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Related Experiment Video

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Development of an In Vitro Ocular Platform to Test Contact Lenses
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AIoT-Based Eyelash Extension Durability Evaluation Using LabVIEW Data Analysis.

Sumei Chiang1, Shao-Hsun Chang1, Kai-Chao Yao1

  • 1Department of Electrical and Mechanical Technology, College of Technology, National Changhua University of Education, Bao-Shan Campus, No. 2, Shi-Da Rd., Changhua City 500208, Taiwan.

Sensors (Basel, Switzerland)
|August 28, 2025
PubMed
Summary
This summary is machine-generated.

This study reveals high temperatures and strong winds degrade eyelash extension durability. However, the Artificial Intelligence of Things Experimental Device Platform (AIoTEDP) demonstrates effective cosmetic testing for eyelash longevity.

Keywords:
AIoTLabVIEWcosmetic testingdurabilityeyelash extensions

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Area of Science:

  • Cosmetic Science
  • Materials Science
  • Engineering

Background:

  • Eyelash extension durability is crucial for consumer satisfaction.
  • Environmental factors significantly impact cosmetic product performance.
  • Lack of standardized testing methods for eyelash extension longevity.

Purpose of the Study:

  • Introduce a novel platform, the Artificial Intelligence of Things Experimental Device Platform (AIoTEDP), for evaluating eyelash extension durability.
  • Assess the impact of temperature, wind speed, and compression frequency on eyelash extension retention.
  • Validate the AIoTEDP's practicality and accuracy for cosmetic testing.

Main Methods:

  • Utilized a three-factor full factorial design with LabVIEW for data collection and analysis.
  • Employed the AIoTEDP to simulate environmental conditions (temperature, wind, compression).
  • Conducted quantitative analyses using visual assessments and image recognition technologies.

Main Results:

  • High temperatures and strong winds significantly reduced eyelash extension durability.
  • Moderate bending (3000 repetitions) did not compromise retention rates.
  • The AIoTEDP accurately simulated real-world conditions and provided reliable durability data.

Conclusions:

  • The AIoTEDP is a practical and accurate system for testing eyelash extension durability.
  • Environmental factors like heat and wind are critical determinants of eyelash extension longevity.
  • The AIoTEDP offers potential for innovative cosmetic testing systems.