王　君

教授Professor，硕/博士生导师Master & Doctor Advisor

专业Major：光学工程Optical Engineering

研究领域Research Area：全息三维成像与显示Holographic 3D Imaging & Display；

增强现实显示Augmented Reality (AR) Display,全息AR抬头显Holographic AR HUD;

深度学习Deep Learning；图像加密与处理Image Encryption & Processing;

Email：jwang@scu.edu.cn

WeChat：jwang_scu

地址：四川大学望江校区滨江楼A303

邮编：610065

Addr.：Bingjiang Building A303, Sichuan University, 29# Wangjiang Road, Chengdu, Sichuan, CN 610065.

学习和工作简历Study & Research Experience

2012年-至今四川大学电子信息学院,历任副教授，教授；

2011-2012年美国威斯康辛大学-麦迪逊（UW-Madison）,博士后研究员；

2006-2011韩国汉阳大学（硕博连读），电子与计算机工程博士学位。

主要研究工作涉及：

全息三维成像与显示，增强现实显示、全息AR抬头显，深度学习及图像处理、图像加密，FPGA及芯片设计等。

已主持参与了国家自然科学基金、省部级项目和企业的横向课题10余项。

已发表学术论文90余篇，其中SCI收录70余篇，EI收录25篇。

现为IEEE高级会员，IEEE ACCESS副编辑；

中国图形图像学会三维成像与显示专委会委员；

中国光学工程学会光显示专委会委员；

中国人工智能学会元宇宙技术专委会委员；

现为Optics Letters, Optics Express, Patten Recognition等国际学术刊物审稿人；

长期担任国家自然科学基金委项目评审专家、四川省及成都市科技项目评审专家。

招生信息：每年约1-2名博士生和2-3名研究生；联系方式：jwang@scu.edu.cn.

欢迎电子/光电信息类、计算机类、应用数学、应用物理专业学生加入课题组！

同时，可接收约4-6名科研实习生，欢迎二年级下、三年级上学期本科同学加入！

Biography:

Jun Wang is currently a full professor at College of Electronics & Information Engineering, Sichuan University, China. He received his Ph.D. degree from the Department of Electronic and Computer Engineering, Hanyang University, Seoul, Korea, in Feb. 2011. He was a postdoctoral fellowship at the Space Science & Engineering Center as well as Dept. of Elec. & Comp. Engr., the University of Wisconsin-Madison, Madison, USA from 2011 to 2012. Then, he joined Sichuan University as an associate professor.

His current research interests are holographic 3D imaging & display, deep learning, AR display, image encryption, and image compression. He has published 90+ publications, which including 70+ SCI and 25 EI indexed papers.

He has been IEEE Senior Member, Associate Editor of IEEE ACCESS since 2019, and Committee members of 3D imaging & display Section in CSIG since 2021, Optical display in CSOE Section and Metaverse Technology Section in CAAI since 2023.

He was reviewer of various international journals including: Optics Letters, Optics Express, Applied Optics, Patten Recognition, Optical Communications, Optics and Lasers in Engineering, IET Image Processing, Electronics Letters, SPIE Journal of Applied Remote Sensing, and etc..

科研项目与获奖Projects & Awards

1、科研项目Projects

学习与科研工作期间，主持和参与完成了包括国家自然科学基金、韩国知识经济部、美国大气与海洋局及横向合作等科研项目。部分在研和已完成科研项目如下：

(16)主持国家重点研发计划课题子任务，“光场3D手机显示系统研制——调控器件与手机显示屏耦合技术”，2024-2026

(15)主持国家自然科学基金委面上项目，“基于计算转移的全息图快速生成研究”，2023-2026

(14)主持成都市国际合作项目，“面向AR应用的全息图快速生成研究”，2022-2024

(13)主持国家自然科学基金委联合基金项目，“面向民航应用的增强现实全息再现质量提升方法研究”，2020-2022

(12)主持成都市国际合作项目，”面向AR视觉增强的全息再现质量提升研究”，2020-2022

(11)主持四川省重点研发计划项目, “舰船无线网络环境下图像信息安全关键技术研究” 2018-2020

(10)主持国家自然科学基金委青年基金项目“向内传播的柱面全息记录模型及其全息图的实时计算研究” 2015-2017

(09)主持四川省科技支撑计划项目“先进图像/视频处理与显示关键技术研究” 2013-2016

(08)主持教育部博士点新教师基金“基于时空复用的大视角真彩色计算全息三维显示研究” 2014-2016

(07)参与国家重点研发计划项目“面向大数据应用的桌面实时真三维显示技术” 2017-2020

(06)参与国家自然科学基金重大国际合作研究项目“蓝相液晶显示的机理与关键技术研究” 2014-2018

(05)参与四川省科技支撑计划项目“3D显示四川省青年科技创新研究团队” 2013-2015

(04)参与美国大气与海洋局“基于GPU的天气研究与预测模型的加速” 2011-2014

(03)参与韩国知识经济部“应用于IEC 61850智能电子设备的一致性测试用嵌入式芯片的开发与设计” 2010-2013

(02)参与韩国海力士半导体公司“用于移动设备上的防抖技术算法的设计和硬件开发” 2008-2010

(01)参与韩国LG公司“用于高清液晶电视过压驱动电路的嵌入式压缩编解码器算法设计与硬件开发” 2007-2008

2、代表性获奖及荣誉Awards and Honors

(19) 2023年获四川大学“三信优秀教师奖”

(18) 2022年获四川大学优秀硕士学位论文指导教师

(17) 2021年获四川大学“大学生创新创业与实践教育优秀指导教师“

(16) 2021年获四川大学“基于智慧教学环境的’探究式-小班化’教学质量优秀奖”

