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1、Hybrid Genetic Algorithm Based Image EnhancementTechnologyAbstract:In image enhancement, Tubbs proposed a normalized incomplete Beta function to represent several kinds of commonly used non-linear transform functions to do the research on image enhancement. But how to define the coefficients of the
2、Beta function is still a problem. We proposed a Hybrid Genetic Algorithm which combines the Differential Evolution to the Genetic Algorithm in the image enhancement process and utilize the quickly searching ability of the algorithm to carry out the adaptive mutation and searches. Finally we use the
3、Simulation experiment to prove the effectiveness of the method.Keywords:Image enhancement; Hybrid Genetic Algorithm; adaptive enhancementI. INTRODUCTIONIn the image formation, transfer or conversion process, due to other objective factors such as system noise, inadequate or excessive exposure, relat
4、ive motion and so the impact will get the image often a difference between the original image (referred to as degraded or degraded) Degraded image is usually blurred or after the extraction of information through the machine to reduce or even wrong, it must take some measures for its improvement.Ima
5、ge enhancement technology is proposed in this sense, and the purpose is to improve the image quality. Fuzzy Image Enhancement situation according to the image using a variety of special technical highlights some of the information in the image, reduce or eliminate the irrelevant information, to emph
6、asize the image of the whole or the purpose of local features. Image enhancement method is still no unified theory, image enhancement techniques can be divided into three categories: point operations, and spatial frequency enhancement methods Enhancement Act. This paper presents an automatic adjustm
7、ent according to the image characteristics of adaptive image enhancement method that called hybrid genetic algorithm. It combines the differential evolution algorithm of adaptive search capabilities, automatically determines the transformation function of the parameter values in order to achieve ada
8、ptive image enhancement.II. IMAGE ENHANCEMENT TECHNOLOGYImage enhancement refers to some features of the image, such as contour, contrast, emphasis or highlight edges, etc., in order to facilitate detection or further analysis and processing. Enhancements will not increase the information in the ima
9、ge data, but will choose the appropriate features of the expansion of dynamic range, making these features more easily detected or identified, for the detection and treatment follow-up analysis and lay a good foundation.Image enhancement method consists of point operations, spatial filtering, and fr
10、equency domain filtering categories. Point operations, including contrast stretching, histogram modeling, and limiting noise and image subtraction techniques. Spatial filter including low-pass filtering, median filtering, high pass filter (image sharpening). Frequency filter including homomorphism f
11、iltering, multi-scale multi-resolution image enhancement applied 1.III. DIFFERENTIAL EVOLUTION ALGORITHMDifferential Evolution (DE) was first proposed by Price and Storn, and with other evolutionary algorithms are compared, DE algorithm has a strong spatial search capability, and easy to implement,
12、easy to understand. DE algorithm is a novel search algorithm, it is first in the search space randomly generates the initial population and then calculate the difference between any two members of the vector, and the difference is added to the third member of the vector, by which Method to form a ne
13、w individual. If you find that the fitness of new individual members better than the original, then replace the original with the formation of individual self.The operation of DE is the same as genetic algorithm, and it conclude mutation, crossover and selection, but the methods are different. We su
14、ppose that the group size is P, the vector dimension is D, and we can express the object vector as (1): xi=xi1,xi2,xiD (i =1,P) (1)And the mutation vector can be expressed as (2): i=1,.,P (2),are three randomly selected individuals from group, and r1r2r3i.F is a range of 0, 2 between the actual type
15、 constant factor difference vector is used to control the influence, commonly referred to as scaling factor. Clearly the difference between the vector and the smaller the disturbance also smaller, which means that if groups close to the optimum value, the disturbance will be automatically reduced.DE
16、 algorithm selection operation is a greedy selection mode, if and only if the new vector ui the fitness of the individual than the target vector is better when the individual xi, ui will be retained to the next group. Otherwise, the target vector xi individuals remain in the original group, once aga
