An arrangement for processing workpieces includes at least one processing machine, a machine magazine assigned to a respective processing machine for accommodating processing tools, and a robot arranged on a driverless base frame. Processing tools may be supplied to and/or removed again from the machine magazine using the driverless base frame. The driverless base frame is additionally provided with a temporary magazine for accommodating processing tools.

A dispatch system and a dispatch method for manufacturing mold are provided. The dispatch system includes a control unit, a mold material storage unit, a processing cutter storage unit, an object pick-and-place and transfer unit, a mold processing unit and a mold product storage unit. The mold material storage unit includes many unprocessed mold materials. The processing cutter storage unit includes many processing cutters. The object pick-and-place and transfer unit is electrically connected to the control unit and disposed between the mold material storage unit and the processing cutter storage unit. One of the unprocessed mold materials and one of the processing cutters are transferred to the mold processing unit by the object pick-and-place and transfer unit, the unprocessed mold material is processed to form a mold product by the mold processing unit, and the mold product is transferred to the mold product storage unit.

A production management system includes a plurality of production facilities, a first operation instruction provider, and a management device. The first operation instruction provider gives a first operator an instruction to deliver workpiece into and out of a predetermined one of the production facilities in accordance with a production plan and operating statuses of the production facilities and acquires an operation status of each of the first operators. The management device transmits, to the production facility into which the workpiece has been delivered, process data for activation of the production facility in accordance with the status of delivery of the workpiece into and out of each of the production facilities. The management device stores the process data, operating status information on the production facilities, and operation status information on each of the first operators acquired from the first operation instruction provider, such that these pieces of information are stored in association with each other.

In one embodiment, a method for a process facility is disclosed. The method includes identifying a plurality of moving entities and a plurality of movable parts associated with the process facility. The method further includes determining an action event for each of at least some interactions between one or more of the plurality of moving entities and one or more of the plurality of movable parts, where one or more of the at least some interactions include a manipulation of at least one of the plurality of movables parts by at least one of the plurality of moving entities. Moreover, the method includes determining an actual duration for each of at least some of the action events. Additionally, the method includes tracking the actual duration for each of at least some of the action events in relation to an expected duration of each action event.

An arrangement for processing workpieces includes at least one processing machine, a machine magazine assigned to a respective processing machine for accommodating processing tools, and a robot arranged on a driverless base frame. Processing tools may be supplied to and/or removed again from the machine magazine using the driverless base frame. The driverless base frame is additionally provided with a temporary magazine for accommodating processing tools.

Industrial machines at a mine site or other worksite are monitored and controlled using a multi-phase implementation, based on data received from multiple data sources at different times. Machine telemetry data or other sensor data received from a first machine, in combination with additional sensor data from other machines at the site, detailed material attribute data received from external data sources, and/or outputs from trained machine-learned models, are used to determine characteristics of a material load and/or material blend, and to control machines at the mine site. A control system performs a multi-phase implementation for monitoring machines and/or load data in response to data received at different times, updating the material load and blend characteristics, and controlling machines at the site based on the characteristics of the material load or material blend.

Provided is a technique of transporting an object to be transported to a machine tool more securely. A transport system includes a transport path, and a storage portion. The storage portion stores an object, and has a first reference shape. The transport system includes machine tools, and a transport device that moves on and the transport path and transports an object. The control unit executes a process of making a camera photograph the first reference shape to acquire a first image from the camera, and a process of correcting a control parameter to be used in transporting an object to be transported stored in the storage portion to the machine tool that is a transport destination on the basis of a position of the first reference shape in the first image.

A mover system includes a track, a plurality of movers configured to move along the track, and one or more processors configured to determine a first amount of energy consumption associated with a first portion of the plurality of movers and a second amount of energy consumption associated with a second portion of the plurality of movers and determine a first emissions per unit for each of the first portion of the plurality of movers based on the first amount of energy consumption and a second emissions per unit for each of the second portion of the plurality of movers based on the second amount of energy consumption. The one or more processors are also configured to determine one or more operating settings for the mover system based on the first emissions per unit, the first emissions per unit, or both and send one or more commands to the first number of the plurality of movers, the second number of the plurality of movers, or both based on the one or more operating settings.

A manufacturing system including an automated storage and retrieval system (ASRS) structure with a three-dimensional array of storage locations distributed throughout a two-dimensional footprint of the ASRS structure at multiple storage levels; workpieces stored within the storage locations of the ASRS structure; robotic storage/retrieval vehicles (RSRVs) navigable within the ASRS structure in three dimensions to access the storage locations, and multiple manufacturing cells positioned outside the ASRS structure, is provided. The manufacturing system includes a track structure attached to the ASRS structure and defining one or more travel paths traversable by the RSRVs from the ASRS structure. The same fleet of RSRVs that is navigable within the ASRS structure is operable to deliver the workpieces to the manufacturing cells. One or more of the manufacturing cells are positioned along the track structure, thereby receiving convenient access to the workpieces along with associated tool pieces and workpiece supports for manufacturing goods.

Techniques and solutions are provided for encoding information for sets, including sets whose elements are arranged in a hierarchy. Values are defined for different levels of a hierarchy, where the values increase or decrease from a root of the hierarchy. A flattened representation of the hierarchy is generated by multiplying element values by a level value for a level at which a respective element is located. Values for parent and leaf nodes are defined, and a flattened representation of the hierarchy is generated by multiple elements values by the parent value or the leaf node value, depending on whether a respective elements is a parent or leaf node. Quantity values for a set of elements are encoded by adding a quantity of a given element to a value assigned to elements of a set definition that are present in a set.