(15) 2021年获第九届全国大学生光电设计竞赛中指导学生荣获国赛二等奖1项

(14) 2021年获第九届全国大学生光电设计竞赛西南区赛中荣获“优秀指导教师奖“，指导的学生荣获西南区赛一等奖2项、二等奖2项

(13) 2021年获第五届四川省大学生光电设计竞赛中荣获“优秀指导教师奖“，指导的学生荣获省赛一等奖1项、二等奖2项、三等奖1项

(12) 2021年获“四川大学好未来创新指导教师奖“

(11) 2020年指导的本科毕业设计获“四川大学2020届本科优秀毕业论文（设计）一等奖”

(10) 2020年指导的本科毕业设计获“四川大学2020届本科优秀毕业论文（设计）三等奖”

(09) 2020年获四川大学“大学生创新创业与实践教育优秀指导教师”

(08) 2020年获四川大学“基于智慧教学环境的’探究式-小班化’教学质量优秀奖”

(07) 2018年获“四川大学·探究式-小班化教学质量优秀奖”

(06) 2017年获“四川大学·探究式-小班化教学质量优秀奖”

(05) 2017年获“四川大学·五粮春优秀教职工奖”

(04) 2015年获“四川大学·课堂教学质量优秀奖”

(03) 2015年指导的本科毕业设计获“四川大学2015届本科优秀毕业论文（设计）三等奖”

(02) 2014年获“四川大学·文化素质公选课最受欢迎教师”

(01) 2013年获“四川大学·青年骨干教师奖”

邀请报告、论文与专利Invited Talks、Publications and Patents

1、学术活动&报告Invited Talks：

06、2023年12月22-23日，王君教授参加了中国人工智能学会，在北京举办的“2023中国元宇宙大会”，并做了题目为“面向元宇宙应用的全息三维显示技术进展”的邀请报告。

05、2023年8月7-10日，王君教授和伍旸博士参加了在西安举办的“The 14th International Conference on Information Optics and Photonics (CIOP 2023)”，并做了题目为“Progress of 360° Holographic Display”的邀请报告。

04、2023年8月2-4日，王君教授参加了中国图象图形学会，在南京举办的“2023第十二届立体图像技术学术会议”，并做了题目为“光计算赋能的全息显示研究”的邀请报告。

03、2023年7月29-31日，王君教授参加了中国光学学会，在武汉举办的“2023中国光学学会学术大会”，并做了题目为“360°全息显示研究进展”的邀请报告，并主持了全息与光学信息处理的一个分会场。

02、2023年5月26-28日，王君教授和王默含同学参加了中国光学工程学会，在杭州举办的“PhotoniX Forum 2023”，并做了题目为“Optical implementation of spherical holographic display”的口头报告。

01、2023年5月13-16日，王君教授参加了中国感光学会，在昆明举办的“2023中国感光学会第31届科技年会”，并做了题目为“光计算赋能的全息三维显示进展”的邀请报告。

2、SCI Indexed Papers：

2023

[73] Yefan Wang, Jiale Chen,Jun Wang*, Visually meaningful image encryption based on 2D compressive sensing and dynamic embedding, Journal of Information Security and Applications 78, 103613, Nov. 2023.

[72] Yibin Deng, Jiale Chen,Jun Wang*, An image compression encryption based on the semi-tensor product and the DFT measurement matrix, Optik 288, 171175, Oct. 2023.

[71] Guangwei Yu,Jun Wang*, Huan Yang, Zicheng Guo, Yang Wu, Asymmetrical neural network for real-time and high-quality computer-generated holography, Optics Letters 48 (20), 5351-5354, Oct. 2023.

[70] Jiabao Wang,Jun Wang*, Jie Zhou, Yuqi Zhang, Yang Wu, Crosstalk-free for multi-plane holographic display using double-constraint stochastic gradient descent, Optics Express 31 (19), 31142-31157, Sep. 2023.

[69] Yang Wu, Xiangli Lei,Jun Wang*, Ni Chen, Fast optimization of computer-generated holograms using conjugate gradient, Displays 79, 102461, Sep. 2023.

[68] Xinhao Liu,Jun Wang*, Mohan Wang, Jie Zhou, Yuqi Zhang, Yang Wu, Two-step diffraction method for an optical 360° cylindrical holographic display, Optics Letters 48 (16), 4280-4283, Aug. 2023.

[67] Weijia Zhang,Jun Wang*, Chao Tan, Yang Wu, Yuqi Zhang, Ni Chen, Large field-of-view holographic Maxwellian display based on spherical crown diffraction, Optics Express 31 (14), 22660-22670, Jul. 2023.

[66] Han Han,Jun Wang*, Yang Wu, Spherical crown holographic display with planar SLM, Optics Communications 537, 129452, June 2023.

[65]Jun Wang*, Yuqi Zhang, Xiangli Lei, and Yang Wu, Compact reconstruction of a Fourier hologram for a 3D object by scaling compensation, Applied Optics 62 (10), 2604-2609, April 2023.

[64] Haohang Peng,Jun Wang*, Yang Wu, Huan Yang, Yu Pan, Chun Chen, Speckle suppression of cylindrical holography using deterministic gradient update, Optics Communications 527, 128962, Jan. 2023.

2022

[63]Jun Wang*, Jiale Chen, Fan Wang, Renjie Ni, Optical image encryption scheme based on quantum s-box and meaningful ciphertext generation algorithm, Optics Communications525128834, Dec. 2022.

[62]Jun Wang*, Zicheng Guo, and Yang Wu, "Magnification and quality improvement for an optical cylindrical holographic display," Applied Optics 61(35), 10478-10483, Dec. 2022.

[61]Jun Wang*, Jie Zhou, Yang Wu, Xiangli Lei, and Yuqi Zhang, Expansion of a vertical effective viewing zone for an optical 360° holographic display,Optics Express, 30(24) 43037-43052, Nov 2022.

[60] Peiding Wang,Jun Wang*, Yang wu, XiangLi Lei, Chengmin Liu, Han Han, Ni Chen, Bi-directional phase compensation to accelerate conical hologram generation, Displays74 102276, Sep. 2022.

