Saturday, June 29, 2013
Abstract
Blu-ray, also known as Blu-ray Disc
(BD), is the name of a next-generation optical disc format jointly developed by
the Blu-ray Disc Association (BDA), a group of the world's leading consumer
electronics.
Blu-ray, also known as
Blu-ray Disc (BD) is the name of a next-generation optical disc format. The
format was developed to enable recording, rewriting and playback of
high-definition video (HD).
Applications of Blu-ray
Disc
High Definition
Television Recording:
High Definition
Video Distribution:
High Definition
Camcorder Archiving:
Mass Data
Storage:
Digital Asset
Management and Professional
Storage:
v Random access,
v Searching ,
quickly browse and preview recorded programs in real-time.
v Large data
storage .
v Automatically
find an empty space to avoid recording over programs.
v Simultaneous
recording and playback of video .
v Enhanced
interactively, enables more advanced programs and games.
Contents
·
Introduction to Blu-ray.
·
What
is Blu-ray? & Why the name Blu-ray? Who
developed
Blu-ray?
·
Blu-ray formats.
·
How much data & video can fit in the
Blu-ray disc.
·
Cost of Blu-ray Products.
·
Difference between Blu-ray & DVD.
·
Working of Blu-ray & Building a Blu-ray.
·
Applications of Blu-ray disc.
·
Advantages & Disadvantages of Blu-ray disc.
·
Competitors of Blu-ray disc.
·
Conclusion.
INTRODUCTION
Blu-ray, also known as Blu-ray Disc (BD), is the
name of a next-generation optical disc format jointly developed by the Blu-ray
Disc Association (BDA), a group of the world's leading consumer electronics,
personal computer and media
manufacturers (including Apple, Dell, Hitachi, HP, JVC, LG, Mitsubishi,
Panasonic, Pioneer, Philips, Samsung, Sharp, Sony, TDK and Thomson). The format
was developed to enable recording, rewriting and playback of high-definition
video (HD), as well as storing large amounts of data. The format offers more
than five times the storage capacity of traditional DVDs and can hold up to
25GB on a single-layer disc and 50GB on a dual-layer disc. This extra capacity combined
with the use of advanced video and audio codecs will offer consumers an unprecedented
HD Experience.
Blu-ray is currently supported
by more than 170 of the world's leading consumer electronics, personal
computer, recording media, video game and music companies. The format also has
broad support from the major movie studios as a successor to today's DVD
format. Seven of the eight major movie studios have already announced titles
for the Blu-ray launch, including Warner, Paramount
Blu-Ray discs are one of the newcomers on the optical
disc scene. The first optical discs available to consumers were the large video
laser discs that were marketed during the early 1970s. By the familiar CD
became available. One compact disc was able to hold about 700MB (megabytes) of
data. The first CDs were used for audio albums.
In the 1990s DVD (digital video discs) became popular.
DVDs are the identical form factor of a CD but are able to hold much more data.
The format was agreed upon because one DVD can hold a standard-length movie.
Blu-Ray is the next iteration on the optical disc
timeline. The Blu-Ray standard was established to hold on standard-length movie
in HDTV format, or high-definition television. Such movies are displayed in
significantly higher resolution and therefore they require much more storage
space. A standard Blu-Ray disc holds 27GB (gigabytes) of information which is
about 40 times the amount of data that a CD can hold.
Although the technology is identical to CDs and DVDs,
the fundamental difference with Blu-Ray is the laser that is used to read the
discs. A blue laser (hence the name Blu-Ray) is used instead of the red lasers
that are used on earlier discs. Blue lasers have a shorter wavelength (405
nanometers) than red lasers (650 nanometers), and therefore the beam can be
focused on a smaller area which means that you can cram more data on an
identically sized disc.
The new laser means that Blu-Ray discs are not
readable on standard CD and DVD players and readers. Many Blu-Ray drives,
however, will be backwards-compatible so they will be able to playback the
older disc formats. The growth of Blu-Ray is expected to parallel the
increasing popularity of HDTV and overtake legacy systems.
What is Blu-Ray?
