Applied 3D Virtual Try-on for Bodies with Atypical Characteristics

Olaru, Serban; Emilia, Filipescu; Manuela, Avădanei; Alexandra, Mocenco; Georgeta, Popescu; Săliștean, Adrian

doi:10.1016/j.proeng.2015.01.419

Cited by 5 publications

(8 citation statements)

References 7 publications

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“…For clothing retailers, virtual fitting has become a favorite technology for investment. To replace actual fitting, virtual fitting simulation must illustrate silhouette, detail sizes, fits, ease, realistic fabric folds/drapes, and fabric color/texture that looks the same as the actual sample [7,9]. For example, Dongdaemun provides stores sponsored by Seoul with a virtual fitting service of producing clothes from virtual clothes designed by customers using 3D technology within 24 hours.…”

Section: B Virtual Fitting In the Design Chainmentioning

confidence: 99%

“…Most previous studies on virtual fitting or virtual try-on (VTO) have focused on technology [5,6,7], the effects and effectiveness [8,9,10,11], and consumer behavior [12,13,14]. These were either studied on its technology in design chain from the point of view of making clothes, or studies on effects and behavior from the point of view of customers.…”

Section: Introductionmentioning

confidence: 99%

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Effects of 3D Virtual “Try-On” on Online Sales and Customers’ Purchasing Experiences

et al. 2020

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The advancement of the Internet and technology has made it possible to purchase and use different types of products and services online instead of offline. In particular, as the scale of online shopping malls is rapidly increasing, new functions have been tried and introduced to compensate for the limitation of not being able to directly wear clothes in an online mall. Among them, 3D virtual try-on is an innovative service and its technology is being advanced with continuous interest. Technological advances and interest in 3D virtual try-on have led to a variety of related studies. Most previous studies on virtual try-on have been conducted on the virtual fitting technology from the perspective of making clothes, or the effects and customer behavior from the customer perspective. However, there has been no research based on actual data of customers using 3D virtual try-on to show how virtual try-on affects sales. Therefore, this study understands the fundamental meaning of virtual 'try-on' as a customer experience and examines the effects of 3D virtual try-on on online sales. We create a 3D body model complemented by adding more diverse body shapes and sizes, and investigate the effects of virtual try-on on online sales through actual data. In addition, qualitative data including interviews are used to complement and interpret the results. The results show that virtual tryon affects the sales results: the average sales per customer increased by 14,000 won (13USD). The most important finding is that the return rate decreased by 27% by filtering out incorrect sizes and fits. Virtual tryon may very well replace physical fitting rooms. This study presents an advanced technology of 3D virtual try-on and shows that virtual try-on is an effective tool to boost sales and decrease customer's returns in a case study of women's casual L brand. INDEX TERMS virtual try-on (VTO), 3D clothes digitization, customized body, customer experience, online sales

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Section: B Virtual Fitting In the Design Chainmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Effects of 3D Virtual “Try-On” on Online Sales and Customers’ Purchasing Experiences

et al. 2020

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“…An approach to using 3D virtual modeling for an individual body shape is reported in paper [14]. The authors defined a basis for design patterns in a part contour's structural points in order to improve the functional properties of trousers.…”

Section: Literature Review and Problem Statementmentioning

confidence: 99%

“…The main indicators of the functional properties of trousers, which were determined in our experiment, were the following [14]: size-based attributes (T), basic structural points (BSP) of structural segments (SS), variance in coordinates: gradation (D), gains (Δх, Δу).…”

Section: Procedures For Determining the Indicators Of Func Tional Properties Of The Structural Zones Of Trousersmentioning

confidence: 99%

“…1) on gender and size-based attributes in the grid of anthropometric planes, which is described by the set of size-based attributes, SAs. The morphological field of SA defines boundaries between the structural zones, SZs, for the specified design category (a type of design with three structural holes: 1 -waist, 2 -lower limbs) [14,18]. Based on the functionality attributes, three groups of structural elements were identified in the design construction:…”

Section: Analytical Substantiation Of the Morphological Field Of Structural Zones In The Design Of Trousersmentioning

confidence: 99%

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Simulation model of the morphological field of data for constructing a universal design of trousers

Slavinska

Syrotenko

Dombrovska

et al. 2020

EEJET

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Проведеними дослідженнями впливу бази даних на процеси формування універсальної конструкції встановлено механізм інтерактивного застосування кластерів розмірних ознак. Доведено, що типологічний ряд конструктивного розміру характеризує умовну типову фігуру молодіжного типу. Завдяки цьому стало можливим визначення рухомості конструктивних зон відповідно до морфологічних особливостей будови тіла на стадіях побудови основи конструкції. Експериментальними дослідженнями підтверджено, що межі функціональних ділянок у групуванні конструктивних зон підпорядковані мінливості приростів основних конструктивних точок. Це призводить до поліваріантності контурів тазової ділянки для формування властивостей співрозмірності штанів. Зокрема, встановлено, що завдяки ідентифікації подібності конструкцій за коефіцієнтом масштабування, адекватність бази даних підвищується шляхом координації інформаційної бази для побудови конструктивних зон. Це дозволяє стверджувати про достовірність механізму формування кластерів антропометричної бази даних та практичну привабливість запропонованої технології інтерактивного конструювання. Показано, що дисперсія приростів забезпечує деконструкцію замкненого контуру деталі в точках зміни функціональних ділянок, що є перевагами дослідження. Показано перспективність розширення діапазону морфологічних типів за віковою ознакою біодинаміки функціональних рухів. Таким чином, є підстави стверджувати про можливість спрямованого регулювання процесів формування універсальної конструкції шляхом використання комплексної бази даних, яка поєднує кластери розмірних ознак, приростів і номенклатуру конструктивних зон Ключові слова: кластер, розмірні ознаки, універсальна конструкція, конструктивні зони, прирости, морфологічне поле

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Objective analysis of the drape behaviour of virtual shirt, part 1: avatar morphing and virtual stitching

Sayem

2016

International Journal of Fashion Design, Technology and Educati

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This research addresses an objective approach to analysing the drape behaviour of virtual shirts with varying eases at the chest area and two different lengths. A set of bodyscan data was utilised to identify body measurements of M-sized British men for the purpose of pattern drafting as well as for avatar morphing within 3D CAD systems. Two different sets of pattern pieces (each set comprising 31 pairs of front and back panels with varying ease from 0.0 to 15 cm at the chest area at an interval of 0.5 cm) of sleeve-less men's shirt were drafted using a clothing CAD system. Size and shape of virtual avatars in two CAD systems were adjusted according to the anthropometry of M-sized British men before simulating pattern pieces on to them utilising the fabric parameters derived from the FAST system. This facilitated the objective analysis of the virtual drape of the simulated shirts with varying ease at the chest girth using three technical parameters namely tension, stretch and pressure. The results and findings will be presented later in part 2 of this paper.

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Applied 3D Virtual Try-on for Bodies with Atypical Characteristics

Cited by 5 publications

References 7 publications

Effects of 3D Virtual “Try-On” on Online Sales and Customers’ Purchasing Experiences

Effects of 3D Virtual “Try-On” on Online Sales and Customers’ Purchasing Experiences

Simulation model of the morphological field of data for constructing a universal design of trousers

Objective analysis of the drape behaviour of virtual shirt, part 1: avatar morphing and virtual stitching

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