【1】ZHANG Guang-Feng. Research on millimeter wave radio- metric characteristic and imaging[D]. Doctoral Thesis of Huazhong University of Science and Technology (张光锋.毫 米波辐射特性及成像研究.华中科技大学博士学位论 文), 2005.
[2]
ZHANG Guang-Feng,LI Xing-Guo,LOU Guo-Wei. Research on passivemmw imaging based on an alternating current radiometer[J]. J. Infrared Millim. Wave (张光锋,李兴国,娄国伟.基于交流辐射计的被动毫米波成像研 究.红外与毫米波学报 ),2007,26(6):461-464.
[3]
【3】Yujiri L. Passive millimeter wave imaging[C]. Microwave Symposium Digest IEEE MTT-S International . San Francis- co, June 2006:98—101.
[4]
【4】HONG Han-Yu, WANG Jin, ZHANG Tian-Xu, et al. Study on acceleration technique of circulation iterative resto- ration algorithm for infrared target images[J]. J. Infrared Millim. Wave (洪汉玉, 王进, 张天序, 等.红外目标图像 循环迭代复原算法的加速技术研究. 红外与毫米波学 报 ), 2008, 27 (1):115—118.
[5]
LI Ren,DU Hui-Qian,MEI Wen-Bo. Image enhance-ment method applied to passive millimetre-wave imaging [J]. Modern Radar (李韧,杜慧茜,梅文博.被动式毫米 波成像图像的-种增强算法.现代雷达),2004,26(10):35-37.
[6]
【6】Greenspan H, Anderson C H, Akber S. Image enhancement by nonlinear extrapolation in frequency space[J]. IEEE Trans. Image Processing, 2000, 9 :1035—1048.
[7]
【7】ZOU Mou-Yan. Deconvolution and Signal Recovery [M]. Beijing: National Defense Industry Press (邹谋炎. 反卷积 和信号复原.北京:国防工业出版社), 2001.
