Abstract
In remote sensing imagery, segmentation techniques fail to encounter multiple regions of interest due to challenges such as dense features, low illumination, uncertainties, and noise. Consequently, exploiting vast and redundant information makes segmentation a difficult task. Existing multilevel thresholding techniques achieve low segmentation accuracy with high temporal difficulty due to the absence of spatial information. To mitigate this issue, this paper presents a new Rényi’s entropy and modified cuckoo search-based robust automatic multi-thresholding algorithm for remote sensing image analysis. In the proposed method, the modified cuckoo search algorithm is combined with Rényi’s entropy thresholding criteria to determine optimal thresholds. In the modified cuckoo search algorithm, the Lévy flight step size was modified to improve the convergence rate. An experimental analysis was conducted to validate the proposed method, both qualitatively and quantitatively against existing metaheuristic-based thresholding methods. To do this, the performance of the proposed method was intensively examined on high-dimensional remote sensing imageries. Moreover, numerical parameter analysis is presented to compare the segmented results against the gray-level co-occurrence matrix, Otsu energy curve, minimum cross entropy, and Rényi’s entropy-based thresholding. Experiments demonstrated that the proposed approach is effective and successful in attaining accurate segmentation with low time complexity.
Highlights
Image segmentation comprises the partitioning of an image into homogenous and non-overlapping regions based on the similarity among image features such as color, intensity value, and regional statistics
For the analysis of the segmentation results on the test images, Rényi’s entropy, MCE, EC-Otsu, and gray-level co-occurrence matrix (GLCM) were considered as fitness functions and evaluated using metaheuristic optimization algorithms: modified firefly algorithm (MFA), modified bacterial foraging optimization (MBFO), modified particle swarm optimization (MPSO), modified artificial bee colony (MABC), and JADE
Since the performance of any optimization algorithm depends on the choice of of 39 the parameters, the best parametric values adopted for MFA [45],13MBFO
Summary
Image segmentation comprises the partitioning of an image into homogenous and non-overlapping regions based on the similarity among image features such as color, intensity value, and regional statistics. It is a pre-processing step in pattern recognition and computer vision problems such as object detection, biomedical imaging, traffic control system, classification, and video surveillance. On the basis of the principle of segmentation, we built a taxonomy of various segmentation techniques that differentiates segmentation techniques based on region, edge, and thresholding
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
