CPC Class H04N

A method of controlling a virtual camera comprising displaying, when a device is in a first orientation, a view of a scene on the device. A location in the scene is determined while the device is in the first orientation, based on user input detected on the device. Controls for the virtual camera on the device are configured to control the virtual camera in response to detecting that an orientation of the device has changed from the first orientation to a second orientation, the configuration of the controls being based on the determined location. Commands for the configured controls are received to control the virtual camera.

Systems and methods for capturing and utilizing multimedia-based analytics to generate predictions about game-play in computer-based games and contests. In an embodiment, a video feed analyzes one or more video feeds frame by frame to determine one or more features within each video frame. Each feature may be collected in a central data collector and converted to one or more metrics about each collected parameter or feature. These metrics may be used to analyze and predict various aspects of the underlying game or contest, such as probability of winning by one side or the other. Further, the predictive data and analytical data may be displayed on a display separate from actual gameplay or may be overlaid upon the game play video feed. In this manner, the overlay video may be synchronized with the original video feed to present predictive data in conjunction with the video data used to influence the predictive data at the time.

Embodiments are directed towards providing video game gameplay incorporating nuanced character movements and context indicators. In a preferred embodiment, the context indicators include movement indicators programmed into a game world to dynamically interact with characters in order to provide real time information about character movements. The character movements and corresponding movement indicators are important to the combat and landscape navigation aspects of the gameplay design. By providing elements that make gameplay more challenging and engaging, the systems and methods described herein make video games more entertaining for players and profitable for game developers and publishers.

A headlamp for a motor vehicle, in particular a front headlamp, includes a first illumination device and a second illumination device for jointly generating a light distribution in front of the headlamp. The first illumination device is provided for generating a static portion of the light distribution and the second illumination device is provided for generating a dynamic portion of the light distribution. The second illumination device has a multi-aperture projection display having an illuminant and a planar digital image generator and also an array of projection lenses. The digital image generator has segments having a variable division of the respective segment into transmissive and light-non-transmissive regions. Each projection lens is assigned to a segment of the digital image generator, such that upon illumination of the array by the illuminant at least some of the segments are projected in front of the headlamp by the assigned projection lenses. The headlamp is configured in such a way that the digital image generator generates the dynamic portion of the light distribution during operation of the headlamp in the motor vehicle by varying the division into transmissive and light-non-transmissive regions for at least some of the segments.

The invention relates to a motor vehicle camera system with an image capture unit and a drive device by means of which the image capture unit can be displaced from a standby position into at least one operating position, wherein the image capture unit is arranged in a mounting chamber of a motor vehicle and the mounting chamber has a movable closing element, wherein said closing element closes the mounting chamber if the image capture unit is in the standby position thereof, and opens the mounting chamber at least partially to the environment if the image capture unit is displaced into an operating position, wherein the closing element is at least partially transparent, and the image capture unit is aligned in the standby position thereof so that the image capture unit in the standby position thereof captures an outer region of the motor vehicle through the closing element.