A display and operating device for a textile machine includes a touchscreen that displays a first main operating mask and of a second main operating mask, both of which present a plurality of retrievable information masks and input masks for operating the textile machine. The first main operating mask includes a machine visualization field that displays a simplified visualization of the textile machine and at least one shortcut operating button related to an operational task to be carried out by an operator on the textile machine. The first main operating mask also includes a first toggle button for accessing and presenting the second main operating mask. The second main operating mask includes a display of an overview of selectable submenus by means of which machine settings of the textile machine are set or changed, and additional information is retrievable.

Systems and methods for manufacturing a garment, include: (a) receiving garment design input data for a garment design including data representing a first textile structural unit at a first location in the garment design and data representing a second textile structural unit at a second location in the garment design; (b) generating a textile production machine instruction data set based on the garment design input data; (c) forming a first garment using a first textile production machine to include the first textile structural unit at a first location in the first garment and the second textile structural unit at a second location in the first garment; (d) creating revised garment design input data for the garment design based on the first garment created in the forming step; (e) generating revised textile production machine instruction data set based on the revised garment design input data; and (f) forming a second garment using a textile production machine and the revised garment design input data including the changes to the garment design.

A method is disclosed and includes determining at least one of a height field and an orientation field of a fiber-reinforced structure. The fiber-reinforced structure includes a plurality of fiber portions and a polymer matrix. The method includes generating a reaction-diffusion representation of the fiber-reinforced structure. The reaction-diffusion representation indicates a concentration of at least one of the polymer matrix and the plurality of fiber portions. The method includes designating a reference fiber deposition path based on the reaction-diffusion representation. The method includes generating a continuous fiber deposition path based on the reference fiber deposition path. The method includes transmitting a signal representing the continuous fiber deposition path to a deposition device, the deposition device using the continuous fiber deposition path to deposit a fiber of the fiber-reinforced structure.

An allograft optimization system utilizes an optical system to determine the outer perimeter of a tissue blank for allograft cutting therefrom. The optical system determines an optimal allograft array pattern that can be derived from the irregular tissue blank and may include a plurality of various allograft shapes and sizes. A computer operates an allograft optimization computer program that receives input regarding the outer perimeter of the tissue blank. A cutting implement, such as a laser, is configured to cut the allografts from the irregularly shaped tissue blank according the allograft array pattern. The cutting implement is automatically actuated by an actuator with respect to the tissue blank to cut the allografts therefrom. The cutting implement may be a laser or a galvo laser that is directed by one or more mirrors. The tissue may be birth tissue including placental tissue and amnion.

Systems, methods, storage media, and computing platforms for on demand garment manufacture. An order controller can receive an order specification to manufacture a garment. A selector can select the fabric based on the order specification. A pre-treatment can pretreat the fabric with an aqueous solution. A dryer can dry the fabric. A loader can align fabric with an indicator. A sensor coupled to the loader can obtain an alignment of the fabric on the loader. A heat press can apply a design on the fabric. A printer can print a second design on the fabric in the loader based on the order specification. A quality controller can scan the design. The quality controller can generate, based on scanning the design, a quality comparison between the design and predetermined parameters. The quality controller can route, based on the quality comparison, the fabric to a shipper or an order controller.

A portable textile treatment device includes a heatable soleplate for contacting and treating the textile, an image sensor and an illumination system. The image sensor has an active surface sensitive and takes an image of the textile, and the illumination system has a light source that illuminates a portion of the textile when the image is being taken. The portable device also includes a control unit configured to execute an algorithm stored in the portable device for obtaining a classification of the textile based on taken image, and based on the classification for controlling at least one operating parameter of the portable textile treatment device. The image sensor and/or light source are oriented with respect to the surface of the heatable soleplate, with an absolute value of an orientation angle being in the range from 15 to 70° C.

Systems and methods for designing, fabricating, selecting, evaluating and/or improving therapeutic compression garments for patients or individuals using compression garments.

Systems and methods are described for managing articles. The systems and methods described herein may comprise an example method for manufacturing an article. The systems and methods described herein may comprise an example method for cutting and registration of an article. The systems and methods provides an end-to-end manufacturing value chain as a closed system and feedback loop.

Methods and systems are provided to generate a base digital file for a garment, which may be used in garment production. For example, a system may receive a library from a data source and generate a base digital file for the garment. The base digital file may include a garment identifier, a panel object associated with a panel identifier and references to garment information in the library, and a seam object representing a seam that forms a portion of the garment.

The present invention relates generally to a Cloud real-time textile intelligent production information management monitoring and prewarning integrated system, which comprises a sensing device, a communication system, a server, a central information integration system and an end device. The sensing device is installed on textile automation equipments to sense the real-time state information of the textile automation equipments and connected to the communication system, and the communication system sends the real-time state information to the server, it is connected to the central information integration system, so that the real-time status can be monitored at any time to check whether it exceeds the set value to give a warning message which is displayed on the end device, forming a Cloud real-time textile intelligent production information management monitoring and prewarning integrated system for real-time monitoring of overall manufacturing process of mills, increasing the manufacturing efficiency and reducing losses greatly.