[59]Jun Wang*, Huan Yang, Yang Wu, Fan Wang, Speckle suppression using F-D2NN in holographic display, Displays74 102231, Sep. 2022.

[58] Chengmin Liu,Jun Wang*, Yang wu, XiangLi Lei, Peiding Wang, Han Han, Chun Chen, Spherical crown diffraction model by occlusion utilizing for curve holographic display,Optics Express30(18), 31685-31700, Aug. 2022.

[57]Jun Wang*, Yang wu, XiangLi Lei, Qionghua Wang*, Bidirectional phase compensation for curved hologram generation in holographic display, IEEE Photonics Technology Letters 34(11), 579-582, June 2022.

[56] Yu Pan,Jun Wang*, Yang wu, Haohang Peng, Huan Yang, Chun Chen, Reconstructed quality improvement with a stochastic gradient descent optimization algorithm for a spherical hologram, Applied Optics, 61(17), 5341-5349, June 2022.

[55] Han Han,Jun Wang*, Yang wu, XiangLi Lei, Optical realization of 360° cylindrical holography,Optics Express, 30(11) 19597-19610, May 2022.

[54]Jun Wang*, Yuanxi Zhang, Fan Wang, Renjie Ni, Yuhen Hu, “Color-image encryption scheme based on channel fusion and spherical diffraction”, Chinese Physics B, 31 034205, March 2022.

[53] Fan Wang, Renjie Ni,Jun Wang*, Zheng Zhu, Yuhen Hu, “Invertible encryption network for optical image cryptosystem,”Optics and Lasers in Engineering, 149: 106784, Feb. 2022.

[52]Jun Wang*, XiangLi Lei, Yang wu, Fengming Jin, Ni Chen, Holographic display with optical computational Fresnel convolution to broaden distance,Optics Express, 30(3) 4288-4301, Jan. 2022.

2021

[51] Yifan Ma,Jun Wang*, Yang wu, Fengming Jin, Zekun Zhang, Zhenxing Zhou, Ni Chen, “Large field-of-view holographic display by gapless splicing of multisegment cylindrical holograms”, Applied Optics, 60(24), 7381-7390, Aug. 2021.

[50] Zhenxing Zhou,Jun Wang*, Yang wu, Fengming Jin, Zekun Zhang, Yifan Ma, Ni Chen, “Conical holography display to expand vertical field of view”,Optics Express, 29(15) 22931-22943, July 2021.

[49] Renjie Ni, Fan Wang,Jun Wang*, Yuhen Hu, “Multi-image encryption based on compressed sensing and deep learning in optical gyrator domain”, IEEE Photonics Journal, 13(3), 7800116, Jun. 2021.

[48] Xiaohui Wang, Keming Chang, Chun Chen,Jun Wang*, Yuhen Hu, “Low-noise and fast three-dimensional information encryption based on the double-phase method,” Optical Review 28 (2), 1-9, Feb. 2021.

[47] Feng-Ming Jin, Yang Wu,Jun Wang*, Chun Chen, Chan-Juan Liu, and Yu-Hen Hu, “Speckle suppression using cylindrical self-diffraction for cylindrical phase-only hologram,” IEEE Photonics Journal, 13(1), 7000111, Feb. 2021.

[46] Ziyi Zhang,Jun Wang*, Hanmeng Wu, Zheng Zhu, Xu-Dong Chen, Yuhen Hu, “Asymmetric multiple-image cryptosystem based on LUP decomposition in spherical diffraction domain,” Laser Physics Letters 18 (2), 025202, Feb. 2021.

[45] Yang Wu,Jun Wang*, Chun Chen, Chan-Juan Liu, Feng-Ming Jin, and Ni Chen, “Adaptive weighted Gerchberg-Saxton algorithm for generation of phase-only hologram with artifacts suppression,”Optics Express, 29(2), 1412-1427, Jan. 2021.

[44] Chan-Juan Liu, Feng-Ming Jin, Yang Wu,Jun Wang*, and Chun Chen, “Two-dimensional angle multiplexing by segmented spherical holography,” Applied Optics, 60(1), 155-161, Jan. 2021.

[43] Xiaohui Wang, Zheng Zhu, Fan Wang, Renjie Ni,Jun Wang*, Yuhen Hu, “Medical image encryption based on biometric keys and lower–upper decomposition with partial pivoting,” Applied Optics 60 (1), 24-32, Jan. 2021.

2020

[42] Fan Wang,Jun Wang,* Renjie Ni, Zheng Zhu, Yuhen Hu, “Resolution adaptative network for cryptanalysis of asymmetric cryptosystems,” IEEE ACCESS, 8:187419-187430, Otc. 2020.

[41] Bingyi Li,Jun Wang,* Chun Chen, Yuejia Li, Ruoxue Yang, and Ni Chen, “Spherical self-diffraction for speckle suppression of spherical phase-only hologram,”Optics Express, 28(21), 31373-31385, Oct. 2020.

[40] Yang Wu,Jun Wang,* Chun Chen, Chanjuan Liu, Fengming Jin, Yuhen Hu, Generation of phase-only Fourier hologram based on double phase method and quantization error analysis, IEEE Photonics Journal, 12 (5), 7000913, Otc. 2020.

[39] Fan Wang, Renjie Ni,Jun Wang,* Zheng Zhu, Xu-Dong Chen, Yuhen Hu, Novel fully convolutional network for cryptanalysis of cryptosystem by equal modulus decomposition, Laser Physics Letters, 17(9) 095201, Sep. 2020.

[38] Ruoxue Yang,Jun Wang,* Chun Chen, Yang Wu, Bingyi Li, Yyuejia, Ni Chen, and Boaz Jackin, Fast diffraction calculation for spherical computer-generated hologram using phase compensation method in visible range, Applied Sciences-Basel, 10(17), 5784, Sep. 2020.

