Provided is an image and an inspection system that make it possible to effectively utilize a result of past inspection. An audit position indicating a position where an audit is planned or a position where an audit is completed and a past audit position indicating a position where an audit was performed in the past within a predetermined range including the audit position are displayed over a map on a user terminal, the map being a drawing representing a configuration of a manufacturing site. The inspector references the map on the user terminal and effectively utilizes a past audit result to perform an audit.

A system and method for displaying information from at least a first computing device and a second computing device on an interactive display. In some embodiments: (1) the first computing device is connected to a public data network; (2) the second computing device is connected to a private data network; and (3) the interactive display is connected to both the public data network and the private data network. The system mirrors a first display for the first computing device (using information received via the public data network) and mirrors a second display for the second computing device (using information received via the private data network) on the interactive display. This may two users to simultaneously mirror content from two remote computing devices on different networks onto the same interactive display, without exposing the private data network (e.g., and any computing components connected thereto) to the first computing device.

A video display device includes performs a first Retinex process on an inputted video and a second Retinex process, which is different from the first Retinex process, on the inputted video. A video composing unit is configured to compose a video processed by the first Retinex processing unit and a video processed by the second Retinex processing unit in accordance with a feature of the inputted video, which is then displayed. In a process of composing the video processed by the first and second Retinex processing units, the video composing unit is configured to perform a process of converting a luminance level for each pixel so that more output luminance levels are assigned to a luminance band having a large frequency distribution to improve visibility of the video. A gain of the luminance level converting process is varied in accordance with an average pixel value level of the inputted video.

A display driver includes image processing circuitry and drive circuitry. The image processing circuitry is configured to receive a foveal image, a full frame image, and coordinate data that specifies a position of the foveal image in the full frame image. The image processing circuitry is further configured to render a resulting image based on the full frame image independently of the foveal image in response to detection of a data error within the coordinate data. The drive circuitry is configured to drive a display panel based on the resulting image.

A display driver includes image processing circuitry and drive circuitry. The image processing circuitry is configured to receive a foveal image, a full frame image, and coordinate data that specifies a position of the foveal image in the full frame image. The image processing circuitry is further configured to render a resulting image based on the full frame image independently of the foveal image in response to detection of a data error within the coordinate data. The drive circuitry is configured to drive a display panel based on the resulting image.

To provide a head-mounted display and an information display apparatus that match the intuition of the user and are excellent in operability. A head-mounted display 1 according to an embodiment of the present technology includes a reception unit 12, an image display element 14, and a display processing unit 132. The reception unit 12 receives an operation signal including information on a relative position of a detection target in contact with an input operation surface 21, which is output from the input device 2. The image display element 14 forms an image V1 presented to a user. The display processing unit 132 causes, based on the operation signal, the image display element 14 to display an operation image V10 with an auxiliary image P indicating a position of the detection target being overlapped on the image V1.

To provide a head-mounted display and an information display apparatus that match the intuition of the user and are excellent in operability. A head-mounted display 1 according to an embodiment of the present technology includes a reception unit 12, an image display element 14, and a display processing unit 132. The reception unit 12 receives an operation signal including information on a relative position of a detection target in contact with an input operation surface 21, which is output from the input device 2. The image display element 14 forms an image V1 presented to a user. The display processing unit 132 causes, based on the operation signal, the image display element 14 to display an operation image V10 with an auxiliary image P indicating a position of the detection target being overlapped on the image V1.

According to a vehicle display system, a mobile terminal apparatus includes: a primary-screen-view display section that displays an output screen-view generated with execution of an application on the mobile terminal apparatus as a primary screen-view; a conversion section that converts the primary screen-view into a secondary screen-view complying with a vehicle apparatus; a manipulation layer generation section that generates a manipulation layer to manipulate the application; a state layer generation section that generates a state layer indicating a state of the mobile terminal apparatus; and a transmission section that transmits the secondary screen-view, the manipulation layer, and the state layer to the vehicle apparatus. The vehicle apparatus includes a secondary-screen-view display section that displays the manipulation layer and the state layer on the vehicle apparatus itself together with the secondary screen-view.

According to an example, a system for electronic display illumination comprises a display, a sensor communicatively coupled to the display to detect a user and a user eye gaze, and a processing resource communicatively coupled to the sensor. In some examples, the processing resource may determine an active screen area and an inactive screen area of the display based on the user eye gaze; instruct a display controller to adjust a display value of the inactive screen area; and transmit active screen area data to a secondary display.

According to an example, a system for electronic display illumination comprises a display, a sensor communicatively coupled to the display to detect a user and a user eye gaze, and a processing resource communicatively coupled to the sensor. In some examples, the processing resource may determine an active screen area and an inactive screen area of the display based on the user eye gaze; instruct a display controller to adjust a display value of the inactive screen area; and transmit active screen area data to a secondary display.