Blu-ray, also known as Blu-ray Disc (BD) is the name of a
next-generation optical disc format. The format was developed to enable
recording, rewriting and playback of high-definition video (HD), as well as
storing large amounts of data. The format offers more than five times the
storage capacity of traditional DVDs and can hold up to 25GB on a single-layer
disc and 50GB on a dual-layer disc.
Why the name Blu-Ray?
The name Blu-ray is derived
from the underlying technology, which utilizes a blue-violet laser to read and
write data. The name is a combination of “Blue" (blue-violet laser) and
"Ray" (optical ray). According to the Blu-ray Disc Association the
spelling of "Blu-ray" is not a mistake, the character "e"
was intentionally left out so the term
could be registered as a trademark.
The correct full name is Blu-ray Disc, not Blu-ray Disk (incorrect spelling)
The correct shortened name is Blu-ray, not Blu-Ray (incorrect apitalization) or Blue-ray (incorrect spelling) The correct abbreviation is BD, not BR or BRD (wrong abbreviation) .
The correct full name is Blu-ray Disc, not Blu-ray Disk (incorrect spelling)
The correct shortened name is Blu-ray, not Blu-Ray (incorrect apitalization) or Blue-ray (incorrect spelling) The correct abbreviation is BD, not BR or BRD (wrong abbreviation) .
Who developed Blu-ray?
The Blu-ray Disc format was
developed by the Blu-ray Disc Association
(BDA), a group of leading consumer electronics, personal computer and
media manufacturers, with more than 170 member companies from all over the
world. The Board of Directors currently consists of:
Apple Computer, Inc.
Dell Inc.
Hewlett Packard Company
Hitachi, Ltd.
LG Electronics Inc.
Matsushita Electric Industrial Co., Ltd.
Mitsubishi Electric Corporation
Pioneer Corporation
Royal Philips Electronics
Samsung Electronics Co., Ltd.
Sharp Corporation
Sony Corporation
TDK Corporation
Thomson Multimedia
Twentieth Century Fox
Walt Disney Pictures
Warner Bros. Entertainment
Apple Computer, Inc.
Dell Inc.
Hewlett Packard Company
Hitachi, Ltd.
LG Electronics Inc.
Matsushita Electric Industrial Co., Ltd.
Mitsubishi Electric Corporation
Pioneer Corporation
Royal Philips Electronics
Samsung Electronics Co., Ltd.
Sharp Corporation
Sony Corporation
TDK Corporation
Thomson Multimedia
Twentieth Century Fox
Walt Disney Pictures
Warner Bros. Entertainment
Blu-ray formats:
As with conventional CDs and
DVDs, Blu-ray plans to provide a wide range of formats including ROM/R/RW. The
following formats are part of the Blu-ray Disc specification:
BD-ROM -- read-only format for HD movies, music, software, games,etc.
BD-R -- recordable format for video recording and PC data storage.
BD-RE -- rewritable format for video recording and PC data storage.
BD-ROM -- read-only format for HD movies, music, software, games,etc.
BD-R -- recordable format for video recording and PC data storage.
BD-RE -- rewritable format for video recording and PC data storage.
There's also plans for a BD/DVD
hybrid format, which combines Blu-ray
and DVD on the same disc so that it can be played in both Blu-ray players and
DVD players.
How much data can you fit on a Blu-ray disc?
Ã
A single-layer disc can hold 25GB.
Ã
A dual-layer disc can hold 50GB.
To ensure that the Blu-ray Disc format is easily
extendable (future-proof) it also
includes support for multi-layer discs, which should allow the storage capacity
to be increased to 100GB-200GB (25GB per layer) in the future simply by adding
more layers to the discs.
How much video can you fit on a Blu-ray disc?
à Over 9 hours of high-definition (HD) video on
a 50GB disc.
à About 23 hours of standard-definition (SD)
video on a 50GB disc.
Cost of Blu-ray products
As with any new technology
the first generation of products will likely be quite expensive due to low
production volumes. However, this shouldn't be a problem for long as there is a wide range of Blu-ray
related products (players, recorders, drives, writers, media, etc) planned,
which should help drive up production volumes and lower overall production
costs. Once mass production of components for Blu-ray products begins the
prices are expected to fall quickly.
