Convolution approach for feature detection in topological skeletons obtained from vascular patterns

Olsen, Martin Aastrup; Hartung, Daniel; Busch, Christoph; Larsen, Rasmus

doi:10.1109/cibim.2011.5949223

Cited by 13 publications

(2 citation statements)

References 5 publications

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“…However future work will integrate a more general minutiae extraction algorithm based on a convolution approach [10]: this makes the correction of the skeletonization process unnecessary and additionally speeds up the overall process.…”

Section: Discussionmentioning

confidence: 99%

Vascular biometrics based on a minutiae extraction approach

Uriarte-Antonio

Hartung²,

Pascual

et al. 2011

2011 Carnahan Conference on Security Technology

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In this paper, the authors will describe a new algorithm based on minutiae extraction which is inspired by currently fingerprint systems, but adapted to the own characteristics of vein patterns. All the steps of the system, from the image pre-processing to the comparison algorithm, are described, including also the biometric feature extraction process. After describing the system, some obtained results are detailed. The algorithm proposed has been tested with two different databases: one database acquired by the authors, using a self-designed sensor; and one semi-publicly accessible database. These results do not only show the low error rates obtained but also the universality of the proposed system, as well as the ease of adapting the algorithm to cope with the different characteristics of each database

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Section: Discussionmentioning

confidence: 99%

Vascular biometrics based on a minutiae extraction approach

Uriarte-Antonio

Hartung²,

Pascual

et al. 2011

2011 Carnahan Conference on Security Technology

Self Cite

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“…Node detection: The river skeleton image is convolved with a mask for node detection in RivMACNet. The conventional method (Olsen et al, 2011), using a simple 3×3 mask (Fig. 2B), can detect only eight end nodes and 18 bifurcation node structures (e.g., node 1 and 2 in Fig.…”

Section: River Network Topology Constructionmentioning

confidence: 99%

An automatic graph-based method for characterizing multichannel networks

Liu

Carling

Wang

et al. 2022

Computers & Geosciences

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Vascular Biometric Graph Comparison: Theory and Performance

Arakala

Davis

Horadam

2019

Handbook of Vascular Biometrics

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Vascular biometric templates are gaining increasing popularity due to simple and contact free capture and resilience to presentation attacks. We present the state of the art in Biometric Graph Comparison, a technique to register and compare vascular biometric templates by representing them as formal graphs. Such graphs consist of a set of vertices, representing the branch, termination and crossover points in the vascular pattern, and a set of edges. An edge represents the relationship between a pair of feature points that are directly connected by a vessel segment in a vascular biometric image. We summarise how this information has been successfully used over the past 8 years to improve registration and recognition performance for the vasculature under the palm, wrist, hand and retina. The structural properties of biometric graphs from these modalities differ, with retina graphs having the largest number of vertices on average and the most complex structure, and hand graphs having the smallest number of vertices on average and being the least connected. All vascular graphs have similarities to trees, with the ratio of edges to vertices being close to 1. We describe our most recent algorithms for biometric graph registration and comparison, and our performance results. We are interested in the possibility of using biometric graphs in a template protection scheme based on the paradigm of dissimilarity vectors. As a first step, we wish to improve registration. Certain modalities like retina have an intrinsic reference frame that makes registration more straightforward. Other modalities may not have an intrinsic reference frame. To overcome this, we introduce the notion of anchors-subgraphs of a biometric graph, having between 5 and 10 vertices, that occur consistently in samples from the same individual-that would enable the dissimilarity vector scheme to be applied to any vascular modality. Experiments on palm and wrist databases show that all individuals had at least some sets of 6 captures which could be used to identify an anchor,

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Convolution approach for feature detection in topological skeletons obtained from vascular patterns

Cited by 13 publications

References 5 publications

Vascular biometrics based on a minutiae extraction approach

Vascular biometrics based on a minutiae extraction approach

An automatic graph-based method for characterizing multichannel networks

Vascular Biometric Graph Comparison: Theory and Performance

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