The present application discloses a display adjustment method and a display device. The method comprises steps of: obtaining a first pixel data of an image displayed by the display device; converting the first pixel data into a second pixel data after the first pixel data enters a timing controller; converting at least one of the second pixel data into sub-pixel data whose amount of stored data is reduced relative to the second pixel data to obtain a corresponding third pixel data; outputting the third pixel data.

The present disclosure provides a processor, a display driving circuit, and an electronic device. The processor includes: a memory being divided into a first part that stores correction data for correcting an image signal, a second part that stores data of an image signal to be displayed, and a third part that stores data of an application to be executed; and an output port configured to transmit the data of the image signal and the correction data stored in the memory to an external display driving circuit, separately.

There is provided an information processing system, an information processing method, and a program capable of adaptively controlling a display on a display surface in response to an operation of moving an object in a certain display surface with respect to a transfer object. The information processing system includes a processing unit that performs, on a first display surface, a predetermined display control indicating that one or more pieces of display information in a second display surface corresponding to the first display surface is changed to be operable in the first display surface when a first operation for a first user to move a first object to a detection area having a predetermined positional relationship with one or more predetermined transfer objects positioned in the first display surface, and changes a display state of the second display surface based on a detection result of a second operation by the first user after the first operation.

Described are various embodiments of a light field display, adjusted pixel rendering method and computer-readable medium therefor, and vision correction system and method using same addressing astigmatism or similar conditions. In one embodiment, a computer-implemented method is provided to automatically adjust user perception of an input image to be rendered on a digital display via a set of pixels thereof, wherein the digital display has an array of light field shaping elements.

In a display device with two liquid crystal cells, image quality deterioration depending on brightness and darkness of an environment is reduced. For this purpose, as an image signal for a liquid crystal display panel in which a display image is generated by light passing through a rear liquid crystal cell and a front liquid crystal cell, an image processing unit generates a rear image signal for the rear liquid crystal cell and a front image signal for the front liquid crystal cell. This image processing unit performs a spatial filter process on the rear image signal. Then, a filter control unit controls the spatial filter process performed on the rear image signal in the image processing unit on the basis of a detection value of an illuminance sensor that detects illuminance around the display panel.

Provided are a medical image processing apparatus, a processor device, a medical image processing method, and a program that may suppress hindrance of visual recognition of a medical image when a region of interest in the medical image is reported. A medical image processing apparatus includes an image acquisition unit (40) that acquires an endoscopic image (38), a region-of-interest detection unit (41) that detects regions of interest, an emphasis candidate region setting unit (42a) that sets, for each of the regions of interest, an emphasis candidate region that is a candidate for an emphasis region for emphasizing the region of interest when the endoscopic image is displayed using a monitor device (16), an emphasis region adjustment unit (42b) that sets, in a case where two or more regions of interest are detected, the emphasis region obtained by merging the emphasis candidate regions respectively corresponding to the two or more regions of interest in accordance with a distance between the two or more regions of interest, and a display control unit (44) that causes the monitor device to display the emphasis region.

A method of compensating for degradation of a display device includes sensing a first sensing current flowing through a sensing line connected to a pixel, which includes a programming period for writing a data voltage of a predetermined color to a storage capacitor of the pixel, sensing a sensing voltage of the sensing line, which includes a period for charging a line capacitor connected to the sensing line, estimating a voltage of an anode electrode of an organic light emitting diode using a second sensing current estimated from the first sensing current and the sensing voltage, and determining a degradation compensation value using the voltage of the anode electrode.

Described are various embodiments of a light field display, adjusted pixel rendering method and computer-readable medium therefor, and vision correction system and method using same addressing astigmatism or similar conditions. In one embodiment, a computer-implemented method is provided to automatically adjust user perception of an input image to be rendered on a digital display via a set of pixels thereof, wherein the digital display has an array of light field shaping elements.

An input information acquiring section accepts a user's operation. A texture region acquiring section acquires a region of a display image to be presented by use of a texture. A velocity acquiring section acquires for each pixel a movement velocity vector of the texture on a plane of the display image. A texture referencing section adjusts a reference range in an axial direction of the velocity vector in keeping with a magnitude of the movement velocity, before sampling texel values. A pixel value determining section determines a pixel value on the basis of the texel values. An output section outputs the display image.

Image data having parts that change in sine wave shape or cosine wave shape in the horizontal direction and the vertical direction is used as current measurement patterns. A current measuring unit measures current flowing in a power source line from all of organic EL elements included in a display unit. A current distribution pattern generating unit generates a current distribution pattern by performing a two-dimensional inverse discrete Fourier transform on a plurality of current values measured when the current measurement patterns are displayed in order. An image signal correcting unit corrects an image signal on the basis of the current distribution pattern and a cumulative added value of an image signal. Accordingly, the extent of performance degradation of the organic EL elements is estimated, and uneven brightness in the display screen is prevented.