A terminal (100) includes a start assist tool (120) that classifies, into multiple groups, multiple remote modules (400) including channels (CH) connected to production line devices (500) as control targets, sets, based on information about the groups, an operation mode of a remote module belonging to a specific group of the multiple groups to a first operation mode to perform operational checks, and forms an image to display an operation of the remote module belonging to a first group.

The present invention ascertains the correspondence between the actual operation of an apparatus used to execute a work process and work performed by a worker while suppressing costs. This information processing device associates basic imaging data obtained by capturing the entire work site WS by one ceiling camera with process information acquired from a PLC.

The present disclosure provides systems and methods for inferring knowledge about manufacturing process metrics. In an aspect, the present disclosure provides a method for inferring knowledge about manufacturing process metrics. The method may comprise: (a) receiving one or more metrics associated with a manufacturing process; and (b) using a hierarchy of models to generate one or more inferences about the manufacturing process based on the one or more metrics, wherein the hierarchy of models comprises one or more individual models and one or more ensemble models configured to generate the one or more inferences based on a combination or an aggregation of outputs generated by the one or more individual models.

A process improvement support device according to an aspect of the present disclosure includes: at least one memory configured to store instructions; and at least one processor configured to execute the instructions to: accumulate cycle times of a plurality of processes in a production line over a predetermined period; calculate a cycle time distribution that is a distribution of the cycle times of each of the processes in the predetermined period; and generate information for evaluating a correlation between the cycle time distribution of a first process and the cycle time distribution of a second process.

A representation of an initial design domain, at least one subtractive tool assembly, machine degrees of freedom, and a termination criterion are used to iteratively generate intermediate part designs by redistributing the material within the design domain. A measure of inaccessibility of exteriors of the intermediate part designs by the at least one subtractive manufacturing tool assembly are generated. The measure of inaccessibility is used to inform generation of an intermediate part design at a next iteration. The iterative algorithm is terminated when the termination criterion is satisfied, the result of the iterative algorithm being a part design accessible for subtractive manufacturing.

Systems and methods for modeling and controlling entities of a building system are provided. An exemplary method includes comparing an input indicating a new entity or connection between entities of a building system to a data model for the building system to determine whether the new entity or connection is represented in the data model, extending the data model to define the new entity or connection in response to determining that the new entity or connection is not represented in the data model, and using the data model with the new entity or connection in a control strategy to generate control decisions for the entities of the building system.

A robot fleet management platform includes a job parsing system that applies filters to identify portions of a job request suitable for robot automation. Based on the identified portions and a first fleet objective of the job request, a task system establishes tasks that define a robot type and task objective. A proxy service associates a robot of a robot fleet to each task and adaptation instructions to define how to adapt the robot fleet to perform the tasks. A workflow system generates a workflow defining a performance order of the tasks. A simulation system applies the workflow in an environment that includes digital models of the robot fleet and the tasks. The simulation is used to iteratively redefine the tasks and workflow until a second fleet objective is satisfied. A generation system generates a job execution plan in response to the simulation satisfying the first and second fleet objectives.

The present invention relates to a single integrated multi-function apparatus for programming and repackaging programmable devices comprising: input means operable to provide a plurality of un-programmed devices; programming means operable to program the un-programmed devices; checking means operable to inspect predefined characteristics of devices programmed by the programming means; moving means operable to convey programmed devices to the checking means in a path of movement defining a first (X) axis of the apparatus, and placement means operable to move devices to and from the programming means in a path of defining a second (Y) axis of the apparatus. The moving means further conveys programmed devices along the first (X) axis to checking means operable to inspect predefined characteristics of devices programmed by the programming means, and operation of the input means, programming means, moving means, placement means and checking means are coordinated and controlled by software control means.

A method for employing a plurality of automated machines to deposit composite material includes a first tool located in a first station and a second tool located in a second station. The first station and the second station are located on a production line. The first station includes at least one automated machine of the plurality of automated machines and the second station includes at least two automated machines of the plurality of automated machines. At least one of the automated machines is movable from the second station to the first station. The method includes monitoring machine capacity and workload requirements of the plurality of automated machines. The method further includes determining an efficiency threshold based upon the machine capacity and workload requirements. The method further includes reallocating at least one of the automated machines from the second station to the first station once the efficiency threshold is met.

A continuous flow manufacturing system includes a tool, configured to hold a part. The system also includes a machine-readable identifier, associated with the tool and encoded with a tool-identification. The system further includes a plurality of workstations. Each one of the plurality of workstations includes a production machine, configured to perform a manufacturing operation on a part, and a reader, configured to read the machine-readable identifier. The system also includes a computing device, configured to retrieve process-data, associated with the tool-identification and a corresponding one of the plurality of workstations, and configured to update the process-data, subsequent to performing the manufacturing operation associated with the corresponding one of the plurality of workstations.