6 research outputs found
Exploring dynamic lighting, colour and form with smart textiles
This paper addresses an ongoing research, aiming at the development of smart
textiles that transform the incident light that passes through them – light transmittance – to
design dynamic light without acting upon the light source. A colour and shape change
prototype was developed with the objective of studying textile changes in time; to explore
temperature as a dynamic variable through electrical activation of the smart materials and
conductive threads integrated in the textile substrate; and to analyse the relation between textile
chromic and morphologic behaviour in interaction with light. Based on the experiments
conducted, results have highlighted some considerations of the dynamic parameters involved in
the behaviour of thermo-responsive textiles and demonstrated design possibilities to create
interactive lighting scenarios.This work is supported by FEDER funds through the Operational Programme for Competitiveness Factors – COMPETE and National Funds through FCT – Foundation for Science and Technology within the scope of the projects SFRH/BD/87196/2012, POCI-01-0145-FEDER-007136 and UID/CTM/00264. The authors also like to acknowledge Smart Textiles Design Lab for the support on the prototype development.info:eu-repo/semantics/publishedVersio
Элементы и устройства систем управления
Даны общие принципы выбора и проектирования электромагнитных устройств, применяемых в системах управления. Приведены данные о серийно выпускаемых элементах, таких, как ферромагнитные сердечники и асинхронные двигатели.
Для студентов специальности 1-53 01 07 «Информационные технологии и управление в технических системах»
Engaging with Sense of Smell through Textile Interactions
This research paper discusses dimension of smell for designing spatial interactions through textiles. The focus in these design examples is combining the sense of touch to actuate the smells. Sense of touch is explored in terms of different tactile sensations that include pressing, rubbing and movement of the body. Through these tactile interactions smells embedded in the textile objects are released. The temporal textile expressions of smells open up for further investigations for designing spaces, as these design examples bring forward the olfactory expressions and proposes frameworks for future research in potential human-computer interactions through our everyday objects and surroundings. The proposal of textile interactions that engage sense of smell and create slow interactions with objects and situations from our daily lives opens up the opportunity to encourage more social interactions within the physical world. These interactions will include computational things, however, in a discreet manner, helping build deep bonds between human to human and human to environment