1.基本信息:
姓名:王东飞,博士于2021年毕业于北京邮电大学,E-mail: wdfchina@126.com
研究方向:人工智能赋能教育,光通信及安全传输,人工智能与数字版权保护
2.主讲课程:
本科生课程:《计算机网络基础》、《算法设计与分析》、《数字逻辑》
研究生课程:《数字图像处理》、《光编码通信安全》
3.获奖:
[1] 获得2024年北京印刷学院卓越人才计划—青年英才
[2] 获得2022年北京印刷学院“师德先进个人”
4.主持的项目:
[1] 人工智能支持下课堂教学模式探究与实践研究 北京教育科学“十四五”规划课题一般课题,2024.07-2026.12 主持
[2] Al赋能高校课堂教学模式探究与实践 北京数字教育课题专项课题,2024.07-2027.06, 主持
[3] 信息安全专业课程思政教学探索与实践—— 以“计算机网络基础”课程为例,北京市高等教育学会一般课题,2022.12-2024.04 主持
[3] 数智驱动的行业特色高校信息安全类创新人才个性化评价,北京市督导学会重点课题,2024.11-2026.12 主持
[4] 面向6G光载矢量毫米波/太赫兹波信号生成技术研究,北京市教委科技一般项目,2023.01-2025.12 主持
[5] 基于人工智能的印刷墨量在线检测研究,横向,2025.04-2026.02 主持
[6] 虚拟仿真课程建设项目《计算机网络》,北京印刷学院教改项目,2025.01-2025.12 主持
[7] 面向下一代通信技术的毫米波信号产生技术研究,北京印刷学院基础研究项目,2022.01-2023.12 主持
5.近2年论文成果
近5年发表SCI检索论文50余篇,展示近2年以第一作者及通讯作者发表的部分论文:
【2025年】
[1] Wang, X., and Dongfei Wang*(通信作者) . “Physical Layer Security Enhancement Scheme Based on Joint Encryption of Three-Dimensional Unequal-Length Arnold and Constellation Scrambling.” IEEE/Optica Journal of Lightwave Technology (2025). SCI检索期刊, 中科院TOP期刊
[2] Wang, X., Dongfei Wang*(通信作者) , Guo, Z., Li, Z., & Wang, X. Enhanced Physical Layer Security Based on Joint Encryption of Similar Polarization State Rotation Perturbations and 6-D Hyperchaotic Scrambling for Polarization Division Multiplexing System. Fiber and Integrated Optics, (2025), 44(3), 286–307. SCI检索期刊
[3] Yan, X., Dongfei Wang*(通信作者) , and Li Z. "Photonic scheme to generate frequency 24-tupling mm-wave signal using three cascaded polarization modulators without filters." Physica Scripta , 100.2 (2025): 025113. SCI检索期刊
[4] Yan, X., and Dongfei Wang*(通信作者) . "Photonic Generation for Frequency 12‐Tupling Millimeter‐Wave Signal Based on Three Parallel Polarization Modulators." Annalen der Physik , 537.3 (2025): 2400345. SCI检索期刊
[5] X. Wang, Dongfei Wang*(通信作者) , et al. Photonic generation of 32-tupled millimeter wave using four-stage cascaded Mach-Zehnder modulators, Optical Engineering , (2025), 64(6): 068101, SCI检索期刊
【2024年】
[1] Wang, J., and Dongfei Wang*(通信作者) . "Attack on optical cryptosystems by skip connection networks." Optics Express 32.11 (2024): 19424-19437. SCI检索期刊, 中科院TOP期刊
[2] Dongfei Wang (第一作者) , et al. "A physical layer security enhancement scheme for CO-OFDM systems based on 3D Brownian motion and TZBN Joint Scramble." Optical Fiber Technology 87 (2024): 103936. SCI检索期刊
[3] Wang, X., Dongfei Wang*(通信作者) , et al. "Physical layer security enhancement scheme for PDM-16QAM system based on seven-dimensional CNN hyperchaotic encryption." Optics Communications 575 (2025): 131259. SCI检索期刊
[4] Yan, X., Dongfei Wang*(通信作者) , and Wang X.. "A Filterless Optical Generation Scheme of Frequency 32-Tupling Millimeter-Wave Signal Based on Cascaded Polarization Modulators." Fiber and Integrated Optics 43.5 (2024): 198-218. SCI检索期刊
[5] Dongfei Wang*(第一作者) , et al. "A New Scheme to Generate Frequency 12-tupling Millimeter Wave Signals Only Based on Cascaded Three MZMs." Mathematics 12.23 (2024): 3759. SCI检索期刊
[6] Li, Y., Dongfei Wang*(通信作者) , et al. "Physical layer security enhanced scheme based on joint encryption of DNA and RNA data perturbation in CO-OFDM system." Optics Communications 570 (2024): 130891. SCI检索期刊
[7] Hui, S., Dongfei Wang*(通信作者) , et al. "Design and implementation of a physical layer optical fiber security communication system based on a ZUC stream cipher." Applied Optics 63.19 (2024): 5150-5158. SCI检索期刊
[8] Li, Y., Dongfei Wang*(通信作者) , et al. "Physical Layer Encryption for CO-OFDM Systems Enabled by Camera Projection Scrambler." Mathematics 12.12 (2024): 1807. SCI检索期刊
[9] Yan, X., Dongfei Wang*(通信作者) , et al. "Anew scheme for the generation of frequency 18-tupling mm-wave signal based on three parallel polarization modulators." Ukr. J. Phys. Opt 25.3 (2024): 03019-03030. SCI检索期刊
[10] Dongfei Wang*(第一作者) , et al. "A new filterless W-band millimeter wave signals generation scheme with frequency octupling based on cascaded Mach-Zehnder modulators." Ukrainian Journal of Physical Optics 25.1 (2024): 01085-01093. SCI检索期刊
6.近年授权发明专利
[1] 王东飞等人,基于单个双平行偏振调制器的16倍频毫米波信号产生方法: [P].2024-10-01.
[2] 王东飞等人,一种无光学滤波器的18倍频光生毫米波/太赫兹波产生方法: [P].2024-09-20.
[3] 王东飞等人,一种32倍频毫米波及太赫兹波的光子生成方法: [P].2023-05-05.
[4] 王东飞等人,一种32倍频毫米波信号的光学产生方法与装置: [P].2022-03-18.
7. 学术兼职情况
目前是 IEEE Transactions on Communications , IEEE Internet of Things Journal , Optics Express , IEEE/Optica Journal of Lightwave Technology 等20多本SCI期刊的活跃审稿人及客座编辑。