WITHDRAWN: 3D Printing clothing design based on wireless sensors and FPGA

Wang, Siyi

doi:10.1016/j.micpro.2020.103407

Cited by 6 publications

(3 citation statements)

References 8 publications

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“…In order to strengthen the attractiveness of clothing to customers and thus increase sales, it is necessary to make designs for clothing that can attract customers. Usually, the basic structure of clothing is unchanged, so the innovative design of clothing usually starts from the textured pattern and color matching on the clothing plane [7]. When designing the textured pattern and color matching on the clothing plane, materials are often collected from reality, and then features are extracted from the materials and combined.…”

Section: Traditional Evaluation Methods For Clothing Designmentioning

confidence: 99%

Evaluation of innovative design of clothing image elements using image processing

Nie¹

2022

IJCAI

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Excellent design of clothing image elements can enhance the attractiveness of clothing to customers. This paper used image processing technology to extract texture and color features for innovative designs of clothing image elements and used the convolutional neural network (CNN) model to evaluate some designs. The CNN model was compared with the back-propagation neural network (BPNN) model in the example analysis, and three designs were evaluated. The results showed that the image processing-based CNN model had good evaluation performance and obtained evaluation results closer to the manual evaluation results than the BPNN model. The evaluation results of the three designs also showed that all three designs achieved innovative design through effectively combining multiple image elements.Povzetek: V članku je opisan nov način snovanja oblačil s pomočjo konvolucijske nevronske mreže.

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Section: Traditional Evaluation Methods For Clothing Designmentioning

confidence: 99%

Evaluation of innovative design of clothing image elements using image processing

Nie¹

2022

IJCAI

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“…Then, circuits containing these types of printed thermistors can be combined in a hybrid system with wireless data transmission protocols [140]. According to the manufacturers of these types of flexible thermistors, the sensors developed provide measurement accuracy ranging from ±0.1 to ±0.25 • C. While providing a very low response time of 100 to 250 ms, these flexible temperature sensors have the advantage of operating with low working powers in the nano or micro watt range.…”

Section: Commercial Textile With Temperature Sensorsmentioning

confidence: 99%

Advanced Functional Materials for Intelligent Thermoregulation in Personal Protective Equipment

et al. 2021

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The exposure to extreme temperatures in workplaces involves physical hazards for workers. A poorly acclimated worker may have lower performance and vigilance and therefore may be more exposed to accidents and injuries. Due to the incompatibility of the existing standards implemented in some workplaces and the lack of thermoregulation in many types of protective equipment that are commonly fabricated using various types of polymeric materials, thermal stress remains one of the most frequent physical hazards in many work sectors. However, many of these problems can be overcome with the use of smart textile technologies that enable intelligent thermoregulation in personal protective equipment. Being based on conductive and functional polymeric materials, smart textiles can detect many external stimuli and react to them. Interconnected sensors and actuators that interact and react to existing risks can provide the wearer with increased safety, protection, and comfort. Thus, the skills of smart protective equipment can contribute to the reduction of errors and the number and severity of accidents in the workplace and thus promote improved performance, efficiency, and productivity. This review provides an overview and opinions of authors on the current state of knowledge on these types of technologies by reviewing and discussing the state of the art of commercially available systems and the advances made in previous research works.

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“…Circuits containing these types of printed thermistors can then be combined in a hybrid system with wireless data transmission protocols [121]. According to the manufacturers of these types of flexible thermistors, the sensors developed provide measurement accuracy ranging from ±0.1 to ±0.25°С.…”

Section: Commercial Textile With Temperature Sensorsmentioning

confidence: 99%

Advanced Functional Materials for Intelligent Thermoregulation in Personal Protective Equipment

Saïdi¹,

Gauvin²,

Ladhari³

et al. 2021

Preprint

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The exposure to extreme temperatures in workplaces involves physical hazards for workers. A poorly acclimated worker may have lower performance and vigilance and may therefore be more exposed to accidents and injuries. Due to the incompatibility of the existing standards implemented in some workplaces and the lack of thermoregulation in many protective equipment, thermal stress remains one of the most frequent physical hazards in many work sectors. However, many of these problems can be overcome with the use of smart textile technologies that enable intelligent thermoregulation in personal protective equipment. Smart textiles can detect, react and adapt to many external stimuli. Interconnected sensors and actuators that interact and react to existing risks can provide the wearer with increased safety, protection and comfort. Thus, the skills of smart protective equipment can contribute to the reduction of errors and the number and severity of accidents in the workplace, and thus promote improved performance, efficiency and productivity.This review provides an overview and opinions of authors on the current state of knowledge on these types of technologies by reviewing and discussing the state of the art of commercially available systems and the advances made in previous research works.

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WITHDRAWN: 3D Printing clothing design based on wireless sensors and FPGA

Cited by 6 publications

References 8 publications

Evaluation of innovative design of clothing image elements using image processing

Evaluation of innovative design of clothing image elements using image processing

Advanced Functional Materials for Intelligent Thermoregulation in Personal Protective Equipment

Advanced Functional Materials for Intelligent Thermoregulation in Personal Protective Equipment

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