适于高速CCD图像数据光纤传输的纠错技术

李进; 吕增明; 陶宏江; 李新娥; 金龙旭

doi:10.3788/OPE.20122011.2548

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适于高速CCD图像数据光纤传输的纠错技术

信息科学 | 更新时间：2020-08-12

- 适于高速CCD图像数据光纤传输的纠错技术
- Error correction technology for CCD image using high speed optical fiber transmission
- 光学精密工程 2012年20卷第11期页码：2548-2558
- 作者机构：
  
  1. 中国科学院长春光学精密机械与物理研究所,吉林长春,中国,130033
  2. 中国科学院大学北京,中国,100049
- 作者简介：
- 基金信息：
  
  国家863高技术研究发展计划资助项目(No.863-2-5-1-13B)()
- DOI：10.3788/OPE.20122011.2548
  中图分类号： TN915;TN919.8
- 收稿日期：2012-06-15，
  
  修回日期：2012-07-16，
  
  纸质出版日期：2012-11-10
- 稿件说明：
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李进, 吕增明, 陶宏江, 李新娥, 金龙旭. 适于高速CCD图像数据光纤传输的纠错技术[J]. 光学精密工程, 2012,20(11): 2548-2558

LI Jin, LV Zeng-ming, TAO Hong-jiang, LI Xin-e, JIN Long-xu. Error correction technology for CCD image using high speed optical fiber transmission[J]. Editorial Office of Optics and Precision Engineering, 2012,20(11): 2548-2558
李进, 吕增明, 陶宏江, 李新娥, 金龙旭. 适于高速CCD图像数据光纤传输的纠错技术[J]. 光学精密工程, 2012,20(11): 2548-2558 DOI： 10.3788/OPE.20122011.2548.

LI Jin, LV Zeng-ming, TAO Hong-jiang, LI Xin-e, JIN Long-xu. Error correction technology for CCD image using high speed optical fiber transmission[J]. Editorial Office of Optics and Precision Engineering, 2012,20(11): 2548-2558 DOI： 10.3788/OPE.20122011.2548.

摘要

提出了一种适于高速CCD图像数据光纤传输的纠错算法用于提高大视场时间积分延迟(TDI)CCD相机中图像数据传输的可靠性。首先

分析了大视场空间相机图像数据光纤传输特点和光纤信道加性高斯白噪声(AWGN)模型下的数据传输差错

在此基础上提出了(16

8)纠错编码算法。阐述了(16

8)纠错编码算法思想以及纠错原理

说明了(16

8)纠错编码器的超大规模集成电路(VLSI)实现方法和编码器电路。然后

从不同角度分析了(16

8)纠错编码算法在大视场空间相机中应用的可行性。最后

在一空间多光谱相机样机的传输系统上进行了试验验证。结果表明:(16

8)纠错编码算法纠错能力强、易于硬件实现、占用资源少

在3 043 Byte内可以纠正191 bit错误

编码器资源占用率小于5%。提出的算法提高了空间相机中图像数据光纤传输的可靠性。

Abstract

An error correction algorithm for CCD images was proposed to improve the reliability of image optical fiber transmission in a Time Delay Integrated(TDI)CCD camera with a large field of view. First

the image optical fiber transmission characteristics for the space camera and data transmission errors in a fiber channel Additive White Gaussian Noise(AWGN) model were analyzed

and a (16

8) error correction algorithm was proposed. Then

the (16

8) algorithm idea and error correction principle were described and an implementation method using Very Large Scale Integration(VLSI) and an encoder were explained. Meanwhile

the feasibility of the algorithm for space camera was explained in different aspects. Finally

the experiments were performed for the transmission system of a prototype in a space multispectral camera. The results show that the (16

8) algorithm has strong error detecting ability

less resource occupied rate and easier to realize with a hardware. The method is able to correct 191 bit errors in 3 043 Byte

and the resource occupied rate for the encoder is less than 5%. In conclusion

the algorithm improves the reliability of image optical fiber transmission in space cameras.

