登录
首页 » matlab » 水下图像去雾与增强

水下图像去雾与增强

于 2020-11-02 发布 文件大小:37093KB
0 257
下载积分: 1 下载次数: 16
我要下载

代码说明:

  这篇论文提出了一种较好的水下图像增强的方法。首先使用经过端到端训练的卷积神经网络去测量输入图片,同时以自适应双边滤波器对传输图片进行处理。接着提出一种基于白平衡的策略来消除图片的颜色偏差,用拉普拉斯金字塔融合获得无雾和色彩校正图像的融合结果。 最后,输出图像被转换为混合小波和方向滤波器组(HWD)域,用于去噪和边缘增强。 实验结果表明,该方法可以消除颜色失真,提高水下图像的清晰度。(This paper proposes a better underwater image enhancement method. Firstly, an end-to-end training convolutional neural network is used to measure the input image, and an adaptive bilateral filter is used to process the transmitted image. Then a strategy based on white balance is proposed to eliminate the color deviation of images. The fusion results of fog-free and color correction images are obtained by Laplacian pyramid fusion. Finally, the output image is converted into hybrid wavelet and directional filter bank (HWD) domain for denoising and edge enhancement. The experimental results show that the method can eliminate color distortion and improve the clarity of underwater images.)

文件列表:

