A Cross-Cultural Study of Consumer Perceptions of Clothing Fit

Many studies and industry initiatives endeavor to provide well-fitted ready-to-wear products (RTW) to consumers. However, consumer perception of clothing fit has not been fully studied. We conducted a simulated fitting room study and a 3D virtual fitting study to investigate consumers\u27 understanding of fit through their fitting practices and their organic language. It was found that both Chinese and American women experienced difficulties in fit evaluation. They lacked knowledge and methods of fit evaluation as well as vocabulary to describe clothing misfit. Therefore, more research is needed in clothing fit evaluation by consumers

Sugar Coated

The design challenge addressed in this outfit was to: “express how you recognize and define truth.” This challenge was made in the context of the recent epidemic of fake news. I researched confirmation bias, selective exposure, and desirability bias, which are all concepts that explain how people only see the truth they want to see, and reject anything that does not conform to what they want to believe. The body is truth. The tightly laced corset that manipulates the body shape and the hoop skirt that creates an exaggerated shape both represent the manipulation of truth. The dress that sits on top of the corset and hoop skirt represents the desire to accept this version of the truth. The purchased fabric has beautiful floral embroidery and sits over the shape of the manipulated truth, creating a simplified, attractive form. The dress is sheer to show that if we choose, we can see into the manipulation and therefore understand its relationship to real truth

Exploring consumption intentions of customized apparel

The online shopping experience promises to become more interactive, creative, and social. Emerging digital technologies in the fashion industry could change the dynamics of online garment purchase and garment consumption by enabling consumers to acquire visual information, interact, co-design, and make more educated purchase decisions (Ashdown & Loker, 2010)

Half-Scale Dress Form as a Design and Fit Tool for Young Designers

For a young designer creating a look for a runway show can be an exciting and challenging process. Working with a model and achieving good fit and balance is often a time consuming and frustrating endeavor for a student with limited experience. Working with seven freshman enrolled in a draping class who had only one previous studio design class, we offered them the opportunity to have a custom half-scale dress form made of their model, allowing them to drape on the actual body they would be fitting

Half Scale, Full Engagement: Uniting Art, History and Technology to Teach Patternmaking

We present a project designed to engage freshman students in a beginning patternmaking class using art deco and pochoir fashion art of the late teens and early 1920s, from Gazette du Bon Ton and Vogue. Students used half scale forms to drape silhouettes depicted in these graphic images. Dress forms were custom-made for the project from a 3D body scan. Students learned about the period and patternmaking techniques by examining garments from the period, looking at patternmaking books and Sears catalogs from the period, and lecture/discussion about world history and fashion history. Students created patterns and display models, pinning to the form. Results were positive, with student improvement in judging proportions, understanding body/garment interactions, and learning alternate patternmaking techniques. Students also gained confidence in patternmaking. Use of the half scale forms was successful overall, though students generally found the increased precision needed when working in half scale more difficult

Estado actual de la técnica y cuestiones perdurables en la recogida de datos antropométricos

The study of human body size and shape has been a topic of research for a very long time. In the past, anthropometry used traditional measuring techniques to record the dimensions of the human body and reported variance in body dimensions as a function of mean and standard deviation. Nowadays, the study of human body dimensions can be carried out more efficiently using three-dimensional body scanners, which can provide large amounts of anthropometric data more quickly than traditional techniques can. This paper presents a description of the broad range of issues related to the collection of anthropometric data using three-dimensional body scanners, including the different types of technologies available and their implications, the standard scanning process needed for effective data collection, and the possible sources of measurement errors that might affect the reliability and validity of the data collected.El estudio del tamaño y la forma del cuerpo humano ha sido un tema de investigación durante un tiempo muy largo. En el pasado, la antropometría utilizó técnicas de medición tradicionales para registrar las dimensiones del cuerpo humano y reportó la variación en las dimensiones del cuerpo en función de la media y la desviación estándar. Hoy en día, el estudio de las dimensiones del cuerpo humano se puede llevar a cabo utilizando maneras más eficientes, como los escáneres tridimensionales del cuerpo, que pueden proporcionar grandes cantidades de datos antropométricos más rápidamente que las técnicas tradicionales. En este trabajo se presenta una descripción de la amplia gama de temas relacionados con la recogida de datos antropométricos utilizando escáneres tridimensionales del cuerpo, incluyendo los diferentes tipos de tecnologías disponibles y sus implicaciones, el proceso de digitalización estándar necesario para la captura efectiva de datos, y las posibles fuentes de los errores de medición que podrán afectar la fiabilidad y validez de los datos recogidos.This work is financed by FEDER funds through the Competitive Factors Operational Program (COMPETE) POCI-01-0145-FEDER-007043 and POCI-01-0145FEDER-007136 and by national funds through FCT – the Portuguese Foundation for Science and Technology, under the projects UID/CEC/00319/2013 and UID/CTM/00264 respectively