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Keywords

references

贾福娟,吴雁林,黄颖,等. 环境减灾-1A、1B卫星宽覆盖多光谱CCD相机技术[J]. 航天器工程, 2009, 18(6): 37-42. JIA F J, WU Y L, HUANG Y, et al.. Design and on-orbit application of CCD camera on HJ-1A/1B satellites[J]. Spacecraft Engineering, 2009, 18(6): 37-42. (in Chinese)[2] 田宝凤,徐抒岩,孙荣春,等. 一种适合星上应用的遥感图像有损压缩算法[J]. 光学精密工程,2006,14(4): 725-730. TIAN B F, XU SH Y, SUN R CH, et al.. A lossy compression algorithm of remote sensing image suited to space borne application [J]. Opt. Precision Eng., 2006, 14(4) : 725-730. (in Chinese)[3] 王磊,吴家骥,白静. 基于整型可逆时域交叠变换的遥感图像压缩[J]. 光子学报, 2010, 39(12): 2251-2256. WANG L, WU J J, BAI J. Remote sensing image compression based on reversible integer time domain lapped transform [J]. Acta Photonica Sinica, 2010, 39(12): 2251-2256. (in Chinese)[4] 薛旭成,石俊霞,吕恒毅,等. 空间遥感相机TDICCD积分级数和增益的优化设置[J]. 光学精密工程,2011,19(4): 857-863. XUE X C, SHI J X, LU H Y, et al..Optimal set of TDI CCD integration stages and gains of space remote sensing cameras [J]. Opt. Precision Eng., 2011,19(4): 857-863. (in Chinese)[5] 张达,徐抒岩. 高速CCD图像数据光纤传输系统[J]. 光学精密工程,2009,17(3): 669-675. ZHANG D, XU SH Y. High-speed CCD image data fiber transmission system[J]. Opt. Precision Eng., 2009,17(3): 669-675. (in Chinese)[6] 韩红霞,司国良,曹立华,等. 光电跟踪设备数字视频图像信息光纤传输系统设计[J]. 光学精密工程,2010,18(5): 1219-1225. HAN H X, SI G L, CAO L H, et al.. Design of digital video signal fiber transmission system in optic-electronic tracker[J]. Opt. Precision Eng., 2010,18(5): 1219-1225. (in Chinese)[7] 王洋,郑斌. 基于光纤的红外图像高速远距离传输[J]. 激光与红外, 2011,41(4): 462-465. WANG Y, ZHENG B. Research on high-speed and far-distance transmission of infrared image based on fiber[J]. Laser&Inerared, 2011,41(4): 462-465. (in Chinese)[8] 黄新栋,赵佳. 大视场线扫红外图像的高速传输系统[J]. 红外技术, 2010,431(1): 37-40. HUANG X D, ZHAO J. High-speed transmission system of wild-field-of-view IR Image [J]. Infrared Technology, 2010,431(1): 37-40. (in Chinese)[9] MELLO D, OFFER E, EICHERT J. Error arrival statistics for FEC design in four-wave mixing limited systems.Optical Fiber Communications Conference,2003: 529-530.[10] AGRAWAL G P. Fiber-Optical Communication Systems [M].2nd ed. John Wiley&sons, Inc.,1997.[11] CAI Y, PILIPETSKIIA, LUCERO A, et al.. On channel models for predicting soft-decision error-correction performance in optically amplified systems. Optical Fiber Communications Conference, 2003: 532-533.[12] 夏杨. 光纤通信系统中的前向纠错技术[J]. 山东通信技术,2005,25(1): 30-32. XIA Y. Forward error-correction coding techniques in fiber optical communication [J]. Shangdong Communication Technology, 2005,25(1): 30-32. (in Chinese)[13] 梁钊. 长距离高速光纤通信系统中的前向纠错技术[J]. 光纤传输, 2004,11(1): 50-53. LIANG Z. Forward error-correction coding techniques in high speed long haul fiber optical communication [J]. Fiber Communication, 2004,11(1): 50-53. (in Chinese)[14] 许勃,邱昆. 光纤通信中序列估计与纠错译码的级联的研究[J]. 光电子激光, 2009,20(2): 187-192. XU B, QIU K. Study on concatenation of sequence estimation and error correction in fiber optic communication [J]. Journal of OptoelectronicsLaser, 2009,20(2): 187-192. (in Chinese)[15] 赵景琰,金鹰翰,赵培,等. 并行化的BCH编解码器设计[J]. 微处理机, 2010,4(2): 42-48. ZHAO J Y, JIN Y H, ZHAO P, et al.. The design of parallelized BCH codec [J]. Microprocessors, 2010,4(2): 42-48. (in Chinese)[16] 袁建国,王望,梁天宇,等. 光通信系统中一种新颖LDPC码构造方法的研究[J]. 半导体光电, 2011,32(4): 543-546. YUAN J G, WANG W, LIANG T Y, et al.. Novel construction method of LDPC codes in optical communication system [J]. Semiconductor Optoelectronics, 2011,32(4): 543-546. (in Chinese)[17] 胡立明,张沁,胡庆生. 光通信用高速级联码编码器的设计[J]. 光器件, 2010,32(5): 543-546. HU L M, ZHANG Q, HU Q SH. Design of high-speed concatenated codec for fiber communication [J]. Semiconductor Optoelectronics, 2011,32(4): 543-546. (in Chinese)[18] HU Q SH, WANG ZH G, ZHANG J, et al.. Area optimization of parallel Chien search architecture for Reed-Solom on(255,239) decoder [J]. Journal of Southeast University(English Edition), 2006,22(1): 5-10.[19] 李霞,王正彦. 基于FPGA的Turbo码译码器的设计[J]. 信息与电子工程,2010,8(2): 201-206. LI X, WANG ZH Y. Design of the turbo decoder with FPGA [J]. Information and electronic engineering, 2010,8(2): 201-206. (in Chinese)

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