17、in as the next generation of the parent vector.IV. HYBRID GA FOR IMAGE ENHANCEMENT IMAGEenhancement is the foundation to get the fast object detection, so it is necessary to find real-time and good performance algorithm. For the practical requirements of different systems, many algorithms need to de
18、termine the parameters and artificial thresholds. Can use a non-complete Beta function, it can completely cover the typical image enhancement transform type, but to determine the Beta function parameters are still many problems to be solved. This section presents a Beta function, since according to
19、the applicable method for image enhancement, adaptive Hybrid genetic algorithm search capabilities, automatically determines the transformation function of the parameter values in order to achieve adaptive image enhancement.The purpose of image enhancement is to improve image quality, which are more
20、 prominent features of the specified restore the degraded image details and so on. In the degraded image in a common feature is the contrast lower side usually presents bright, dim or gray concentrated. Low-contrast degraded image can be stretched to achieve a dynamic histogram enhancement, such as
21、gray level change. We use Ixy to illustrate the gray level of point (x, y) which can be expressed by (3). Ixy=f(x, y) (3)where: “f” is a linear or nonlinear function. In general, gray image have four nonlinear translations 6 7 that can be shown as Figure 1. We use a normalized incomplete Beta functi
22、on to automatically fit the 4 categories of image enhancement transformation curve. It defines in (4): (4) where: (5)For different value of and , we can get response curve from (4) and (5).The hybrid GA can make use of the previous section adaptive differential evolution algorithm to search for the
23、best function to determine a value of Beta, and then each pixel grayscale values into the Beta function, the corresponding transformation of Figure 1, resulting in ideal image enhancement. The detail description is follows:Assuming the original image pixel (x, y) of the pixel gray level by the formu
24、la (4), denoted by, here is the image domain. Enhanced image is denoted by Ixy. Firstly, the image gray value normalized into 0, 1 by (6). (6)where: and express the maximum and minimum of image gray relatively.Define the nonlinear transformation function f(u) (0u1) to transform source image to Gxy=f
25、(), where the 0 Gxy 1.Finally, we use the hybrid genetic algorithm to determine the appropriate Beta function f (u) the optimal parameters and . Will enhance the image Gxy transformed antinormalized.V. EXPERIMENT AND ANALYSISIn the simulation, we used two different types of gray-scale images degrade
26、d; the program performed 50 times, population sizes of 30, evolved 600 times. The results show that the proposed method can very effectively enhance the different types of degraded image.Figure 2, the size of the original image a 320 320, its the contrast to low, and some details of the more obscure
27、, in particular, scarves and other details of the texture is not obvious, visual effects, poor, using the method proposed in this section, to overcome the above some of the issues and get satisfactory image results, as shown in Figure 5 (b) shows, the visual effects have been well improved. From the
28、 histogram view, the scope of the distribution of image intensity is more uniform, and the distribution of light and dark gray area is more reasonable. Hybrid genetic algorithm to automatically identify the nonlinear transformation of the function curve, and the values obtained before 9.837,5.7912,
29、from the curve can be drawn, it is consistent with Figure 3, c-class, that stretch across the middle region compression transform the region, which were consistent with the histogram, the overall original image low contrast, compression at both ends of the middle region stretching region is consiste
30、nt with human visual sense, enhanced the effect of significantly improved.Figure 3, the size of the original image a 320 256, the overall intensity is low, the use of the method proposed in this section are the images b, we can see the ground, chairs and clothes and other details of the resolution a
31、nd contrast than the original image has Improved significantly, the original image gray distribution concentrated in the lower region, and the enhanced image of the gray uniform, gray before and after transformation and nonlinear transformation of basic graph 3 (a) the same class, namely, the image
32、Dim region stretching, and the values were 5.9409,9.5704, nonlinear transformation of images degraded type inference is correct, the enhanced visual effect and good robustness enhancement.Difficult to assess the quality of image enhancement, image is still no common evaluation criteria, common peak
