An HVAC controller operable in an occupied mode and an unoccupied mode and includes a touch-responsive display. The controller displays an informational region having non-interactive user interface elements, a control region having interactive user-interface elements and an override region having an occupied status display and an occupancy override control having an override state and a non-override state. The visual properties of the variable opacity region is manipulated to guide the user during use of the HVAC controller.

A terminal device for assisting operation of a plurality of eyeglass manufacturing apparatuses which are used for performing different processes in manufacturing eyeglasses includes: a communicating device configured to communicate with the plurality of eyeglass manufacturing apparatuses; a processor; and memory storing computer readable instructions, when executed by the processor, causing the terminal device to execute: a setting instruction for setting, according to a process, a specific eyeglass manufacturing apparatus from the plurality of eyeglass manufacturing apparatuses as an eyeglass manufacturing apparatus of which the operation is assisted; and a controlling instruction for controlling the communicating device to send an operating signal input in the terminal device to the specific eyeglass manufacturing apparatus set by the setting instruction or controlling the communicating device to receive an input signal input in the specific eyeglass manufacturing apparatus set by the setting instruction.

An information processing device includes a display configured to display a first graphical faceplate representing a state of a control target, an operation unit which is used for operating the first graphical faceplate, and a controller configured to switch the first graphical faceplate displayed by the display to a second graphical faceplate for operating the control target based on an operation performed by the operation unit.

Provided is a robot system. The robot system includes a manipulator configured to perform a preset operation on a plurality of objects, a transparent cover configured to define a chamber in which the plurality of objects and the manipulator are accommodated, the transparent cover being provided with a touch panel, a camera installed to face an internal region of the chamber, a projector configured to emit light to one area within the chamber, and a controller configured to control the projector so that the projector emits the light to a target area corresponding to a touch point of the touch panel, recognize a target object disposed in the target area based on image information of the camera, and control the manipulator so that an operation is performed on the target object.

A robot instructing apparatus includes a teaching pendant having a display and an inclination device. The inclination device outputs an inclination of the teaching pendant based on the inclination of the teaching pendant about at least one horizontal axis. The robot instructing apparatus also includes at least one processor that generates movement instructions to change a posture of the robot based on the inclination of the teaching pendant output by the inclination device during a teaching operation in which the movement instructions are generated.

A numerical controller includes a movement plane acquisition unit configured to accept designation of a movement plane in a machine coordinate system, a machine coordinate conversion unit configured to convert a coordinate value in the machine coordinate system into an image coordinate system, an image coordinate conversion unit configured to convert a coordinate value in the image coordinate system into the machine coordinate system, an operation target position acquisition unit configured to acquire position information on an operation target, an operation icon display unit configured to display an operation icon corresponding to the position information, a slide position acquisition unit configured to acquire a slide position, a movement amount calculation unit configured to calculate an axial movement amount, and an axial movement unit configured to move the operation target according to the axial movement amount.

An industrial robot system including a dual arm robot having two arms independently movable in relation to each other, and a hand-held control device for controlling the robot and provided with a visual display unit for displaying information about the arms. The control device is provided with a measuring device for measuring the orientation of the control device, and the control device is configured to display information about one of the arms in a first area on the display unit and to display information about the other arm in a second area on the display unit, and to change the positions of the first and second areas in dependence on the orientation of the control device in relation to the robot so that the positions of the first and second area on the display unit reflects the orientation of the control device in relation to the positions of the arms.

A method of controlling a robotic arm with human-computer interaction, and terminal and system for the same are provided. The method of controlling the robotic arm with human-computer interaction includes: virtualizing a robotic arm to provide a virtual robotic arm having at least two movable nodes on a screen, and designating a distal movable node of the at least two movable nodes as a target node; when the target node is triggered, responding to a drag-and-drop operation by a user and generating a moving path according to a path of the drag-and-drop operation on the target node; and generating a controlling signal for controlling a motion of the robotic arm based on the moving path, and controlling the robotic arm to move according to a motion of the virtual robotic arm based on control of the controlling signal.

An apparatus including: a host computing unit for operating the apparatus with operation functions, a control computing unit for operating the apparatus with critical control functions, a touchscreen system, comprising including; a touchscreen configured for receiving touch inputs to the touchscreen; a touchscreen controller communicatively coupled with the host computing unit and control computing unit and configured to detect a location of the touch inputs to the touchscreen; a display for presenting control widget relating to critical control functions in a critical control zone and graphical indicia relating to operation functions in a visualization zone, a mixer module communicatively coupled with the control computing unit and the host computing unit for mixing data flow coming from the control computing unit and the host computing unit with priority to the critical control module, the mixer module providing data flow coming from the control computing unit to the control zone of the display and providing data flow coming from the host computing unit to the visualization zone of the display.

An operation panel for operating a machine tool includes a first display unit for displaying information related to the machine tool, a keyboard, and a plurality of buttons. The button includes a second display unit and a transparent cover. The second display unit displays a first key image indicating a first function and is able to be switched to display a second key image indicating a second function depending on an application screen displayed on the first display unit.