An endoscope device having one or more processors configured to perform a control process including: processing an imaging signal to generate image data of a display image of a subject, wherein the image signal is generated by an image sensor, wherein the image sensor is arranged at a distal end of an insertion portion, and wherein a bending actuator is configured to bend the distal end; setting a first measurement point and a second measurement point on the display image; calculating a first subject distance from the first measurement point to a reference point of the image sensor, and a second subject distance from the second measurement point to the reference point; calculating a difference value between the first subject distance and the second subject distance; and controlling the bending actuator to bend the distal end of the insertion portion such that the difference value is decreased.

An image processing device includes a display device, a video display controller configured to display video data imaged by an imaging device in a predetermined display region to be displayed by the display device, and a region display controller configured to display a plurality of display elements representing determination regions based on a plurality of types of determination functions with respect to the video data in the display region by superimposing the plurality of display elements on the video data in aspects different from each other.

An image capturing device capable of intermittent image capture, based on a predetermined given timing, to acquire multiple first images includes a detecting unit, an acquiring unit, and a setting unit. The detecting unit detects at least either a zooming operation or a panning operation that is performed when an image of a subject is captured. The acquiring unit causes a second image to be acquired in accordance with the zooming operation or the panning operation when at least either the zooming operation or the panning operation has been detected. The setting unit sets the second image as an image corresponding to at least one frame forming a time-lapse motion picture when at least either the zooming operation or the panning operation has been detected. The second image is acquired at a different timing from the given timing for acquiring the first images.

An endoscope device having: a display configured to display a first image region and a second image region; and a controller configured to: perform first display change control to control the display to change a display state of the first image region based on an instruction input to an instruction input device through a first operation method; and perform second display change control to control the display to change a display state of the second image region based on an instruction input to the instruction input device through a second operation method.

Image pickup apparatus includes imaging control circuit, keystone correction circuit, and composite circuit. Imaging control circuit acquires plurality of first images corresponding to subject image formed on imaging plane by image pickup optical system by causing imaging element to execute exposure plurality of times in accordance with imaging instruction. Keystone correction circuit corrects keystone distortion occurring in each first image due to change of attitude of body, by keystone correction based on tilt angle corresponding to each first image, and the optical characteristic, thereby generating plurality second images. Composite circuit generates third image by compositing second images.

Method and device for generating a stream from image(s) of an object is disclosed. The method includes the steps of obtaining data associated with points of a point cloud representing at least a part of the object, obtaining a parametric surface according to at least a geometric characteristic associated with the at least a part of the object and pose information of an acquisition device used to acquire the at least one image, obtaining a height map and one or more texture maps associated with the parametric surface, and generating the stream by combining together a first syntax element relative to the at least a parameter, a second syntax element relative to the height map, a third syntax element relative to the at least one texture map and a fourth syntax element relative to a position of the acquisition device. The disclosure relates further to a method and device for rendering an image of the object from the stream thus obtained.

According to one embodiment, a medical diagnostic apparatus causes first display circuitry to display the medical image, generates a first compressed image by compressing the medical image, and wirelessly transmits the first compressed image. If marker information including position information is generated and wirelessly transmitted from the terminal device, the medical diagnostic apparatus receives the marker information. The medical diagnostic apparatus causes the first display circuitry to display a composite image in which a marker is composited on the medical image, based on the marker information. The medical diagnostic apparatus stores in storage circuitry the medical image which constitutes the composite image in accordance with a storage request.

Disclosed is a signal processing device and an image display apparatus including the same. In the signal processing device and the image display apparatus according to the present disclosure, a High Dynamic Range (HDR) processor receives an image signal and adjust a luminance of the image signal, and a reduction unit configured to amplify the adjusted luminance of the image signal and increase a resolution of the grayscale of the image signal to generate an enhanced image signal, wherein the enhanced image signal provides an increased luminance and grayscale resolution of the image signal while maintaining high dynamic range within the displayed HDR image. Accordingly, expression of high grayscale of a received image may improve.

An apparatus and method for receiving and displaying a television signal and a data signal in a mobile terminal. The mobile terminal includes a display unit with a video data display area and a user data display area. The mobile terminal determines in a standby mode whether it is set to a television mode or communication mode. If the mobile terminal is set to the television mode, it controls a tuner to select a desired television channel. The mobile terminal stores video data of a current frame received over the selected channel and user data corresponding to the selected channel in a memory unit, outputs video data of a previous frame stored in the memory unit to the video data display area of the display unit in a frame period and then outputs the user data stored in the memory unit to the user data display area of the display unit upon completing the output of the video data of the previous frame. In the communication mode, the mobile terminal stops the operation of the tuner and displays user data generated in the communication mode in the video data display area and user data display area.

A digital device and a method for controlling the digital device are disclosed in this specification. Herein, according to an exemplary embodiment of the present invention, a targeted device being controlled by a control command received through at least one or more controlling devices includes a first receiving unit receiving content, a second receiving unit receiving a voice signal or text data respective to the voice signal from the controlling device, a decoder decoding the content, a processing unit processing the text data, a controlling unit identifying whether or not text data received from the processing data include a control command, controlling an output of a voice interface in response to a reception of the identified text data, configuring a result screen respective to the processed data and controlling an output of the result screen, and performing control operations so as to execute functions corresponding to the outputted result screen, and an outputting unit outputting the decoded content, the voice interface and its result screen or its function execution screen.