In an example, a method includes operating, by a processor, on object model data and operating, on a processor, on pattern data. The object model data describes at least part of an object to be generated in additive manufacturing and the pattern data describes an object pattern intended to be formed on at least a portion of the part of the object to be generated in additive manufacturing. The method includes determining, by a processor, control data to control a print agent applicator to apply a pattern of fusing agent onto a part of a layer of build material. The pattern of fusing agent comprises a fusing agent area and a gap area that lacks fusing agent. The gap area corresponds to the object pattern such that no fusing agent is applied to a part of the layer of build material that corresponds to the object pattern.

A production system includes a production machine and a control device for generating a control command for the production machine based on production data. The control device includes an analysis apparatus to decide based on a prespecified quality criterion, whether an activated functionality, which is integrated in the control device, or an alternative functionality, which is provided in a database outside the control device or in unactivated form in the control device, is used to translate the production data into the specific control command, so that the control command which is output by the control device is replaced by a control command more suitable to satisfy the prespecified quality criterion. The control device is configured to save a control file for the alternative functionality, to provide the control file for a translation, and to provide the alternative functionality for a prespecified period and/or for a predetermined number of useful cycles.

A system allows a user to create new designs for apparel and preview these designs before manufacture. Software and lasers are used in finishing apparel to produce a desired wear pattern or other design. The system swaps garments in a digital asset to garments that are designed using the system. The wear pattern is created by a laser using a laser input file. Generating the preview image comprises combining first and second contributions to obtain a combined value for a pixel at the pixel location of the preview image.

A system allows a user to create new designs for apparel and preview these designs before manufacture. Software and lasers are used in finishing apparel to produce a desired wear pattern or other design. The user's preview may be based upon a two-dimensional image of a wear pattern in a laser input file and, from a set of two-dimensional images of a base garment, create a three-dimensional view of the base garment with the wear pattern.

A computing device is configured to receive information representing an electronic drawing. The information is processed to locate and access the electronic drawing. Moreover, a template configuration file is accessed that corresponds with a category of the electronic drawing. Using the template configuration file, the at least one computing device can generate an item specification that includes information representing items to be reviewed for compliance with at least one rule. For each respective one of the items in the item specification, the respective item is determined to be present in the electronic drawing and complies with at least one rule identified in the template configuration file. Further, information is generated representing whether the respective item is present in the electronic drawing and complies with at least one rule identified in the template configuration file. The generated information is transmitted to at least one computing device.

In a system of manufacturing an orthodontic wire, a method for manufacturing the orthodontic wire using the system, and an orthodontic wire bending machine for performing the system, the system includes a teeth data obtaining part, a simulating part, a calculating part and a wire manufacturing part. The teeth data obtaining part obtains present teeth data of a patient. The simulating part generates final teeth data. The calculating part compares a predetermined threshold to a compared value between the present teeth data of the patient and the final teeth data. The wire manufacturing part selectively manufactures a wire for an orthodontic process or a wire for a dentition maintenance process based on a compared result of the calculating part.

A system automatically generates apparel collection imagery from user-provided imagery. The user-provided imagery includes images of people wearing one or more garments. The system uses segmenting analysis to analyze the user-provided image to identify locations of the garment. From the locations of the garments, the system can determine which garments from an apparel collection can be used to replace those in the user-provided imagery. The system uses pose estimation on the user-provided imagery and modifies a preview image of a replacement garment from the collection. This modified replacement garment image is used to replace the garment in the user-provided imagery.

A method of obtaining three-dimensional data includes: obtaining three-dimensional reference data with respect to an object; aligning, on the three-dimensional reference data, a first frame obtained by scanning a first region of the object; aligning, on the three-dimensional reference data, a second frame obtained by scanning a second region of the object, at least a portion of the second region overlapping the first region; and obtaining the three-dimensional data by merging the first frame with the second frame based on an overlapping portion between the first region and the second region.

The present invention features a computer-implemented method of planning a processing path relative to a three-dimensional workpiece for a plasma arc cutting system coupled to a robotic arm. The method includes receiving input data from a user comprising (i) Computer-Aided Design (CAD) data for specifying a desired part to be processed from the three-dimensional workpiece, and (ii) one or more desired parameters for operating the plasma arc cutting system. A plurality of features of the desired part to be formed on the three-dimensional workpiece are identified based on the CAD data. The method also includes dynamically filtering a library of cut charts based on the plurality of features and the desired operating parameters to determine a recommended cut chart for processing the plurality of features. The method further includes generating the processing path based on the recommended cut chart and the plurality of features to be formed.

A mounting state informing apparatus includes a database, an acquisition unit, a first specifying unit, a comparison unit and an output unit. The database stores information upon a mounting position and a direction of each of multiple components belonging to a processing apparatus. The acquisition unit acquires first appearance data, which is obtained by a 3D scanner, indicating a state of an appearance of the processing apparatus. The first specifying unit identifies the multiple components based on the first appearance data and specifies a mounting position and a direction of each of the identified components. The comparison unit compares the specified mounting position and the specified direction of each of the identified components with the information upon the mounting position and the direction stored in the database. The output unit is configured to output a comparison result obtained by the comparison unit.