激光与光电子学进展, 2018, 55 (6): 061012, 网络出版: 2018-09-11
基于非线性滤波和边缘检测的纹理传输图像风格化处理 下载: 832次
Texture Transmission Image Stylized Processing Based on Non-Linear Filtering and Edge Detection
图 & 表
图 1. 最小误差路径对比。(a)随机放置块;(b)相邻块被重叠限制;(c)最小误差边界切割
Fig. 1. Comparison of the minimum error path. (a) Random of placement blocks; (b) constrained by overlap of neighboring blocks; (c) boundary cut of minimum error
图 2. 纹理图像分解效果。(a)源纹理图像;(b)分解的结构信息;(c)分解的纹理信息
Fig. 2. Decomposition effects of the texture images. (a) Source texture image; (b) decomposed structure information; (c) decomposed texture information
图 5. Kirsch算子边缘检测效果。(a)目标图;(b)边缘提取结果
Fig. 5. Edge detection effects of Kirsch operator. (a) Target images; (b) edge extraction results
图 7. 传输效果图比较。(a)源纹理图;(b)目标图像;(c)文献[ 7]算法效果;(d)改进文献[ 7]算法效果;(e)文献[ 8]算法效果;(f)改进文献[ 8]算法效果
Fig. 7. Comparison of transmission effect diagram. (a) Source texture images; (b) target images; (c) effects of Ref. [7] algorithm; (d) effects of improved Ref. [7] algorithm; (e) effects of Ref. [8] algorithm; (f) effects of improved Ref. [8] algorithm
表 1传输时间比较
Table1. Comparison of transmission time
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谭永前, 曾凡菊, 吴位巍, 张鸿筠. 基于非线性滤波和边缘检测的纹理传输图像风格化处理[J]. 激光与光电子学进展, 2018, 55(6): 061012. Yongqian Tan, Fanju Zeng, Weiwei Wu, Hongyun Zhang. Texture Transmission Image Stylized Processing Based on Non-Linear Filtering and Edge Detection[J]. Laser & Optoelectronics Progress, 2018, 55(6): 061012.