Assessment of the intraday variability of anthropometric measurements in the work environment: a pilot study

Central Institute for Labour Protection & National Research Institute (CIOP-PIB) Sitting for long periods of time, both during work and leisure times, is the typical behavior of the modern society. Especially at work, where there is not much flexibility, adopting the sitting posture for the entire day can cause some short-term and long-term effects. As workers’ productivity and well-being relies on working conditions, evaluating the effects caused by work postures assumes a very important role. The purpose of this article was to evaluate the variation of some anthropometric measurements during one typical workday to understand whether the known long-term effects can also be seen and quantified in an 8-h period. Twenty participants were measured before and after work, using traditional anthropometry equipment. The data from the two repetitions were compared using statistical tests. The results showed a slight variation in the anthropometric measurements, some with a tendency to increase over time and others with a tendency to decrease.(undefined

A validation study of a Kinect based Body Imaging (KBI) device system based on ISO 20685:2010

To replace the traditional anthropometric data collection processes with the 3D acquiring system it is important that the validity of the data is not compromised. To do this, a validation study, based on the guideline of ISO 20685, can be performed. This paper presents the results of a comparison between traditional measurements and measurements taken with a 3D acquiring system using only four Kinect sensors. The results obtained were then compared with the maximum allowable error indicated in ISO 20685, concluding that this system cannot give sufficiently reliable data that can substitute the manual procedures.FEDER funds through the Competitive Factors Operational Program (COMPETE) and by national funds through FCT (Portuguese Foundation for Science and Technology) with the projects PEst- C/CTM/U10264 and ID/CEC/00319/201

Map-making in small field modulated CMB polarisation experiments: approximating the maximum-likelihood method

Map-making presents a significant computational challenge to the next generation of kilopixel CMB polarisation experiments. Years worth of time ordered data (TOD) from thousands of detectors will need to be compressed into maps of the T, Q and U Stokes parameters. Fundamental to the science goal of these experiments, the observation of B-modes, is the ability to control noise and systematics. In this paper, we consider an alternative to the maximum-likelihood method, called destriping, where the noise is modelled as a set of discrete offset functions and then subtracted from the time-stream. We compare our destriping code (Descart: the DEStriping CARTographer) to a full maximum-likelihood map-maker, applying them to 200 Monte-Carlo simulations of time-ordered data from a ground based, partial-sky polarisation modulation experiment. In these simulations, the noise is dominated by either detector or atmospheric 1/f noise. Using prior information of the power spectrum of this noise, we produce destriped maps of T, Q and U which are negligibly different from optimal. The method does not filter the signal or bias the E or B-mode power spectra. Depending on the length of the destriping baseline, the method delivers between 5 and 22 times improvement in computation time over the maximum-likelihood algorithm. We find that, for the specific case of single detector maps, it is essential to destripe the atmospheric 1/f in order to detect B-modes, even though the Q and U signals are modulated by a half-wave plate spinning at 5-Hz.Comment: 18 pages, 17 figures, MNRAS accepted v2: content added (inc: table 2), typos correcte