Understanding about IRIS Recognition Technology
In the 1980’s, two ophthalmologists Aran
Safir and Dr Leonard Flom proposed that no two irises are similar, even
in twins, thus making them good biometric authentication units. This
concept was based on the clinical experience with which they viewed the
individual features of irises such as crypts, coronas, colors, pits,
contraction furrows, striations, freckles and rifts. After researching
and documenting the use of irises as a means of recognizing people, they
were awarded a copyright in 1987. In 1990, Dr. John Daugman created the
algorithm to implement iris technology. These algorithms utilize the
methods of some mathematical calculations and pattern recognition of
iris.
Nowadays access control systems
are becoming more essential. The number of systems that have been
compromised is ever increasing and one area where security can be
enhanced is authentication. A biometric and Iris technology afford
secure methods of identification and authentication. Iris Technology is
used in many areas like airport security, ATMs, physical access security and information security.
Iris Recognition Technology
Iris-recognition
is a biometric technology which deals with the recognition based on the
human Iris. Iris-recognition technology is considered to be the most
accurate biometric technology available today. The Iris is an inner
organ of the body which is observable, or it is the area of the eye
wherein the colored or pigmented circle, which is generally blue or
brown, rings the dark purple area of the eye.
Iris Recognition System
Iris
feature is an easy option of a person to prove his identity, which is
based on his biometrics at any time and at any place. Iris recognition
is an important identifying approach in many departments such as
finance, navigation, etc. This system’s main features include Iris
capturing, Image quality evaluation, Iris region segmentation, feature
extraction, similarity calculation and decision making. Every part is
very important in this recognition system for correct recognition of a
person’s identity.
There
are plenty of features in iris areas of human eye’s image. The iris is a
small and black object, and capturing of iris image is not an easy
work. To capture iris, we have to maintain some distance about 4 to 13
cm under a good-lighting environment. For many evident image recognition
systems, infrared light source is better
such as face-recognition system. It can perform a better light for
enhancing image contrast, and furthermore, infrared light is harmless to
eyes. In order to capture the best iris image, a person’s cooperation
is necessary, and also the captured image supports iris recognition. A
good cooperation can reduce the capacity of iris pre- processing and
make iris recognition a real-time character. Therefore, under
incorporate conditions so many researchers initiate to study the theory
of imperfect iris recognition.
The
process and working of iris recognition takes place like this: a picture
of the iris is captured by a camera attached to a wall within a
distance of 4 to 13 inches, and then the image is processed by a special
type of software that separates the main iris patterns from the inner
and outer boundaries of the iris. By using Dr. Daugman’s algorithm, the
patterns of the iris from the processed image are encoded into a 512-bit
code called as the iris code. The encoded code is encrypted as soon as
it is calculated to avoid from theft. The calculated iris code is then
compared to the codes that are stored in the database for matching and
pattern recognition. The speed of searching the database can be up
to10,000 codes/sec. Therefore, within a few seconds, a person can be
recognized without any particular user action.
Iris Scanner
Iris
Scanners are becoming more and more common in security applications
nowadays as no two people’s eyes share similar iris patterns, and thus
they are less matchable. Iris scanning has become very advanced, but at
the heart of the system is a CCD digital camera. This camera uses both
infrared and visible light to take a clear picture of a person’s iris.
When a person’s pupil is black – with near IR light – to isolate the
iris and pupil is easier for the computer. When a person looks into an
iris scanner, the digital camera automatically focuses audible feedback
from the system to make the person’s position correctly. When the camera
takes a picture from 3 to 10 inches distance, the computer locates the
center of the pupil, edge of the iris and pupil, the eye lashes and
eyelids. It then calculates the patterns of the iris and translates them
into a code.
The
iris is a visible but protected structure, and it doesn’t change over a
time usually. Most of the time a person’s eyes also stay unchanged even
after eye surgery and even blind people can use these scanners as long
as their eyes have irises. Typically contact lenses and eye glasses do
not cause inaccurate readings.Biometric System
Nowadays a biometric access control system
plays an essential role, and this system has realized the value of
biometrics for two reasons: one is to identify, and the other to verify.
The benefit of using biometric authentication is that it cannot be
forgotten or lost as the person needs to be available during the point of identification process. Essentially, this system is more capable and reliable than the token-based and traditional knowledge-based techniques.
A Biometric system is a technological system that uses information
about a person to identify that person. In order to work effectively,
these systems depend on particular data based on some exclusive
biological traits and qualities. This system has its major hub in
distributions of electronic security system such as access-control
system, time-attendance system based on fingerprints, facial-recognition
attendance system, smartcard and proximity-based products, etc. The
characteristic of biometrics can be classified into two types, which is
represented in the following figure.
Physiological Biometrics:
These types of biometric systems are related to the shape of the body
and these systems include face recognition, iris recognition, fingerprint recognition, hand recognition and DNA recognition.
Behavioral Biometrics:
These types of biometric systems are related to the behavior of a
person and this type of biometrics includes voice, keystroke and
signature recognition.
Advantages
- Due to exclusivity of iris patterns provide improved accuracy.
- This type of recognition cannot be forged or modified
- Being the internal organ of the eye, Iris is highly protected
- Offers better scalability and speed
Disadvantages
- Iris scanning being a new technology is mismatched with most of the electronic gadgets that are available.
- Iris scanning is difficult to perform without proper cooperation of the person.
- Iris technology is susceptible to poor image quality with other photographic biometric technologies.
- Equipment’s used for scanning are very difficult to handle.
Applications
- The largest application of the iris recognition is in the aviation industry.
- The world’s largest airports like Heath row Airport of London employ iris recognition.
- In Unite Arab Emirates millions of iris code comparisons are done each day at all the air, land and seaports.
- The other applications of iris recognition system include Information security, security in online business, security in government applications, usage in security agencies to keep a record of criminals by police departments.
Thus,
Iris technology has proved to be a very useful and adaptable security
measure. It is an accurate and quick way of identifying an individual
with no chance of human error. Iris recognition is widely used in many
applications where security is necessary. In the future it will prove to
be a widely used security measure.
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