Transcript Document
New Interaction Techniques
**
Access Control
Key-typing biometrics
Grigori Evreinov
Department of Computer Sciences
University of Tampere, Finland
www.cs.uta.fi/~grse/
** http://www.lfe.mw.tum.de/~marstaller/links.html
September – December, 2003
Access Control
Typing biometrics
the remote communication requires increasing of general privacy
the general methods of user verification (to verify a person's identity)
are through the use of physical objects (tokens), knowledge (codes,
passwords), or individual physical and behavioral characteristics keystroke dynamics, fingerprints, voice patterns, signature dynamics
typing biometrics is more commonly referred to as keystroke
dynamics
dynamics examines the way in which a person types or keys on a
keyboard
this method is based on the typing of the individuals such as durations
of keystrokes, and between keystrokes, inter-keystroke times, typing
error, force keystrokes etc.
another cause to investigate keystroke dynamics is the prospect of an
appearance of force-sensitive keys in mobile devices [3]
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A Personal Authentication with Keystroke Timing Patterns
Toshimitsu YAMAGUCHI, Kazuhiro Notomi, Hiroaki Ishii
personal authentication can be built on features analysis of the temporal
structure of user behavior
authors presented a method and a prototype system based on SOM*
algorithm and keystroke timing patterns as input vectors for the learning
PIN – 4 numerical characters, 8 trials for creating maps
40 trials for evaluation, 7 persons
the result of experiment showed the system keeps a ration of False
Acceptance Rate to False Rejection Rate on the maps about 25%
* Self-Organizing Maps – neural network model, which is a general
unsupervised learning method for ordering high-dimensional stat. data
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Keystroke dynamics as a biometric for authentication
Fabian Monrose, Aviel D. Rubin [4]
the graphs showed that on an
average, the user suppresses
keys for a longer period than
it takes to type them
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Longitudinal Characteristics of Proprioceptive Memory on Keystrokes:
Designing for an Enhanced Authentication System Using Pressures of
Keystroke
Kentaro KOTANI, Ken Horii
empirical verification was demonstrated for the use of pressures of
keystroke incorporated with the keystroke dynamics profile for secured
authentication
results revealed that multi-modal approach was more effective than the
conventional authentication using keystroke latencies
a numerical keypad was made such that a 5mm-diameter force-sensitive
resistor was equipped at the surface of each pad for the measurement of
keystroke force
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Demo
[1, 2]
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Usability-testing software for…
txtEntry Access
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TWords.txt /phrases (20)
WordsLoading
Test initialization
SetTest
lblTestSymbol
txtText1
BtnDown
SetData
DrawGraph
Ctrl+K=>move keys
Trial start
Break test
Clear Data
lblSave_Click()
+ column 4
lblOpen_Click()
+ column 4
GridData1_Click()
Graph
to save column
to build graphics
SpotActivate
On-screen
Keyboard
fraData
GridData1:
test words/chars
entered text /chars
time per char, ms
duration when button was
down per char, ms
BorderOff
BorderOn
txtPersonData comments…
SetSigns
SetCharacters
BackSp
Timer1
Timer2
GridData2:
char per word /phrase
num. of entered words
num. of strokes /clicks
per word /phrase
time per word/phrase, s
duration when button was
down per word, s
Statistics()
Latency, ms
s (st.dev), ms
Duration, ms
s, ms
Errors
wpm
TestTime, s
GridData2_Click()
to save column
to build graphics
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References
[1] BioPassword FAQ, http://www.lfca.net/bp_faq.htm
http://www.biopassword.com/home/technology/biometrics.asp
or http://www.cs.uta.fi/~grse/NIT_2003/NIT_Practice/AccessControl/Software/biodemo.zip
[2] BP-127 BioPassword Logon Protection v4.5 http://www.lfca.net/bp_127.htm
http://www.biopassword.com/home/technology/BP%204.5%20Technical%20Paper.pdf
http://www.biopassword.com/home/products/BP_SDK2.0_021502.pdf
[3] New opportunities with flat sensors http://www.tech21.de/en/sensor.html
[4] Monrose, F., Rubin, A.D. Keystroke dynamics as a biometric for authentication.
Future Generation Computer Systems 16 (2000) 351–359
http://citeseer.nj.nec.com/monrose99keystroke.html
http://citeseer.nj.nec.com/monrose97authentication.html
[5] ePad™ electronic signature tablets, http://www.steadlands.com/epad.htm
[6] Pressure Sensing Technology, http://www.steadlands.com/pst.htm
[7] Mascaro, S.A. and Asada, H.H. Photoplethysmograph Fingernail Sensors for Measuring Finger Forces
Without Haptic Obstruction. IEEE Transactions on Robotics and Automation, 17 (5), October 2001
[8] An introduction to biometrics. http://www.biometrics.org/html/introduction.html
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