A system and method provide customizable interactive audio/video content to each of a plurality of computing devices. When executing at least some code stored in the memory, a processor generates a coordinated presentation by integrating in the memory, via a video mixer, one or more images from a camera with content selected by at least one user. Further the at least one processor is configured to process the coordinated presentation to provide an abridged version of the coordinated presentation at at least one of the remote devices.

A transparent display system is provided where broadcast talent (or presenter) can see interactive content, tool palettes, prompts (and the like) as well as their own sketches and annotations, but a viewing audience sees only the broadcast talent and content intended for the viewing audience with the talent's annotation thereof. A transparent scattering screen together with optical filtering or gating of a first optical property of the light (e.g., polarization-based or wavelength-based) is used such that the first property of the light is projected onto the screen so the talent can see the projection, and a camera-side filter blocks the first property of the light so it is not seen by the camera. Simultaneously, a broadcast talent (or presenter) is illuminated by light having properties other than the first property, which allows the talent image to pass through the screen and the camera-side filter allowing the talent to be seen by camera. In some embodiments, a transparent two-sided display screen allows people on opposite sides of the screen to see each other, as well as independent 2D or 3D content from each person's side of the screen.

Techniques performed by a data processing system for a machine learning driven teleprompter include displaying a teleprompter transcript associated with a presentation on a display of a computing device associated with a presenter; receiving audio content of the presentation including speech of the presenter in which the presenter is reading the teleprompter transcript; analyzing the audio content of the presentation using a first machine learning model to obtain a real-time textual translation of the audio content, the first machine learning model being a natural language processing model trained to receive audio content including speech and to translate the audio content into a textual representation of the speech; analyzing the real-time textual representation and the teleprompter transcript with a second machine learning model to obtain transcript position information; and automatically scrolling the teleprompter transcript on the display of the computing device based on the transcript position information.

Access to a networked communication session is provided to each of a plurality of user computing devices that are each configured with at least a camera, audio input subsystem, and audio output subsystem. During the networked communication session and after an audio input of a first user computing device detects a user speaking, the volume of the audio output subsystem of the first user computing device is adjusted. Further, the volume of the audio input subsystem of each of the other user computing devices is adjusted. Furthermore, after an audio input subsystem of a second user computing device detects a user of the second user computing device speaking, the volume of the audio output subsystem of the second user computing device is adjusted, as is the audio input subsystem of the other respective user computing devices and the audio output subsystem of the first user computing device.

A media prompting assembly enables various input sources to prompt images and text onto a beam splitter mirror with minimal light reflections. The assembly provides at least one interchangeable camera to capture the image from a user; a housing comprising sidewalls and an interchangeable camera panel that encloses the screen and the beam splitter mirror, the camera panel defined by a lens hole that is positioned and sized for operation with a correlating camera; an electronic device provides an image signal to a monitor, the monitor further comprises an internal mirror flip circuit that creates a mirror image of the signal to be projected from the monitor screen; and a beam splitter mirror adjustable and in front of the viewer inside the housing to reflect the image from the screen correctly oriented and readable by the user, so that a user may look directly into a camera when addressing an audience.

Techniques performed by a data processing system for a machine learning driven teleprompter include displaying a teleprompter transcript associated with a presentation on a display of a computing device associated with a presenter; receiving audio content of the presentation including speech of the presenter in which the presenter is reading the teleprompter transcript; analyzing the audio content of the presentation using a first machine learning model to obtain a real-time textual translation of the audio content, the first machine learning model being a natural language processing model trained to receive audio content including speech and to translate the audio content into a textual representation of the speech; analyzing the real-time textual representation and the teleprompter transcript with a second machine learning model to obtain transcript position information; and automatically scrolling the teleprompter transcript on the display of the computing device based on the transcript position information.

A shooting method includes the following steps. A shooting page including a control region and a main display region is displayed, where the control region is used to display at least two effect controls, a more effect control, and a main shooting control, the at least two effect controls correspond to recommended effects according to a preset recommendation parameter; in response to a target slide operation in the main display region, the controls is moved along a sliding direction of the target slide operation, a target control is determined according to the target slide operation; in response to the target control being one effect control, a preview of a target effect corresponding to the target control is displayed on the shooting page, and capturing is performed using the target effect in response to a first trigger operation on the trigger position.

A mobile computing device is provided that comprises a housing having a first part and a second part coupled by a hinge, the first part including a first display and the second part including a second display, wherein the hinge is configured to permit the first and second displays to rotate between angular orientations from a face-to-face angular orientation to a back-to-back angular orientation. The mobile computing device further includes a camera mounted in the first part of the housing and configured to capture image data, the camera and the first display both facing a first direction, and a processor mounted in the housing. In the back-to-back angular orientation, the processor is configured to cause the second display to display the image data while simultaneously causing the first display to display the image data and secondary content.

A system and method for providing aural guidance in imaging a document is disclosed. Visually impaired people may have difficulty when imaging a document with a mobile computing device. The system and method may analyze the image of the document in the imaging device, and output one or more aural directions in order for the user to move the document and/or camera for proper imaging of the document. In that regard, those with visual impairments may be assisted in imaging documents using a mobile computing device.

Various methods and systems are disclosed for near-infrared video compositing techniques and an associated immersive video environment. In an example, a system includes: a system having a visible light sensor and an infrared sensor to capture light from a field of view, and a display screen to reflect a video output projected from a display source. In this system configuration, the display screen is arranged relative to the system to allow infrared light and visible light from a field of view to travel through the display screen and reach the sensors of the camera system, for example, using a hot mirror, a cold mirror, or a beam-splitter.