hikvision-master\codes\autolevel.m, 2027 , 2019-03-09
hikvision-master\codes\bfilter2.m, 1115 , 2019-03-09
hikvision-master\codes\bfltColor.m, 1354 , 2019-03-09
hikvision-master\codes\bfltGray.m, 1240 , 2019-03-09
hikvision-master\codes\bilateralFilter.m, 6703 , 2019-03-09
hikvision-master\codes\bilateral_filter.m, 1145 , 2019-03-09
hikvision-master\codes\boxfilter.m, 929 , 2019-03-09
hikvision-master\codes\ColorHistogramEqulization.m, 951 , 2019-03-09
hikvision-master\codes\convConst.mexw64, 29184 , 2019-03-09
hikvision-master\codes\convMax.m, 2318 , 2019-03-09
hikvision-master\codes\convolution.m, 772 , 2019-03-09
hikvision-master\codes\darktest.m, 1291 , 2019-03-09
hikvision-master\codes\dark_channelnew.m, 3869 , 2019-03-09
hikvision-master\codes\DEHANZENET.m, 145 , 2019-03-09
hikvision-master\codes\dehaze.m, 700 , 2019-03-09
hikvision-master\codes\dehaze.mat, 31902 , 2019-03-09
hikvision-master\codes\dehaze_fast.m, 1266 , 2019-03-09
hikvision-master\codes\expand.m, 755 , 2019-03-09
hikvision-master\codes\gaussian_pyramid.m, 283 , 2019-03-09
hikvision-master\codes\get_atmosphere.m, 445 , 2019-03-09
hikvision-master\codes\get_dark_channel.m, 585 , 2019-03-09
hikvision-master\codes\get_laplacian.m, 1665 , 2019-03-09
hikvision-master\codes\get_radiance.m, 300 , 2019-03-09
hikvision-master\codes\get_transmission_estimate.m, 256 , 2019-03-09
hikvision-master\codes\guidedfilter.m, 1020 , 2019-03-09
hikvision-master\codes\guided_filter.m, 649 , 2019-03-09
hikvision-master\codes\hpfilter.m, 736 , 2019-03-09
hikvision-master\codes\image2avi.m, 783 , 2019-03-09
hikvision-master\codes\image_dehazing.m, 1254 , 2019-03-23
hikvision-master\codes\lab_to_rgb.m, 90 , 2019-03-09
hikvision-master\codes\laplacian_pyramid.m, 395 , 2019-03-09
hikvision-master\codes\laplacia_conbine.m, 2522 , 2019-03-09
hikvision-master\codes\load_image.m, 158 , 2019-03-09
hikvision-master\codes\main_of_la.m, 741 , 2019-03-09
hikvision-master\codes\main_test_diff_weights.m, 3028 , 2019-03-09
hikvision-master\codes\main_using_optimized.m, 2811 , 2019-03-09
hikvision-master\codes\maxfilt2.m, 1784 , 2019-03-09
hikvision-master\codes\MyHistogramEqulization.m, 1170 , 2019-03-09
hikvision-master\codes\pyramid_reconstruct.m, 308 , 2019-03-09
hikvision-master\codes\RealGWbal.m, 637 , 2019-03-09
hikvision-master\codes\rgb_to_lab.m, 90 , 2019-03-09
hikvision-master\codes\run_cnn.m, 1681 , 2019-03-09
hikvision-master\codes\saliency_detection.m, 2484 , 2019-03-09
hikvision-master\codes\SimplestColorBalance.m, 1749 , 2019-03-09
hikvision-master\codes\sse.hpp, 3125 , 2019-03-09
hikvision-master\codes\ssim.m, 4430 , 2019-03-09
hikvision-master\codes\ssim_score.m, 93 , 2019-03-09
hikvision-master\codes\UICM.m, 777 , 2019-03-09
hikvision-master\codes\UIConM.m, 1881 , 2019-03-09
hikvision-master\codes\UIQM.m, 207 , 2019-03-09
hikvision-master\codes\UISM.m, 2130 , 2019-03-09
hikvision-master\codes\underwater.p, 1319 , 2019-03-09
hikvision-master\codes\underwaterimage2.p, 963 , 2019-03-09
hikvision-master\codes\vanherk.m, 4665 , 2019-03-09
hikvision-master\codes\white_balance.p, 650 , 2019-03-09
hikvision-master\codes\window_sum_filter.m, 608 , 2019-03-09
hikvision-master\demo.m, 434 , 2019-04-27
hikvision-master\Images\001.png, 287992 , 2019-03-09
hikvision-master\Images\002.png, 178049 , 2019-03-23
hikvision-master\Images\003.png, 438725 , 2019-03-23
hikvision-master\Images\004.bmp, 675818 , 2019-03-16
hikvision-master\Images\005.jpg, 23362 , 2019-03-23
hikvision-master\Images\006.jpg, 10311 , 2019-03-23
hikvision-master\Images\007.jpg, 28297 , 2019-03-23
hikvision-master\Images\008.png, 223112 , 2019-03-23
hikvision-master\Images\009.jpg, 66374 , 2019-03-16
hikvision-master\Images\010.jpg, 7571 , 2019-03-23
hikvision-master\Images\011.jpg, 40474 , 2019-03-16
hikvision-master\Images\012.jpg, 1043605 , 2019-03-16
hikvision-master\Images\013.jpg, 420742 , 2019-03-16
hikvision-master\Images\014.jpg, 177970 , 2019-03-16
hikvision-master\Images\015.jpg, 113576 , 2019-03-16
hikvision-master\Images\016.jpg, 116954 , 2019-03-16
hikvision-master\Images\017.jpg, 47446 , 2019-03-16
hikvision-master\Images\018.jpg, 28685 , 2019-03-23
hikvision-master\Images\019.jpg, 28271 , 2019-03-23
hikvision-master\Images\020.jpg, 12690 , 2019-03-23
hikvision-master\Images\021.jpg, 26831 , 2019-03-23
hikvision-master\Images\022.jpg, 39097 , 2019-03-23
hikvision-master\Images\023.jpg, 11800 , 2019-03-23
hikvision-master\Images\024.jpg, 26359 , 2019-03-23
hikvision-master\Images\025.jpg, 28606 , 2019-03-23
hikvision-master\Images\026.jpg, 14047 , 2019-03-23
hikvision-master\Images\027.jpg, 14926 , 2019-03-23
hikvision-master\Images\028.jpg, 23628 , 2019-03-23
hikvision-master\Images\029.jpg, 37295 , 2019-03-23
hikvision-master\Images\030.jpg, 20874 , 2019-03-23
hikvision-master\Images\031.jpg, 91049 , 2019-03-16
hikvision-master\Images\032.jpg, 162554 , 2019-03-23
hikvision-master\Images\033.jpg, 111174 , 2019-03-23
hikvision-master\Images\3001.jpg, 13541 , 2019-03-23
hikvision-master\Images\3002.jpg, 14686 , 2019-03-23
hikvision-master\Images\3003.jpg, 31071 , 2019-03-16
hikvision-master\Images\3004.jpg, 38339 , 2019-03-16
hikvision-master\Images\5001.jpg, 91900 , 2019-03-23
hikvision-master\Images\5002.png, 220444 , 2019-03-23
hikvision-master\Images\5003.jpg, 17096 , 2019-03-09
hikvision-master\Images\50031.jpg, 68190 , 2019-03-23
hikvision-master\Images\5004.jpg, 51855 , 2019-03-23
hikvision-master\Images\5005.jpg, 52676 , 2019-03-23

下载说明:请别用迅雷下载,失败请重下,重下不扣分!

