi - Raleigh NC, US
Daniel P. Thivierge - Warren RI, US
David N. Beal - Providence RI, US
Amuradha Annaswamy - West Newton MA, US
Assignee:
The United States of America as represented by the Secretary of the Navy - Washington DC
International Classification:
G05D 19/00
G06F 19/00
US Classification:
701 21, 440 13
Abstract:
A system is provided to control maneuvering flapping foils of an underwater vehicle. An oscillator generates periodic signals in which effects of external disturbances are minimized or amplified as required; the periodic signal can be either sinusoidal or can depart significantly from a sinusoid; the amplitude and frequency are varied by changing the oscillator parameters and the phase between the signals are varied by changing the parameters. The oscillator restores the parameters after a disturbance. Since the oscillator functions without external sensors, the oscillator serves as an inner-loop controller with a centralized control. An open loop control architecture for the controller, results in a motion where the vehicle maneuvers execute as force and moment commands. The non-linear, auto-catalytic oscillator can be realized using a variety of second-order differential equations. An oscillator model is added to a conventional motor control, where the outputs of the oscillator control the foils in real-time.

Articulation Mechanism And Elastomeric Nozzle For Thrust-Vectored Control Of An Undersea Vehicle

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US Patent:
7465201, Dec 16, 2008
Filed:
Sep 6, 2005
Appl. No.:
11/239442
Inventors:
Daniel P. Thivierge - Warren RI, US
Richard E. Dooley - Portsmouth RI, US
Alberico Menozzi - Middletown RI, US
Allen L. Treaster - Julian PA, US
Michael J. Beam - Tyrone PA, US
Todd K. Fetterolf - Bellefonte PA, US
Daniel R. Metrey - Port Matilda PA, US
Assignee:
The United States of America as represented by the Secretary of the Navy - Washington DC
International Classification:
B63H 11/113
US Classification:
440 42, 114166
Abstract:
The mechanism of the present invention maneuvers a vehicle by deflecting the flow from a propulsor of the vehicle. The mechanism has an elastomeric nozzle that encases the flow and is deflected via an articulation device mountable inside the vehicle. The nozzle is shaped and supported by spiral-wound composite to maintain a circular cross-section through a range of motion. An end of the nozzle is attached to the shroud of the propulsor and another end is supported by a ring with support struts radiating from a hub. The hub is supported by a shaft attached to a gimbal. The gimbal is constrained in movement by an outer race and an anti-rotation stud in a radial slot in a ball of the gimbal. A linkage as part of an articulation device controls rotation of the gimbal to direct movement of the shaft and enclosed nozzle thereby deflecting flow of the propulsor.

Techniques For Accurate Pose Estimation

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US Patent:
20180025502, Jan 25, 2018
Filed:
Sep 14, 2017
Appl. No.:
15/704962
Inventors:
- Albuquerque NM, US
Alberico Menozzi - Raleigh NC, US
International Classification:
G06T 7/33
G02B 27/01
G06F 1/16
G06F 3/0481
G06F 11/00
G06T 5/20
G06T 11/00
G06T 19/00
G01C 21/16
G06F 3/01
Abstract:
The described technology regards an augmented reality system and method for estimating a position of a location of interest relative to the position and orientation of a display, including receiving and selectively filtering a plurality of measurement vectors from a rate-gyroscope. Systems of the described technology include including a plurality of sensors, a processing module or other computation means, and a database. Methods of the described technology use data from the sensor package useful to accurately render graphical user interface information on a display.

Techniques For Accurate Pose Estimation

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US Patent:
20180018781, Jan 18, 2018
Filed:
Sep 14, 2017
Appl. No.:
15/704934
Inventors:
- Albuquerque NM, US
Alberico Menozzi - Raleigh NC, US
International Classification:
G06F 11/00
G06T 11/00
G06T 5/20
G02B 27/01
G06F 3/0481
G06F 3/01
G06F 1/16
G06T 19/00
G01C 21/16
Abstract:
The described technology regards an augmented reality system and method for estimating a position of a location of interest relative to the position and orientation of a display, including a retroactive update to a previously rendered estimate of the position of the orientation of the display stored in a rewind buffer. Systems of the described technology include including a plurality of sensors, a processing module or other computation means, and a database. Methods of the described technology use data from the sensor package useful to accurately render graphical user interface information on a display.

Techniques For Accurate Pose Estimation

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US Patent:
20180018782, Jan 18, 2018
Filed:
Sep 14, 2017
Appl. No.:
15/704954
Inventors:
- Albuquerque NM, US
Alberico Menozzi - Raleigh NC, US
International Classification:
G06F 11/00
G06T 11/00
G06T 5/20
G02B 27/01
G06F 3/0481
G06F 3/01
G06F 1/16
G06T 19/00
G01C 21/16
Abstract:
The described technology regards an augmented reality system and method for estimating a position of a location of interest relative to the position and orientation of a display, using a forward buffer to store current and predicted position estimates calculated by the methods of the present invention. Systems of the described technology include including a plurality of sensors, a processing module or other computation means, and a database. Methods of the described technology use data from the sensor package useful to accurately render graphical user interface information on a display.

Techniques For Accurate Pose Estimation

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US Patent:
20180018783, Jan 18, 2018
Filed:
Sep 14, 2017
Appl. No.:
15/704986
Inventors:
- Albuquerque NM, US
Alberico Menozzi - Raleigh NC, US
International Classification:
G06F 11/00
G06T 11/00
G06T 5/20
G02B 27/01
G06F 3/0481
G06F 3/01
G06F 1/16
G06T 19/00
G01C 21/16
Abstract:
The described technology regards an augmented reality system and method for estimating a position of a location of interest relative to the position and orientation of a display based upon a retroactive adjustment of a previously rendered position and orientation of the display, by means of an adjust-update-predict (AUP) cycle, and calculating the location of interest relative to the position and orientation of the display. Systems of the described technology include including a plurality of sensors, a processing module or other computation means, and a database. Methods of the described technology use data from the sensor package useful to accurately render graphical user interface information on a display.

Techniques For Accurate Pose Estimation

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US Patent:
20170032528, Feb 2, 2017
Filed:
Aug 21, 2015
Appl. No.:
14/832450
Inventors:
- Albuquerque NM, US
Alberico Menozzi - Raleigh NC, US
International Classification:
G06T 7/00
G02B 27/01
G06F 1/16
G06F 11/00
G06T 5/20
Abstract:
The described technology regards an augmented reality system and method for estimating a position of a location of interest relative to the position and orientation of a display, including a retroactive update to a previously rendered estimate of the position of the orientation of the display stored in a rewind buffer. Systems of the described technology include including a plurality of sensors, a processing module or other computation means, and a database. Methods of the described technology use data from the sensor package useful to accurately render graphical user interface information on a display.

Techniques For Accurate Pose Estimation In Outdoor Environments

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US Patent:
20170032572, Feb 2, 2017
Filed:
Aug 21, 2015
Appl. No.:
14/832492
Inventors:
- Albuquerque NM, US
Alberico Menozzi - Raleigh NC, US
International Classification:
G06T 19/00
G06F 1/16
G06F 3/0481
G06T 5/20
G06T 7/00
Abstract:
The described technology regards an augmented reality system and method for estimating a position of a location of interest relative to the position and orientation of a display, including receiving and selectively filtering a plurality of measurement vectors from a rate-gyroscope. Systems of the described technology include including a plurality of sensors, a processing module or other computation means, and a database. Methods of the described technology use data from the sensor package useful to accurately render graphical user interface information on a display.
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Alberico F Menozzi from Raleigh, NC Get Report