A disclosed display device 14 includes an input unit 15 for entering an input parameter for vibration cutting, and a display unit 16 for showing a graph showing an allowable value for a setting parameter for vibration cutting based on the input parameter, wherein the input parameter includes at least one of a vibration frequency rate, a vibration amplitude rate, and a vibration direction, and the setting parameter includes a revolution number of a workpiece 20 or a tool 30, and a feeding speed of the workpiece 20 or the tool 30. This allows easy determination on the setting parameters for vibration cutting.

In order to easily identify a specimen to be extracted because, for example, an item remains uninspected, from a rack 31 collected in a storage part 13 or the rack 31 taken out from the storage part, a camera of a smart device takes an image of the rack; and a calculation unit included in the smart device provides a mark, by AR technology, at the position of a specimen to be extracted. For example, the item that remains uninspected is identified on the basis of information about a combination of a rack ID and an identifier and information, which is received from an operation unit about specimens at respective positions. Thus, irrespective of a place or whether the specimen to be extracted is inside or outside of the device, the specimen to be extracted can be reliably specified from a plurality of specimen containers provided on a holder.

To provide an electronic device and numerical controller that can achieve reduction in work for changing a display state after start-up of an application. A numerical controller comprises: a display control unit that displays one started application or multiple started applications simultaneously on the display unit; an input unit that accepts input through the operation unit and identifies a position on the display unit; a recognition unit that recognizes a figure drawn with the operation unit based on the identified position; and a start-up unit that starts an application associated with the figure and determines an initial display position for the started application based on the position on the display unit where the figure is drawn.

A system includes at least one graphical display configured to display information associated with an industrial process and with a control system associated with the industrial process. The system also includes at least one processing device configured to identify a current state of the industrial process or the control system. The system further includes an ambient display configured to generate ambient lighting having one or more characteristics based on the current state. The one or more characteristics could include a color, an intensity, and/or a speed of transitions in the ambient lighting. The color could be based on whether the industrial process is operating normally and whether the control system has generated any warnings or alarms associated with the industrial process. The ambient display can be configured to transition the ambient lighting from a first color to a second color based on a change in the current state.

An operation state display device displays an operation state of a board production facility in which a board is sequentially conveyed to multiple board work machines, which perform predetermined board work on the board, and the board work is sequentially performed to produce a board product, and includes an acquisition section and a display section. The acquisition section acquires an execution time zone in which setup changing work required for switching a type of the board product to be produced is performed, for each board work machine, based on production information acquired by the board production facility during production of the board product. The display section graphically displays at least one of the execution time zone for each of the multiple board work machines and the execution time zone for a predetermined board work machine of the board production facility in time series.

An analysis device according to the present disclosure analyzes the state of a machining tool. The analysis device includes: an acquisition unit that acquires a measurement result from at least one sensor fitted to the machining tool; a computation unit that performs data processing to the measurement result acquired by the acquisition unit; and an image processing unit that displays a first image and a second image on a display screen, the first image displaying the measurement result acquired by the acquisition unit in time-series, the second image displaying a computation result after the data processing is performed by the computation unit. The image processing unit displays, as the second image, the computation result corresponding to the measurement result for a specific time period in the first image.

Provided is a display device and a computer program with which it is possible to easily confirm the surface roughness of a workpiece during a turning process. The display device comprises: a surface roughness calculation unit for calculating data pertaining to the surface roughness of a workpiece during a turning process in which the feeding speed for relative cutting between the workpiece and equipment changes, on the basis of the feeding speed in the feeding direction for the relative cutting between the workpiece and the equipment and the shape of the equipment; and a display control unit for performing control, on the basis of the calculated data pertaining to the surface roughness and a display configuration that was configured in advance, such that the data pertaining to the surface roughness of the workpiece is displayed on a display unit.