Jan 15, 2008

HD Logging Article Feature in TVB Europe

The following article is scheduled to be published in TVB Europe Magazine in Q1 2008

by Gary Learner, Volicon CTO

The ability to monitor and log aired video content has long been a critical requirement for broadcasters to ensure the integrity of their on-air product, but it has taken on even more important and complex dimensions as high-definition (HD) television transforms operations. In this article, we will explore the emerging world of HD broadcast monitoring, including the options available to broadcasters and what to look for when evaluating HD monitoring systems.

Monitoring systems play a vital role in broadcasting operations by providing a continuous log of as-aired programming and an efficient means of searching for, retrieving, viewing, analyzing, and exporting the archived video. Applications range from validating as-run material for advertisers and troubleshooting transmission errors to providing documentation of compliance with federally mandated regulations such as closed captioning. In particular, the regulatory-legal realm has helped to move monitoring systems beyond the “nice to have” category to business-critical, especially in recent years as the burden of proof has shifted from complainants to broadcasters to demonstrate that a certain video segment has not violated any communications laws. Now, all stations are mandated to provide proof of broadcast, of sufficient quality to be acceptable in court, for use in the event a complaint is filed against a station.

As broadcasters scramble to meet viewers’ growing demand for HD programming and be among the first in their markets to deliver content in the new format, the need for monitoring and logging is no less critical. However, most monitoring systems available today are unable to accept an HD signal, which leaves these broadcasters with few other options. One technique is to use downconversion equipment to transcode the HD signal back to standard definition, which can then be accepted by a conventional monitoring system – but this solution has serious drawbacks. First, many types of native HD signals contain metadata, such as closed captioning, that can’t be downconverted without an additional investment in expensive equipment. In addition, HD signals contain audio recorded in Dolby 5.1 or 7.1, to provide up to eight audio channels for surround-sound home theatre systems. Since SD content is recorded in stereo, the audio for a downconverted HD signal is compressed from eight channels to only two. Since it’s impossible to determine which audio channel created the original signal, detail is lost and troubleshooting audio errors becomes much more difficult.

These customer requirements, coupled with the ever-growing presence of digital, file-based technologies in the production workflow, are driving the emergence of a new class of solutions designed specifically for HD signal logging and monitoring. These systems accept signals from any HD-SDI interface with embedded audio, and they are optimized for HD’s 16:9 aspect ratio – enabling stations to perform quality checks on audio and video and confirm the presence of closed captions. As the competitive marketplace for HD broadcasting heats up, the new monitoring systems give stations a powerful advantage by enabling them to evaluate their broadcasts and compare content and ratings to the HD offerings of competing stations.

In the ideal production environment, HD monitoring systems should be installed at multiple points in the broadcast stream, at multiple production stages – for instance, at the points in which audio or closed captions are added. In this manner, they enable engineers to pinpoint the stages at which errors begin to appear as new components are introduced. In evaluating monitoring systems, broadcasters should look for solutions that operate as passive components; in other words, they work outside of the main broadcast chain so as not to interfere or interrupt the production workflow. Figure 1 shows how the monitoring system would fit in a typical broadcast operation.

Figure 1: Content logged and distributed to local and remote users

To provide maximum benefit, an HD monitoring system should provide all of the capabilities of its state-of-the-art counterpart for SD video and facilitate video distribution throughout the entire organization without saturating network resources. The system should be easily extended to large numbers of users over the station’s existing IP network, giving them 24/7 access to live and archived HD content from their desktop PCs. Users should be able to record, store, search, retrieve, and view HD material in real time, from multiple channels and from any desktop within the broadcasting facility. The system should utilize advanced storage technology such as RAID-5 and should enable storage of content from two to four channels, for at least 30 days.

The most advanced monitoring systems should provide both standard- and high-definition inputs to facilitate capture of video from any source, including remote broadcasting sites (Figure 2). They should allow users the option of capturing continuous video feeds, or configuring the system to record only high-relevance footage to maximize video storage capacity. Some systems provide an optional SMPTE timecode reader to ensure synchronization with broadcast operations.

Figure 2: Multiple remote locations stream to central site.

The system should provide an interface and responsive, VCR-like controls that make monitoring of multiple channels easy and intuitive. Users should be able to go from half-speed to 10x viewing in either direction with a mouse click, and the system should include configurable alarms for monitoring video quality and providing early detection of audio and video problems. Finally, advanced HD monitoring systems provide convenient pathways for dissemination of captured assets to other distribution channels. Sharable clip lists allow users to collaborate and view specific video without using additional storage. Assets can be easily exported and repurposed, and both footage and textual data can be saved to files for outside use.

With all of these capabilities in place, an HD monitoring system can provide numerous benefits to a broadcasting organization. With both SD and HD video footage from multiple channels at their fingertips, users can perform side-by-side comparisons of their own assets or competitor offerings from a single unified interface. The broadcaster’s research team benefits from viewer approval ratings displayed in synchronization with the video on the same screen, providing insights into the competition and the market. Active monitoring of closed captions provides notifications of specific subject mentions via email, including transcripts and thumbnail “storyboards.” Users may also query the closed caption database like a search engine, converting video assets into minable, textual databases.

Although they are just beginning to emerge, video monitoring systems that accept HD inputs will become a requirement in the production environment as stations continue to adapt their operations to HD broadcasting. Whether a station is broadcasting in SD or HD, its ability to monitor and archive aired content will continue to play a critical role in meeting the demands of internal and external clients such as advertisers, viewers, and government agencies.

Events

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HDWorld Booth 1157 October 15-16 2008

Volicon’s Observer HD is the industry’s premier High Definition content monitoring solution for Broadcasters.

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Awards

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Volicon Observer wins TV Technology STAR Award @ IBC 2006

Volicon, a leading provider of advanced solutions for monitoring broadcasts, logging, archiving, and streaming of digital video, …

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Volicon is the leading supplier of broadcast monitoring systems used by broadcasters and cable …

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