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Expanding the human-biometric sensor interaction model to identity claim scenarios

Expanding the human-biometric sensor interaction model to identity claim scenarios

Expanding the human-biometric sensor interaction model to identity claim scenarios

Biometric technologies represent a significant component of comprehensive digital identity solutions, and play an important role in crucial security tasks. These technologies support identification and authentication of individuals based on their physiological and behavioral characteristics. This has led many governmental agencies to choose biometrics as a supplement to existing identification schemes, most prominently ID cards and passports. Studies have shown that the success of biometric systems relies, in part, on how humans interact and accept such systems. In this paper, the authors build on previous work related to the Human-Biometric Sensor Interaction (HBSI) model and examine it with respect to the introduction of a token (e.g. an electronic passport or identity card) into the biometric system. The role of the imposter within an Identity Claim scenario has been integrated to expand the HBSI model into a full version, which is able to categorise potential False Claims and Attack Presentations.

biometrics, adaptation models, authentication, biological system modeling, fingerprint recognition, measurement, usability

10.1109/ISBA.2015.7126362

IEEE

Elliott, Stephen J.

721dc55c-8c3e-4895-b9c4-82f62abd3567

O'Connor, Kevin

a549dc1e-c261-4f8c-b3f5-9ad41ef773c7

Bartlow, Eric

6ff4e782-f50f-4c8f-8133-8f00af127c8f

Robertson, Joshua J.

56e2ff17-c9e2-41d6-a320-eec05dfb1c11

Guest, Richard M.

93533dbd-b101-491b-83cc-39ccfdc18165

et al.

Elliott, Stephen J.

721dc55c-8c3e-4895-b9c4-82f62abd3567

O'Connor, Kevin

a549dc1e-c261-4f8c-b3f5-9ad41ef773c7

Bartlow, Eric

6ff4e782-f50f-4c8f-8133-8f00af127c8f

Robertson, Joshua J.

56e2ff17-c9e2-41d6-a320-eec05dfb1c11

Guest, Richard M.

93533dbd-b101-491b-83cc-39ccfdc18165

Elliott, Stephen J., O'Connor, Kevin and Bartlow, Eric , et al. (2015) Expanding the human-biometric sensor interaction model to identity claim scenarios. In, IEEE International Conference on Identity, Security and Behavior Analysis (ISBA 2015). 2015 International Conference on Identity, Security, and Behavior Analysis (23/03/15 - 25/03/15) IEEE. (doi:10.1109/ISBA.2015.7126362).

Record type: Book Section

Abstract

Biometric technologies represent a significant component of comprehensive digital identity solutions, and play an important role in crucial security tasks. These technologies support identification and authentication of individuals based on their physiological and behavioral characteristics. This has led many governmental agencies to choose biometrics as a supplement to existing identification schemes, most prominently ID cards and passports. Studies have shown that the success of biometric systems relies, in part, on how humans interact and accept such systems. In this paper, the authors build on previous work related to the Human-Biometric Sensor Interaction (HBSI) model and examine it with respect to the introduction of a token (e.g. an electronic passport or identity card) into the biometric system. The role of the imposter within an Identity Claim scenario has been integrated to expand the HBSI model into a full version, which is able to categorise potential False Claims and Attack Presentations.

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More information

e-pub ahead of print date: 27 July 2015

Venue - Dates: 2015 International Conference on Identity, Security, and Behavior Analysis, Hong Kong, 2015-03-23 - 2015-03-25

Keywords: biometrics, adaptation models, authentication, biological system modeling, fingerprint recognition, measurement, usability

Learn more about School of Electronics and Computer Science research Learn more about Cyber Security research

Identifiers

Local EPrints ID: 489625

URI: http://eprints.soton.ac.uk/id/eprint/489625

DOI: doi:10.1109/ISBA.2015.7126362

PURE UUID: 5f5ab291-374d-4d4b-94e0-5a82eb7172b7

ORCID for Joshua J. Robertson:

orcid.org/0000-0003-3952-754X

ORCID for Richard M. Guest:

orcid.org/0000-0001-7535-7336

Catalogue record

Date deposited: 30 Apr 2024 16:32

Last modified: 01 May 2024 02:10

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Contributors

Author: Stephen J. Elliott

Author: Kevin O'Connor

Author: Eric Bartlow

Author: Joshua J. Robertson

Author: Richard M. Guest

Corporate Author: et al.

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