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Stress triggers a coordinated physiological response involving the sympathetic nervous system (SNS) and the hypothalamic-pituitary-adrenal (HPA) axis. This dual activation ensures that the body is prepared for both immediate and prolonged stress management. The process begins with the perception of a stressor. This initial phase activates the SNS, leading to the rapid release of adrenaline (epinephrine) from the adrenal glands.
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Psychophysiological Stress Assessment Using Biofeedback
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Training precise stress patterns.

Daniel Hexner1

  • 1Faculty of Mechanical Engineering, Technion, 320000 Haifa, Israel. danielhe@technion.ac.il.

Soft Matter
|March 2, 2023
PubMed
Summary
This summary is machine-generated.

A new training rule allows spring-dashpot networks to learn stress patterns by controlling target bond tensions. This method achieves high precision, with yielding dashpots enabling permanent memory encoding.

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Area of Science:

  • Physics
  • Materials Science
  • Computational Mechanics

Background:

  • Networks of springs and dashpots are used to model complex mechanical systems.
  • Controlling stress patterns in such networks is crucial for understanding material behavior and designing new materials.

Purpose of the Study:

  • To introduce a novel training rule for spring-dashpot networks to learn precise stress patterns.
  • To investigate the effect of target bond selection on learning convergence and system frustration.
  • To explore the potential for memory encoding using dashpots with yield stresses.

Main Methods:

  • A training rule was developed to control tensions on a subset of 'target' bonds within a spring-dashpot network.
  • The network's remaining bonds served as learning degrees of freedom, evolving in response to applied stresses.
  • Target bond selection criteria were varied, including single target bonds per node and multiple targets on a single node.
  • The study considered dashpots with and without yield stresses to assess training convergence and memory capabilities.

Main Results:

  • The training rule enabled the network to learn precise stress patterns, with errors converging to computer precision when at most one target bond was present per node.
  • Different target bond selection criteria influenced convergence speed and success, with additional targets on a single node potentially causing slow convergence or failure.
  • Training remained successful even when approaching the Maxwell Calladine theorem limit.
  • Networks with yielding dashpots exhibited slower, power-law error decay but successfully prevented relaxation after training, enabling permanent memory encoding.

Conclusions:

  • The proposed training rule is effective for precise stress pattern learning in spring-dashpot networks.
  • System frustration, influenced by target bond selection, plays a critical role in learning performance.
  • The incorporation of yielding dashpots offers a pathway for creating materials with permanent memory capabilities.