Dress heat comfortable degree exhibiting system for teaching

Abstract

The invention discloses a clothing thermal comfort degree displaying system for teaching use and belongs to the functional clothing CAD technique field of the computer simulation research field. The system comprises a self-defining database module, a virtual environment design module and a system general frame module, wherein firstly the virtual environment design module uses 3D real geometry module to form virtual scenes and simultaneously uses 2D cartoon technique as complementation; then the simulation scenes and simulation results data are stored in the database and users can configure main simulation scenes data; finally a real-time clothing thermal function display is processed according to the relative determined real simulation results data. The invention provides a semi-real-time simulation system frame based on the system for teaching display of clothing thermal function design. Through optimization and sampling on the simulation parameters, users can transfer and correct the parameters by a direct type to realize simulation of the simulating process.

Description

the structure of the environmentally friendly knitted fabric provided by the present invention; figure 2 Flow chart of the yarn wrapping machine for environmentally friendly knitted fabrics and storage devices; image 3 Is the parameter map of the yarn covering machine

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AI Technical Summary

Benefits of technology

In this patented technology, there exist various ways to simulate different types of heating or cooling systems on clothes like winter jackets made from materials such as polyester fiber fabrics. These simulations help scientists better understand how these garments work well during warm weather conditions without being too complicated or confusing about their properties. They allow them to create realistic experiences through simulated environments where they may experience temperature changes over time. Additionally, some existing methods have been developed to predict comfortable temperatures based upon factors like body weight, muscle activity, etc., but current methods only consider certain aspects at once (such as skin surface area). Overall, these technologies improve the quality control and usability of clothings used in fashion industries.

Problems solved by technology

Technological Problem: Current simulations environments have limitations with enabling high levels of interactivity while reducing overall system size and requiring long periods of computation times due to its intrinsic complexity. Additionally, current methods require expertise from skilled operators who cannot easily modify them during practice sessions.

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