Skip to main navigation
Skip to search
Skip to main content
Experts@Minnesota Home
Search content at Experts@Minnesota
Home
Profiles
Research units
University Assets
Projects and Grants
Research output
Datasets
Press/Media
Activities
Fellowships, Honors, and Prizes
Impacts
Nonlinear energy harvesting using coupled micro-scale oscillator arrays
Subramanian Ramakrishnan
, Manish Kumar
Mechanical & Industrial Engineering
Research output
:
Chapter in Book/Report/Conference proceeding
›
Conference contribution
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Nonlinear energy harvesting using coupled micro-scale oscillator arrays'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
Energy Harvesting
100%
Vibration Energy Harvesting
100%
Oscillator Array
100%
Nonlinear Energy Harvesting
100%
Nonlinear Systems
66%
Analytical Framework
66%
Nonlinearly Coupled
66%
Coupled Array
66%
Stochastic Effects
33%
Stochastic Systems
33%
Energy Sustainability
33%
Frontier Research
33%
Synergistic Effect
33%
Mobile Devices
33%
Unique Characteristics
33%
Coupling Strength
33%
Technological Applications
33%
Stochastic Resonance
33%
Nonlinear Phenomena
33%
Coupled Noise
33%
Stochastic Approach
33%
Energy Localization
33%
Mechanical Vibration
33%
Stochastic Events
33%
Cantilever Array
33%
Noise Intensity
33%
Fokker-Planck
33%
Nonlinear Oscillator
33%
Ambient Vibration
33%
Localization Effect
33%
Oscillatory Systems
33%
Engineering
Microscale
100%
Energy Harvesting
100%
Oscillator
100%
Analytical Framework
28%
Nonlinear System
28%
Experimental Investigation
14%
Energy Sustainability
14%
Oscillatory
14%
Coupling Strength
14%
Fokker
14%
Mechanical Vibration
14%
Synergistic Effect
14%
Stochastic Approach
14%
Localization Energy
14%
Intensity Noise
14%
Random Nature
14%
Nanoscale
14%
Stochastic System
14%
Micro-Cantilevers
14%
Computer Science
Nonlinear System
100%
Mobile Device
50%
Research Frontier
50%
stochastic resonance
50%
micro-cantilever
50%
Stochastic System
50%
Coupling Strength
50%