Mass Customized Design of Cosmetic Masks Using Three-Dimensional Parametric Human Face Models Constructed From Anthropometric Data

Chu, Chih-Hsing; Wang, I-Jan

doi:10.1115/1.4039335

Cited by 7 publications

(4 citation statements)

References 22 publications

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“…By realizing human-centered design customization, it enhances the practical value of large-scale anthropometric data. 27 In addition, a new evolution of 3D skin equivalents has been developed by optimizing 4D laser-assisted bioprinting and skin equivalent culture protocols. This makes it possible to produce fully bioprinted skin equivalents that are close to current skin equivalents and suitable 12, and cosmetics shopping will be carried out using mobile in the future.…”

Section: Discussionmentioning

confidence: 99%

“…The system allows the user to specify the internal and external boundary curves to form the mask shape directly from the 3D mesh of the face model. By realizing human‐centered design customization, it enhances the practical value of large‐scale anthropometric data 27 . In addition, a new evolution of 3D skin equivalents has been developed by optimizing 4D laser‐assisted bioprinting and skin equivalent culture protocols.…”

Section: Discussionmentioning

confidence: 99%

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Recognition and the development potential of mobile shopping of customized cosmetic on untact coronavirus disease 2019 period: Focused on 40's to 60's women in Seoul, Republic of Korea

Lee

Kwon

2021

J of Cosmetic Dermatology

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Background: Our research results will be helpful in the development of the K-beauty customized cosmetics industry as well as consumers who are having difficulty in purchasing cosmetics due to the rapid transition to a non-face-to-face society due to COVID-19. Objectives: This paper attempted to investigate the recognition and development potential of customized cosmetics, focusing on mobile shopping in the era of COVID-19 untact period. Methods: The women included in the study consumer Seoul residence in the mobile shopping experience 40-60 targets for women 380 were the people. Statistical processing of data collected by the data analysis method is analyzed using the SPSS (Statistical Package for Social Science) WIN25.0 statistical package program through the process of data coding and data cleaning.Results: As the untact era enters, the frequency of using non-face-to-face mobile shopping for customized cosmetics is increasing, and it is believed to be deeply related to the level of interest in skin and recognition of customized cosmetics, such as the use of hands-on apps that incorporate new technologies of the 4th industrial revolution. Looking at the Kaiser-Meyer-Olkin to confirm the normality and validity of the population proved its validity. January 2020 (after COVID-19 spread), the use of mobile shopping was increased. In the future, it was significantly higher to continue shopping for cosmetics using mobile devices p < 0.001. Conclusion:The present study focused on the recognition and development potential of customized cosmetics on mobile shopping in the era of COVID-19 untact period. Our results suggested that the possibility of developing customized cosmetics through mobile shopping in the untact era after COVID-19 will be endless, and it is believed that various marketing strategies will be supported in the future.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Recognition and the development potential of mobile shopping of customized cosmetic on untact coronavirus disease 2019 period: Focused on 40's to 60's women in Seoul, Republic of Korea

Lee

Kwon

2021

J of Cosmetic Dermatology

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“…Linear models are generally adequate for generating excellent results in the application of conventional parametric models with simple geometries. However, linear regression models may be inadequate for portraying detailed shape changes in complex parametric models of body parts, such as faces and bodies [ 26 ]. Therefore, a linear regression model is employed as the nucleus of the proposed parametric model, and the accuracies of the 3D models generated by these parametric models are compared, as shown in Figure 5 .…”

Section: Methodsmentioning

confidence: 99%

Applying Noncontact Sensing Technology in the Customized Product Design of Smart Clothes Based on Anthropometry

