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Design of active network filters as hysteretic sensors
Yu Mao
, Harry Dankowicz
Mechanical Science and Engineering
Information Trust Institute
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Keyphrases
Information Processing
100%
Perturbation Analysis
100%
Hysteretic Behavior
100%
Nonlinearity
100%
Parameter Values
100%
Hysteretic
100%
Continuation Method
100%
Slowly Varying
100%
Rate Law
100%
Energy Sources
100%
Endogenous Network
100%
Asymptotic Results
100%
Network Activity
100%
Local Interaction
100%
Internal Dynamics
100%
Network Topology
100%
Quiescent State
100%
Nonlinear Oscillator
100%
Proposed Architecture
100%
Linear Network
100%
Distributed Sensing
100%
Self-oscillation
100%
Complex Biological Systems
100%
Linear Oscillator
100%
Parameter Continuation
100%
Active Networks
100%
Network Design Problem
100%
Optimal Distribution
100%
Short Bursts
100%
Arbitrary Topology
100%
Distributed Information
100%
Parameter Threshold
100%
Network Filter
100%
Engineering
Perturbation Analysis
100%
Biological System
100%
Nodes
100%
Model Parameter
100%
Energy Source
100%
Design Problem
100%
Characteristic Time
100%
Linear Networks
100%
Network Topology
100%
Internal Dynamic
100%
Active Network
100%
Nodal Parameter
100%
Nonlinearity
100%
Oscillator
100%
Computer Science
Information Processing
100%
Parameter Value
100%
Perturbation Analysis
100%
Asymptotic Result
100%
Biological System
100%
Network Topology
100%
Network Activity
100%
Active Network
100%
Network Design Problem
100%
Optimal Distribution
100%
Quiescent State
100%