COFI - Coarse-Semantic to Fine-Instance Unsupervised Mitochondria Segmentation in EM

Aswath, Anusha; Alsahaf, Ahmad; Westenbrink, B. Daan; Giepmans, Ben N. G.; Azzopardi, George

doi:10.1007/978-3-031-44240-7_9

Lecture Notes in Computer Science

2023

DOI: 10.1007/978-3-031-44240-7_9

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COFI - Coarse-Semantic to Fine-Instance Unsupervised Mitochondria Segmentation in EM

Anusha Aswath,

Ahmad Alsahaf,

B. Daan Westenbrink

et al.

Abstract: Instance segmentation is crucial for insightful analysis in the increasing use of large-scale electron microscopy (EM) to gain a better understanding of disease causes or progression. Instance segmentation is a more granular version of semantic segmentation, as it identifies and distinguishes individual object instances, whereas semantic segmentation only identifies object classes. In this study, we introduce a two-stage unsupervised approach called COFI, which stands for Coarse-Semantic to Fine-Instance segme… Show more

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2024

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Classification of radio galaxies with trainable COSFIRE filters

Ndung’u,

Grobler,

Wijnholds

et al. 2024

Monthly Notices of the Royal Astronomical Society

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Radio galaxies exhibit a rich diversity of morphological characteristics, which make their classification into distinct types a complex challenge. To address this challenge effectively, we introduce an innovative approach for radio galaxy classification using COSFIRE filters. These filters possess the ability to adapt to both the shape and orientation of prototype patterns within images. The COSFIRE approach is explainable, learning-free, rotation-tolerant, efficient, and does not require a large training set. To assess the efficacy of our method, we conducted experiments on a benchmark radio galaxy data set comprising of 1180 training samples and 404 test samples. Notably, our approach achieved an average accuracy rate of 93.36 %. This achievement outperforms contemporary deep learning models, and it is the best result ever achieved on this data set. Additionally, COSFIRE filters offer better computational performance, ∼20 × fewer operations than the DenseNet-based competing method (when comparing at the same accuracy). Our findings underscore the effectiveness of the COSFIRE filter-based approach in addressing the complexities associated with radio galaxy classification. This research contributes to advancing the field by offering a robust solution that transcends the orientation challenges intrinsic to radio galaxy observations. Our method is versatile in that it is applicable to various image classification approaches.

show abstract

Classification of radio galaxies with trainable COSFIRE filters

Ndung’u,

Grobler,

Wijnholds

et al. 2024

Monthly Notices of the Royal Astronomical Society

View full text Add to dashboard Cite

show abstract

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COFI - Coarse-Semantic to Fine-Instance Unsupervised Mitochondria Segmentation in EM

Cited by 1 publication

References 19 publications

Classification of radio galaxies with trainable COSFIRE filters

Classification of radio galaxies with trainable COSFIRE filters

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