[1]张聪颖,孙江辉.基于H.264标准的弹载红外图像压缩系统[J].红外技术,2018,40(11):1052-1055.[doi:10.11846/j.issn.1001_8891.201811005]
 ZHANG Congying,SUN Jianghui.Missile-Borne Infrared Image Compression System Based on the H.264 Standard[J].Infrared Technology,2018,40(11):1052-1055.[doi:10.11846/j.issn.1001_8891.201811005]
点击复制

基于H.264标准的弹载红外图像压缩系统
分享到:

《红外技术》[ISSN:1001-8891/CN:CN 53-1053/TN]

卷:
40
期数:
2018年第11期
页码:
1052-1055
栏目:
出版日期:
2018-11-21

文章信息/Info

Title:
Missile-Borne Infrared Image Compression System Based on the H.264 Standard
文章编号:
1001-8891(2018)11-1052-04
作者:
张聪颖孙江辉
中国空空导弹研究院
Author(s):
ZHANG CongyingSUN Jianghui
China Airborne Missile Academy
关键词:
图像压缩红外图像H.264
Keywords:
image compressioninfrared imageH.264
分类号:
TJ760;TP391.41;TN919.85
DOI:
10.11846/j.issn.1001_8891.201811005
文献标志码:
A
摘要:
为了对高动态范围弹载红外图像进行有效地压缩,本文设计了一种基于H.264标准的红外图像压缩系统。该系统采用FPGA+DM368的硬件架构形式,通过对16位红外图像数据进行拆分,利用DM368内嵌的视频协处理硬核完成对图像数据的压缩。最后,对路口红外成像数据进行测试,试验结果表明该系统具有高压缩率、低失真度等特点,系统工作稳定可靠。
Abstract:
To compress high-dynamic-range missile-borne infrared images, we designed an infrared image compression system based on the H.264 standard. This system adopts the hardware architecture of FPGA+DM368 and uses the video-processing hardcore embedded in the DM368 to compress images by splitting the 16 bit infrared image data. Test results from infrared images of intersection show that this system is stable, reliable, and has a high compression ratio and low distortion.

参考文献/References:

[1] 张海江. 遥测图像压缩系统的设计与实现[J]. 通信技术, 2011, 10(44): 66-68.
ZHANG Haijiang. Design and Implementation of Remote Sensing Image Compression System[J]. Communications Technology, 2011, 10(44): 66-68.
[2] 石永亮, 张会新, 刘文怡, 等. 基于弹载图像记录器的压缩系统设计[J]. 电子器件, 2015, 38(5): 1105- 1108.
SHI Yongliang, ZHANG Huixin, LIU Wenyi. Compression System Design Based on Missile-Borne Image Recorder[J]. Chinese Journal of Electron Devices, 2015, 38(5): 1105- 1108.?
[3] 李学鹏, 李忠, 周罡. 基于DM368的全景成像系统六路视频编码传输设计[J]. 光学与光电技术, 2016, 14(1): 33-37.
LI Xuepeng, LI Zhong, ZHOU Gang. Design of Six-Channel Video Encoding and Transmission in Panoramic System Based on DM368[J]. Optics and Optoelectronic Technology, 2016, 14(1): 33-37.
[4] 袁秋晨, 闵跃军, 丁祝顺, 等. 基于TMS320DM368的光电吊舱视频压缩系统设计[J]. 导航与控制, 2016, 15(2): 69-74.
YUAN Qiuchen, MIN Yuejun, DING Zhushun. Design of Dlectro-optical Pod Video Encoding System Based on TMS320DM368[J]. Navigation and Control, 2016, 15(2): 69-74.?
[5] 毕厚杰. 新一代视频压缩编码标准——H.264/AVC[M]. 北京: 人民邮电出版社, 2005: 97-102.
BI Houjie. The New Generation of Video Coding Standard——H.264/AVC[M]. Beijing: Posts and Telecom Press, 2005: 97-102.
[6] 余兆明, 查日勇, 黄磊, 等. 图像编码标准H.264技术[M]. 北京: 人民邮电出版社, 2006: 1-10.?
YU Zhaoming, ZHA Riyong, HUANG Lei. Image Coding Standard H.264 Technology[M]. Beijing: Posts and Telecom Press, 2006: 1-10.
[7] Kwon Soon-kak, Tamhankar A, Rao K R. Overview of H.264/MPEG-4 Part 10[J]. Journal of Visual Communication and Image Representation, 2006, 17(2): 186-216.
[8] Takahashi Maki. H.264/AVC video coding standard[J]. Shapu Giho/Sharp Technical Journal, 2004(90): 21-24.
[9] 赵盼盼, 孟令军, 文波, 等. 箭载图像压缩与存储系统设计与实现[J]. 实验室研究与探索, 2015, 34(12): 92-96.
ZHAO Panpan, MENG Lingjun, WEN Bo. Design and Implementation of Compression and Storage System for Rocket-borne Image[J]. Research and Exploration in Laboratory, 2015, 34(12): 92-96.?