发表评论

0 个回复

  • 3d
    说明:  机器视觉中三维重建的源码 具体包括4个文件,其中.c文件用于产生图像特征点矩阵(In the three-dimensional reconstruction process, resulting in the source image feature dot matrix)
    2010-01-26 02:50:11下载
    积分:1
  • 三次B样条曲线
    用C语言编写的三次B样条曲线源代码!(C language prepared by the cubic B-spline curves source code!)
    2020-09-30 14:27:45下载
    积分:1
  • FrequencyImage
    说明:  包括如何将几百个*.txt的文件读入程序,并通过快速傅立叶变换进行数据处理画出图像。(including how to hundreds*. txt file into the process, and through the fast Fourier transform data processing paint images.)
    2006-03-15 08:25:22下载
    积分:1
  • PCA
    主成分分析 ( Principal Component Analysis , PCA )或者主元分析。是一种掌握事物主要矛盾的统计分析方法,它可以从多元事物中解析出主要影响因素,揭示事物的本质,简化复杂的问题。计算主成分的目的是将高维数据投影到较低维空间。给定 n 个变量的 m 个观察值,形成一个 n ′ m 的数据矩阵, n 通常比较大。对于一个由多个变量描述的复杂事物,人们难以认识,那么是否可以抓住事物主要方面进行重点分析呢?如果事物的主要方面刚好体现在几个主要变量上,我们只需要将这几个变量分离出来,进行详细分析。但是,在一般情况下,并不能直接找出这样的关键变量。这时我们可以用原有变量的线性组合来表示事物的主要方面, PCA 就是这样一种分析方法。(Principal component analysis (Principal Component Analysis, PCA) or PCA. Is a statistical method to grasp the principal contradiction of things, it can be resolved diverse things out the main factors, revealing the essence of things, simplifying complex problems. The purpose of calculating the main component of high-dimensional data is projected to a lower dimensional space. Given n variables of m observations, forming an n ' m of the data matrix, n is usually large. For a complex matters described by several variables, it is difficult to know, so if you can grab something to focus on key aspects of analysis? If the main aspects of things just reflected on several key variables, we only need to separate out these few variables, for detailed analysis. However, in general, does not directly identify this critical variables. Then we can represent the major aspects of things with a linear combination of the original variables, PCA is one such analysis.)
    2021-01-28 21:48:40下载
    积分:1
  • RANSAC_plane
    说明:  平面拟合,RANSAC拟合方法,关于平面重构,画示意图,计算法向量(Plane Fitting and RANSAC Fitting Method)
    2019-02-28 09:41:58下载
    积分:1
  • fawltunique
    自己编写的粒子群优化算法,以计算一个函数的值作为测试,达到了良好的精度(The particle swarm optimization algorithm written by ourselves is designed to calculate the value of a function as a test, and good precision is achieved.)
    2018-09-05 23:02:58下载
    积分:1
  • BM3D
    说明:  自己实现的BM3D图像去噪算法。它首先把图像分成一定大小的块,根据图像块之间的相似性,把具有相似结构的二维图像块组合在一起形成三维数组,然后用联合滤波的方法对这些三维数组进行处理,最后,通过逆变换,把处理后的结果返回到原图像中,从而得到去噪后的图像。(Image Denosing by Sparse 3-D Transform-Domain Collaborative Filtering.)
    2021-04-01 16:29:08下载
    积分:1
  • testDLT
    DLT标定算法的matlab程序,对学习标定的人有用(DLT algorithm matlab calibration procedures)
    2009-04-10 15:30:58下载
    积分:1
  • actual_albedo_hdf
    实际求解反照率的代码 对于遥感专业会有很大帮助(this code is an example of how to calculate the actual albedo if you have black and white albedo)
    2021-03-20 16:59:19下载
    积分:1
  • denoise3
    一幅真彩色图像的小波去噪方法实例。通过对一幅真彩色图像的RGB三个方面分别处理,把处理后的结果结合得到。(A true color image examples of wavelet denoising method. Through a true color image of the RGB three aspects dealt with separately, the results of the combination to be processed.)
    2010-01-05 15:16:59下载
    积分:1
  • 696516资源总数
  • 106409会员总数
  • 8今日下载

热门标签

Visual C++ matlab C/C++ Java Others Unix_Linux EasyLanguage易语言 Visual Basic C# PDF C++ Delphi VHDL ASP WINDOWS
热门下载

Copyright© 2019-2026 | Powered by Imdn | 浙ICP备16007336号 | IMDN交流 | 联系客服(QQ:3324461878)

本网站资源收集自网络及网站用户上传,若有侵权请邮件至(3324461878@qq.com),核实后我们会在24小时内删除,谢谢!