Communicability cosine distance: similarity and symmetry in graphs/networks

Estrada, Ernesto

doi:10.1007/s40314-023-02571-9

Comp. Appl. Math.

2024

DOI: 10.1007/s40314-023-02571-9

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Communicability cosine distance: similarity and symmetry in graphs/networks

Ernesto Estrada

Abstract: A distance based on the exponential kernel of the adjacency matrix of a graph and representing how well two vertices connect to each other in a graph is defined and studied. This communicability cosine distance (CCD) is a Euclidean spherical distance accounting for the cosine of the angles spanned by the position vectors of the graph vertices in this space. The Euclidean distance matrix (EDM) of CCD is used to quantify the similarity between vertices in graphs and networks as well as to define a local vertex i… Show more

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Cited by 2 publications

References 52 publications

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A note on (local) energy of a graph

Rakshith,

Das

2024

Comp. Appl. Math.

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A note on (local) energy of a graph

Rakshith,

Das

2024

Comp. Appl. Math.

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Two-degree of freedom Mahalanobis classifier for smartphone-camera identification from natural digital images

Vázquez-Medina,

Rojas-López,

Jiménez-Ramírez

et al. 2024

PeerJ Computer Science

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The portability and popularity of smartphones makes it easy to capture digital images in a variety of situations, including witnessing criminal activity. Forensic analysis of digital images captured by smartphone-cameras could be used for legal and investigative purposes, not only to have a recording of an act, but also to establish a relationship between a digital image and its capture device, and between the latter and a person. Fortunately, given the similarities, forensic ballistics techniques and procedures used to identify weapons from fired bullets can be used to identify smartphone-cameras from digital images. However, while there are several solutions for identifying smartphone-cameras from digital images, not all of them focus on two key issues: reducing the number of reference images used to create the fingerprint of the smartphone-camera and reducing the processing time for identification. To address these issues, a method based on a two-degree-of-freedom discriminant analysis using pixel intensity and intrinsic noise in digital images is proposed. It uses a Mahalanobis classifier to compare the traces left by the capture source in a digital image with the fingerprints calculated for the candidate smartphone-cameras. This allows the identification of the most likely smartphone-camera that captured a digital image. A significant advantage of the proposed method is that it relies on a smaller number of reference images to estimate the smartphone-camera fingerprints. They are built using only fifteen reference images, as opposed to thirty or more images required by other techniques. This means faster processing times as image clippings are analyzed rather than whole digital images. The proposed method demonstrates high performance, since for disputed flat images it achieves an identification effectiveness rate of 87.50% with one reference image, and 100.00% when fifteen reference images are considered. For disputed natural images, it achieves an identification effectiveness rate of 97.50% with fifteen reference images.

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Communicability cosine distance: similarity and symmetry in graphs/networks

Cited by 2 publications

References 52 publications

A note on (local) energy of a graph

A note on (local) energy of a graph

Two-degree of freedom Mahalanobis classifier for smartphone-camera identification from natural digital images

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