A video data obtaining method comprises: deploying at least two simulators, each of the at least two simulators being used to simulate operation of one mobile terminal; sending video access requests to a server respectively by means of the at least two simulators; and respectively receiving, by means of the at least two simulators, video data returned by the server according to the corresponding video access requests. During the respectively receiving, by means of the at least two simulators, video data returned by the server according to the corresponding video access requests, the obtaining method further comprises: intercepting the video data returned by the server according to the corresponding video access requests, and storing the intercepted video data in a set database.

A video data obtaining method comprises: deploying at least two simulators, each of the at least two simulators being used to simulate operation of one mobile terminal; sending video access requests to a server respectively by means of the at least two simulators; and respectively receiving, by means of the at least two simulators, video data returned by the server according to the corresponding video access requests. During the respectively receiving, by means of the at least two simulators, video data returned by the server according to the corresponding video access requests, the obtaining method further comprises: intercepting the video data returned by the server according to the corresponding video access requests, and storing the intercepted video data in a set database.

A computer-implemented method for preserving media streams may include (i) identifying a media stream transmitted by a client device to a server that hosts the media stream for access by additional devices, (ii) detecting that the server is expected to go offline, (iii) sending, in response to detecting that the server is expected to go offline, a message to the client device indicating that the server is expected to go offline, (iv) receiving, at an additional server, a request from the client device to host the media stream, and (v) in response to receiving the request, hosting the media stream at the additional server while ceasing to host the media stream at the server that is expected to go offline. Various other methods, systems, and computer-readable media are also disclosed.

A method and a system configured to execute the mentioned method is suggested, where the method is capturing media content associated with at least one object, using a plurality of media capturing devices, each carried by a mobile communication device, together forming a mobile media device. The method comprise: controlling each of the mobile media devices according to a respective, predefined role and role specific rules for mobile media device movements, while capturing media content, following the movement of the at least one determined object; acquiring sensor data, indicative of the mobile media device movements, from the mobile media devices, and updating the roles of the mobile media devices, based on the acquired sensor data.

A method and a system configured to execute the mentioned method is suggested, where the method is capturing media content associated with at least one object, using a plurality of media capturing devices, each carried by a mobile communication device, together forming a mobile media device. The method comprise: controlling each of the mobile media devices according to a respective, predefined role and role specific rules for mobile media device movements, while capturing media content, following the movement of the at least one determined object; acquiring sensor data, indicative of the mobile media device movements, from the mobile media devices, and updating the roles of the mobile media devices, based on the acquired sensor data.

An apparatus including an interface and a processor. The interface may be configured to receive pixel data generated by a capture device. The processor may be configured to generate video frames in response to the pixel data, perform computer vision operations on the video frames to detect objects, perform a classification of the objects detected based on characteristics of the objects, determine whether the classification of the objects corresponds to a user-defined event and generate encoded video frames from the video frames. The encoded video frames may be communicated to a cloud storage service. The encoded video frames may comprise a first sample of the video frames selected at a first rate when the user-defined event is not detected and a second sample of the video frames selected at a second rate while the user-defined event is detected. The second rate may be greater than the first rate.

An apparatus including an interface and a processor. The interface may be configured to receive pixel data generated by a capture device. The processor may be configured to generate video frames in response to the pixel data, perform computer vision operations on the video frames to detect objects, perform a classification of the objects detected based on characteristics of the objects, determine whether the classification of the objects corresponds to a user-defined event and generate encoded video frames from the video frames. The encoded video frames may be communicated to a cloud storage service. The encoded video frames may comprise a first sample of the video frames selected at a first rate when the user-defined event is not detected and a second sample of the video frames selected at a second rate while the user-defined event is detected. The second rate may be greater than the first rate.

Methods, systems, and computer readable medium with instructions for generating a master video, including receiving input from a video creator that initiates a video project, soliciting video file responses from respondents, and receiving video files from respondents, combining the video files into a master video file which corresponds to a master video. The video files correspond with master video segments of the master video. A relative position of each of the master video segments in the master video is based on a formulated sequence. The system may include one or more processors; one or more data storage devices; one or more input devices; one or more output devices; a network interface; and at least one communications bus operably interconnecting the other elements. The one or more data storage devices includes the instructions which are executed by the one or more of the processors.

Disclosed herein are systems, methods, and non-transitory computer-readable storage media for uploading, by a verified party, verified-party content to a media platform, receiving requests by a client device for store content, and displaying the uploaded verified-party content along with store content on the client device.

Disclosed herein are systems, methods, and non-transitory computer-readable storage media for uploading, by a verified party, verified-party content to a media platform, receiving requests by a client device for store content, and displaying the uploaded verified-party content along with store content on the client device.