A robot system includes a holding compartment configured to transport one or more items and an electronic control unit having a processor and a non-transitory computer readable memory including a machine-readable instruction set. The robot system further includes a camera for capturing image data of an environment of the holding compartment and a robotic arm each communicatively coupled to the electronic control unit. The machine-readable instruction set causes the processor to receive image data of the environment of the holding compartment from the camera, determine a set of handling instructions for an item collected by the robotic arm, determine a location within the holding compartment for placing the item collected by the robotic arm based on the image data of the environment of the holding compartment and the set of handling instructions, and manipulate the robotic arm to place the item within the holding compartment at the determined location.

At least a first reticle is stored in a housing of a stocker. A first gas is delivered to the housing. At least one reticle pod having an additional reticle is delivered into a enclosure within the housing of the stocker. A second gas different from the first gas is delivered to the enclosure. The reticle pod is automatically retrieved from the enclosure. The delivery and retrieval of the reticle pod and delivery of the first gas and the second gas are automatically controlled.

A conveyor controller for being implemented into a conveyor system includes control circuitry and one or more network interfaces for coupling with other conveyor controllers. In one embodiment, the control circuitry configured for detecting whether another conveyor controller is connected and to determine which network interface is used in order to set the direction of the conveyor system. In another embodiment, the control circuitry is configured, to receive configuration data from a conveyor controller connected to a network interface, and to detect if another conveyor controller is and to transmit configuration message to another conveyor controller that includes additional configuration data associated with the conveyor controller. In still another embodiment, the control circuitry transmits configuration data to a replacement conveyor controller upon getting a request from the replacement conveyor controller that has been connected to a network interface.

Methods and systems for customizing hides are provided. In particular, one or more embodiments comprise a tanning control system that improves profitability and customer satisfaction by facilitating the customization of hides according to customer orders. Furthermore, one or more embodiments enable the tanning control system to improve efficiency and responsiveness by producing packages of hides that exactly match customer orders. Additionally, one or more embodiments enhance the traceability of hides by capturing data related to the customization of hides.

A reference model generates a model output indicative of modeled operations of one or more worksites. The model output is compared against actual operation data indicative of actual worksite operations. A recommendation engine generates recommendations to adjust the worksite operations so that they more closely conform to the model operations.

A substrate transport empiric arm droop mapping apparatus for a substrate transport system of a processing tool, the mapping apparatus including a frame, an interface disposed on the frame forming datum features representative of a substrate transport space in the processing tool defined by the substrate transport system, a substrate transport arm, that is articulated and has a substrate holder, mounted to the frame in a predetermined relation to at least one of the datum features, and a registration system disposed with respect to the substrate transport arm and at least one datum feature so that the registration system registers, in an arm droop distance register, empiric arm droop distance, due to arm droop changes, between a first arm position and a second arm position different than the first arm position and in which the substrate holder is moved in the transport space along at least one axis of motion.

A combination of batch exchange carts that includes all of the feeders that supply components to be used in the post-changeover production from the multiple batch exchange units prepared in preparation space is decided based on the component information of feeders loaded on batch exchange carts used in the pre-changeover production and setup information of batch exchange carts that can be used for exchange memorized in memory device (component information of feeders loaded on batch exchange carts in preparation space), and then an operator is notified of the decided combination of batch exchange carts by sound or by the display of a mobile terminal or display device of production management computer.

The roller-to-roller conveyance control apparatus includes an amplitude target setting unit that sets an amplitude target value of the tension deviation; an adjustment execution command generation unit that provides a command to adjust the control gain; an adjustment manipulated-variable output unit that outputs an adjustment manipulated variable; a manipulated-variable amplitude determination unit that increases the amplitude of the adjustment manipulated variable until the amplitude of the tension deviation becomes larger than the amplitude target value; and a control-gain calculation device that calculates the control gain from the amplitude and the vibration period of the tension deviation. A tension-shaft speed controller controls a tension-control-shaft motor on the basis of the line speed reference and the adjustment manipulated variable during the adjustment of the control gain.

A work management device includes an operator information memory section, a work item memory section, an operator detection sections, and a work instruction section. The operator detection sections are installed at a plurality of spots of the electronic component mounting line and detect the operators near the spots. In a case in which the operator detection section detects the operator, when operator information regarding the operator is identical to operator information in the operator information memory section and the work item group of the work item memory section includes one work item or a plurality of work items which are able to be performed by the operator detected by the operator detection section, the work instruction section instructs the operator detected by the operator detection section in one work item or a plurality of work items selected from the one work item or the plurality of work items.

A method for storing and/or order-picking product units in a storage and/or order-picking installation (P1), in which incoming transporting units are stored on an interim basis in a store, are supplied, if required, to a depalletizing station (4) and are individually stored on an interim basis in a buffer store (6) for product units. Thereafter, branch-specific mixed pallets (16) are automatically set up, supplied to the delivery zone (11) and loaded onto lorries. The system solution is distinguished, in particular, in that it can dispense entirely with transporting aids such as shelves for product units, rows of product units or for entire layers of transporting units. The transport shuttles (8) provided and the rail installation (8a) perform largely the functions of transporting aids, storage means and conveying systems.