An embodiment of an electronic processing system may include an application processor, persistent storage media communicatively coupled to the application processor, a graphics subsystem communicatively coupled to the application processor, an object space adjuster communicatively coupled to the graphics subsystem to adjust an object space parameter based on a screen space parameter, and a sample adjuster communicatively coupled to the graphics subsystem to adjust a sample parameter of the graphics subsystem based on a detected condition. Other embodiments are disclosed and claimed.

The present technology relates to an information processing device, an information processing method, a program, and a movable object that enable prevention of a user from suffering from motion sickness. The information processing device includes: a display-position setting unit configured to move, on the basis of the motion of a movable object, the display position of a first picture viewed from a predetermined point of view of the movable object; and a display control unit configured to perform display control based on the display position set. The present technology can be applied to, for example, a vehicle that displays a picture in superimposition on the ambient scenery.

The technical problem of enhancing the quality of an image captured in low light conditions by a front facing camera is addressed by providing an adaptive front flash system. An adaptive front flash system automatically adjusts configuration parameters of an overlaid view that operates in lieu of a front flash, termed a front flash view. The configuration parameters are adjusted based on characteristics of the output of the digital image sensor of the front facing camera. Examples of configuration parameters of the front flash view include one or more of brightness of the display, color temperature of the front flash view, and transparency of the front flash view.

An overdrive system includes a compressor that compresses an input signal to result in a compressed signal; a weighting device that generates a weighted sum of a current compressed signal and a current input signal, thereby resulting in a weighted current signal; and an overdriver that performs an overdrive operation according to a previous compressed signal and the weighted current signal.

A device and a method for performing AR image display control in which flicker in a boundary region between a virtual object and a real object is not noticeable are provided. A real object detection unit that executes processing of detecting a real object in a real world, and an augmented reality (AR) image display control unit that generates an AR image visually recognized in such a manner that a virtual object exists in a same space as a real object and outputs the AR image to a display unit are included, in which the AR image display control unit, in a case where a position of the real object detected by the real object detection unit is on a near side in a depth direction with respect to a position where the virtual object to be displayed on the display unit is arranged, an additional virtual object is output to the display unit on the near side in the depth direction with respect to the position of the real object in such a manner as to hide at least a partial region of a boundary region between the virtual object and the real object.

A projection system performs projection so that a projection range of a first projection portion and a projection range of a second projection portion are partially overlapped with each other, and includes a processor configured to: perform a control of shifting, from the first state as defined herein, to the second state as defined herein; and execute a control of adjusting a relative position between a first projection range of the first projection portion and a second projection range of the second projection portion in accordance with a received instruction.

A display control apparatus includes a captured data acquisition unit, a motion state detection unit, an extracted image data generation unit, a display image data generation unit, and an output unit. The captured data acquisition unit is configured to acquire captured data generated as a result of a camera capturing scenery outside a vehicle. The motion state detection unit is configured to detect a motion state of the vehicle. The extracted image data generation unit is configured to generate an extracted image from the captured data by using an angle of view set in accordance with the motion state. The display image data generation unit is configured to generate display image data related to a display image having a preset image size, from extracted image data. The output unit is configured to output the display image to a display unit having the image size.

In an example in accordance with the present disclosure, an electronic device is described. The electronic device includes a camera to capture an image of a user facing the electronic device. An image analyzer of the electronic device determines a characteristic of the user from the image of the user. The electronic device also includes a presentation controller. The presentation controller 1) selects a presentation characteristic based on a determined characteristic of the user and 2) alters a display of the electronic device based on a selected presentation characteristic.

An embodiment modular light-emitting diode (LED) display panel includes attachment points for use in attachment as part of a multi-panel modular LED display, a printed circuit board including a first side and an opposite second side, and a plastic casing attached to the opposite second side of the printed circuit board. A perimeter of the plastic casing is substantially rectangular and has a height and a width. The modular LED display panel further includes a display surface including a plurality of LEDs arranged as pixels and attached to the first side of the printed circuit board. The pixels are arranged in a rectangular array including at least fifty pixels. Each of the pixels of the rectangular array is spaced from each respective adjacent pixel of the rectangular array by a pitch. The pitch is a predetermined constant number. The pitch does not depend on the height and the width.

Systems and methods are disclosed and include a needle control module that includes a processor configured to execute instructions stored in a nontransitory computer-readable medium, a motor driver circuit in communication with the needle control module, the motor driver circuit controlling a stepper motor attached to a needle, and a housing enclosing the needle control module, the motor driver circuit, and the stepper motor, the housing being physically attached to a display of a vehicle. In response to the needle control module receiving a signal representing vehicle state information, the needle control module is configured to instruct the motor driver circuit to control movement of the stepper motor and adjust a position of the needle based on the signal.