哪种基于粒子群优化的自适应多光谱图像融合方法附有Matlab代码和论文?
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本文共计526个文字,预计阅读时间需要3分钟。
本文提出一种适用于遥感应用的图像融合新方法。为了估计原始细节图,利用最小二乘法计算多光谱图像的波段系数。旨在优化细节图,
1 简介
In this paper, a novel image fusion method for remote sensing applications is proposed. In order to estimate the primitive detail map, the band coefficients of multispectral images are computed using least squares method. To refine the detail map and better image fusion, an adaptive method is proposed to compute the weights of linear combinations of panchromatic (Pan) and multispectral (MS) gradients. The injected weightsare calculated using particle swarm optimization (PSO). Twodata sets obtained by WorldView-3 and QuickBird satellites are employed for testing the assessment and comparing with state-of-art methods.
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2 部分代码
%% This code is used to estimate the weights of the MultiSpectral (MS) bands based on Adaptive IHS (AIHS) method.%% References
% [1] S. Rahmani, M. Strait, D. Merkurjev, M. Moeller, and T. Wittman,
% M - Low Resolution MS (LRMS) image to size of PANchromatic (PAN) image
% P - Original PAN image
%% In the outputs you can find the estimated weight for each MS band
% findalph - Spectral weights
function findalph = impGradDes(M, P)
[n, m, d] = size(M);
%% Initializing the optimal weight vector
findalph = ones(d,1);
%% Optimization process
for i=1:d
for j=1:d
A(i,j) = sum(sum(M(:,:,i).*M(:,:,j)));
end
B(i,1) = sum(sum(P.*M(:,:,i)));
end
tau = 5;
iter = 150000;
gamma1 = 1/200000;
gamma2 = 1;
inv = (eye(d) + 2*tau*gamma1*A)^(-1);
for i = 1:iter
findalph = inv * (findalph+2*tau*max(-findalph,0)+2*tau*gamma1*B);
end
%% EOF
3 仿真结果
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4 参考文献
A. Azarang and H. Ghassemian, "An adaptive multispectral image fusion using particle swarm optimization," 2017 Iranian Conference on Electrical Engineering (ICEE), 2017, pp. 1708-1712, doi: 10.1109/IranianCEE.2017.7985325.
博主简介:擅长智能优化算法、神经网络预测、信号处理、元胞自动机、图像处理、路径规划、无人机等多种领域的Matlab仿真,相关matlab代码问题可私信交流。
部分理论引用网络文献,若有侵权联系博主删除。
编辑
本文共计526个文字,预计阅读时间需要3分钟。
本文提出一种适用于遥感应用的图像融合新方法。为了估计原始细节图,利用最小二乘法计算多光谱图像的波段系数。旨在优化细节图,
1 简介
In this paper, a novel image fusion method for remote sensing applications is proposed. In order to estimate the primitive detail map, the band coefficients of multispectral images are computed using least squares method. To refine the detail map and better image fusion, an adaptive method is proposed to compute the weights of linear combinations of panchromatic (Pan) and multispectral (MS) gradients. The injected weightsare calculated using particle swarm optimization (PSO). Twodata sets obtained by WorldView-3 and QuickBird satellites are employed for testing the assessment and comparing with state-of-art methods.
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2 部分代码
%% This code is used to estimate the weights of the MultiSpectral (MS) bands based on Adaptive IHS (AIHS) method.%% References
% [1] S. Rahmani, M. Strait, D. Merkurjev, M. Moeller, and T. Wittman,
% M - Low Resolution MS (LRMS) image to size of PANchromatic (PAN) image
% P - Original PAN image
%% In the outputs you can find the estimated weight for each MS band
% findalph - Spectral weights
function findalph = impGradDes(M, P)
[n, m, d] = size(M);
%% Initializing the optimal weight vector
findalph = ones(d,1);
%% Optimization process
for i=1:d
for j=1:d
A(i,j) = sum(sum(M(:,:,i).*M(:,:,j)));
end
B(i,1) = sum(sum(P.*M(:,:,i)));
end
tau = 5;
iter = 150000;
gamma1 = 1/200000;
gamma2 = 1;
inv = (eye(d) + 2*tau*gamma1*A)^(-1);
for i = 1:iter
findalph = inv * (findalph+2*tau*max(-findalph,0)+2*tau*gamma1*B);
end
%% EOF
3 仿真结果
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4 参考文献
A. Azarang and H. Ghassemian, "An adaptive multispectral image fusion using particle swarm optimization," 2017 Iranian Conference on Electrical Engineering (ICEE), 2017, pp. 1708-1712, doi: 10.1109/IranianCEE.2017.7985325.
博主简介:擅长智能优化算法、神经网络预测、信号处理、元胞自动机、图像处理、路径规划、无人机等多种领域的Matlab仿真,相关matlab代码问题可私信交流。
部分理论引用网络文献,若有侵权联系博主删除。
编辑