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On Machine-Learning Morphological Image Operators

Nina S. T. Hirata, George A. Papakostas

2021Mathematics24 citationsDOIOpen Access PDF

Abstract

Morphological operators are nonlinear transformations commonly used in image processing. Their theoretical foundation is based on lattice theory, and it is a well-known result that a large class of image operators can be expressed in terms of two basic ones, the erosions and the dilations. In practice, useful operators can be built by combining these two operators, and the new operators can be further combined to implement more complex transformations. The possibility of implementing a compact combination that performs a complex transformation of images is particularly appealing in resource-constrained hardware scenarios. However, finding a proper combination may require a considerable trial-and-error effort. This difficulty has motivated the development of machine-learning-based approaches for designing morphological image operators. In this work, we present an overview of this topic, divided in three parts. First, we review and discuss the representation structure of morphological image operators. Then we address the problem of learning morphological image operators from data, and how representation manifests in the formulation of this problem as well as in the learned operators. In the last part we focus on recent morphological image operator learning methods that take advantage of deep-learning frameworks. We close with discussions and a list of prospective future research directions.

Topics & Concepts

Computer scienceOperator (biology)Representation (politics)Operator theoryImage (mathematics)Artificial intelligenceImage processingTransformation (genetics)Focus (optics)Theoretical computer scienceMathematicsGeneRepressorPoliticsChemistryLawPhysicsPolitical scienceOpticsMathematical analysisTranscription factorBiochemistryAdvanced Neural Network ApplicationsCell Image Analysis TechniquesAdvanced Image and Video Retrieval Techniques