�ݺ�ߣ

Seminar
On
Optical Camouflage

submitted by: Vivek Kumar
Pandey

WHAT IS Optical
Camouflage?
• Process to create the illusion of invisibility by
covering an object with something that projects
the scene directly behind that object is called
OPTICAL CAMOUFLAGE.

• It displays an image of the scene on the side
opposite the viewer on it, so that the viewer can
"see through" the wearer, rendering the wearer
invisible.

RECOGNITION OF
OPTICAL CAMOUFLAGE
• In 2003, two professors at University of Tokyo —
Tachi and Inami— creating an invisible cloak.
• The same year Time magazine named it the coolest
invention of 2003. [1] With flexible electronics such
as a flexible liquid crystal display that would permit
display of the background image by the material
itself, this form of optical camouflage may closely
resemble its fictional counterparts.

Uniqueness of Retro-Reflection-

• A ‘Rough surface’ creates a diffused reflection
because the incident (incoming) light rays get
scattered in many different directions.
• A ‘Perfectly smooth’ surface, like that of a mirror,
creates what is known as a specular reflection -- a
reflection in which incident light rays and reflected
light rays form the exact same angle with the mirror
surface.
• In ‘Retro-reflection’ the glass beads act like prisms,
bending the light rays by a process known as
refraction. This causes the reflected light rays to
travel back along the same path as the incident light
rays. The result: An observer situated at the light
source receives more of the reflected light and
therefore sees a brighter reflection

INVISIBILITY CLOAK

• The cloak that enables optical camouflage to work is
made from a special material known as retro-reflective
material.

• A retro-reflective material is covered with thousands and
thousands of small beads. When light strikes one of these
beads, the light rays bounce back and spread exactly in
the same direction from which they came.

HOW DOES IT WORK?
• Creating complete optical camouflage across the
visible light spectrum would require a Coating or Suit
covered in tiny Cameras and Projectors, Programmed
to gather visual data from a multitude of different angles
and project the gathered images outwards in an equally
large number of different directions to give the illusion of
invisibility from all angles.
• For a surface subject to bending like a flexible suit,
massive amount of Computing power and Embedded
sensors would be necessary to continuously project the
correct images in all directions. This would almost
certainly require sophisticated nanotechnology, as our
Computers, Projectors, and Cameras are not yet
miniaturized enough to meet these conditions.

WHAT DO WE NEED FOR AN
INVISIBILITY CLOAK?

• Optical camouflage doesn't work by way of magic. It works by
taking advantage of something called Augmented-reality technology
• Augmented-reality technology is somewhat virtual but it is not in
reality.

• Here's everything needed to make
a person appear invisible:
• A garment made from retro-reflective material
• A video camera
• A computer
• A projector
• A special, half-silvered mirror called a combiner

More Invisibility Cloak
Components
Video Camera
• Capturing the background image
requires a video camera, which sits
behind the person wearing the cloak.
The video from the camera must be
in a digital format so it can be sent to
a computer for processing.
Computer
• For optical camouflage to work, the
hardware/software combo must take
the captured image from the video
camera, calculate the appropriate
perspective to simulate reality and
transform the captured image into
the image that will be projected onto
the retro-reflective material.

STEPS INVOLVED:-
• A digital video camera captures the scene behind the person wearing the
cloak.
• The computer processes the captured image and makes the calculations
necessary to adjust the still image or video so it will look realistic when it is
projected.
• The projector receives the enhanced image from the computer and shines
the image through a pinhole-sized opening onto the combiner.
• The silvered half of the mirror, which is completely reflective, bounces the
projected image toward the person wearing the cloak.
• The cloak acts like a movie screen, reflecting light directly back to the
source, which in this case is the mirror.
• Light rays bouncing off of the cloak pass through the transparent part of the
mirror and fall on the user's eyes.

• The person wearing the cloak appears invisible because the background
scene is being displayed onto the retro-reflective material. At the same time,
light rays from the rest of the world are allowed reach the user's eye, making
it seem as if an invisible person exists in an otherwise normal-looking world.

Real-World
Applications
• Doctors performing surgery could use optical camouflage
to see through their hands and instruments to the
underlying tissue.
• Pilots landing a plane could use this technology to make
cockpit floors transparent. This would enable them to see
the runway and the landing gear simply by glancing
down.
• Drivers backing up cars could benefit one day from
optical camouflage. A quick glance backward through a
transparent rear hatch or tailgate would make it easy to
know when to stop.

WHERE HAVE U SEEN
OPTICAL
CAMOUFLAGE????

• Ghost in the Shell.
• 2000 video game Deus Ex.
• 2002 James Bond movie Die Another Day
• Metal Gear Solid and Halo video game
series.
• The video game Phantom Crash.
• The Predator movie.
• G.I.JOE movie

ADVANTAGE
• Optical Camouflage can be used on surgical globes
or equipment's so they don’t block surgeon’s view
during delicate operations.
• In aviation, cockpit floors could become 'invisible' to
assist pilots during landing.
• Military experts are interested in this technology
because it could help soldiers to attack without being
spotted.

• Useful in car-parking for drivers.

DISADVANTAGE
•The weak point of this technique
is that the observer needs to look
through a half-mirror. The current
system needs a half-mirror and
projectors, which were fixed on
the ground.
•It is little bit slow because we
have to setup and adjust
everything.

CONCLUSION
• Now all of us have had a small tour of the
interesting world of optical camouflage.

• A lot of interesting thing have been done and
already we have seen that anyone can be
almost invisible with this technology.

• But the future promises us a lot more.

Latest work:
•In 2011, BAE SYSTEMS announced their
adaptive infrared camouflage technology. It
control the temperature of the vehicle’s
surroundings.
• Use of organic LED’s and also
implemented in those technologies which
use projection technology

References:
1.Cliping from the movie mission
impossible-ghost protocal.
2.Wikipedia
3.IEEE
4. [1] R. Azuma and J. Rolland, A Survey
of Augmented
Reality, Presence: Teleoperators and
Virtual
Environments, Vol.6, No.4, pp.355 – 385,
1997
5. [3] M. Inami, N. Kawakami, D.
Sekiguchi, Y. Yanagida,
T. Maeda and S. Tachi, "Visuo-Haptic
Display Using
Head-Mounted Projector", Proceedings of
IEEE Virtual
Reality 2000, pp.233-240, 2000

�ݺ�ߣ

My presentation

More Related Content

My presentation

Editor's Notes