[37] Changtao He, Zhigang Liu, Xudong Chen,Jun Wang*, Double Image Asymmetric Cryptosystem Using Cylindrical Diffraction and Spectrum Fusion & Compression, IET Optoelectronics, 14(4): 169-175, Aug. 2020.

[36] Hanmeng Wu,Jun Wang*, Ziyi Zhang, Xu-Dong Chen, Zheng Zhu, A multi-image encryption with super-large-capacity based on spherical diffraction and filtering diffusion, Applied Sciences-Basel, 10(16), 5691, Aug. 2020.

[35] Yuejia Li,Jun Wang*, Chun Chen, Bingyi Li, Ruoxue Yang, Ni Chen, Occlusion culling for computer-generated cylindrical hologram based on a horizontal optical-path-limit function,Optics Express, 28(12), pp. 18516-18528, Jun. 2020.Editor’s Pick.

[34] Zheng Zhu, Chao Wu, Keya Hu,Jun Wang*, A novel 3D vector decomposition for color-image encryption, IEEE Photonic Journal, 12(2): 7800614, Apr. 2020.

[33] Zheng Zhu, Xu-Dong Chen, Chao Wu,Jun Wang*, Weixing Wang, An asymmetric colour-image cryptosystem based on spiral phase transformation and equal modulus decomposition,Optics and Laser Technology, 126 (2020) 106106, Jun 2020.

2019

[32] Chun Chen, Ke-Ming Chang, Chan-Juan Liu,Jun Wang*, Qiong-Hua Wang, Fast hologram generation using intermediate angular-spectrum method for high quality compact on-axis holographic display,Optics Express, 27(20), pp. 29401-29414, Sep. 2019.

[31] Zhentao Liu, Chunxiao Wu,Jun Wang*, and Yuhen Hu, A Color Image Encryption Using Dynamic DNA and 4-D Memristive Hyper-chaos, IEEE Access, 7: 78367-78378, 2019.

[30]Jun Wang, Jianqing Zeng, Xu-dong Chen, Qiong-Hua Wang*, Yuhen Hu, Asymmetric Cryptosystem Using Improved Equal Modulus Decomposition in Cylindrical Diffraction Domain, IEEE Access, 7: 66234-66241, 2019.

[29] Ke-Ya Hu, Chao Wu, Ying Wang,Jun Wang*, Qiong-Hua Wang, An Asymmetric Multi-image Cryptosystem Based on Cylindrical Diffraction and Phase Truncation, Optics Communications 449 (Oct. 2019) pp. 100-109.

[28] Chao Wu; Ke-Ya Hu; Ying Wang;Jun Wang*, Qiong-Hua Wang, Scalable Asymmetric Image Encryption Based on Phase-truncation in Cylindrical Diffraction Domain, Optics Communications 448C (Oct. 2019) pp. 26-32.

[27] Chun Chen, Min-Yang He,Jun Wang*, Ke-Ming Chang, Qiong-Hua Wang, Generation of phase-only holograms based on aliasing reuse and application in holographic see-through display system, IEEE Photonics Journal, 11(3), 1-11, June 2019.

[26] Ke-ming Chang, Chun Chen,Jun Wang*, Qiong-Hua Wang, Improved Single-random-phase Holographic Encryption Using Double-phase Method, Optics Communication, 443(2019): 19-25.

[25] Xu-Dong Chen, Ying Wang,Jun Wang*, Qiong-Hua Wang, Asymmetric color cryptosystem based on compressed sensing and equal modulus decomposition in discrete fractional random transform domain,Optics and Lasers in Engineering, 121(2019):143-149.

[24] Chun Chen,Jun Wang*, Dan Xiao, and Qiong-Hua Wang*, Fast method for ringing artifacts reduction in random phase-free kinoforms, Applied Optics, 58(5), A13-A20: 2019.

[23] Chao Wu, Ying Wang, Ye Chen,Jun Wang*, Qiong-Hua Wang, Asymmetric Encryption of Multiple-image Based on Compressed Sensing and Phase-truncation in Cylindrical Diffraction Domain, Optics Communications, 431(2019) 203-209.

2018

[22]Jun Wang, Yuhen Hu, Qiong-Hua Wang*, Asymmetric Color Image Cryptosystem Using Detour Cylindrical-diffraction and Phase Reservation & Truncation, IEEE Access, 6: 53976-53983, 2018.

[21]Jun Wang, Yuhen Hu, Qiong-Hua Wang*, Image Encryption Using Compressive Sensing and Detour Cylindrical Diffraction, IEEE Photonics Journal, 10(3), No. 7801014, Jun., 2018.

[20] Xu-Dong Chen, Qi Liu,Jun Wang*, Qiong-Hua Wang, Asymmetric encryption of Multi-image based on compressed sensing and feature fusion with high quality image reconstruction,Optics and Laser Technology, 107 (2018) 302-312.

[19] Ying Wang, Qi Liu,Jun Wang*, Qiong-Hua Wang, Optical encryption of multiple three-dimensional objects based on multiple interferences and single-pixel digital holography, Chinese Physics B 2018, 27(3): 034202.

[18]Jun Wang, Xiaowei Li, Yuhen Hu, Qiong-Hua Wang*, Phase-Retrieval Attack Free Cryptosystem Based on Cylindrical Asymmetric Diffraction and Double-Random Phase Encoding, Optics Communications, 410C (2018) pp. 468-474.

[17]Jun Wang, Qiong-Hua Wang*, Yuhen Hu, Unified and accurate diffraction calculation between two concentric cylindrical surfaces. J OPT SOC AM A, 35(1), A45-A52, Jan. 2018.

[16] Qi Liu, Ying Wang,Jun Wang*and Qiong-Hua Wang, Optical Image Encryption Using Chaos-based Compressed Sensing and Phase-shifting Interference in Fractional Wavelet Domain, Optical Review (2018) 25:46-55.

