A system capable of communicating with a terminal includes a processor and a transmitter. The processor is configured to generate a first control signal including a first target position to operate at least part of the terminal and generate a second control signal including a second target position to operate at least part of the terminal after an operation of the at least part of the terminal in accordance with the first target position. The transmitter is configured to transmit the first control signal to the terminal at a first timing and transmit the second control signal to the terminal at a second timing after the first timing. The first target position is farther than a position which the at least part of the terminal is to reach at the second timing.

Disclosed is a plug-in radio module for automation engineering for wireless data transmission, having at least a wired interface for connecting to a corresponding wired field device interface of a field device and radio module electronics having a radio antenna, wherein the radio module electronics are configured to use the wired interfaces to query at least one current value of the field device and to use the current value to adapt a paging interval and/or a radio data width for the wireless data transmission as appropriate, so that the radio module electronics perform an adapted-power mode of operation in which the wireless data transmission is matched to the power currently made available to the field device.

Systems and apparatuses include a passive device coupled to a mounting boss arranged on a vehicle system, and a sensor structured to engage the mounting boss. The sensor includes a probe structured to sense a characteristic of the vehicle system, and a reader structured to send a query signal to the passive device and receive location data from the passive device associated with the mounting boss.

Embodiments herein describe a system that includes a first Faraday cage defining a first aperture through which a first conveyor extends, a first wirelessly controlled machine disposed in the first Faraday cage, where the first wirelessly controlled machine is configured to transmit control signals using a first frequency range, a second Faraday cage defining a second aperture through which a second conveyor extends, and a second wirelessly controlled machine disposed in the second Faraday cage where the first wirelessly controlled machine is configured to transmit control signals using the first frequency range. Further, a portion of at least one of the first Faraday cage and the second Faraday cage is disposed between the first and second apertures.

To provide a robot controller configured to reliably receive data from a robot even when there is a shield. A robot controller receives a signal transmitted by a wireless device mounted to a robot that is a control target. The signal includes data of an operating state of the robot. The robot controller includes: a first receiving unit that receives the signal including the data from the wireless device; a transfer unit that, in a case in which the signal received by the first receiving unit is a signal from other robot not to be controlled, transfers the signal to other robot controller controlling the other robot; a second receiving unit that receives the signal transferred from the other robot controller; and a signal processing unit that processes the signal received by the first receiving unit and/or the signal received by the second receiving unit.

A multifunctional component, comprising functional hardware elements for generating a desired physical action, a processor for selectively activating one or more of the functional hardware elements in response to a control signal received from a control device, a wireless communication unit in communication with the control device by which the control signal is transmitted to the processor, and a memory device in which are embedded an activation code and a mediating code being executable by the processor. The activation code is communicable with the processor by a machine type language adapted to initiate a physical output from the processor which is configured to generate the action. The mediating code may be communicable with an enhanced software developer kit (SDK) platform, for facilitating development of a dedicated application runnable on the control device with use of logic commands and the activation code by converting each of the logic commands to physical corresponding instructions representing physical parameters required by the activated hardware elements to generate the desired physical action.

A robot system includes a robot, a control circuit, a first wireless circuit, a second wireless circuit, and a teaching circuit. The first wireless circuit is connected to the control circuit. The teaching circuit is connected to the second wireless circuit to control the robot via the second wireless circuit, the first wireless circuit and the control circuit. The second wireless circuit is configured to transmit a control signal to the first wireless circuit with a first wireless communication scheme using frequency hopping, the robot being configured to be driven or not to be driven according to the control signal, and transmit an information signal to the first wireless circuit with a second wireless communication scheme in which a signal is transmitted in a case where a wireless resource is determined to be available, the information signal relating to driving of the robot.

An object is to provide a machine tool operation system that enables inputs to an NC device of a machine tool by use of a tablet terminal from any location and an operation method using the system.

The machine tool operation system includes an NC device, a computer connected to the NC device, and a tablet terminal that is in wirelessly communication with the computer and enables inputs and outputs of signals for the NC device via the computer. The tablet terminal includes a display unit that make to display a menu screen on a display screen, an input unit that receives an input from a user, and an input processing unit that outputs an input signal transmitted to the computer based on the input. The computer includes a signal processing unit that outputs a command signal for a machine tool operation based on the input signal. A wireless communication unit to wirelessly send and receive signals between the tablet terminal and computer, and a transmission unit to transmit signals between the computer and NC device are provided.

RF shielding techniques are employed to prevent wireless signals transmitted from one machine from reaching another machine using the same frequency range. If the machines are spaced closely together, the wireless signals emitted by one machine may be received by the other, thereby causing interference. In one embodiment, one of the machines is placed in a Faraday cage which prevents it from transmitting wireless signals to, and receiving signals from, the other machine. In another embodiment, machines that use different channels are grouped into a first Faraday cage while machines that use the same channels as the machines in the first Faraday cage are placed in a second Faraday cage. In this manner, the machines in the two cages can reuse the same communication channels while being disposed proximate to each other in the shared space.

An automated manufacturing process tooling setup assist system includes a controller configured to control movement and positioning of tools to provide a first tool spatial arrangement within a workspace. Responsive to an unsuccessful test process run using the tools in the first tool spatial arrangement, the controller may control movement of the tools so as to replace a tool in the first tool spatial arrangement with another tool configured to perform a function of the tool to be replaced. Responsive to a successful test process run using the tools in the first tool spatial arrangement, the controller may control movement of the tools so as to reposition one or more tools in the workspace to provide a second tool spatial arrangement within the workspace different from the first tool spatial arrangement.