A system that generates animated visual cues for providing previews that indicate the availability of associated content is provided. The system can display a landing page in response to a command to display selected content, such as messages of a chat session. The landing page generates a visual cue that displays an animated preview of associated content, such as files related to the chat session, concurrently with the selected content before transitioning to view that shows the selected content, such as a chat session UI. The disclosed techniques also enable systems to generate a visual bounce cue providing awareness of salient content. For example, a device displaying selected content, e.g., messages in a chat session UI, may create a controlled animated movement of the chat session UI to let a user know of an update to associated content that may be displayed in a UI layer under the selected content.

An electronic presentation system comprising: one or more computer processors operatively coupled to one or more computer memories storing a set of instructions for configuring the one or more computer processors to perform operations comprising: causing display of a motion picture image sequence (MPIS) captured at a first computing device, within display screens at multiple computing devices; causing display of first multiple content items, on the display screens of the multiple computing devices, separate from the MPIS; and based at least in part upon receiving at the presentation management system from the first computing device, first relocation information indicating a first content item, causing relocation of display of the of the first content item, to within the MPIS displayed at the multiple computing devices.

An electronic presentation system comprising: one or more computer processors operatively coupled to one or more computer memories storing a set of instructions for configuring the one or more computer processors to perform operations comprising: causing display of a motion picture image sequence (MPIS) captured at a first computing device, within display screens at multiple computing devices; causing display of first multiple content items, on the display screens of the multiple computing devices, separate from the MPIS; and based at least in part upon receiving at the presentation management system from the first computing device, first relocation information indicating a first content item, causing relocation of display of the of the first content item, to within the MPIS displayed at the multiple computing devices.

According to an embodiment of the present disclosure, a display device may include a wireless communication unit configured to wirelessly receive a first video signal based on a first video being displayed by a terminal, a display unit configured to display a first mirroring video based on the first video signal, and a control unit configured to receive a user input while the first mirroring video is being displayed, and transmit, to the terminal, a packet that does not include a mouse cursor parameter for requesting coordinates of a mouse cursor when the received user input is a touch input.

According to an embodiment of the present disclosure, a display device may include a wireless communication unit configured to wirelessly receive a first video signal based on a first video being displayed by a terminal, a display unit configured to display a first mirroring video based on the first video signal, and a control unit configured to receive a user input while the first mirroring video is being displayed, and transmit, to the terminal, a packet that does not include a mouse cursor parameter for requesting coordinates of a mouse cursor when the received user input is a touch input.

A system for promoting user manipulation of pointing device while operating keyboard is provided. The system comprises a computer, a USB device coupled to the computer, and a handheld wireless pointing device with a first surface positioned against a palm of a user's hand. The device receives tactile contact from a thumb of the hand on a touchpad on a second surface, the second surface opposite the first surface and facing away from the palm. The device also measures movement of the thumb on the second surface and transmits messaging to the USB regarding the measured movement. The USB, based on the received messaging, directs movement of a cursor on a display of the computer. The movement of the cursor is aligned with the movement of the thumb. The device receives attachment to the hand via loops attached to user index and middle fingers.

A system for promoting user manipulation of pointing device while operating keyboard is provided. The system comprises a computer, a USB device coupled to the computer, and a handheld wireless pointing device with a first surface positioned against a palm of a user's hand. The device receives tactile contact from a thumb of the hand on a touchpad on a second surface, the second surface opposite the first surface and facing away from the palm. The device also measures movement of the thumb on the second surface and transmits messaging to the USB regarding the measured movement. The USB, based on the received messaging, directs movement of a cursor on a display of the computer. The movement of the cursor is aligned with the movement of the thumb. The device receives attachment to the hand via loops attached to user index and middle fingers.

A holographic reality system and multiview display monitor a user position and provide virtual haptic feedback to the user. The holographic reality system includes a multiview display configured to display a multiview image, a position sensor configured to monitor the user position, and a virtual haptic feedback unit configured to provide the virtual haptic feedback. An extent of the virtual haptic feedback corresponds to an extent of a virtual control within the multiview image. The holographic reality multiview display includes an array of multiview pixels configured to provide different views of the multiview image by modulating directional light beams having directions corresponding to the different views and an array of multibeam elements configured to provide the directional light beams to corresponding multiview pixels.

A holographic reality system and multiview display monitor a user position and provide virtual haptic feedback to the user. The holographic reality system includes a multiview display configured to display a multiview image, a position sensor configured to monitor the user position, and a virtual haptic feedback unit configured to provide the virtual haptic feedback. An extent of the virtual haptic feedback corresponds to an extent of a virtual control within the multiview image. The holographic reality multiview display includes an array of multiview pixels configured to provide different views of the multiview image by modulating directional light beams having directions corresponding to the different views and an array of multibeam elements configured to provide the directional light beams to corresponding multiview pixels.

A method for user interaction in a CAE/CAD system comprises displaying to a user a graphical user interface (2) with a model display region (3) and a control region (5) for controlling operation of the CAE/CAD system, and an accept button (9). The accept button (9) can be in an active state, signifying that the CAE/CAD system is ready to perform operations defined by user input when the accept button (9) is clicked.

When the accept button (9) is in the active state, the CAE/CAD system graphically indicates to the user an extended apply region (11) which, when a clicking operation takes place inside it, will cause the CAE/CAD system to perform the same operations as when the accept button (9) is clicked.