The disclosure provides conspicuity devices and methods. A first embodiment includes a glove with at least one elongate lighting device adapted and configured to admit light having an advantageous spectral energy distribution. Additional articles of clothing are provided herein for enhanced conspicuity, such as for emergency workers and athletes.

Systems and methods for integrating and using sensor system in articles of apparel are provided. The system may include an apparel piece sized and dimensioned to be worn on a user and a sensor system integrated with the apparel piece. The sensor system may include at least one stretchable capacitive sensor positioned on the apparel piece so as to measure a biometric parameter of the user when the apparel piece is worn, an illumination system configured to provide illumination in a specified illumination area based on the measured biometric parameter of the user, and a control module to control one or more settings of the illumination system.

Systems and methods for integrating and using sensor system in articles of apparel are provided. The system may include an apparel piece sized and dimensioned to be worn on a user and a sensor system integrated with the apparel piece. The sensor system may include at least one stretchable capacitive sensor positioned on the apparel piece so as to measure a biometric parameter of the user when the apparel piece is worn, an illumination system configured to provide illumination in a specified illumination area based on the measured biometric parameter of the user, and a control module to control one or more settings of the illumination system.

LED Light Up Pants/Leggings for night.

The present invention relates to a fabric containing a modacrylic fiber A and a cellulosic fiber, wherein the modacrylic fiber A contains an infrared absorber inside the fiber, and the fabric is dyed with at least a yellow cationic dye, a yellow reactive dye, and a yellow disperse dye. The fabric can be produced by dyeing a fabric containing a modacrylic fiber A and a cellulosic fiber with a cationic dye, a reactive dye, and a disperse dye to exhibit a fluorescent yellow color. Accordingly, it is possible to provide a fabric with excellent arc resistance and visibility, a method for producing the same, and a clothing item using the same.

A breathable, high-visibility garment comprising an apertured fabric and a non-occlusive, unsupported, retroreflective laminate that is adhesively bonded to an outer major surface of at least one region of the apertured fabric.

A breathable, high-visibility garment comprising an apertured fabric and a non-occlusive, unsupported, retroreflective laminate that is adhesively bonded to an outer major surface of at least one region of the apertured fabric.

A safety-monitoring garment system is used to thoroughly monitor the health and performance of a user. The system includes a garment, at least one health-monitoring sensor, at least one performance-tracking sensor, a microcontroller, a user controller, and a portable power source. The garment is preferably a jacket for the user. The at least one health-monitoring sensor continuously monitors the vitals of the user, and the at least one performance-tracking sensor monitors the performance status of the user. The microcontroller stores, analyzes, and delivers the data from the at least one health-monitoring sensor and the at least one performance-tracking sensor to an external computing device. The user controller manages the at least one health-monitoring sensor and the at least one performance-tracking sensor. The portable power source provides the necessary power for the at least one health-monitoring sensor, the at least one performance-tracking sensor, the microcontroller, and the user controller.

A safety-monitoring garment system is used to thoroughly monitor the health and performance of a user. The system includes a garment, at least one health-monitoring sensor, at least one performance-tracking sensor, a microcontroller, a user controller, and a portable power source. The garment is preferably a jacket for the user. The at least one health-monitoring sensor continuously monitors the vitals of the user, and the at least one performance-tracking sensor monitors the performance status of the user. The microcontroller stores, analyzes, and delivers the data from the at least one health-monitoring sensor and the at least one performance-tracking sensor to an external computing device. The user controller manages the at least one health-monitoring sensor and the at least one performance-tracking sensor. The portable power source provides the necessary power for the at least one health-monitoring sensor, the at least one performance-tracking sensor, the microcontroller, and the user controller.

One or more aspects of the present disclosure are directed to components having an optical element that imparts structural color to the component or article. The present disclosure is also directed to articles of manufacture including the component having an optical element, and methods for making components and articles having an optical element that imparts structural color.