Hybrid Contribution of JPEG200 Video Files for Professional Production Centers Reliability and Non-Reliability Transmission File Based in Image Quality Needed

ATM, SDH or satellite have been used in the last century as the contribution network of Broadcasters. However the attractive price of IP networks is changing the infrastructure of these networks in the last decade. Nowadays, IP networks are widely used, but their characteristics do not offer the level of performance required to carry high quality video under certain circumstances. Data transmission is always subject to errors on line. In the case of streaming, correction is attempted at destination, while on transfer of files, retransmissions of information are conducted and a reliable copy of the file is obtained. In the latter case, reception time is penalized because of the low priority this type of traffic on the networks usually has. While in streaming, image quality is adapted to line speed, and line errors result in a decrease of quality at destination, in the file copy the difference between coding speed vs line speed and errors in transmission are reflected in an increase of transmission time. The way news or audiovisual programs are transferred from a remote office to the production centre depends on the time window and the type of line available; in many cases, it must be done in real time (streaming), with the resulting image degradation. The main purpose of this work is the workflow optimization and the image quality maximization, for that reason a transmission model for multimedia files adapted to JPEG2000, is described based on the combination of advantages of file transmission and those of streaming transmission, putting aside the disadvantages that these models have. The method is based on two patents and consists of the safe transfer of the headers and data considered to be vital for reproduction. Aside, the rest of the data is sent by streaming, being able to carry out recuperation operations and error concealment. Using this model, image quality is maximized according to the time window. In this paper, we will first give a briefest overview of the broadcasters requirements and the solutions with IP networks. We will then focus on a different solution for video file transfer. We will take the example of a broadcast center with mobile units (unidirectional video link) and regional headends (bidirectional link), and we will also present a video file transfer file method that satisfies the broadcaster requirements.

dOTM: a mechanism for distributing centralized multi-party video conferencing in the cloud

One of the key factors for a given application to take advantage of cloud computing is the ability to scale in an efficient, fast and reliable way. In centralized multi-party video conferencing, dynamically scaling a running conversation is a complex problem. In this paper we propose a methodology to divide the Multipoint Control Unit (the video conferencing server) into more simple units, broadcasters. Each broadcaster receives the media from a participant, processes it and forwards it to the rest. These broadcasters can be distributed among a group of CPUs. By using this methodology, video conferencing systems can scale in a more granular way, improving the deployment.

Entorno sin cinta para producción de televisión en alta definición

En este proyecto se propone un entorno de producción para televisión en alta definición donde las cintas magnéticas para la captura, modificación, gestión y transferencia de los contenidos audiovisuales, quedan sustituidas por servidores informáticos y sistemas de almacenamiento basados en las tecnologías de la información. Dicho entorno sin cintas tiene como misión la realización de la fase de la producción de los contenidos televisivos. Se trata de un centra independiente, en una ubicación remota respecto a las instalaciones centrales de la empresa emisora de televisión. La conexión del entorno sin cinta con los servicios centrales de la cadena se realiza por medio de redes de datos de alta velocidad y por enlace de radiofrecuencia. Por estos medios los sistemas de redacción comunican datos y escaletas, se reciben las señales de contribución que intervienen en los programas, se envía la serial realizada para emisión y se transfieren los materiales grabados al área de Postproducción para su elaboración final. Se plantean dos estudios de televisión dotados de servidores de video y de un almacenamiento compartido para una gestión ágil, unificada y flexible de las demandas de los programas. Además de la eliminación del lento y pesado trabajo de manipulación de las cintas, la producción resulta mucho mas ágil porque se eliminan tiempos de espera por la posibilidad de acceso simultaneo de varios usuarios a un mismo contenido. También se suprimen los tiempos de digitalización y descarga del material grabado, porque los sistemas implementados permiten la ingesta directa de las señales recibidas. Los contenidos de varias jornadas de grabación, en calidad HD, se conservan en el sistema de almacenamiento para la elaboración de materiales en el propio centra y para su transferencia al departamento central correspondiente. Mediante aplicaciones software se busca la integración del trabajo de la redacción de los programas con los procesos de producción de los estudios. El diseño que se propone para los diferentes subsistemas técnicos de los estudios esta orientado a lograr una alta fiabilidad, operatividad y adaptabilidad a las demandas técnicas de la producción audiovisual de los diferentes tipos de programas. Al tratarse de una propuesta conceptual, de manera general no se basa en equipos de marcas o fabricantes concretos sino mas bien en las metodologías concretas de trabajo. Cuando se ejemplifica algún dispositivo en particular es debido a que el concepto tecnológico del mismo es novedoso destaca de manera especial sobre la generalidad de los equipos existentes para esa funcionalidad. ABSTRACT. This project hopes to propose a television production platform that uses computers, servers and storage systems based on information technologies, rather than video tape recorders for ingesting, editing and making TV programs. This tapeless system has as its mission the production of all kind of television contents, employing IT systems, without the use of magnetic tapes. We envision an independent TV production center located in a remote location, in relation to the main broadcaster facilities, where all communications between this broadcasting center and the remote independent tapeless center would occur via high speed internet and a radiofrequency link as a back up. In this way, the Newsroom systems communicate data and rundowns; contribution feeds are received; PGM signal are codified and transmitted; and stored media are transferred to the post production area for final editing, playout and archive. Two TV studios are proposed, equipped with video servers and sharing media storage for agile, unified and flexible management of the production requirements. Apart from completely eliminating the slow and hard work resulting from handling a lot of traditional magnetic tapes, the production ends up being much quicker due to the fact that there is no waiting time between recording and viewing. This also enables several users to access and view the same material at the same time. The digitalization and downloading time is also greatly reduced due to the direct ingestion of contribution feeds to the system. The HD content of various days of recording, are stored for future use for whichever department needs the footage in the future. Through software applications, there will be complete integration between the Newsroom work and the production process of the studios. The proposed design for the various technical subsystems in the recording studio is directed towards achieving optimum reliability and operational capability: they are easily adaptable to the technical demands of the audiovisual production of the different programs. Because we are dealing with a conceptual proposal, in general terms, we are not defining the brands or manufacturers of the technical equipment, but rather we are specifying the methods which we plan to implement. When some equipment is highlighted, it's only because that specific brand exemplifies a higher performance than any other equipment in the range.