A predetermined image correction process is automatically performed on an image, and information for identifying that the predetermined image correction process has been performed is displayed in a state that an image having undergone the predetermined image correction process is being displayed.

A method and device for documenting use of at least one implant used in a surgery and/or for the localization thereof. The implant can be provided for a surgery and used in the surgery. The method includes: a) providing a surgical set having a plurality of implants; b) capturing a first sequence of images of the plurality of implants of the surgical set using a device; c) analyzing the sequence of images of the plurality of implants in order to identify each individual implant; d) optionally outputting a signal when one and/or each implant has been identified; e) capturing a second sequence of images of the plurality of implants of the surgical set using the device after a surgery in order to ascertain missing implants; f) classifying a missing implant as used in surgery.

Positions of an image capture device may be used to determine a position-based time-lapse video frame factor. Apparent motion between pairs of images may be used to determine a visual-based time-lapse video frame rate factor. A time-lapse video frame rate for a time-lapse video may be determined based on the position-based time-lapse video frame factor and the visual-based time-lapse video frame rate factor.

The present invention is an image processing device processing an image of a vehicle, comprising a first acquisition unit for acquiring an image showing a situation around the vehicle as a vehicle surrounding image, a second acquisition unit for acquiring information indicating a state of the vehicle, a third acquisition unit for acquiring an image of a driver of the vehicle as a driver image, and an image generation unit for generating an image of the vehicle as a vehicle image based on the information acquired by the second acquisition unit and generating a composite image by superimposing the vehicle image and the driver image on the vehicle surrounding image.

An information processing device is configured to perform a subject of interest setting process of setting a subject of interest for an image group including a plurality of images, and a focusing process of extracting an image including the subject of interest from the image group and bringing the subject of interest into focus in the extracted image.

A display system includes a display (400) configured to display an image, and a display controller (120) configured to control the display such that a periphery image indicating a peripheral situation of a vehicle viewed from a predetermined virtual viewpoint is displayed in a predetermined display region on a display surface, and change the predetermined display region on the basis of a traveling state of the vehicle.

Disclosed in some examples, are methods, systems, and machine-readable mediums for allowing participants of communication sessions joining from conference rooms to indicate a desire to speak using their own personal computing device, and, to automatically frame that user with the conference room camera using a position of the user determined automatically. For example, a user may have a communication application executing on their mobile device that is logged into the network-based conference. If the user wishes to speak, they may activate a control within the application instance executing on their mobile device. The in-room meeting device may then automatically locate the user, and may direct the camera to pan, tilt, or zoom so that the camera frames the user.

The embodiments of the disclosure provide a data processing system, a method for determining coordinates, and a computer readable storage medium. The method includes: receiving a plurality of positioning data, wherein the plurality of positioning data correspond to device positions of a plurality of positioning devices in a real world, and the positioning devices comprise a first positioning device and a second positioning device; in response to determining that the first positioning device is selected as a reference point of a coordinate system of a virtual world, determining a coordinate of the second positioning device in the coordinate system of the virtual world based on a relative position between the device positions of the first positioning device and the second positioning device.

An electronic device according to the present invention includes: a processor; and a memory storing a program which, when executed by the processor, causes the electronic device to: perform control to change a display region of an image in accordance with an orientation change of the electronic device or in accordance with accepting a user operation and display the display region of the image on a screen; and determine a clipping region of the image to be clipped from the image based on a position of the display region of the image, wherein the image includes the display region and the clipping region and the clipping region is wider than the display region.

An apparatus for learning an image of a vehicle camera and a method thereof are provided to apply a result of deep learning to all vehicles regardless of the color of a vehicle and the mounting angle (e.g., yaw, roll and pitch) of a camera. The apparatus includes an image input device that inputs an image photographed by a camera mounted on a vehicle, and a controller that masks a fixed area in the image input from the image input device with a pattern image, converts the masked image into a plurality of images having different views, and performs deep learning by using the masked image and the converted plurality of images.