The present application provides an RGB light strips display method, device and computer readable storage medium, wherein the method comprises: establishing a mapping relationship between each odd and even pixel positions in the rotation display area of the alternating RGB light strips and each odd and even pixel points in the image to be displayed, and generates an alternating radius scanning coordinate conversion table; wherein the alternating RGB light strips is composed of two RGB light strips intersected, the RGB light strips is composed of an odd radius light strip and an even radius light strip, the odd radius light strip is used to display odd pixel points in the image to be displayed, the even radius light strip is used to scan the even pixel points in the image to be displayed; and then, according to the alternating radius scanning coordinate conversion table, the pixel point sampling is performed on the image to be displayed to obtain the displayed chrominance information corresponding to the each odd and even pixel positions in the rotation display area; finally, in the process of rotating the alternating RGB light strips, according to the current rotational angle of the alternating RGB light strips and the displayed chrominance information corresponding to the each odd and even pixel positions in the rotation display area to extract and refresh the RGB light strips display data. The present application can exhibit a naked eye stereoscopic display effect.

It is provided a method for viewing an image that is wider or higher than the display screen, wherein, the image is evenly divided into two portions by using a line passing through centers of larger edges of the image compared to the display screen. The method comprises, at the side of shutter glasses, the steps of receiving a message indicating display of a first portion of the two portions; turning dark of the shutter glasses and turning refraction direction of the shutter glasses towards a first position; turning transparent of the shutter glasses; receiving a message indicating display of a second portion of the two portions; turning dark of the shutter glasses and turning refraction direction of the shutter glasses towards a second position; and turning transparent of the shutter glasses.

A sensor information processing apparatus according to an embodiment of the present invention includes: an obtainment unit configured to obtain sensor information indicating a result of measurement performed by a sensor; a display control unit configured to perform control of displaying on a screen an icon indicating the sensor; and a determination unit configured to determine presence/absence of abnormality regarding the sensor information obtained by the obtainment unit, wherein in a state where the display control unit is performing control of selectively displaying on the screen the icon of the sensor having been designated, and when abnormality has been determined by the determination unit, the display control unit performs control of displaying on the screen a target icon irrespectively of presence/absence of designation thereof, the target icon being an icon of a sensor that corresponds to the sensor information for which abnormality has been determined.

The present disclosure relates to an image processing apparatus and a method which enable a sense of quality as if there were a real object to be more favorably reproduced. A characteristic control unit determines processing contents for controlling the sense of quality, for example, changing an image quality, adjusting a reflection characteristic, or changing a shape, on the basis of a physical characteristic parameter from a characteristic information integration unit and device information from a device information analyzer. The characteristic control unit supplies information on the determined processing contents to an image composition unit and an additional-information generation unit and causes the image composition unit and the additional-information generation unit to perform sense-of-quality control. That is, in the image processing apparatus, more realistic visual expression becomes possible with an image output of one device as well as an output other than an image from another device.

The present invention provides a system which integrates unique lighting technologies, switching systems, mounting systems, information delivery systems and power supply systems within a support such as vehicular wheel to provide an advanced, high quality visual display apparatus in various surfaces of rotation. A displayed image may be three dimensional. These technologies, and their many unique applications, provide for a novel and useful series of video display devices that are small, lightweight, efficient and can have the capability of producing a clear, bright, high definition image that is equivalent to that of a modern day TV or high quality computer monitor.

A target view to a 3D scene depicted by a multiview image is determined. The multiview image comprising sampled views at sampled view positions distributed throughout a viewing volume. Each sampled view in the sampled views comprises a wide-field-of-view (WFOV) image and a WFOV depth map as seen from a respective sampled view position in the sampled view positions. The target view is used to select, from the sampled views, a set of sampled views. A display image is caused to be rendered on a display of a wearable device. The display image is generated based on a WFOV image and a WFOV depth map for each sampled view in the set of sampled views.

Apparatuses and methods for displaying a 3-D representation of an object are described. Apparatuses can include a rotatable structure, motor, and multiple light field sub-displays disposed on the rotatable structure. The apparatuses can store a light field image to be displayed, the light field image providing multiple different views of the object at different viewing directions. A processor can drive the motor to rotate the rotatable structure and map the light field image to each of the light field sub-displays based in part on the rotation angle, and illuminate the light field sub-displays based in part on the mapped light field image. The apparatuses can include a display panel configured to be viewed from a fiducial viewing direction, where the display panel is curved out of a plane that is perpendicular to the fiducial viewing direction, and a plurality of light field sub-displays disposed on the display panel.

A messaging apparatus for wearable items. The messaging apparatus may comprise a light source, at least one sensor to detect an event, and a controller to control the flashing of the light source in response to the detection of the event. The controlling of the flashing of the light source may generate at least one visible element that is visible to a viewer. Further, the light source may not be adapted in the form of the at least one visible element, but rather, the controlled flashing of the light source may be in the form of the at least one visible element.

Apparatuses for providing a portable display, such as temporary signage or telepresence communication capabilities, as well as methods for providing a portable display are described. A portable display apparatus includes a base, a collapsible component extending from the base and a plurality of light emitting devices coupled to the collapsible component. The collapsible component is configured to transition from a collapsed position to an extended position. The plurality of light emitting devices are arranged in a movable configuration such that, when the collapsible component is in the extended position, the plurality of light emitting devices rotate around the collapsible component and selectively illuminate to provide a display.

Disclosed is a VR/AR device. In one embodiment, a device is disclosed comprising a housing comprising a processor disposed within the housing; a telescopic member connected to the housing via a rotatable connector at a first end of the telescopic member; and a display device connected to a second end of the telescopic member, the display device communicatively coupled to the processor and configured to rotate about an axis of the telescopic member while displaying virtual or augment reality content.