2017 & Before

[15] Ye Chen, Qi Liu,Jun Wang*and Qiong-Hua Wang, Single-channel optical encryption of color image using chessboard grating and diffraction imaging scheme, Optical Engineering, 56(12), 123106 (2017).

[14]Jun Wang, Qiong-Hua Wang*, Yuhen Hu, Fast diffraction calculation of cylindrical computer generated hologram based on outside-in propagation model, Optics Communications 403 (2017) 296–303.

[13] Xiao-Wei Li, Wu-Xiang Zhao,Jun Wang, and Qiong-Hua Wang. Multiple-image hiding using super resolution reconstruction in high-frequency domains. Optics Communications 404 (2017): 147-154.

[12] Feng-Jiao Gan, Di Wang , Cui Wang,Jun Wang, and Qiong-Hua Wang*, A method holographic magnification base on fresnel diffraction, Journal of the Society for Information Display, 24(6), pp,355-359, 2016.

[11] Guo-Jiao Lv, Qiong-Hua Wang, Wu-Xiang Zhao,Jun Wang, Huan Deng, and Fei Wu, Glasses-free three-dimensional display based on microsphere-lens array, Journal of Display Technology, 11(3), pp. 292-295, 2015.

[10] D. Wang, Q.H. Wang*, andJ. Wang, Color holographic display method based on a single spatial light modulator, Optical Engineering, 53(4):045104, Apr. 2014.

[09] Guo-Jiao Lv, Wu-Xiang Zhao,Jun Wang, and Qiong-Hua Wang, 3D display based on parallax barrier with multi-view zones, Applied Optics, Vol. 53, No. 6, pp. 1339-1342, 2014.

[08] Guo-Jiao Lv, Wu-Xiang Zhao,Jun Wang, and Qiong-Hua Wang, Shared pixel based parallax barrier 3D display with high brightness, Optik, Vol. 125, No. 8, pp. 1984-1986, 2014.

[07] G.J. Lv, Q.H. Wang*,J. Wang, and W.X. Zhao, Multi-view 3D display with high brightness based on parallax barrier, Chinese Optics Letters, 11(12), pp.121101-1, Dec. 2013.

[06] Guo-Jiao Lv,Jun Wang, Wu-Xiang Zhao, and Qiong-Hua Wang, 3D Display based on dual parallax barriers with uniform resolution, Applied Optics, Vol. 52, No. 24, pp. 6011-6015, 2013.

[05] J. Mielikainena, B. Huang,J. Wang, H. A. Huang, and M. Goldberg, Compute unified device architecture (CUDA) based parallelization of WRF Kessler cloud microphysics scheme, Computers & Geosciences, 52(2013), 292–299.

[04]Jun Wang, B. Huang, J. Wu, and J. Chong, Lapped Transform-based Codec for Frame Memory Reduction in Super quality LCD Overdrive, Journal of the Society for Information Display, 19(8), pp.551-560, Aug. 2011.

[03]Jun Wang, K.Y. Min, and Jong-Wha Chong, On-chip Memory Reduction Using High Compression Ratio Codec in the Overdrives of Liquid Crystal Displays, Optical Engineering, 49(11), Nov. 2010.

[02]Jun Wangand Jong-Wha Chong, Adaptive Multi-level Block Truncation Coding for Frame Memory Reduction in LCD Overdrive, IEEE Transactions on Consumer Electronics, 56(2), pp. 1130-1136, May 2010.

[01]Jun Wangand Jong-Wha Chong, High Performance Overdrive Using Improved Motion Adaptive Codec in LCD, IEEE Transactions on Consumer Electronics, 55(1), pp. 20-26, Feb. 2009.

3、EI Indexed Papers：

[25]常柯明，陈叶，王莹，王君，基于柱面衍射和彩色空间转换的单通道图像加密，红外与激光工程，第47卷第6期，0603003，2018年6月.

[24] Hui Ren,Jun Wang*, Qiong-Hua Wang, An Image Encryption Scheme of Logistic Modulation Using Computer-Generated Hologram and Chaotic Map, Journal of Electrical and Computer Engineering, Volume 2018, Article ID 3987105, 6 pages, Apr. 2018.

[23] Ying Wang, Qi Liu, Qiong-Hua Wang,Jun Wang*, Optical Encryption of Gray Image Based on the Fourier Computer Generated Hologram and Logical Modulation. CISP 2016, Oct. 2016, Datong, China, pp. 791 - 795.

[22] Qi Liu, Ying Wang, Qiong-Hua Wang,Jun Wang*, A novel encryption method of color image combining Hadamard transform with logical modulation. CISP 2016, Oct. 2016, Datong, China, pp. 740 - 745.

[21] Hui Ren,Jun Wang*, Qiong-Hua Wang, Optical Encryption of Gray Image Based on the Computer Generated Hologram and Logical Modulation, Proc. SPIE. 10250, ICOPEN 2016, Sep. 2016, Chengdu, China, 102502P.

[20] Feng-Jiao Gan, Di Wang, Cui Wang, Qiong-Hua Wang andJun Wang*, Holographic Magnification System Based on Fresnel Diffraction, SID Symposium Digest of Technical Papers, 47(1), 1811–1813, May 2016, San Francisco.

[19]Jun Wang*, Yu-Ting Tian, Wei Wu, The System Parameters Optimization of Cylindrical Computer Generated Hologram for Best Efficiency of Fast Calculation, ICISME2015, Dec., 2015, Phuket, Thailand, S050.

[18]Jun Wang, Qionghua Wang, Yuhen Hu, Cylindrical hologram recorder method based on outside-in propagation model, Digital Holography and Three-Dimensional Imaging (DH) 2014, Seattle, USA, DM4B.5, Jul. 2014.

[17]Jun Wang, Qionghua Wang*, Yuhen Hu, A fast method of calculating diffraction patterns on inside cylindrical surface, WIT Transactions on Modeling and Simulation, Vol. 60, pp.1325-1330, 2014.

