avant-garde images
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Avant-garde imagesSystem stores and transmits films in ultra high definition
EVANILDO DA SILVEIRA | Edition 193 - March 2012
http://revistapesquisa.fapesp.br/en/2012/06/15/avant-garde-images/
JANE DE ALMEIDA / MACKENZIE UNIVERSITY
Estereo Ensaios film shown in San Diego, United States
A computer system developed at the Federal University of Paraba (UFPB) has placed
Brazil among the countries at the forefront of digital film technology. Named Fogo Player,
the system can store, transmit and control film viewings in ultra high definition, in the 4K 3D
format, that is, with images whose resolution is more than 8 million pixels per frame or 16
million if we consider the three-dimensional effect that duplicates the transmission. The 4K
system is four times more powerful than the existing TVs Full HD (high definition). The first
international demonstration of the system took place in December, when a 15-minute
documentary was transmitted from the capital city of Joo Pessoa (State of Paraiba) to the
CineGrid International Workshop 2011, an international digital film technology meeting held
at the University of California in San Diego (UCSD), in the United States.
The Fogo Player system is the result of a project that began in early May 2011. This project
was funded and coordinated by the National Teaching and Research Network (RNP),
responsible for Brazils academic internet. It included the production of the film shown inSan Diego. The film was made by the Work Group for the Creation of Visual Content,
coordinated by professor Jane de Almeida of Mackenzie University. The documentary, the
title of which is EstereoEnsaios, shows ocean and aerial views of the city of Rio de
Janeiro, youngsters playing soccer on the soccer ground at the Tavares Bastos community
in the neighborhood of Catete, and shots of rehearsals by the Mangueira samba school.
What makes this short feature film special is the fact that the images were filmed by two
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Red Epic cameras to produce the 3D effect. These cameras are the most advanced
equipment of this kind and are identical to the ones used by movie director James
Cameron in the film Avatar 2. The images we filmed have 5.120 x 2.700 (or 13.824.000)
pixels per frame or 5K a Full HD TV has 1.920 x 1.080 (2.073.600), Jane explains. Each
frame is equivalent to a photographic shot of traditionally filmed movies. No existing
equipment is able to project images with this resolution as a result, we had to downgrade
their resolution to 4.096 x 2.304 (9.437.184) pixels, or 4K p frame.
There is more. The video prepared by Jane and her group was the first to use stereoscopic
(3D) technology. This is why, even though it is a super high definition film, because it was
filmed in 4K, it has more than 20 million pixels per frame, says Jane. In other words, in
terms of pixels it is actually an ultra high definition (UHD) or 8K film. Keith Collea, from the
United States, was the film camera operator. He had worked with Cameron on Avatar and
Titanic.
Once the film was ready, the next challenge was to decide how to store it, transmit it, and
show it. This is when the team from the Digital Video Applications Laboratory (LAVID) of
the Federal University of Paraba (UFBP) stepped in. This lab is headed by professor
Guido Lemos, who had collaborated on the development of the Digital TV system in Brazil,
especially on the interactive subsystem referred to as Ginga. Our first step was to make a
survey of the state of the art and techniques in the field of digital movies, explains Lemos.
Then, we began to develop a solution with a focus on maintaining the quality according to
standards that would be acceptable to film professionals, and at the same time be less
expensive than available ones.
JANE DE ALMEIDA / MACKENZIE UNIVERSITY
4K3D camera filming in Rio de Janeiro
Equipment to store, transmit and show UHD films already exists, such as the kind
manufactured by Japans NHK. The problem is that this equipment is very expensive and is
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not available commercially. To solve this issue, Lemos decided to resort to cloud
computing. In this system, computer services of major internet providers such as Google,
Amazon, and Microsoft are available. Thus, there was no need to build and manage their
own data processing centers or to resort to the data centers at big companies.
Lemos created his own cloud for the Project. Lemos cloud was based on virtual machines
and used the idle capacity of LAVIDs 30 computers. In fact, we used a technology we had
developed in partnership with the Distributed Systems Laboratory (LSD) of the Federal
University of Campina Grande (UFCG). This technology is referred to as JitCloud (just in
time clouds), he explains. The idea is to use amortized resources, that is, resources that
had been purchased for other purposes, and assemble the just in time clouds to process
the ultra high resolution films. This cloud-based solution for the manipulation of UHD videos
is an innovation that we came up with.
According to Lemos, the film, which takes up more than three terabytes (3 Tb) of computer
memory, is divided into slices and stored in the JitCloud. Then we use another JitCloud to
prepare the video for viewing. Finally, in order for the film to be shown on the network, the
slices were downloaded from the JitCloud, synchronized, and passed on to the Fogo
Player system. The last step is the final composition and synchronization of the slices,
after which the images are delivered to the 4K projectors for viewing, says Lemos. To
demonstrate that the system works, the team from LAVID transmitted the short feature film
EstereoEnsaios to the event in San Diego. To this end, the team relied on the RNPs
optical fiber network, that created a specific Virtual Local Area Network (VLAN) for the
transmission of the film, using the infra structure of the Global Lambda Integrated Facility
(Glif), an international organization that facilitates the integration of optic fiber networks.
According to Leandro Ciuffo, manager of RNPs communities and advanced applicationsdepartment, the configuration of a VLAN between LAVID and the UCSD created a network
as if both institutions were on the same local network. The transmission took place at a rate
of 900 megabits per second (Mbps). This allows data packages to flow very quickly from
one end to the other end of the connection and the loss rate is lower, Ciuffo explains.