A press forming system includes a press working unit, a material supply device, a detection device, and a control device. The press working unit includes a slide that moves in accordance with an operation pattern in which the slide passes through an advance position where press forming is formed from a withdrawal position, and returns to the withdrawal position. The material supply device starts a supply operation at a synchronous timing before the slide returns from the advance position to the withdrawal position. The control device performs a control for stopping the slide before the slide reaches the withdrawal position from the advance position in a case where the suppliable state of the forming material is not detected within a predetermined determination period by the detection device.

A textile machine management system and associated method for textile machines include automated guided transportation vehicles that transport material carriers between the textile machines. A logistic control system controls movement of the transportation vehicles. A material management apparatus manages the material flow between the textile machines and includes: a material flow database; a prediction module; and a disposition module.

A system is provided for determining causes of faults in a manufacturing system. The system stores data associated with a processing system which includes machines and associated processes, wherein the data includes timestamp information, machine status information, and product-batch information. The system determines, based on the data, a topology of the processing system, wherein the topology indicates flows of outputs between the machines as part of the processes. The system determines information of machine faults in association with the topology. The system generates, based on the machine-fault information, one or more fault parameters which indicates frequency and severity of a respective fault. The system constructs, based on the topology and the machine-fault information, a system model which includes the one or more fault parameters, thereby facilitating diagnosis of the processing system.

A computer-implemented method of controlling a livestock farm housing a population of animals, the method comprising the steps of obtaining, by means of one or more, preferably a plurality of, sensors, farm sensor data indicative of the condition of the livestock farm; optionally combining said farm sensor data with further data, indicative of the condition of the livestock farm, but not obtained via sensors, to obtain farm condition data; obtaining, by means of one or more, preferably a plurality, of measurement devices, animal status data of the livestock farm population; and selecting and continuously adjusting, dependent on the obtained farm sensor data or farm condition data and the animal status data, a set of animal supply values using a feedback loop such that a value of at least a selected one of the animal status data is optimized.

The invention relates to a method for transferring a pourable medium (10) from a first vessel (12) into a second vessel (14), by means of a robot arm (16), wherein a movement 118) of the robot arm (16) can be controlled by at least one movement parameter (BP), including, inter alia, the following method steps: d) determining the mass of the medium (10) transferred into the second vessel (14) as an actual filling mass (IFM), and also the variation over time of the actual filling mass (IFM) of the medium (30; as an actual mass flow (IMS), by means of a balance 124), c) calculating a correcting mass flow (StMS) as a correcting variable (26) of a first control circuit (28) while taking into account the actual filling mass (FM) and the intended filling mass (SFM), f) using the correcting variable (26) of die first control circuit (28) as a reference variable (SO) of a second control circuit (32) for the purpose that the calculated correcting mass flow (StMS) is used as the intended mass flow (SMS), g) calculating the at least one movement parameter (BP) of the robot arm (16) as a correcting variable (40) of the second control circuit (32) while taking into account the intended mass flow (SMS) and the actual mass flow (IMS), and h) performing, the movement (18) of the robot arm (16), or, the basis of the at least one movement parameter (BP). The invention also relates to a device (2) for carrying out the above method.

The technology disclosed herein enables automation of component sourcing when designing a process system in an industrial environment. In a particular embodiment, a method includes receiving design specifications of a process system in an industrial environment via a system design application. The method further includes determining components to implement the process system from the design specifications and identifying a first subset of the components for sourcing from an external provider. The method also includes populating the first subset into a component sourcing application.

A management apparatus manages works to supply components to component mounting devices in a component mounting line. The management apparatus includes a component remaining number information acquisition portion that acquires, from each of the component mounting devices, a remaining number of components stored in the component mounting device, a worker information storage portion that stores worker information including a working range of each of workers in the component mounting line, a work sequence decision portion that generates work sequence information indicating a work sequence of component supply works for each of the workers based on the worker information and component remaining number information about a plurality of components within a predetermined period of time, and an information transmission portion that transmits the work sequence information to the workers who should perform the works.

Disclosed herein are systems and method for managing material balance between incoming and outgoing streams of material in an industrial system. A method may include providing a graphical user interface (GUI) that enables a system administrator to generate a visual model of the industrial system that includes (1) elements that are interconnected in the industrial system, and (2) streams including at least one incoming stream of material to each element and at least one outgoing stream of material from each element. The method may include receiving, via the GUI, a plurality of parameters of the elements and the streams such as material chemistry, user demand of each user element of the user elements, and flowrate for each stream of the streams. The method may include determining a category of each stream and automatically balancing, by a processor, incoming and outgoing streams for each element.

The invention relates to a device for use in production, which offers at least one production service or is connectable to a device offering a production service comprising a physical interface across which data in relation to at least one physical property are exchanged with at least one other device; further comprising a cyber physical interface across which data in relation to production service properties are exchanged with at least one other device; and comprising a communication interface across which at least one communication link having defined communication properties can be established. The invention further relates to a corresponding method.

This invention implements a work system high in flexibility and speedy system development. The work system includes a plurality of modules each having software for work which performs predetermined in-module processing, and a service base unit which inputs and outputs event information to and from the modules. The event information includes an identifier and a payload. The service base unit has a function of receiving the event information from any of the modules, and a function of transferring the event information to the other module. The other module to which the event information is transferred determines based on the identifier included in the transferred event information whether the in-module processing is performed within its own module.