Publikationen

Efficient, accurate, and rotation-invariant iris code

AutorDamer, Naser; Terhörst, Philipp; Braun, Andreas; Kuijper, Arjan
Datum2017
ArtJournal Article, Electronic Publication
AbstraktThe large scale of the recently demanded biometric systems has put a pressure on creating a more efficient, accurate, and private biometric solutions. Iris biometrics is one of the most distinctive and widely used biometric characteristics. High-performing iris representations suffer from the curse of rotation inconsistency. This is usually solved by assuming a range of rotational errors and performing a number of comparisons over this range, which results in a high computational effort and limits indexing and template protection. This work presents a generic and parameter-free transformation of binary iris representation into a rotation-invariant space. The goal is to perform accurate and efficient comparison and enable further indexing and template protection deployment. The proposed approach was tested on a database of 10 000 subjects of the ISYN1 iris database generated by CASIA. Besides providing a compact and rotational-invariant representation, the proposed approach reduced the equal error rate by more than 55% and the computational time by a factor of up to 44 compared to the original representation.
ReferenzIEEE Signal Processing Letters, Vol.24 (2017), No.8, pp.1233-1237
SchlüsselISSN : 1070-9908
Urlhttp://publica.fraunhofer.de/eprints/urn:nbn:de:0011-n-4592158.pdf