[16]Jun Wang, Yuhen Hu, Xin Zhou, Dahai Li, and Qionghua Wang*, Calculation of Diffraction Patterns on inside Cylindrical Surface, Applied Mechanics and Materials Vol. 533 (2014) pp. 260-263.19.

[15]王迪,唐文华,王君,王琼华,大视角的全息真彩色显示方法,激光与光电子学展, 52(6) , 060901, 2015.

[14]唐文华,王迪,王君,王琼华,基于时分复用方法的真彩色全息显示,光电子技术,第34卷,第2期,pp.136-139,2014.

[13]唐文华，李述利，王君，王琼华*，一种基于集成成像生成计算全息图的方法，中国激光，41(2)，0209022-1~5页，2014.

[12]Jun Wang, Bormin Huang, Hung-Lung A. Huang and Mitchell D. Goldberg, Parallel Computation of the Weather Research and Forecast (WRF) WDM5 Cloud Microphysics on a Many-Core GPU , Proceedings of the 2011 IEEE 17th International Conference on Parallel and Distributed Systems, Tainan, Taiwan, Dec. 2011, pp.1032-1037. (EI: 20120614751550)

[11]Jun Wang, Bormin Huang, Hung-Lung A. Huang and Mitchell D. Goldberg, GPU acceleration of the WRF Purdue Lin cloud microphysics scheme, Proc. SPIE 8183, 81830R (2011); doi:10.1117/12.901825. (EI source )

[10]Jun Wang, Bormin Huang, Hung-Lung A. Huang and Mitchell D. Goldberg, Compute Unified Device Architecture (CUDA)-based parallelization of WRF Kessler cloud microphysics scheme, Proc. SPIE 8183, 81830U (2011); doi:10.1117/12.901828. (EI source)

[09]J. Wang, K.Y. Min and J.W. Chong, Cost Effective Block Truncation Coding for Color Image Compression, AISS: Advances in Information Sciences and Service Sciences. 2(3), pp. 91-98, Sep. 2010. [EI source]

[08]J. Wang, L.B. Luo, K.Y. Min, Y.C. Jeung, and J.W. Chong, Single Bit Plane Based Block Truncation Coding for Color Image Compression in LCD Overdrive, IEEE Int. Conf. on Consumer Electronics (ICCE '10), Las Vegas, USA, Jan. 2010, 2.3-4. (EI: 11146252)

[07]J. Wang, Y.C. Jeung, and J.W. Chong, Improved Block Truncation Coding using Low Cost Approach for Color Image Compression, Int. Conf. on Interaction Sciences: Info. Tech., Culture and Human (ICIS’09), Seoul, Nov. 2009, pp. 1106-1109. (EI: 20100412671115)

[06]J. Wang, Y.C. Jeung, and J.W. Chong, Hybrid Block Truncation Coding for Color Image Compression, IEEE Int. Conf. on Network Infrastructure and Digital Content (ICNIDC’09), Beijing, China, Nov. 2009, pp. 779-782. (EI: 11048677)

[05]J. Wang, K.Y. Min, Y.C. Jeung, and J.W. Chong, Improved BTC Using Luminance Bitmap for Color Image Compression, in Proc. Int. Congress on Image and Signal Processing (CISP '09), Tianjin, China, Oct. 2009. (EI: 10956173)

[04]J. Wang, K.Y. Min, and J.W. Chong, An Advanced Hybrid Image Codec for Frame Memory Reduction in LCD Overdrive, IEEE Int. Conf. on Consumer Electronics (ICCE’09), Las Vegas, USA, Jan. 2009, 10.2-4. (EI: 10698058)

[03]J. Wang, K.Y. Min, and J. W. Chong, A Hybrid Image Coding in Overdriving for Motion Blur Reduction in LCD, in Proc. 6th Int. Conf. on Entertainment Computing (ICEC’07), Shanghai, China, Sep. 2007, pp. 263-270. (EI: 9640753)

[02] L.B. Luo,J. Wang, K.Y. Min, Y.C. Jeung, and J.W. Chong, Low-cost Implementation of Bird’s-eye View System for Camera-on-vehicle, IEEE Int. Conf. on Consumer Electronics (ICCE '10), Las Vegas, USA, Jan. 2010, 7.1-4. (EI : 11146224)

[01] C.S. Wang, Y.C. Jeung, L.B. Luo,J. Wang, J.W. Chong, Real-Time Face Recognition Using Adaptive Skin-Color Model, 2011 International Conference on Information Science and Applications (ICISA), Jeju Island, Korea, Apr. 2011, pp. 1-6, (EI: 20112914147921)

4、授权发明专利Authorized Invention Patent：

[33]王君，杨欢，伍旸，基于光衍射神经网络的全息显示散斑抑制方法，申请日2022-5-7，专利号ZL2022104926117，授权日2023-11-28;

[32]王君，雷祥丽，伍旸，基于光学计算的拓展距离全息显示方法，申请日2022-01-24，专利号ZL2022100765775，授权日2023-11-03；

[31]王君，杨若雪，基于相位补偿的可见光波段球面计算全息图快速生成方法，申请日2020-8-19，专利号 2020108359959，授权日2023.09.15；

[30]王君，王培丁，基于双向相位补偿的锥面全息图快速生成方法，申请日22022-7-29，专利号2022109092910，授权日2023.07.28；

[29]王君，韩涵，伍旸，基于平面空间光调制器的柱面全息显示方法，申请日2022-05-13，专利号ZL2022105185780，授权日2023-07-28;

[28]王君，伍旸，基于双向补偿的曲面全息图生成方法，申请日2022-05-10，专利号ZL2022105023184，授权日2023-07-28;

[27]王君，杨欢，伍旸，基于光衍射神经网络的拓展全息显示分辨率方法，申请日2022-5-13，专利号ZL2022105175859，授权日2023-07-28;

