The invention relates to a method for producing objects, in particular motor vehicles, in an industrial production process, wherein a plurality of work processes is coordinated by a process control system, wherein the process control system exchanges data with at least one electronic communication device via a communication path, which electronic communication device is operated autonomously and independently of the process control system, wherein a user can enter data at the electronic communication device, which are then transmitted to the process control system as a change data set, and the process control system coordinates the production process anew on the basis of the received change data. The invention further relates to an installation for producing objects, in particular motor vehicles, to a telecommunication method, and to a computer program.

An on-demand production system for accessories for use with electronic devices is configured to generate digital templates defining the design of the accessories and provide the digital templates to retail or other locations. The retail or other locations may receive access to the digital templates automatically and/or electronically within a week, a day, or even minutes, of the digital template being created. When a customer requests an accessory, the digital template may be accessed. Using an electronic production machine and a supply of stock material, the accessory can be cut, formed, printed, or otherwise produced based on instructions or designs of the digital template. The electronic production machine may automatically read the digital template to automate the production at a retail location. The electronic production machine may produce the accessory on-demand, and production of the accessory may be completed within two hours, or potentially within ten minutes, of a request.

An on-demand production system for accessories for use with electronic devices is configured to generate digital templates defining the design of the accessories and provide the digital templates to retail or other locations. The retail or other locations may receive access to the digital templates automatically and/or electronically within a week, a day, or even minutes, of the digital template being created. When a customer requests an accessory, the digital template may be accessed. Using an electronic production machine and a supply of stock material, the accessory can be cut, formed, printed, or otherwise produced based on instructions or designs of the digital template. The electronic production machine may automatically read the digital template to automate the production at a retail location. The electronic production machine may produce the accessory on-demand, and production of the accessory may be completed within two hours, or potentially within ten minutes, of a request.

One aspect of the technology relates to a method for production of components of a custom structure. A design is electronically received remotely from a client, where the design has a structure having one or more three-dimensional components, and a graphic positioned on the structure. At least one two-dimensional manufacturing drawing is acquired from a database corresponding to each three-dimensional component, where each manufacturing drawing defines a cut location. In response to acquiring the at least one two-dimensional manufacturing drawings, the graphic is mapped to the two-dimensional manufacturing drawing consistently with the position of the graphic on the structure. Each acquired manufacturing drawing and the mapped graphic is electronically sent to a computer numeric control (CNC) cutting system.

Embodiments of the invention are directed to systems, methods, and computer program products for optimizing the manufacture of wooden furniture. The system is configured to receive a user selection of a furniture product; receive a user input associated with the one or more variables for each of the one or more components of the furniture product; generate a furniture plan for the one or more components associated with the at least one of the one or more furniture products; and transmit control signals based on the furniture plan to cause a manufacturing equipment to implement the furniture plan, wherein implementing the furniture plan further comprises manufacturing the one or more components.

Embodiments of the invention are directed to systems, methods, and computer program products for optimizing the manufacture of wooden furniture. The system is configured to receive a user selection of a furniture product; receive a user input associated with the one or more variables for each of the one or more components of the furniture product; generate a furniture plan for the one or more components associated with the at least one of the one or more furniture products; and transmit control signals based on the furniture plan to cause a manufacturing equipment to implement the furniture plan, wherein implementing the furniture plan further comprises manufacturing the one or more components.

A calculation system (1) for manufacturing an ophthalmic lens. A set of calculation modules (M.sub.1, M.sub.2, M.sub.3, M.sub.4) is associated to partial calculation in relation with manufacturing process of said ophthalmic lens. A managing unit (MU) is configured to: receive input data, and calculate output data through one or several iteration(s) of: determining one or several calculation module(s) to be activated, determining an order of activation of the one or several calculation module(s), and activating the determined one or several calculation module(s), in accordance with the determined order of activation. The managing unit transmits an indication that the output data have been calculated.

An intelligent workpiece system includes a workpiece comprising a portion of a product; and an embedded computing system attached to the workpiece. The embedded computing system is configured to communicate with machines in a manufacturing environment to facilitate assembly of the workpiece into the product at a plurality of assembling areas.

A receiver of an industrial equipment management system receives setting information to be set for an industrial equipment. A generator generates identification information in a case where the setting information is received, and associates the identification information with the setting information. An equipment manager associates, in a case where setting of the industrial equipment is performed based on the setting information associated with the generated identification information, individual identification information on the industrial equipment with the identification information.

Methods, systems, and apparatus, including computer programs encoded on computer storage media, for determining 3D printing customizations for a user. One of the methods includes receiving data indicating a selection of a product design by a user for creation of a three-dimensional product that includes a plurality of attributes, determining a style which includes values for some of the plurality of attributes and that is associated with the user, for each of the plurality of attributes determining whether the style includes a value for the respective attribute, and upon determining that the style includes a value for the respective attribute, customizing the product design using the value for the respective attribute, or upon determining that the style does not include a value for the respective attribute, customizing the product design using a default value for the respective attribute, and providing data for the customized product design for the three-dimensional product.