The purpose of this study was to explore physical limitations and clothing problems among working women with physical disabilities to determine whether types of physical limitations are linked to specific clothing problems. The sample included 117 working women with a variety of disabilities. Principle Components Factor Analysis and Multiple Regression were used to analyze the data. Three distinct factors emerged to represent clothing problems (called Design, Materials Performance, and Dressing) and four distinct factors emerged to represent physical limitations (called Limbs/Outer Extremities, Central Core/Torso, Central Nervous System, and Intellect, Vision and Hearing). Regression analysis showed that the physical limitations impact each of the three clothing factors. The study extends research by focusing on an underserved market segment and providing the apparel industry with a potential method of addressing the needs of that market. The study also contributes to interdisciplinary research by further developing an Inclusive Design model for apparel product development.
Women continue to be underrepresented in science,
technology, engineering, and math (STEM). Gender
discrimination and gender bias reinforce cultural stereotypes
about women and their ability to perform in male-dominated
STEM fields. Greater policy intervention can bolster national
response to gender-based harassment and discrimination.
There are four major efforts that individual institutions, local
governments, and the federal government can support to
combat gender discrimination in STEM: (1) invest in early
education initiatives for increasing female representation,
(2) institute stronger state and federal policies around
gender discrimination, (3) foster workplace practices that
promote diversity, and (4) develop better quantification and
metrics for assessing gender discrimination to enact more
meaningful policies.
Purpose
– This research investigated the feasibility of using an inductively coupled antenna as the basis of applying a systems approach to smart clothing. In order to simulate real-life situations, the impact of the distortions and relative displacement of different fabric layers (with affixed antennas) on the signal quality was assessed. The paper aims to discuss these issues.
Design/methodology/approach
– A spiral antenna was printed on different fabric substrates. Obstructive conditions of the inductively coupled fabric layers were investigated to find out how much influence these conditions had on transmission performance. Reflected signals and transmitted signals were observed, while fabric antennas were subjected to displacement (distance and dislocation) or deformation (stretching and bending). The threshold of physical obstacles was estimated based on statistical analyses.
Findings
– The limits of physical conditions that enable proper wireless transmission were estimated up to ∼2 cm for both distance and dislocation, and ∼0.24 K for bending deformation. The antenna performance remained within an acceptable level of 20 percent transmission up to 10 percent fabric stretch. Based on well-established performance metrics used in clothing environment on the body, which employs 2-5 cm of ease, the results imply that the inductively coupled antennas may be suitable for use in smart clothing.
Originality/value
– This research demonstrates that the use of inductively coupled antennas on multiple clothing layers could offer the basis of a new “wireless” system approach to smart clothing. This would not only result in performance benefits, but would also significantly improve the aesthetics of smart clothing which should result in new markets for such products.
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