Methods, apparatus, systems, storage media, etc., to perform media monitoring for mobile platforms using messaging associated with adaptive bitrate streaming are disclosed. An example media platform disclosed herein is to detect an adaptive bitrate streaming uniform resource locator (URL) in an outgoing message to be sent by the mobile platform to stream media in accordance with an adaptive bitrate streaming protocol, and associate the adaptive bitrate streaming URL with a time value. The disclosed example media platform is also to transmit the outgoing message to a first server to cause the media to be streamed to the mobile platform, and transmit the adaptive bitrate streaming URL and the time value to a second server different from the first server to cause a media impression associated with the mobile platform to be monitored.

Methods and system for providing content are disclosed. One method can comprise receiving a request for data at a first time, wherein the data comprises a first time duration, determining a buffer size based upon the first time duration, and determining a playback window based upon the determined buffer size and the first time. The method can also comprise synchronizing presentation of content on a plurality of devices.

This document describes, among other things, systems, methods, devices, and other techniques for using information about how long various videos were presented at client devices to determine subsequent video recommendations and search results. In some implementations, a computing can include a modeling apparatus, a front-end server, a request manager, one or more video file storage devices, a video selector, or a combination of some or all of these. The video selector can select video content for a particular digitized video among a plurality of digitized videos to serve to a computing device responsive to a request. The selection can be based at least in part on how long the particular digitized video has been presented at client devices associated with users having characteristics that match one or more characteristics of the user that submitted the request for video content, as indicated by the modeling apparatus.

One or more embodiments of a video editing system enable one or more users to conveniently edit a digital video. In particular, an online content management system can provide a low resolution version of a digital video to a client device. A user can interact with the low resolution digital video and generate user edits to apply to the digital video. The online content management system can further apply any number of users edits to low and high resolution versions of the digital video at a server device. The video editing system enables users to more conveniently apply iterative edits to digital videos. Additionally, the video editing system enables multiple users to cooperatively edit a digital video from multiple client devices.

The present disclosure relates to a method and an ad decision sever for determining personalized messages during a provisioning of digital content. The method comprises to provide a set of personalized messages candidates by executing a relevance algorithm, which matches message metadata and content metadata. The method continues with receiving calculated network costs for the set of personalized message candidates in order to determine a set of personalized messages, which are optimized with respect to the received network costs by applying a multivariate optimization algorithm.

A method of and system for handling latency issues encountered in producing real-time entertainment such as games of skill synchronized with live or taped televised events is described herein. There are multiple situations that are dealt with regarding latencies in receiving a television signal with respect to real-time entertainment based on the unfolding games played along with the telecasts. Systemic delays, arbitrarily imposed delays of a broadcast signal and variances in the precise broadcast times of taped television programs have to be equalized so as to provide fair entertainment.

A method of and system for handling latency issues encountered in producing real-time entertainment such as games of skill synchronized with live or taped televised events is described herein. There are multiple situations that are dealt with regarding latencies in receiving a television signal with respect to real-time entertainment based on the unfolding games played along with the telecasts. Systemic delays, arbitrarily imposed delays of a broadcast signal and variances in the precise broadcast times of taped television programs have to be equalized so as to provide fair entertainment.

An information processing apparatus includes a predictor configured to predict a throughput of a network, to generate a first predicted value indicative of the predicted throughput, an acquirer configured to acquire, from a server apparatus connected to the network, a second predicted value indicative of a throughput of the network predicted by the server apparatus, a selector configured to select a predicted value with higher prediction accuracy from among the first predicted value and the second predicted value X2, and a requester configured to request a distribution apparatus to transmit a video with a quality based on the predicted value selected by the selector 125.

A digital content storage and delivery system (DCSDS) includes a network interface to communicate data between the DCSDS and a destination device via a network data communication link having limited bandwidth. An input interface receives digital content for handling by the DCSDS. A storage architecture stores recorded video content on behalf of subscriber end users for on-demand playback via the network data communication link, and it caches live streaming video content for distribution via the network data communication link. The DCDS may monitor bandwidth usage of the network data communication link, determine current bandwidth demand for playback of recorded video content stored at the storage architecture, and reserve at least some of the limited bandwidth of the network data communication link to satisfy the determined current bandwidth demand. The available bandwidth is allocated to support distribution of live streaming video from the DCSDS.

An imaging device includes: an imaging unit; an imaging time information storage unit configured to store imaging time information for each imaging direction; and a distribution information generation unit configured to sequentially acquire frames from an image signal, cut out partial image information of a preset cutout range, generate distribution image information, specify an imaging direction with the longest imaging time at a predetermined determination timing, determine whether the partial image information of the cutout range acquired when the specified imaging direction is captured is included in an imaging angle of view after an imaging direction has changed, and when it is determined as being included, cut out a range corresponding to the partial image information of the cutout range acquired when the specified imaging direction is captured, from a frame to be acquired subsequently, thereby generating the distribution image information.