Various systems and methods for modeling a manufacturing assembly line are disclosed herein. Some embodiments relate to operating a processor to receive cell data and line production data, determine one or more production associations between the cell data and the line production data; evaluate the one or more production associations to identify one or more critical production associations; retrieve the cell data and the line production data associated with the one or more critical production associations; and train a predictive model with the retrieved cell data and the retrieved line production data to predict the production level of the manufacturing assembly line.

A flexible assembly system for variable reconfiguration, and a method of reconfiguring a production line. The method includes receiving line configuration information based on a reconfigured production line, retrieving process terminals required to be included in the reconfigured production line based on the line configuration information, when at least one among the process terminals required to be included in the reconfigured production line is not retrieved, transmitting information about the process terminal not retrieved to a line installer terminal, when all the process terminals required to be included in the reconfigured production line are retrieved, dividing the line configuration information based on each of the retrieved process terminals, and transmitting the divided line configuration information to each of the retrieved process terminals and verifying whether a component is provided in each of the process terminals.

A transportation vehicle having a data interface for transmitting data to a robot, wherein the transportation vehicle includes a controller that produces control signals for controlling the robot for a specified working task and transmits the control signals to the robot via the data interface. Also disclosed is a method for controlling a robot by a transportation vehicle.

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.

Methods, systems, and apparatuses for performing target parameter analysis for an assembly line including a plurality of stations. One method includes receiving, with an electronic processor, training data associated with the assembly line. The training data including a plurality of attributes. The method also includes receiving, with the electronic processor, value addition data for each of the plurality of stations. The value addition data for each of the plurality of stations specifying a non-negative value added by each of the plurality of stations. The method also includes learning, with the electronic processor, a decision tree based on the training data and the value addition data. The method also includes performing the target parameter analysis based on the decision tree.

Devices, systems, and methods for providing and operating crop control hardware are provided herein. Some embodiments include an assembly line grow pod having a master controller with a plurality of bays and being communicatively coupled to components of the grow pod, a crop control module within one of the bays such that the crop control module is communicatively coupled to the master controller and the components of the grow pod, and a second control module in one of the bays, which is removably insertable such that it is removable from the bay without altering the assembly line grow pod functionality. The crop control module is programmed to sense a removal of the second control module, determine control signals necessary to maintain an operation of the grow pod and the components of the grow pod, and provide the control signals to the grow pod or the components of the grow pod.

A system and a method for assembling a core engine and a fan case of a gas turbine engine. The system includes a core engine support that detachably supports the core engine. The core engine support includes at least one core engine alignment sensor. The system further includes a fan case support that detachably supports the fan case. The fan case support includes at least one fan case alignment sensor. The system further includes a computer-controllable unit configured to align the core engine support and the fan case support based on signals from the at least one core engine alignment sensor and the at least one fan case alignment sensor. The computer-controllable unit is further configured to guide a movement of at least one of the core engine support and the fan case support to couple the core engine with the fan case.

A flexible assembly system for variable reconfiguration, and a method of reconfiguring a production line. The method includes receiving line configuration information based on a reconfigured production line, retrieving process terminals required to be included in the reconfigured production line based on the line configuration information, when at least one among the process terminals required to be included in the reconfigured production line is not retrieved, transmitting information about the process terminal not retrieved to a line installer terminal, when all the process terminals required to be included in the reconfigured production line are retrieved, dividing the line configuration information based on each of the retrieved process terminals, and transmitting the divided line configuration information to each of the retrieved process terminals and verifying whether a component is provided in each of the process terminals.

A transportation vehicle having a data interface for transmitting data to a robot, wherein the transportation vehicle includes a controller that produces control signals for controlling the robot for a specified working task and transmits the control signals to the robot via the data interface. Also disclosed is a method for controlling a robot by a transportation vehicle.

Devices, systems, and methods for providing and operating crop control hardware are provided herein. Some embodiments include an assembly line grow pod having a master controller with a plurality of bays and being communicatively coupled to components of the grow pod, a crop control module within one of the bays such that the crop control module is communicatively coupled to the master controller and the components of the grow pod, and a second control module in one of the bays, which is removably insertable such that it is removable from the bay without altering the assembly line grow pod functionality. The crop control module is programmed to sense a removal of the second control module, determine control signals necessary to maintain an operation of the grow pod and the components of the grow pod, and provide the control signals to the grow pod or the components of the grow pod.