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QS Piezoelectric Tactile Stimulator

QuaeroSys piezoelectric haptic stimulator is a mechanical haptic stimulator that can be used to study the corresponding psychological processes and occurrence mechanisms using functional imaging methods (e.g., MEG, fMRI, or EEG) for mechanical haptic stimulation of the human body, even without clinical diagnosis. It has wide application prospects in the fields of brain cognition, artificial intelligence, human ergonomics, and special education.
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Germany Qs Tactile Stimulation System

Qs piezoelectric haptic stimulator is a mechanical haptic stimulator, i.e., a mechanical haptic stimulation using functional imaging methods (e.g., MEG, fMRI, or EEG) without diagnosis in order to study the corresponding psychological processes and the mechanisms of their occurrence.

The system consists of a master device capable of communicating with a computer via USB and several matrix stimulus modules capable of emitting mechanical forces. The master device has separate input and output trigger signal ports that enable synchronization between stimulus and test. For complex experiments, the system can even be upgraded with up to 16 cards to stimulate or trigger inputs or outputs with timing accuracy up to 0.5 ms.

Applications

Tactile sensation is a stimulus influenced by a combination of multiple factors that initiate a pattern of activation through the stimulus site. A series of mechanoreceptors and neural pathways are activated. The signal generated by the stimulus can be transmitted to the spinal cord via either of two types of afferent fibers (Abeta fibers and unmyelinated C tactile fibers), which in turn are transmitted to the cerebral cortex to form tactile information. qs piezoelectric tactile stimulators can be used to.

  • Basic research on functional area activation
  • Tactile perception studies
  • A study of the neural mechanisms of tactile working memory
  • Multimodal information integration study
  • Brain plasticity research

Applied functional brain imaging technology

  • fMRI
  • EEG/ERP
  • MEG
  • Research Methodology
  • Activation zone detection fMRI
  • EEG power spectrum analysis
  • ERP Analysis (LPC, LNC)
  • Steady State Evoked Potential (SSEP) Analysis
  • It reflects a stable response of the cerebral cortex to long-lasting stimuli with circumstantial properties, which is expressed in the EEG signal as the amplitude and phase of a specific frequency remaining constant over a long period of time.

 

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