[1] Y LI, F Y SUN, R Q BAI. Fuze radome deformation dynamic test method based on image telemetry. Journal of Detection & Control, 46, 85-89(2024).

     李越, 孙发鱼, 白瑞青. 引信天线罩形变遥测图像动态测试方法. 探测与控制学报, 46, 85-89(2024).

[2] 秦强强, 周金柱, 韩冰. 复合材料天线罩形变夹具设计与试验. 机械设计, 38, 46-50(2021).

     Q Q QIN, J Z ZHOU, B HAN. Design and experiment of deformation fixture for composite radome. Journal of Machine Design, 38, 46-50(2021).

[3] R R RAO, P K PANDA. High temperature ceramic radomes （HTCR）–A review. Ceramics International, 47, 20793-20806(2021).

[4] B L ZHOU. Research on Embedded Image Coding Algorithm Based on Wavelet Transform(2022).

     周保林. 基于小波变换的嵌入式图像编码算法的研究(2022).

[5] Q WANG, P LIU, L ZHANG et al. Ratedistortion optimal evolutionary algorithm for JPEG quantization with multiple rates. Knowledge-based systems, 24, 108500(2022).

[6] 席子钊. 基于JPEG2000的静态图像压缩系统的研究与设计(2022).

     Z Z XI. Research and Design of Static Image Compression System Based on JPEG2000(2022).

[7] D LIU, Y F WANG, J P LIN et al. Advances in end-to-end optimized image compression technologies. Computer Science, 48, 1-8(2021).

     刘东, 王叶斐, 林建平. 端到端优化的图像压缩技术进展. 计算机科学, 48, 1-8(2021).

[8] Y H JIANG, R S CUI, F LIU. Multi-resolutional human visual perception optimized pathology image progressive coding based on JPEG2000. Signal Processing： Image Communication, 115, 116960(2023).

[9] J LEI, L L YU, X H LUO et al. for bayer images in deep space exploration. Optics and Precision Engineering, 27, 191-200(2019).

     雷杰, 于露露, 罗晓红. 面向深空探测Bayer图像的高效编码. 光学 精密工程, 27, 191-200(2019).

[10] A SAID, W A PEARLMAN. A new， fast， and efficient image codec based on set partitioning in hierarchical trees. IEEE Transactions on Circuits and Systems for Video Technology, 6, 243-250(1996).

[11] 张光普, 陈日清, 付轶帆. 基于FPGA的多通道心电信号实时滤波与压缩. 传感器与微系统, 37, 14-18， 22(2018).

     G P ZHANG, R Q CHEN, Y F FU et al. Multi-channel ECG signal real time filtering and compression based on FPGA. Transducer and Microsystem Technologies, 37, 14-18， 22(2018).

[12] 周月, 倪晋平, 谭林秋. 基于多级树集合分裂的零飞仪实时图像压缩. 兵器装备工程学报, 41, 139-143(2020).

     Y ZHOU, J P NI, L Q TAN et al. Compression of real-time image in zero-flying instrument using multi-level tree set splitting algorithm. Journal of Ordnance Equipment Engineering, 41, 139-143(2020).

[13] W J ZHOU. Software Verification of The Implementation of The Spaceborne Image Compression Kernel VLSI(2017).

     周文敬. 星载图像压缩核VLSI实现的软件验证(2017).

[14] 王鸣哲. 星载图像压缩系统中高速小波变换的FPGA设计与实现(2017).

     M Z WANG. FPGA Design and Implementation of High-Speed Wavelet Transform in Spaceborne Image Compression System(2017).

[15] K PRANITHA, G KAVYA. An efficient image compression architecture based on optimized 9/7 wavelet transform with hybrid post processing and entropy encoder module. Microprocessors and Microsystems, 98, 104821(2023).

[16] Y XU. Bit-plane paralleled image coding algorithm based on Run-length coding of first 1 bit. Opt. Precision Eng., 23, 864-870(2015).

     徐勇. 基于首1游程的图像位面并行编码算法. 光学 精密工程, 23, 864-870(2015).

[17] 吕德远, 黄浩文, 曾珉. 快照马赛克高光谱图像CCSDS压缩器的FPGA实现. 光学 精密工程, 30, 883-893(2022).

     D Y LÜ, H W HUANG, M ZENG et al. FPGA implementation of CCSDS compressor for snapshot mosaic hyperspectral images. Opt. Precision Eng., 30, 883-893(2022).

[18] S CHANDRA', A SHARMA, G K SINGH. A comparative analysis of performance of several wavelet based ECG data compression methodologies. IRBM, 42, 227-244(2021).

[19] S S LUAN, B W CHENG, S JIANG et al. An optimized Run-length based algorithm for sparse remote sensing image labeling. Defence Technology, 18, 663-677(2022).

[20] S ZOUARI, A MASMOUDI. Dictionary-based histogram packing technique for losslessimage compression. Journal of Visual Communicati-on and Image representa-tion, 95, 103894(2023).

[21] M H KOLEKAR, C K JHA, P KUMAR. ECG data compression using modified Run length encoding of wavelet coefficients for holter monitoring. IRBM, 43, 325-332(2022).

[22] Image Data Compression. Recommendation for Space Data System Standards， CCSDS 122.0-B-1. Image Data Compression.

[23] M ZHANG, X J TONG. Joint image encryption and compression scheme based on IWT and SPIHT. Optics and Lasers in Engineering, 90, 254-274(2017).

[24] H T YU, Y G YANG, D B ZHANG et al. VLSI design for adjustable compression rate in lossless/lossy compression of EEG signal. Microelectronics Journal, 148, 106193(2024).

[25] Z WANG, A C BOVIK, H R SHEIKH et al. Image quality assessment： from error visibility to structural similarity. IEEE Transactions on Image Processing： a Publication of the IEEE Signal Processing Society, 13, 600-612(2004).

[26] Z WANG, E P SIMONCELLI, A C BOVIK. Multiscale structural similarity for image quality assessment, 1398-1402(2003).

[27] 刘建磊. 结合局部特征的无参考彩色图像质量评价. 光学 精密工程, 24, 1176-1184(2016).

     J L LIU. No-reference color image quality assessment based on local features. Opt. Precision Eng., 24, 1176-1184(2016).

[28] X ZHU, P MILANFAR. No-reference sharpness metric sensitive to blur and noise, 64-69(2009).