User Identification Based on Finger-Vein Patterns for Consumer22
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Transcript of User Identification Based on Finger-Vein Patterns for Consumer22
PRESENTED BY:-SHILPA.B.N
UNDER THE GUIDANCE :- Mrs. SHASHIDHAR.S
Biometrics Development Process Advantages Comparison Application Deployments Limitations Conclusion
Biometrics is the science of identifying a person using their physiological or behavioral features(such as veins, fingerprints,facial features, signature, or DNA).
Biometrics
Physical Features: Fingerprints, hand shape, facial features, iris of the eye, and veins
Behavioral Features: Voice print and signature
Since 1997 Hitachi has been developing an original biometric.
First commercial systems were deployed in 2004.
In 2005, a grip-type finger vein authentication technology was developed.
In 2007,a steering wheel was developed.
In 2009, Sony developed a mofiria
Vein pattern(pre-registered)
Extraction of
finger vein
pattern
Matching of finger vein patterns
Authentication Outcome
Captured Vein image
Vein image Vein pattern
Authentication process
Block diagram of finger-vein identification system
User Enrollment Stage User identification Stage
Input biometrics Input biometrics
Preprocessing
Preprocessing
FeatureExtraction
FeatureExtraction
Feature Templates Database
One-to-One Matching
Matching No
Yes
Reject
Accept
Accurate Fast Secure Small Not Traceable User-Friendly Unique and constant
Biometrics information
Method
Security
Accuracy
Cost Speed Size
1. Finger-Vein
Infra red light
High High Low Fast Small
2. Palm Vein
Scan Medium
High Medium
Medium
Medium
3. Finger Print
Ink n scan
Medium
Medium
Low Medium
Small
4. Face Pos of eyes n nose
Medium
Medium
Low Medium
Large
5. Iris Features of iris
High High High Medium
Large
Comparison between all biometrics techniques
1.Gripping a handle to open a door
Convenience
High security
Avoids Password number
Protects illegal entry through the use of stolen or forge keys
October 17th 2005, 39th Tokyo Motor Show 2005, Makuhari Messe, Chiba, Japan
2. Steering Wheel
40th Tokyo Motor Show 2007, Makuhari Messe, Chiba, Japan.
Easy operation High security
3. ATM in Poland
Privacy
Encryption and data mapping technique Reduced transaction processing time Two sides of business benefits
Moving from a manual basis towards electronic transactions
Much of vein recognition deployments have been in the Asia Pacific region. Due to strong resistance to fingerprinting in Japan and South Korea , the vein biometric companies have found easy acceptance.
The Bank of Tokyo, Mitsubishi uses palm vein recognition for allATM transactions. Other banks utilize finger-vein recognition technology. This has created fierce competition between Fujitsu's palm vein and Hitachi's finger Vein technology.
Banco Bradesco , the largest private bank in Brazil
There is not much demand from government or travel verticals yet
Keyless car
Elevator control
Offices/school
PC login
Safe deposit Boxes
ATMs
Cell phone Printer usagecontrol
Server access
Membershipverification
Tickets
Product Application Case
Hitachi Headquarters(Marunouchi Itchome,Chiyoda,Tokyo,Japan) Hiroaki Nakanish (EO)
The technology is still untested because only vendors confirm the accuracy levels. The lack of interest from governments and standards agencies has not proved its capability yet. There are no mandates encouraging adoption either.
Like the fingerprint recognition system, the vein recognition technology has not reached many parts of the world. This technology is to yet reach the Indian market.
Finger vein products have been successfully adopted by major corporations in the fields of financial, physical and logical security in Japan and other parts of Asia. In Japan, finger vein products have enjoyed great success in the financial sector. Physical security systems have also sold widely in Asia, and particularly in Singapore, where well-known buildings such as IBM Singapore, Mizuho Bank, the Caltex Tower, and the Hitachi Tower have adopted finger vein technology for biometric entry access.
1. H. Lee, S.-H. Lee, T. Kim, and H. Bahn, “Secure user identification for consumer electronics devices,” IEEE Trans.Consumer Electron.,
vol. 54, no. 4, pp. 1798-1802, Nov. 2008.
2. J. Hashimoto, “Finger vein authentication technology and its future,” 2006 Symposium on VLSI Circuits, Digest of Technical Papers,
pp. 5-8 2006.
“A human being is a single being.Unique and unrepeatable.”