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.

One or more aspects of the present invention relate to a computer-implemented method for part analytics, in particular for analyzing the quality, the machining process and preferably the engineering process, of a workpiece machined by at least one CNC machine. According to these aspects, the method may include providing a digital machine model of the CNC machine with realtime and non-realtime process data of the at least one CNC machine, the realtime and non-realtime process data being recorded during the machining process of the workpiece under consideration; and subsequently simulating the machining process under consideration by means of the digital machine model based at least partially on the recorded realtime and non-realtime process data.

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 method for controlling an industrial robot are disclosed, wherein the method is performed by a robot controller system, the robot controller system includes a local part connected to an industrial robot and a remote cloud part connectable to the local part. The local part includes a first real-time partition and a second non-real-time partition, and the method includes the steps of: storing a local cache of a complete file system of the robot controller system in the second non-real-time partition; storing the complete file system in the remote cloud part; and controlling the industrial robot in real time from the first real-time partition.

A method for operating a fieldbus controller (2) having a plurality of I/O modules (4) is provided, the fieldbus controller (2) being coupled to a valve assembly (6) via the plurality of I/O modules (4). The method includes providing a user interface (8) for wirelessly operating the fieldbus controller (2), wherein providing the user interface (8) includes: providing a configuration interface (14) for configuring an operating mode of the plurality of I/O modules (4); providing a monitor interface (16) for reading status information from the plurality of I/O modules (4); and providing a control interface (18) for controlling a state of the plurality of I/O modules (4), the state of the plurality of I/O modules affecting a state of the valve assembly (6).

A system (100) and method for generating machining control data of a numerical control machine tool. The system (100) comprises a server (10) and at least one terminal device (30). The server (10) is installed with computer-aided manufacturing software, a numerical control machine tool model library and a cutter and fixture library. The terminal device (30) is connected to the server (10) through the Internet (20) to generate machining program data of a part model and/or to carry out machining simulation of a part model. The method for generating machining control data of a numerical control machine tool comprises: sending a part model file to the server (10) through the Internet (20); and generating program code that can be executed by the numerical control machine tool. The system (100) and the method have the beneficial technical effects of being convenient to operate, low in cost and flexible and easy to use and so on.

Techniques for embedding a web browser in a graphical display view of a process plant include presenting a graphical display view including (i) indications of one or more process control elements, such as a control module, a function block, a process plant entity, or a process section of the process plant, and (ii) a web browser having web content from a source address. The web browser is presented according to one or several presentation parameters, such as such as a size and position of the web browser within the display view. Furthermore, the presentation parameters include restrictions on functions performed within the web browser, such as a sandbox or sandbox attributes. The presentation parameters also include a source whitelist that specifies web addresses which are allowed to be set as the source address for presenting web content.

A method is provided of configuring a field device for monitoring and/or controlling an operation(s) of a process or plant. The method includes conducting web-based communication between a networked computer device and the field device over an Ethernet-APL to allow the networked computer device to access and interact with a web page(s) or program(s) that is hosted on a web server running on the field device. The method also includes configuring at the field device an operation parameter(s) and/or setting(s) of the field device based on user input received across the Ethernet-APL by the field device from user interaction with the web page(s) or program(s) through the networked computer device.

A POS system includes a plurality of electronic device, at least a specified one of which automatically generates and updates a history data at intervals, and an intelligent device installed in the specified electronic device for automatically updating and showing a life percentage information of the specified electronic device according to the history data. The intelligent device includes: a signal transmission module electrically connected to the specified electronic device for receiving the history data therethrough; a processing unit generating a life percentage value according to the history data of the specified electronic device, and issuing a life percentage status signal indicative of the life percentage value; a storage module for storing the history data; and a prompt displaying module visibly disposed for displaying the life percentage information in response to the life percentage status signal.

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.