Title: Enabling Technologies for Security in Ambient Intelligence
1Enabling Technologies forSecurity in Ambient
Intelligence
(Read N. J. Henderson, P. H. Hartel, Pressure
Sequence, in 4th Int. IFIP wg 8.8 Conf. Smart
card research and advanced application, Kluwer
Academic Publishers, Sep. 2000, pp 241-256 L. R.
Taylor, Making Guns Safer, National Institute of
Justice Journal, Jun. 2000, pp.16-19)
2Overview
- Ami definition and requirements
- Enabling technologies
- Two case studies
- Conclusion
3Definition
- Ubiquitous computing
- Ubiquitous communication
- Intelligent user-friendly interfaces
- (source IST Advisory Group
- Scenarios for Ambient intelligence in 2010
- European Commission, Jul. 2001)
4Requirements
- Unobtrusive hardware
- Seamless mobile/fixed communications
infrastructure - Dynamic and massively distributed device networks
- Natural feeling human interfaces
- Dependability and security
5Enabling Technologies forSecurity
- Micro payment
- Smart cards
- Verification
- Biometrics
6Case Studies Smart Objects
- Can they provide feedback on the way the object
is held? - Can objects authenticate the rightful owner/user?
7US Statistics
- 500,000 guns stolen each year
- 7 Law Enforcement officers killed each year with
their own weapon - in 1999, 28.874 died from firearm injuries, 11.7
were under 20
8Smart Gun
9Requirements
- Operate reliably
- Have all capabilities of a fire arm
- Able to be fired by other officers
- Easy to operate and maintain
- Verify and approve user in time
- Include indicator when enabled
- Fire even if the electronics fail
10Fingertip Position
11Results
- 160 subjects
- Promising results but 20 times better needed
- Future work include pressure info
12Statistics
- World wide 1 Billion smart cards sold per annum
- 0.5 Million mobiles stolen/lost p.a. in the UK
alone
13Biometrics Associates
14Pressure Sensor
15Piezo Electric Pressure Sensor
- Applied pressure causes proportional charge
generation
16Experiment
- 34 volunteers
- Each chose their own sequence
- Sequences between 2 and 14 taps
- 8 enrolment
- 8 test sequences
- gt1000 impostor sequences
17Signals
18Receiver Operating Characteristics
19Results
- Simple (Tap a rhythm)
- Fast (lt 0.2s in Java on iButton)
- Reliable (EER of 2.3 with 34 users)
- Inexpensive (2 cent/sensor mass prod.)
20System Issues
- Biometric templates are private!
- Secure enrollment
- Secure storage of template
- Hardware tamper resistance
- Theft of devices is a problem
- 0.5 Million Mobiles stolen in UK in 2001
21Conclusions
- Objects can be made smart
- The context is important
- Engineering challenges
- Business opportunities
- Security is only an aspect of AmI
22Handout
23Classify your fingerprints
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