[26]王君，朱筝，基于新型三维矢量分解的彩色图像加密方法，申请日2020-03-12，专利号2020101686377，授权日2023.07.28；

[25]王君，王凡，基于可逆网络的光学图像加密方法，申请日2021-08-26，专利号ZL2021109998475，授权日2022-11-25；

[24]王君，王凡，基于新型卷积网络的等模矢量分解图像加密分析方法，申请日2020-06-10，专利号ZL2020105240577，授权日2022-10-25；

[23]王君，马异凡，伍旸，无缝拼接多片段柱面的大视场角全息显示方法，申请日2021-07-23，专利号ZL2021108410184，授权日2022-10-21；

[22]王君等，一种基于柱面衍射和相位截断的非对称多图像加密方法，申请日2019-05-24，专利号ZL2019104387162，授权日2022-10-21；

[21]王君，王小晖，基于生物密钥的医学图像加密和解密方法，申请日2020-12-14，专利号ZL2020114655235，授权日2022-10-18；

[20]王君，周振兴，扩大垂直视场角的锥面全息显示方法，申请日2021-07-01，专利号ZL2021107510804，授权日2022-8-12；

[19]王君，倪仁杰，基于压缩感知与深度学习的光回转域多图像加密方法，2021-04-30，ZL2021104836991，2022-5-10；

[18]王君，刘婵娟，基于球面全息的二维角度复用方法，2020-12-15，ZL2020114702876，2022-01-11;

[17]王君，伍旸，基于自适应权重反馈GS算法的相位全息图生成方法，2021-02-24，2020115484582，2021-12-07；

[16]王君，伍旸，基于双相位编码的傅里叶相位全息图生成方法，2020-08-19，ZL2020108311409，2021-11-16;

[15]王君，王凡，倪仁杰，基于分辨率自适应网络的非对称加密系统攻击方法，2020-10-13，ZL2020110918833，2021-11-02;

[14]王君，李冰怡，基于球面自衍射模型的球面纯相位全息图生成方法，2020-09-28，ZL2020110376539，2021-11-02;

[13]王君，李月佳，基于光程限制函数的柱面全息去遮挡方法，2020-06-04，ZL2020104989812，2021-11-02;

[12]王君，张子怡，基于球面衍射变换的非对称多图像加密方法，2020-12-21, ZL2020115170208, 2021-09-21;

[11]王君，朱筝，基于螺旋相位变换和等模分解的光学彩色图像加密方法，2019-09-17, ZL2019108733291;

[10]王君，陈纯，一种基于部分角谱法的快速全息图生成和高质量再现方法，2019-09-16，ZL2019108698067;

[09]王君，吴春晓，刘镇涛，一种基于动态DNA和4D混沌的彩色图像加密方法，2019-6-6，ZL2019104896105;

[08]王君，常柯明，陈纯，纯相位全息图和单随机相位编码的光学图像加解密方法, 2019-01-22，ZL2019100567217;

[07]王君，陈旭东，刘琦，一种分数随机变换域等模矢量分解的彩色图像加解密方法，2019-01-22，ZL2019100567221;

[06]王君，吴超，陈旭东，基于柱面衍射和等效模分解的非对称光学图像加密方法，2018-10-18，ZL2018112127213.

[05]王君，陈旭东，吴超，一种基于柱面衍射和干涉原理的图像加密方法，2018-10-18，ZL2018112167738.

[04]王君，陈纯，刘婵娟，一种无透镜全息投影中振铃现象的抑制方法，2018-10-19, ZL2018112224923.

[03]王君，王琼华，一种基于迂回柱面衍射和相位保留截断的彩色图像加解密方法，2018-07-02，ZL2018107375073.

[02]王君，王琼华，彩色图像的双柱面随机相位编码加密方法，2017-12-27，ZL2017114428850.

[01]王君，王琼华，刘琦，一种基于迂回柱面衍射与压缩感知的光学图像加密方法，2018-04-28，ZL2018104022154.

5、国际学术会议特邀报告及口头报告Invited Talks & Oral Presentations：

[I4]Jun Wang, Unified and accurate diffraction calculation of two concentric cylindrical surfaces, Employing Information and Communications Technologies in Homes and Cities for the Health and Well-Being of Older People (ICT4HOP2017), 13-16 August, 2017, Bradford University, Bradford, UK.(Invited)

[I4]Jun Wang, Unified and accurate diffraction calculation of two concentric cylindrical surfaces, Employing Information and Communications Technologies in Homes and Cities for the Health and Well-Being of Older People (ICT4HOP2017), 13-16 August, 2017, Bradford University, Bradford, UK.(Invited)

[I3]Jun Wang, Research of Cylindrical Computer Generated Hologram for Large Scene, Employing Information and Communications Technologies in Homes and Cities for the Health and Well-Being of Older People (ICT4HOP2016), 15-17 August, 2016, Sichuan University, Chengdu, China.(Invited)

[I2]Jun Wang, Research of non-plane computer generated hologram for large scene, The 4th Symposium on Liquid Crystal Photonics (SLCP 2015), Shenzhen, China, April, 2015. (Invited)

[I1]Jun Wang, Real Color Display Of Fourier Computer Generated Hologram With Spatiotemporal Multiplexing, The 2nd Symposium on Liquid Crystal Photonics and 3D Forum (SLCP 2013 & 3D Forum), April, 2013, Chengdu, China. (Invited)

[13]Jun Wang, Optical 360 degrees cylindrical holography with planer SLM, 2022 Digital Holography and Three-Dimensional Imaging (OSA-DH-2022), Cambridge, UK, 01-04 August 2022. (Oral, Online)

[12]Jun Wang*, Han Han, Yang Wu, Xiangli Lei, “Optical realization of 360° cylindrical holography with planer SLM,” 2022 International Conference on Display Technology (ICDT2022), Metaverse & Display Forum-11, 16-18 July, 2022 Fuzhou, China. (Oral)