相似文献/References:

[1]郭水旺,王宝红,季钢,等.基于基因表达式编码算法的红外图像轮廓提取[J].红外技术,2013,35(01):038.
 GUO Shui-wang,WANG Bao-hong,JI Gang,et al. Infrared Image Contour Extraction Based on the Gene Expression Coding Algorithm[J].Infrared Technology,2013,35(11):038.
[2]孙爱平,皮冬明,安长亮,等. 光机装校阶段红外与可见光图像配准技术研究[J].红外技术,2013,35(01):050.
 SUN Ai-ping,PI Dong-ming,AN Chang-liang,et al. Study on IR/Visible Image Registration for Lens Assembly[J].Infrared Technology,2013,35(11):050.
[3]路建方,王新赛,肖志洋,等. 基于FPGA的红外图像自适应分段线性增强算法[J].红外技术,2013,35(02):102.
 LU Jian-fang,WANG Xin-sai,XIAO Zhi-yang,et al. An Adaptive Piecewise Linear Enhance Algorithm for Infrared Image Based on FPGA[J].Infrared Technology,2013,35(11):102.
[4]徐铭蔚,李郁峰,陈念年,等.多尺度融合与非线性颜色传递的微光与红外图像染色[J].红外技术,2012,34(12):722.
 XU Ming-wei,LI Yu-feng,CHEN Nian-nian,et al. Coloration of the Low Light Level and Infrared Image Using Multi-scale Fusion and Nonlinear Color Transfer Technique[J].Infrared Technology,2012,34(11):722.
[5]纪利娥,杨风暴,王志社,等. 基于边缘图像和SURF特征的可见光与红外图像的匹配算法[J].红外技术,2012,34(11):629.
 JI Li-e,YANG Feng-bao,WANG Zhi-she,et al.Visible and Infrared Image Matching Algorithm Based on Edge Image and SURF Features[J].Infrared Technology,2012,34(11):629.
[6]张红辉,罗海波,余新荣,等. 改进的神经网络红外图像非均匀性校正方法[J].红外技术,2013,35(04):232.
[7]张强,侯宁,刘红燕. 红外焦平面阵列非均匀性多点实时压缩校正研究[J].红外技术,2012,34(10):593.
 ZHANG Qiang,HOU Ning,LIU Hong-yan. Study on Real-time Multi-points Compressive Nonuniformity Correction of IRFPA[J].Infrared Technology,2012,34(11):593.
[8]路建方,王新赛,肖志洋,等. 基于灰度分层的FPGA红外图像伪彩色实时化研究[J].红外技术,2013,35(05):285.
 LU Jian-fang,WANG Xin-sai,XIAO Zhi-yang,et al. The Research on Real-time Pseudo-color of Infrared Image in FPGA Based on Gray Delaminating[J].Infrared Technology,2013,35(11):285.
[9]陈钱.红外图像处理技术现状及发展趋势[J].红外技术,2013,35(06):311.
 CHEN Qian.The Status and Development Trend of Infrared Image Processing Technology[J].Infrared Technology,2013,35(11):311.
[10]谭东杰,张安.基于局部直方图规定化的红外图像非均匀性校正[J].红外技术,2013,35(06):325.
 TAN Dong-jie,ZHANG An.Non-uniformity Correction Based on Local Histogram Specification[J].Infrared Technology,2013,35(11):325.

备注/Memo

备注/Memo:
收稿日期:2018-08-08;修订日期:2018-10-24.
作者简介:张聪颖(1984-),女,河南许昌人,工程师,研究方向为视频图像处理。E-mail:278391222@qq.com。

更新日期/Last Update: 2018-11-20