GDV technology applications for cosmetic sciences

18th IEEE Symposium on Computer-Based Medical Systems (CBMS'05) Pub Date : 2005-06-23 DOI:10.1109/CBMS.2005.56

A. Vainshelboim, Michael Hayes, Kenneth S. Momoh, Corissa Raatsi, S. Peirce, K. Korotkov, Nikolay Prijatkin

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引用次数: 3

Abstract

The technique of gas discharge visualization (GDV) quantifies the phenomenon of corona discharge, and has been used effectively in both testing of raw materials and in testing physiological reaction through measuring potentials in human skin. This technique was used to evaluate human reactions, including hair's response to electrical and magnetic fields, the human subconscious reactions to odorants, and the response of the human body to various spa treatments. The results verify that freshly cut human hair has a greater corona discharge with application of both a magnetic and an electrical field as opposed to hair that has been detached from the scalp for a significant period of time. Additionally, GDV is able to quantify subconscious measurements and confirms that it takes a longer period of time for a person to become accustomed to an aroma if they consider it to be unpleasant. The results also show that one's GDV profile has a direct correspondence to spa therapies. Overall, GDV presents a highly sensitive and reproducible technique for testing specific properties of the human body.

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GDV技术在化妆品科学中的应用

气体放电可视化技术(gas discharge visualization, GDV)对电晕放电现象进行了量化，在原料检测和人体皮肤电位检测生理反应中都得到了有效的应用。这项技术被用来评估人类的反应，包括头发对电场和磁场的反应，人类对气味的潜意识反应，以及人体对各种水疗疗法的反应。研究结果证实，在磁场和电场的双重作用下，新剪下的头发比从头皮上脱落很长一段时间的头发有更大的电晕放电。此外，GDV能够量化潜意识的测量，并证实如果一个人认为一种气味令人不快，他需要更长的时间来习惯这种气味。结果还表明，一个人的GDV谱与水疗疗法有直接的对应关系。总体而言，GDV提供了一种高度敏感和可重复的技术，用于测试人体的特定特性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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18th IEEE Symposium on Computer-Based Medical Systems (CBMS'05)

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