[12] Yang Wu, Xiangli Lei, andJun Wang*, “Curved Computer-Generated Holograms Generation Method with Bidirectional phase compensation,” 2022 International Conference on Display Technology (ICDT2022), Session-1.6, 16-18 July, 2022 Fuzhou, China. (Oral)

[11] Xiangli Lei, Yang Wu, andJun Wang*, “Fast Hologram Generation Using Optical Fourier Lenses,” 2022 International Conference on Display Technology (ICDT2022), Session-22.4, 16-18 July, 2022 Fuzhou, China. (Oral)

[10]王君*, “大视角快速计算全息图生成与显示研究,” 2021中国光学学会全息与光信息处理专委会学术年会,分会场一-三维显示与全息显示, 2021年7月28-30日,兰州,中国.(口头报告)

[09]王君*, “全息显示的视场角扩大——柱面全息显示研究,”中国图象图形学学会第十一届立体图像技术学术会议, Poster-No. 16, 2021年6月2-4日,北京,中国.(张贴报告)

[08] Fan Wang, Ze-Kun Zhang, andJun Wang*, “Cylindrical hologram generation based on optimized phase with unsupervised learning,” 5th International Conference on Optoelectronic and Microelectronic Technology and Application (OMTA 2021), OMTA2021-04-007, 22-23 May, 2021 Shenzhen, China.(Oral presentation)

[07] Yang Wu, Yi-Fan Ma, Xiang-Li Lei, andJun Wang*, “The suppression of stitching distortion for cylindrical computer-generated hologram in the visible spectrum,” 5th International Conference on Optoelectronic and Microelectronic Technology and Application (OMTA 2021), OMTA2021-04-009, 22-23 May, 2021 Shenzhen, China.(Poster,Best Poster Award)

[06] CHANG Ke-ming, CHEN Ye, WANG Ying, WANG Jun*, “Single-channel color image encryption using cylindrical diffraction and color space converting,” 3 Dimensional Image Acquisition and Display Technology and Application, 2018(3DIADT 2018), OTA201802-036, 22-24 May, 2018 Beijing, China.(Oral presentation)

[05]Jun Wang, Qionghua Wang, Yuhen Hu, Cylindrical hologram recorder method based on outside-in propagation model, 2014 Digital Holography and Three-Dimensional Imaging ((OSA-DH-2014), Seattle, USA, DM4B.5, Jul. 2014.(Oral)

[04]Jun Wang, Qionghua Wang, Outside-in Propagation Model for Spherical Computer-Generated Hologram, International Workshop on Holography and related technologies (IWH2014), Beijing, China, 16b04, Otc., 2014.(Oral)

[03]J. Wang, K.Y. Min, and J.W. Chong, A high Compression Ratio Image Coding for Frame Memory Reduction in LCD Overdrive, in Proc. 23rd Int. Technical Conf. on Circuits/Systems, Computers and Comm. (ITC-CSCC’08), Shimonoseki, Japan, Jul. 2008, pp. 1629-1632.

[02] I.S Koh,J. Wang, S.Y Ro, K.Y. Min, J.W. Chong, A Low-cost Rolling Shutter Distortion Correction Algorithm For Mobile Phone Camera, in Proc. 6th int. Symposium on Electronic Design, Test and Applications (DELTA’2011), Queenstown, New Zealand, Jan. 2011, S7A.

[01] D.S. Seo,J. Wang, K.Y. Min, and J. W. Chong, An Efficient Decoding Algorithm with Memory-access Reducing CAVLC, in Proc. Int. Ubiquitous Convergence Conf. (IUC’06), Jeju, Korea, Dec. 2006, pp. 165-169.

人才培养Talent Training：

本科课程Undergraduate Course：

核心专业必修课：图像处理(全英文) 48学时

校级文化公选课：IT文化概论32学时

校级通识课：深度学习与创新设计32学时

研究生课程Postgraduate Course：

专业选修课：图像处理与并行计算(54学时)

指导研究生Graduate Students：

2014级1名，2015级2名，2016级2名，2017级5名，2018级3名，2019级4名，2020级3名，2021级3名，2022级3名，2023级3名;

指导本科生科研实习Research Intern for Undergraduate Students：

2013级1名，2016级5名，2017级5名，2018级4名，2019级5名，2020级6名；

指导本科生毕业设计论文Graduation Projects：

2009级4名，2010级2名，2011级1名，2012级2名，2013级3名，2014级3名，2015级5名，2016级5名，2017级3名；2018级3名；2019级5名；2020级3名；

学分制学业指导：2013级9名，2014级15名，2015级10名；

本科生班主任：光电信息科学与工程专业152050401班、192050403班、232050403班；

学术成果Academic Achievements

近年来在三维全息成像与显示技术、光学图像全息加密、人工智能应用、基于GPU并行计算、图像处理等方面，主持和参与了多项国家级、省部级项目，取得了一系列研究成果，例如：研制了光计算/神经网络赋能的全息三维显示系统、360°球面全息三维显示系统、可微分全息单次照相的粒子场成像系统，开发了工地安全检测系统、图像芯片样机等，发表了多篇高水平学术论文，并获取了相关授权发明专利。

学术任职Academic Participation

Committee:

3D imaging & display Section in CSIG since 2021;

Optical display Section in CSOE since 2023;

Metaverse Technology Section in CAAI since 2023.

Member:

IEEE Senior member, Society for Information Display (SID) member.

Peer Reviewerfor multiple international journals, including：

Nature: Nature Communications;

IEEE: ACCESS, IEEE T CSVT, IEEE T Image Processing;

OSA: Optics Letters, Optics Express, Applied Optics;

Elsevier: Patten Recognition, Optical Communications, Optics and Lasers in Engineering;

IET: Electronics Letters, IET Image Processing;

SPIE: Optical Engineering, Journal Electronic Imaging, Journal of Applied Remote Sensing