33、signal to noise ratio (PSNR) evaluation in terms of line, but the peak signal to noise ratio does not reflect the human visual system error. Therefore, we use marginal protection index and contrast increase index to evaluate the experimental results. Edgel Protection Index (EPI) is defined as follow
34、s: (7) Contrast Increase Index (CII) is defined as follows: (8) In figure 4, we compared with the Wavelet Transform based algorithm and get the evaluate number in TABLE I.Figure 4 (a, c) show the original image and the differential evolution algorithm for enhanced results can be seen from the enhanc
35、ed contrast markedly improved, clearer image details, edge feature more prominent. b, c shows the wavelet-based hybrid genetic algorithm-based Comparison of Image Enhancement: wavelet-based enhancement method to enhance image detail out some of the image visual effect is an improvement over the orig
36、inal image, but the enhancement is not obvious; and Hybrid genetic algorithm based on adaptive transform image enhancement effect is very good, image details, texture, clarity is enhanced compared with the results based on wavelet transform has greatly improved the image of the post-analytical proce
37、ssing helpful. Experimental enhancement experiment using wavelet transform sym4 wavelet, enhanced differential evolution algorithm experiment, the parameters and the values were 5.9409,9.5704. For a 256 256 size image transform based on adaptive hybrid genetic algorithm in Matlab 7.0 image enhanceme
38、nt software, the computing time is about 2 seconds, operation is very fast. From TABLE I, objective evaluation criteria can be seen, both the edge of the protection index, or to enhance the contrast index, based on adaptive hybrid genetic algorithm compared to traditional methods based on wavelet tr
39、ansform has a larger increase, which is from This section describes the objective advantages of the method. From above analysis, we can see that this method.From above analysis, we can see that this method can be useful and effective.VI. CONCLUSIONIn this paper, to maintain the integrity of the pers
40、pective image information, the use of Hybrid genetic algorithm for image enhancement, can be seen from the experimental results, based on the Hybrid genetic algorithm for image enhancement method has obvious effect. Compared with other evolutionary algorithms, hybrid genetic algorithm outstanding pe
41、rformance of the algorithm, it is simple, robust and rapid convergence is almost optimal solution can be found in each run, while the hybrid genetic algorithm is only a few parameters need to be set and the same set of parameters can be used in many different problems. Using the Hybrid genetic algor
42、ithm quick search capability for a given test image adaptive mutation, search, to finalize the transformation function from the best parameter values. And the exhaustive method compared to a significant reduction in the time to ask and solve the computing complexity. Therefore, the proposed image en
43、hancement method has some practical value.REFERENCES1 HE Bin et al., Visual C+ Digital Image Processing M, Posts & Telecom Press, 2001,4:4734772 Storn R, Price K. Differential Evolutiona Simple and Efficient Adaptive Scheme for Global Optimization over Continuous SpaceR. International Computer Scien
44、ce Institute, Berlaey, 1995.3 Tubbs J D. A note on parametric image enhancement J.Pattern Recognition.1997, 30(6):617-621.4 TANG Ming, MA Song De, XIAO Jing. Enhancing Far Infrared Image Sequences with Model Based Adaptive Filtering J . CHINESE JOURNAL OF COMPUTERS, 2000, 23(8):893-896.5 ZHOU Ji Liu
45、, LV Hang, Image Enhancement Based on A New Genetic Algorithm J. Chinese Journal of Computers, 2001, 24(9):959-964.6 LI Yun, LIU Xuecheng. On Algorithm of Image Constract Enhancement Based on Wavelet Transformation J. Computer Applications and Software, 2008,8.7 XIE Mei-hua, WANG Zheng-ming, The Par
46、tial Differential Equation Method for Image Resolution Enhancement J. Journal of Remote Sensing, 2005,9(6):673-679.基于混合遗传算法的图像增强技术摘要:在图像增强之中,塔布斯提出了归一化不完全函数表示常用的几种使用的非线性变换函数对图像进行研究增强。但如何确定Beta系数功能仍然是一个问题。在图像增强处理和利用遗传算法快速算法的搜索能力进行自适应变异和搜索我们提出了一种混合遗传将微分进化算法。最后利用仿真实验证明了该方法的有效性。关键词:图像增强;混合遗传算法;自适应增强.介绍在图
47、像形成,传递或转换过程,由于其他客观因素,如系统噪声,不足或过度曝光,相对运动等的影响会使图像通常与原始图像之间有差别(简称退化或退化)。退化图像通常模糊或信息的提取通过机器后减少甚至是错误的,它必须采取一些改进措施。图像增强技术是在其目的是为了提高图像的质量这个意义上提出的。模糊图像增强情况是根据图像使用各种特殊技术集锦的一些信息图像,减少或消除不相关的信息,来强调整体或局部特征的目标图像。图像增强方法仍没有统一的理论,图像增强技术可分为三类别:点运算,与空间频率增强方法增强法。本文介绍了根据图像特征自动调整自适应图像增强方法,称为混合遗传算法。为了实现图像的自适应增强它结合了差分进化自适应
48、搜索算法,自动确定的参数值的变换函数。.图像增强技术图像增强是图像的某些特征,如轮廓,对比,强调或突出的边缘等为了便于检测和进一步的分析和处理. 增强将不会增加图像中的信息数据,但会选择适当的动态范围的功能的扩展,使得这些特点更容易检测或确定,为后续的分析和处理的检测打下良好的基础。图像增强方法包括点运算,空间滤波,频域滤波类别。点运算包括对比度拉伸,直方图建模,并限制噪声和图像减影技术。空间滤波器包括低通滤波,中值滤波,高通滤波器(锐化)。频率滤波器包括同态滤波,多尺度多分辨率图像增强中的应用1。.差分进化算法差分进化(DE)首次提出了强硬的价值,并与其他进化算法进行比较,DE算法具有强大的空间搜索能力,易实现,容易理解。DE算法是一种新型的搜索算法,它首先是在搜索空间中随机产生初始种群,然后计算之间的任何差异向量的两个