A liquid crystal display (LCD) includes several transparent material layers and several non-transparent material layers that are disposed in a stacked mode. The LCD also a local transparent region, and no non-transparent material is applied to the several non-transparent material layers in the local transparent region. This forms a transparent channel in the local transparent region along a stacking direction. An optical component is completely or partially disposed in the transparent channel of the LCD display. The optical component may be a camera, an ambient light sensor, an optical fingerprint sensor, or another component disposed under the display by using the local transparent region on the LCD display.

A shooting method applied to the electronic device including a display screen and a camera. The display screen includes a first polarizer and a second polarizer, and a liquid crystal is arranged between the first polarizer and the second polarizer. The method includes: adjusting an electrode voltage of the display screen as a target voltage value, where in a case that the electrode voltage of the display screen is the target voltage value, and a light transmittance of the display screen meets a preset condition; and acquiring a first image through the camera.

A second intercom station when activated activates camera means to take a picture of a user and sends the picture to a first intercom station in an MMS and automatically and substantially simultaneously attempts to connect via a voice call to the first intercom station. The first intercom station displays the picture and substantially simultaneously receives the voice call connection attempt from the second intercom station when the MMS is received. The first intercom station comprises means to reject or accept the voice call. If the voice call is accepted then two-way voice communication between the first and second station is enabled, and if the voice call is rejected then two-way voice communication between the first and second station is not enabled.

An electronic device is provide, which includes a body, an image capture device, a display, a motor, at least two sensors, and a processor. The image capture device is rotatably disposed on the body, for capturing an image. The display is disposed on the body of the first side. The motor is electrically connected to the image capture device, for driving the image capture device to rotate with a flip angle to make the image capture device to be located at a first position, a second position, or a position between the first position and the second position. The two sensors are respectively disposed on the image capture device and the body, for sensing the flip angle of the image capture device. The processor is electrically connected to the image capture device, the display, the motor and the at least two sensors, for controlling the motor.

One variation of a method for securing synthetic video conference feeds includes, during a setup period: accessing a target image depicting a face of a user; generating a face model based on a target set of facial features detected in the target image; and linking the face model to a target set of facial biometric values of the user. The method also includes, during an operating period succeeding the setup period: accessing a frame; deriving characteristics of a set of facial features detected in the frame; extracting a set of facial biometric values from the frame; in response to alignment between the target set of facial biometric values and the set of facial biometric values, generating a synthetic face image based on characteristics of the set of facial features, the face model, and a synthetic face generator; and rendering the synthetic face image in place of the frame.

A 3D conversation system can facilitate 3D conversations in an augmented reality environment, allowing conversation participants to appear as if they are face-to-face. The 3D conversation system can accomplish this with a pipeline of data processing stages, which can include calibrate, capture, tag and filter, compress, decompress, reconstruct, render, and display stages. Generally, the pipeline can capture images of the sending user, create intermediate representations, transform the representations to convert from the orientation the images were taken from to a viewpoint of the receiving user, and output images of the sending user, from the viewpoint of the receiving user, in synchronization with audio captured from the sending user. Such a 3D conversation can take place between two or more sender/receiving systems and, in some implementations can be mediated by one or more server systems. In various configurations, stages of the pipeline can be customized based on a conversation context.

A method of collaborating between a first computer associated with a first display at a first location and a second computer associated with a second display at a second location may include establishing a connection between the first and second computers, opening a virtual canvas on the first computer, the virtual canvas to be displayed on the first and second displays simultaneously, and sending an object between the first and second computers by sending data associated with the object on the virtual canvas stored on the first computer to the second computer to be stored locally, thereby creating a shared canvas on which objects are at a single location. Video conferencing may include sending a first live video stream from the first display to the second display to be viewed in a first video conference window separate from the virtual canvas on the second display and vice versa.

One example may include a method that includes receiving, at a server, a data set from one or more mobile devices located in a presentation space, combining the received data set with additional data to create a combined data set, creating a presentation signal based on the combined data set, subtracting a portion of one or more of the data set and the additional data set from the combined data set to create a modified presentation signal, forwarding the modified presentation signal to one or more of a display and a loudspeaker located in the presentation space, and playing the modified presentation signal via one or more of the loudspeaker and the display device.

The present disclosure relates an LCD display module and a mobile terminal, the LCD display module includes: a display screen and a flexible printed circuit led out from a top of the display screen, where the top of the display screen is provided with a recessed portion for accommodating a functional module of a mobile terminal, and the flexible printed circuit is provided with an opening at a position corresponding to the recessed portion.

The present disclosure relates to remote medical examination of a patient, and, more specifically, to a remote exam attachment that, along with a user device, may capture images of an anatomical feature for examination of a patient. The remote exam attachment may include a lens and may couple to an examination tool, such as a speculum, a scope, or a tongue depressor, which may be used with a camera of the user device. The user device may be configured to adjust one or more settings of the camera, such as the zoom, field of view, aperture, and/or the like. The user device may further be configured to transmit an image captured in conjunction with the remote exam attachment to another user device. Accordingly, the remote exam attachment, along with the user device, may capture, display, and/or transmit images of an anatomical feature, facilitating remote examination of a patient.