Journal of Medical Signals and Sensors (May 2025)
Nonrigid Multimodal Registration Based on Fuzzy Inference System for Retinal Image Registration
Abstract
Background: Retinal imaging employs various modalities, each providing distinct perspectives on ocular structures. However, the integration of information from these modalities, which often have differing resolutions, requires effective image registration techniques. Existing retinal image registration methods typically rely on rigid or affine transformations, which may not adequately address the complexities of multimodal retinal images. Method: This study introduces a nonrigid fuzzy image registration approach designed to align optical coherence tomography (OCT) images with fundus images. The method employs a fuzzy inference system (FIS) that uses vessel locations as key features for registration. The FIS applies specific rules to map points from the source image to the reference image, facilitating accurate alignment. Results: The proposed method achieved a mean absolute registration error of 44.57 ± 39.38 µm in the superior–inferior orientation and 11.46 ± 10.06 µm in the nasal-temporal orientation. These results underscore the method’s precision in aligning multimodal retinal images. Conclusion: The nonrigid fuzzy image registration approach demonstrates robust and versatile performance in integrating multimodal retinal imaging data. Despite its straightforward implementation, the method effectively addresses the challenges of multimodal retinal image registration, providing a reliable tool for advanced ocular imaging analysis.
Keywords
