Chat through computer with multiple virtual assistants who talk to and listen to each other, as well as the human participant(s). Each of the multiple virtual assistants is represented in a visual, virtual reality or augmented reality, display, such as the display built into augmented reality goggles. Each of the multiple virtual assistants is represented in this display by an anthropomorphic avatar (for example, a cartoon style person or robot or talking animal).

In some examples, an electronic device includes a network interface and a processor. The processor is to analyze an audiovisual signal received via the network interface to identify a topic, identify information related to the topic, and cause a display device to display a visual asset for the information in a video representing the audiovisual signal.

When a first user makes a video call with a second user of the other side by using the video call function, a first state is set as a state in which the enclosure is flatly placed on a first surface of an object, and in which a face of the first user is included within a range of an angle of view AV1 of the front camera C1. In the first state, the mobile information terminal 1 detects a first region including the face of the first user from a wide angle image that is captured by the front camera C1, trims a first image corresponding to the first region, creates a transmission image to be transmitted to a terminal of the other side on the basis of the first image, and transmits the transmission image to the terminal of the other side.

Medical software tools platforms utilize a surgical display to provide access to specific medical software tools, such as medically-oriented applications or widgets, that can assist surgeons or surgical team in performing various procedures. In particular, an endoscopic camera may register the momentary rise in the optical signature reflected from a tissue surface and in turn transmit it to a medical image processing system which can also receive patient heart rate data and display relevant anomalies. Changes in various spectral components and the speed at which they change in relation to a source of stimulus (heartbeat, breathing, light source modulation, etc.) may indicate the arrival of blood, contrast agents or oxygen absorption. Combinations of these may indicate various states of differing disease or margins of tumors, and so forth. Also, changes in temperatures, physical dimensions, pressures, photoacoustic pressures and the rate of change may indicate tissue anomalies in comparison to historic values.

A remote engagement system for a live event occurring at a venue includes an output device located at the venue or remotely from the venue for providing audio and/or visual output to at least one recipient. A controller receives signals, such signals being representative of physical reactions of remote viewers and being transmitted from a plurality of user input devices located remotely from each other and from the venue and controls the output device located at the venue or remotely from the venue to provide an audio and/or visual output to people at the venue or located remotely from the venue.

A recording apparatus receives image data and time information that are obtained by capturing a conference from a start time of the conference, sets a specific object from the image data as a target image, detects an event during the conference, and records detection timing of the event, time information in a past before the detection timing, and the image data in association with the time information.

A telecommunication and multimedia management apparatus and method that supports voice and other media communications and that enables users to: (i) participate in multiple conversation modes, including live phone calls, conference calls, instant voice messaging or tactical communications; (ii) review the messages of conversations in either a live mode or a time-shifted mode and to seamlessly transition back and forth between the two modes; (iii) participate in multiple conversations either concurrently or simultaneously; (iv) archive the messages of conversations for later review or processing; and (v) persistently store media either created or received on the communication devices of users. The latter feature enables users to generate or review media when either disconnected from the network or network conditions are poor and to optimize the delivery of media over the network based on network conditions and the intention of the users participating in conversations.

Rectilinear viewport extraction from a region of a wide field of view is described using messaging in the video transmission field. Some embodiments pertain to a method that includes receiving a wide field of view video, receiving position data from a remote coupled user device, selecting a region of interest in the video based on the received position data, extracting the region of interest from the video, generating region metadata describing the extracted region of interest, encoding the extracted region of interest of the video, and transmitting the encoded video with the region metadata to the user device.

Embodiments described herein enable a teleconference among host-side user(s) at a host site and remotely located client-side user(s), wherein a host device is located at the host site, and wherein each of the client-side user(s) uses a respective client device to participate in the teleconference. A host site audio-visual feed is received from the host device. A client data feed is received from the client device of each client-side user. Orientation information for the respective client-side user using a client device is also received. Each client device is provided with the host site audio-visual feed or a modified version thereof. The host device is provided with, for each client device, the client data feed and the orientation information of the client-side user that is using the client device. This enables host-side and client-side users to display visual representations of one another with their respective orientations.

One example method includes receiving, by a compliance auditing server, an indication of an encrypted video conference; sending, by the compliance auditing server, a request to a video conference provider to join a compliance auditing participant to the encrypted video conference, wherein the video conference provider does not have access to the compliance auditing server; receiving and storing, by the compliance auditing server, encrypted streams of audio and video from a plurality of participants in the video conference, wherein: the compliance auditing participant is one of the plurality of participants; and the video conference provider does not have access to the cryptographic meeting key; receiving, by the compliance auditing server after the encrypted video conference has ended, a request for a portion of the encrypted streams of audio and video; and providing, in response to the request, the portion of the encrypted streams of audio and video.