AIMC Topic: Textiles

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Multimodal Wearable Sensing for Biomechanics and Biomolecules Enabled by the M-MPM/VCFs@Ag Interface with Machine Learning Pipeline.

ACS sensors Jun 6, 2025
The addition sensing device of sweat to wearable biostress sensors would eliminate the need for using multiple gadgets for healthcare analysis. Due to the distinct package fashion of sensor interface for biostress and biomolecule, achieving permeabil...
Wearable Electronic Devices Biosensing Techniques Silver Machine Learning Biomarkers Biomechanical Phenomena Lactic Acid Membranes, Artificial Sweat Textiles Porosity Uric Acid Humans Glucose
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Patent value prediction in biomedical textiles: A method based on a fusion of machine learning models.

PloS one Apr 24, 2025
Patent value prediction is essential for technology innovation management. This study aims to enhance technology innovation management in the field of biomedical textiles by processing complex biomedical patent information to improve the accuracy of ...
Humans Textiles Machine Learning Patents as Topic
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Fabric integrated wearable glove with a twisted string actuator for manual handling tasks.

Scientific reports Apr 16, 2025
Wearable robotic gloves with grip-assistive functionality offer a promising solution for high-intensity manual tasks. However, achieving a balance among lightweight design, adequate force generation, and dexterous hand movement in wearable robotic gl...
Hand Strength Robotics Equipment Design Hand Textiles Adult Humans Male Female Wearable Electronic Devices Young Adult
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A deep learning-enabled smart garment for accurate and versatile monitoring of sleep conditions in daily life.

Proceedings of the National Academy of Sciences of the United States of America Feb 11, 2025
In wearable smart systems, continuous monitoring and accurate classification of different sleep-related conditions are critical for enhancing sleep quality and preventing sleep-related chronic conditions. However, the requirements for device-skin cou...
Textiles Monitoring, Physiologic Sleep Clothing Humans Female Adult Male Deep Learning Wearable Electronic Devices
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Machine learning-assisted prediction of engineered carbon systems' capacity to treat textile dyeing wastewater via adsorption technology.

Environmental monitoring and assessment Feb 1, 2025
Dyes are widely used in industries like printing, cosmetics, paper, leather processing, textiles, and manufacturing to add color to products. However, improper disposal of dyes into wastewater has raised major concerns due to their harmful effects on...
Machine Learning Wastewater Carbon Coloring Agents Textiles Textile Industry Waste Disposal, Fluid Water Pollutants, Chemical Adsorption
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Intelligent Thermochromic Heating E-Textile for Personalized Temperature Control in Healthcare.

ACS applied materials & interfaces Jan 8, 2025
Heating electronic textiles (e-textiles) are widely used for thermal comfort and energy conservation, but prolonged heating raises concerns about heat-related illnesses, especially in the elderly. Despite advancements, achieving universal user satisf...
Heating Hot Temperature Textiles Artificial Intelligence Temperature Wearable Electronic Devices Humans
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Alternative assessment of machine learning to polynomial regression in response surface methodology for predicting decolorization efficiency in textile wastewater treatment.

Chemosphere Dec 20, 2024
This study investigated the potential of machine learning (ML) as a substitute for polynomial regression in conventional response surface methodology (RSM) for decolorizing textile wastewater via a UV/HO process. While polynomial regression offers li...
Textiles Textile Industry Regression Analysis Color Ultraviolet Rays Wastewater Waste Disposal, Fluid Machine Learning Hydrogen Peroxide Water Pollutants, Chemical
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Haptiknit: Distributed stiffness knitting for wearable haptics.

Science robotics Dec 18, 2024
Haptic devices typically rely on rigid actuators and bulky power supply systems, limiting wearability. Soft materials improve comfort, but careful distribution of stiffness is required to ground actuation forces and enable load transfer to the skin. ...
Female Young Adult Adult Male Wearable Electronic Devices Gestures Humans Forearm User-Computer Interface Touch Perception Vibration Robotics Touch Textiles Equipment Design
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Active Fabrics With Controllable Stiffness for Robotic Assistive Interfaces.

Advanced materials (Deerfield Beach, Fla.) Jun 6, 2024
Assistive interfaces enable collaborative interactions between humans and robots. In contrast to traditional rigid devices, conformable fabrics with tunable mechanical properties have emerged as compelling alternatives. However, existing assistive fa...
Wearable Electronic Devices Robotics Equipment Design Mechanical Phenomena Humans Textiles
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3D printed PEDOT:PSS-based conducting and patternable eutectogel electrodes for machine learning on textiles.

Biomaterials May 24, 2024
The proliferation of medical wearables necessitates the development of novel electrodes for cutaneous electrophysiology. In this work, poly(3,4-ethylenedioxythiophene) polystyrene sulfonate (PEDOT:PSS) is combined with a deep eutectic solvent (DES) a...
Polyethylene Glycols Electric Conductivity Printing, Three-Dimensional Electrodes Textiles Biocompatible Materials Polymers Humans Polystyrenes Gels Electromyography Machine Learning Bridged Bicyclo Compounds, Heterocyclic Wearable Electronic Devices
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