Devising a method for segmenting complex structured images acquired from space observation systems based on the particle swarm algorithm

Abstract: This paper considers the improved method for segmenting complex structured images acquired from space observation systems based on the particle swarm algorithm. Unlike known ones, the method for segmenting complex structured images based on the particle swarm algorithm involves the following: – highlighting brightness channels in the Red-Green-Blue color space; – using a particle swarm method in the image in each channel of brightness of the RGB color space; – image segmentation is reduced to calculating the o… Show more

“…To formalize the task of segmenting camouflaged military equipment in the image f(x, y) from the space surveillance system, we shall use expression (1) [16,24]:…”

“…Segmentation of the image f(x, y) involves splitting the original image (1) into B i segments, taking into consideration condition (2) [16,24]:…”

“…In [16], an improved method of segmentation of complex structured images from space observation systems based on the algorithm of a swarm of particles is proposed. Experimental studies on segmentation by the method [16] have shown that disguised objects of interest are allocated to a separate segment.…”

“…In [16], an improved method of segmentation of complex structured images from space observation systems based on the algorithm of a swarm of particles is proposed. Experimental studies on segmentation by the method [16] have shown that disguised objects of interest are allocated to a separate segment. The advantages of [16] are the low algorithmic complexity of the method, the lack of fixation in local optimums, and the efficiency of processing complex images.…”

“…Experimental studies on segmentation by the method [16] have shown that disguised objects of interest are allocated to a separate segment. The advantages of [16] are the low algorithmic complexity of the method, the lack of fixation in local optimums, and the efficiency of processing complex images. The disadvantage of [16] is the difficulty in selecting the parameters of the method -coefficients of acceleration, inertia, and some random coefficients.…”

Devising a method for segmenting camouflaged military equipment on images from space surveillance systems using a genetic algorithm

“…To formalize the task of segmenting camouflaged military equipment in the image f(x, y) from the space surveillance system, we shall use expression (1) [16,24]:…”

“…Segmentation of the image f(x, y) involves splitting the original image (1) into B i segments, taking into consideration condition (2) [16,24]:…”

“…In [16], an improved method of segmentation of complex structured images from space observation systems based on the algorithm of a swarm of particles is proposed. Experimental studies on segmentation by the method [16] have shown that disguised objects of interest are allocated to a separate segment.…”

“…In [16], an improved method of segmentation of complex structured images from space observation systems based on the algorithm of a swarm of particles is proposed. Experimental studies on segmentation by the method [16] have shown that disguised objects of interest are allocated to a separate segment. The advantages of [16] are the low algorithmic complexity of the method, the lack of fixation in local optimums, and the efficiency of processing complex images.…”

“…Experimental studies on segmentation by the method [16] have shown that disguised objects of interest are allocated to a separate segment. The advantages of [16] are the low algorithmic complexity of the method, the lack of fixation in local optimums, and the efficiency of processing complex images. The disadvantage of [16] is the difficulty in selecting the parameters of the method -coefficients of acceleration, inertia, and some random coefficients.…”

Devising a method for segmenting camouflaged military equipment on images from space surveillance systems using a genetic algorithm

Improved Method of Segmentation of Images From Space-Based Optoelectronic Observation Systems Based on Otsu's Algorithm with Global and Adaptive Thresholds

Methods of UAVs images segmentation based on k-means and a genetic algorithm