A Labeled Array Distance Metric for Measuring Image Segmentation Quality

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Maryam Berijanian
Michigan State University
https://orcid.org/0000-0003-0931-6856
Katrina Gensterblum
Michigan State University
https://orcid.org/0009-0009-0475-951X
Doruk Alp Mutlu
Michigan State University
https://orcid.org/0009-0006-0791-3453
Katelyn Reagan
University of Wisconsin–Madison
https://orcid.org/0009-0009-6216-3538
Andrew Hart
Michigan State University
https://orcid.org/0009-0008-7444-142X
Dirk Colbry
Michigan State University
https://orcid.org/0000-0003-0666-9883

This work introduces two new distance metrics for comparing labeled arrays, which are common outputs of image segmentation algorithms. Each pixel in an image is assigned a label, with binary segmentation providing only two labels ('foreground' and 'background'). These can be represented by a simple binary matrix and compared using pixel differences. However, many segmentation algorithms output multiple regions in a labeled array. We propose two distance metrics, named LAD and MADLAD, that calculate the distance between two labeled images. By doing so, the accuracy of different image segmentation algorithms can be evaluated by measuring their outputs against a 'ground truth' labeling. Both proposed metrics, operating with a complexity of O(N) for images with N pixels, are designed to quickly identify similar labeled arrays, even when different labeling methods are used. Comparisons are made between images labeled manually and those labeled by segmentation algorithms. This evaluation is crucial when searching through a space of segmentation algorithms and their hyperparameters via a genetic algorithm to identify the optimal solution for automated segmentation, which is the goal in our lab, SEE-Insight. By measuring the distance from the ground truth, these metrics help determine which algorithm provides the most accurate segmentation.

Paraules clau
Computer Vision, Image Segmentation, Manual Annotations, Labeled Arrays, Distance Metrics, Fitness Function, Genetic Algorithm

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Berijanian, Maryam et al. «A Labeled Array Distance Metric for Measuring Image Segmentation Quality». ELCVIA: electronic letters on computer vision and image analysis, 2024, vol.VOL 23, núm. 2, p. 65-84, doi:10.5565/rev/elcvia.1941.
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Aquesta obra està sota una llicència internacional Creative Commons Reconeixement-NoComercial-SenseObraDerivada 4.0.

(c) Maryam Berijanian, Katrina Gensterblum, Doruk Alp Mutlu, Katelyn Reagan, Andrew Hart, Dirk Colbry, 2024

Biografies de l'autor/a

Maryam Berijanian, Michigan State University

Holding dual B.Sc. degrees in Mechanical and Aerospace Engineering from Sharif University of Technology, Iran, and an M.Sc. in Robotics and Mechatronics from the University of Twente, Netherlands, Maryam has a strong foundation in engineering and technology. Furthering her research in Germany in data analysis at RWTH Aachen University's Institute for Rail Vehicles and Transport Systems and in computer vision and deep learning at the Institute of Imaging & Computer Vision, she is now a Ph.D. student studying in the fields of Generative AI, Computer Vision, and Natural Language Processing. She has been recognized with prestigious awards and memberships, including a research grant in Germany, the Engineering Distinguished Scholar fellowship from Michigan State University, two scholarships from University of Twente, and memberships in Phi Kappa Phi and Tau Beta Pi honor societies.

Doruk Alp Mutlu, Michigan State University

Doruk Alp Mutlu is an undergraduate student at Michigan State University studying Computer Engineering and Mathematics.

Dirk Colbry, Michigan State University

Dr. Dirk Colbry is faculty in the newly formed Department of Mathematics, Science and Engineering.

An alumnus of MSU, Colbry has a Ph.D. in Computer Science and his principle areas of research include machine vision and pattern recognition (specializing in scientific imaging). Dr. Colbry also does research in computational education and high performance computing. From 2009 until 2015, Dr. Colbry worked for the Institute for Cyber Enabled Research as a computational consultant and Director of the HPCC. Dr. Colbry collaborates with scientists from multiple disciplines including Engineering, Toxicology, Plant and Soil Sciences, Zoology, Mathematics, Statistics and Biology. Recent projects include research in Image Phenomics; developing a commercially-viable large scale, cloud based image pathology tool; and helping develop methods for measuring the Carbon stored inside of soil. Dr. Colbry has taught a range of courses, including; communication "soft" skills, introduction to computational modeling, microprocessors, artificial intelligence, scientific image analysis, compilers, exascale programing, and courses in programming and algorithm analysis.