Abstract
The paper proposes an approach to the description of the characteristics of smart clothing, which integrates with modern electronic devices and information technology. Electronic devices built into clothes help to interact with other people, with the environment, quickly find out information about your own body, measure physiological parameters. It is proposed to model a set of smart clothing as a thin flexible inextensible multilayer shell with built-in electronic devices. To design a package of "smart clothing", it is necessary to develop "smart fabrics", the creation of which requires new flexible materials for the production of electronic circuits on flexible boards, the creation of a topology of conductive threads woven into the fabric and connecting electronic devices. An approach is proposed for determining the porosity of "smart fabric" in terms of its reliability and operational safety. A model of a package of "smart clothing" based on flexible printed circuit boards, electrically conductive structures and "tencel" fabric produced using nanotechnology is proposed.