According to the Blu-ray Disc Association, the overall cost of manufacturing
Blu-ray Disc media will in the end be no more expensive than producing a DVD.
The reduced injection molding costs (one molding machine instead of two, no
birefringence problems) offset the additional cost of applying the cover layer
and low cost hard-coat, while the techniques used for applying the recording
layer remain the same. As production volumes increase the production costs
should fall and eventually be comparable to DVDs.
Difference between Blu-ray and DVD
Parameters
|
BD-ROM
|
DVD-ROM
|
Storage capacity
(single-layer)
|
25GB
|
4.7GB
|
Storage capacity
(dual-layer)
|
50GB
|
9.4GB
|
Laser wavelength
|
405nm
|
650nm
|
Numerical
aperture (NA)
|
0.85
|
0.60
|
Protection layer
|
0.1mm
|
0.6mm
|
Data transfer
rate (1x)
Data transfer rate (movie application) |
36.0Mbps
54.0Mbps (1.5x) |
11.08Mbps
10.08Mbps |
Video compression
|
MPEG-2
MPEG-4 AVC SMPTE VC-1 |
MPEG-2
|
Blu-ray for PCs
There are plans for BD-ROM (read-only), BD-R (recordable) and BD-RE (rewritable) drives for PCs, and with the support of the worlds two largest PC manufacturers, HP and Dell, it's very likely that the technology will be adopted as the next-generation optical disc format for PC data storage and replace technologies such as DVD±R, DVD±RW, and DVD-RAM.
Working of Blu-ray Disc
Discs
store digitally encoded video and audio information in pits -- spiral
grooves that run from the center of the disc to its edges. A laser reads the
other side of these pits -- the bumps -- to play the movie or program
that is stored on the DVD. The more data that is contained on a disc, the
smaller and more closely packed the pits must be. The smaller the pits (and
therefore the bumps), the more precise the reading laser must be.
Unlike current DVDs, which use a red
laser to read and write data, Blu-ray uses a blue laser (which is
where the format gets its name). A blue laser has a shorter wavelength (405
nanometers) than a red laser (650 nanometers). The smaller beam focuses
more precisely, enabling it to read information recorded in pits that are only 0.15
microns (µm) (1 micron = 10-6 meters) long -- this is more than
twice as small as the pits on a DVD. Plus, Blu-ray has reduced the track
pitch from 0.74 microns to 0.32 microns. The smaller pits, smaller
beam and shorter track pitch together enable a single-layer Blu-ray disc to
hold more than 25 GB of information -- about five times the amount of
information that can be stored on a DVD.
Each Blu-ray disc is about the same
thickness (1.2 millimeters) as a DVD. But the two types of discs store
data differently. In a DVD, the data is sandwiched between two polycarbonate
layers, each 0.6-mm thick. Having a polycarbonate layer on top of the data can
cause a problem called birefringence,
in which the substrate layer refracts the laser light into two separate beams.
If the beam is split too widely, the disc cannot be read. Also, if the DVD
surface is not exactly flat, and is therefore not exactly perpendicular to the
beam, it can lead to a problem known as disc tilt, in which the laser
beam is distorted. All of these issues lead to a very involved manufacturing
process.
Building
a Blu-ray
The
Blu-ray disc overcomes DVD-reading issues by placing the data on top of a
1.1-mm-thick polycarbonate layer. Having the data on top prevents
birefringence and therefore prevents readability problems. And, with the
recording layer sitting closer to the objective lens of the reading
mechanism, the problem of disc tilt is virtually eliminated. Because the data
is closer to the surface, a hard coating is placed on the outside of the disc
to protect it from scratches and fingerprints.
The design of the Blu-ray discs saves on
manufacturing costs. Traditional DVDs are built by injection molding the two
0.6-mm discs between which the recording layer is sandwiched. The process must
be done very carefully to prevent birefringence.
1.
The two discs are molded.
2.
The recording layer is added to one of the discs.
3.
The two discs are glued together.
