Personal information

Emails & domains

Verified email domains

Websites & social links

Research
Personal

Other IDs

Scopus Author ID: 6603531561
ResearcherID: K-2417-2015

Keywords

Nonlinear Dynamics, Nonlinear Time Series Analysis

Countries

United States

Activities

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Employment (4)

University of Rhode Island: Kingston, RI, US

2009-08 to present | Professor (Mechanical, Industrial and Systems Engineering)
Employment
Source: Self-asserted source
David Chelidze

University of Rhode Island: RI, RI, US

2005-07 to 2009-06 | Associate Professor (Mechanical Engineering and Applied Mechanics)
Employment
Source: Self-asserted source
David Chelidze

University of Rhode Island: Kingston, Rhode Island, US

2000-07 to 2005-06 | Assistant Professor (Mechanical Engineering and Applied Mechanics)
Employment
Source: Self-asserted source
David Chelidze

Preschutti and Associates, Incorporated: State College, Pennsylvania, US

2000-03 to 2000-06 | Senior Engineer (R&D)
Employment
Source: Self-asserted source
David Chelidze

Education and qualifications (3)

The Pennsylvania State University: University Park, PA, US

1995-09 to 2000-05 | Ph.D. (Engineering Science and Mechanics)
Education
Source: Self-asserted source
David Chelidze

Southern Illinois University Carbondale: Carbondale, IL, US

1993-08 to 1995-05 | MS (Mechanical Engineering)
Education
Source: Self-asserted source
David Chelidze

Georgian Technical University: Tbilisi, Georgia, GE

1987-09 to 1992-06 | Diplom (Mechanical and Industrial Engineering)
Education
Source: Self-asserted source
David Chelidze

Professional activities (1)

Naval Undersea Warfare Center: Newport, Rhode Island, US

2014-09-01 to 2015-06-30 | Visiting Professor (Mathematics Group)
Invited position
Source: Self-asserted source
David Chelidze

Funding (18)

NIUVT COMP 72: Enhancing Real-Time Hybrid Simulation (RTHS) Capabilities to Facilitate Multi-Shaker Shock Testing of Critical Components and Systems

2024-01 to 2026-01 | Grant
Office of Naval Research (Arlington, US)
Source: Self-asserted source
David Chelidze

NIUVT COMP 81: Nonlinear Energy Sink for Efficient Vibration Absorption over a Broad Range of Forcing Amplitudes and Frequencies

2024-01 to 2026-01 | Grant
Office of Naval Research (Arlington, US)
Source: Self-asserted source
David Chelidze

NIUVT COMP 83: Characteristic Value Decomposition and Control-Based Framework for Robust and Efficient Nonlinear ReducedOrder Modeling

2024-01 to 2026-01 | Grant
Office of Naval Research (Arlington, US)
Source: Self-asserted source
David Chelidze

NIUVT COMP 59: Design of Tunable Multifunctional Metamaterials for Simultaneous Manipulation of Sound and Vibrations at Different Amplitudes

2023-08 to 2025-08 | Grant
Office of Naval Research (Arlington, US)
Source: Self-asserted source
David Chelidze

NIUVT GUID 4: GUIDANCE in Smart Materials and Structures for Vibration and Shock

2023-01 to 2027-01 | Grant
Office of Naval Research (Arlington, US)
Source: Self-asserted source
David Chelidze

Improving sensor noise robustness in continuous thickness and velocity measurements during hot and cold rolling of metals

2023-01 to 2024-06 | Grant
Rhode Island Innovation Initiative (Providence, Rhode Island, US)
Source: Self-asserted source
David Chelidze

NIUVT COMP 39: Digital twinning through cyber-physical system integration

2022-01 to 2024-12 | Grant
Office of Naval Research (VA, VA, US)
Source: Self-asserted source
David Chelidze

NIUVT-COMP 24: Mechanical Characterization of Bolted Joints With Different Interface Conditions

2021-02 to 2022-12 | Grant
Office of Naval Research (Arlington, Virginia, US)
Source: Self-asserted source
David Chelidze

NIUVT-SEED 23: Physics Informed reduced Order Modeling (PI-ROM)

2021-02 to 2022-12 | Grant
Office of Naval Research (VA, VA, US)
Source: Self-asserted source
David Chelidze

NIUVT-COMP 06: Intelligent Wave Guiding and Vibration/Shock Mitigation of Navel Structures

2020-03 to 2022-12 | Grant
Office of Naval Research (Arlington, Virginia, US)
Source: Self-asserted source
David Chelidze

Characterization, Modeling, and Prediction of Fatigue Damage Under Variable Amplitude Loading

2016-04-01 to 2019-03-31 | Grant
National Science Foundation - Directorate for Engineering (Arlington, US)
URL: https://grants.uberresearch.com/100000084/1561960/Characterization-Modeling-and-Prediction-of-Fatigue-Damage-Under-Variable-Amplitude-Loading
GRANT_NUMBER: 1561960
Source: Self-asserted source
David Chelidze via DimensionsWizard

A New Framework for Nonlinear Dynamical Model Reduction

2011-09-01 to 2014-08-31 | Grant
National Science Foundation (n/a, US)
GRANT_NUMBER: 1100031
GRANT_NUMBER: 1100031
Source: Self-asserted source
David Chelidze via DimensionsWizard
grade
Preferred source (of 2)‎

Phase Space Warping and Smooth Orthogonal Decomposition to Track and Predict Human Physiologic Fatigue

2009-06 to 2010-08 | Grant
Army Research Office (n/a, US)
GRANT_NUMBER:

W911NF-07-D-0001-0113
Source: Self-asserted source
David Chelidze

Rational Models and Dynamical Characterization of Fatigue using Phase Space Warping and Smooth Orthogonal Decomposition

2008-06-15 to 2012-05-31 | Grant
National Science Foundation (n/a, US)
GRANT_NUMBER: 0758536
GRANT_NUMBER: 0758536
Source: Self-asserted source
David Chelidze via DimensionsWizard
grade
Preferred source (of 2)‎

Nonlinear Analysis to Predict Human Physiological Fatigue

2007-05 to 2009-08 | Grant
Army Research Office (n/a, US)
GRANT_NUMBER: W911NF07D0001-0113
Source: Self-asserted source
David Chelidze

Tracking Fatigue-Related Changes in Motor Coordination

2005-09 to 2008-08 | Grant
National Institute of Biomedical Imaging and Bioengineering (MD, MD, US)
GRANT_NUMBER:

1R21EB003425-01A1
Source: Self-asserted source
David Chelidze

Data Driven Damage Diagnosis and Prognosis

2004-09 to 2006-08 | Grant
Missile Defense Agency (VA, VA, US)
GRANT_NUMBER:

N65540-04-C-0042 (B2-0775)
Source: Self-asserted source
David Chelidze

CAREER: Phase Space Warping and Stochastic Interrogation: A New Paradigm for Damage Diagnosis and Prognosis

2003-02-01 to 2009-05-31 | Grant
National Science Foundation - Directorate for Engineering (Arlington, US)
URL: https://grants.uberresearch.com/100000084/0237792/CAREER-Phase-Space-Warping-and-Stochastic-Interrogation-A-New-Paradigm-for-Damage-Diagnosis-and-Prognosis
GRANT_NUMBER: 0237792
Source: Self-asserted source
David Chelidze via DimensionsWizard
grade
Preferred source (of 2)‎

Peer review (5 reviews for 2 publications/grants)

Review activity for Journal of applied physics. (1)
Review activity for Mechanical systems and signal processing. (4)
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