Wang

Chang

et al. 2021

Sensors

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Electrocardiograms (ECGs) provide important information for diagnosing cardiovascular diseases. In clinical practice, the conventional Ag/AgCl electrode is generally used; however, it is not suitable for long-term ECG measurement because of the risk of allergic reactions on the skin and the dying issue of electrolytic gels. In previous studies, several dry electrodes have been proposed to address these issues. However, most dry electrodes, which are the mode of conductive materials, have to contact the skin well and are easily affected by motion artifacts in daily life. In the smart clothes developed in this study, a noncontact electrode was used to assess the biopotential across the clothes to prevent skin irritation and discomfort. Moreover, a three-dimensional parametric model based on anthropometric data was built, and the technique of customized product design was introduced into the smart clothes development process to reduce the influence of motion artifacts. The experimental results show that the proposed smart clothes can maintain a good ECG signal quality stably under motion from different activities.

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“… 2–11 Because of individual differences in degree of aging and skin condition, there have been increases in the development of personalized cosmetic technology, such as three-dimensional parametric facial masks and skin diagnosis methods. 12 The skin diagnosis methods for customized cosmetics involve lifestyle questionnaires, clinical evaluations using noninvasive devices, self-diagnosis equipment that converges technology and artificial intelligence (AI), and direct-to-customer genetic tests. Of these, skin condition and degree of aging of an individual can only be predicted using the following three methods: individual genetic analysis, lifestyle questionnaire, and the AI machine-learning algorithm.…”

Section: Introductionmentioning

confidence: 99%

A Genome-Wide Association Study and Machine-Learning Algorithm Analysis on the Prediction of Facial Phenotypes by Genotypes in Korean Women

Yoo¹,

Lee

Woo³

et al. 2022

CCID

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Purpose Changes in facial appearance are affected by various intrinsic and extrinsic factors, which vary from person to person. Therefore, each person needs to determine their skin condition accurately to care for their skin accordingly. Recently, genetic identification by skin-related phenotypes has become possible using genome-wide association studies (GWAS) and machine-learning algorithms. However, because most GWAS have focused on populations with American or European skin pigmentation, large-scale GWAS are needed for Asian populations. This study aimed to evaluate the correlation of facial phenotypes with candidate single-nucleotide polymorphisms (SNPs) to predict phenotype from genotype using machine learning. Materials and Methods A total of 749 Korean women aged 30–50 years were enrolled in this study and evaluated for five facial phenotypes (melanin, gloss, hydration, wrinkle, and elasticity). To find highly related SNPs with each phenotype, GWAS analysis was used. In addition, phenotype prediction was performed using three machine-learning algorithms (linear, ridge, and linear support vector regressions) using five-fold cross-validation. Results Using GWAS analysis, we found 46 novel highly associated SNPs (p < 1×10 −05 ): 3, 20, 12, 6, and 5 SNPs for melanin, gloss, hydration, wrinkle, and elasticity, respectively. On comparing the performance of each model based on phenotypes using five-fold cross-validation, the ridge regression model showed the highest accuracy (r 2 = 0.6422–0.7266) in all skin traits. Therefore, the optimal solution for personal skin diagnosis using GWAS was with the ridge regression model. Conclusion The proposed facial phenotype prediction model in this study provided the optimal solution for accurately predicting the skin condition of an individual by identifying genotype information of target characteristics and machine-learning methods. This model has potential utility for the development of customized cosmetics.

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Mass Customized Design of Cosmetic Masks Using Three-Dimensional Parametric Human Face Models Constructed From Anthropometric Data

Cited by 7 publications

References 22 publications

Recognition and the development potential of mobile shopping of customized cosmetic on untact coronavirus disease 2019 period: Focused on 40's to 60's women in Seoul, Republic of Korea

Recognition and the development potential of mobile shopping of customized cosmetic on untact coronavirus disease 2019 period: Focused on 40's to 60's women in Seoul, Republic of Korea

Applying Noncontact Sensing Technology in the Customized Product Design of Smart Clothes Based on Anthropometry

A Genome-Wide Association Study and Machine-Learning Algorithm Analysis on the Prediction of Facial Phenotypes by Genotypes in Korean Women

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