Blu-ray
discs only do the injection-molding process on a single 1.1-mm disc, which
reduces cost. That savings balances out the cost of adding the protective
layer, so the end price is no more than the price of a regular DVD.
Applications of Blu-ray
Disc
The Blu-ray Disc format was designed to offer the best
performance and features for a wide variety of applications.These are as
follows:
High
Definition Television Recording:
High
Definition broadcasting is vastly expanding in the US Asia .
Consumers are increasingly making to switch to HDTV
sets to enjoy the best possible television experience.The Blu-ray Disc format
offers consumers the ability to record their High Definition television
broadcasts in their original quality for the first time.
High
Definition Video Distribution:
Due to its enormous capacity of 25 to 50 GB
per single sided disc,the Blu-ray Disc format can store High Definition video
in the highest possible quality.Because of the huge capacity of the disc,there
is no need to compromise on picture quality.
High
Definition Camcorder Archiving:
As the
market penetration of High Definition TV sets continues to grow,so does the demand
of consumers to create their own HD recordings.With the advent of the first HD
camcorders,consumers can now for the first time record their own home movies in
a quality level unlike any before.
Mass
Data Storage
In its
day ,CD-R/RW meant a huge increase in storage capacity compared to traditional storage
media with its 650 MB.Then DVD surpassed this amount by offering 4.7 to 8.5 GB
of storage,an impressive 5 to 10 times increase.
Digital
Asset Management and
Professional Storage:
Due to
its high capacity ,low cost per GB and extremely versatile ways of transferring
data from one device to another ,the format is optimized for Digital Asset
Management and other professional applications that require vast amounts of
storage space.
v
Random
access, instantly jump to any spot on the disc.
v
Searching
, quickly browse and preview recorded programs in real-time.
v
Large
data storage .
v
Automatically
find an empty space to avoid recording over programs.
v
Simultaneous
recording and playback of video ( enables Time slip/Chasing playback).
v
Enhanced
interactively, enables more advanced programs and games.
v
Broadband
enabled, access web content, download subtitles and extras.
v
Improved
picture , ability to record
high-definition television(HDTV)
v
Improved
sound ,ability to record surround sound (Dolby Digital , DTS , etc)
Disadvantages of
BD (Blu-ray Disc)
Though
there are no disadvantages of BDs, there is something negative thing about it
i.e., recently the Microsoft declared that it is going to include the software
which supports the technology of HD-DVD (which is the most competitive
technology of BD) in its latest operating system LONGHORN which may be
introduced by the beginning of the next year.
Blu-ray and HD-DVD are the two major
competitors in the market, but there are other contenders, as well. Warner
Bros. Pictures has developed its own system, called HD-DVD-9. This
system uses a higher compression rate to put more information (about two
hours of high-definition video) on a standard DVD. Taiwan China
There are also professional versions of the blue laser
technology. Sony
has developed XDCAM and ProData (Professional Disc for Data). The
former is designed for use by broadcasters and AV studios. The latter is
primarily for commercial data storage (for example, backing up servers).
When Will Blu-ray Become Available?
Blu-ray
recorders are already available in Japan United States Japan
Another important factor is cost. Just as with most new technologies, Blu-ray equipment will be pricey at first. In 2003, Sony released its first Blu-ray recorder in
Even when the new video standard begins to
replace current technologies, consumers won't have to throw away their DVDs,
but they will need to invest in a new player. The industry is planning to
market backward-compatible drives with both blue and red lasers, which
will be able to play traditional DVDs and CDs as well as Blu-ray discs.
In
1997, a new technology emerged that brought digital sound and video into homes
all over the world. It was called DVD, and it revolutionized the movie
industry.
The industry is set for yet another revolution
with the introduction of Blu-ray Discs (BD). With their high
storage capacity, Blu-ray discs can hold and playback large quantities of high-definition
video and audio, as well as photos, data and other digital content.
Conclusion:
The Blu-ray Disc is the successor of DVD’s with high
storage capacity .This can be also useful for storing large volumes of data
.Developing Technologies may invent
another new storage devices which can be more advantageous; but now Blu-ray
Disc is the effective storage device.
