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董续东,男,中共党员,杭州电子科技大学通信工程学院特聘教授。博士毕业于南京航空航天大学,现为中国电子学会会员,研究方向为雷达目标跟踪,阵列信号处理,稀疏阵列,鲁棒性滤波器,随机有限集,机器学习与深度学习,智能优化算法,多目标信息融合,冲击噪声等。获得2025-2027年度浙江省青年人才托举项目,主持国家自然科学基金青年项目,浙江省自然科学基金青年项目。在信号处理以及通信领域知名期刊上发表SCI论文30余篇,授权发明专利10余项。担任13th International Conference on Information and Communication Networks(ICICN 2025)和第三届网络、通信与智能计算国际会议(NCIC 2025)分论坛主席,电信科学核心期刊青年编委,担任Springer Nature Editorial Academy Reviewing Editor,IEEE SPL、IEEE TVT、IEEE TIM、IEEE CL、IEEE WCL、IEEE TWC、IEEE TSP等国际知名期刊审稿人。
欢迎对阵列信号处理、稀疏阵列和多目标跟踪方向感兴趣的同学加入我的团队。 近年发表相关论文(显示近三年, 2025-)
课题组招生 【课题组特色】 团队拥有高性能服务器(2张 4090 显卡)
■ 培养体系
■ 发展支持
【申请条件】
【招生计划】 【团队平台】 【申请方式】
邮件标题格式:[申请类型]-姓名-毕业院校(例:[学硕]-张三-浙江大学) 2017-2020 硕士 桂林电子科技大学 应用数学 2020-2024 博士 南京航空航天大学 通信与信息系统 2024.5--至今 杭州电子科技大学,特聘教授 雷达目标跟踪,阵列信号处理,稀疏阵列,鲁棒性滤波器,随机有限集,机器学习与深度学习,智能优化算法,多目标信息融合,冲击噪声等。 纵向科研
[1] 特聘教授引进人才学科建设经费,在研,2024.5-2029-4; [2] 特聘教授引进人才实验室建设经费,在研,2024.5-2029-4; [3] 科研启动经费,嵌套阵列DOA跟踪理论与算法研究,在研,2024.5-2029-4; [4] 浙江省2025-2027年度青年人才托举项目,在研,2025.1-2027.12; [5] 国家自然科学基金青年项目,在研,2026.1-2028.12; [6] 浙江省自然科学基金青年项目,在研,2026.1-2027.12. 横向科研
论文
[1] J. Zhao, X. Dong*, M. Sun, X. Zhang and Y. Wang. WSN-PHD: A Novel Moving Target DOA Tracking Algorithm[J]. IEEE Internet of Things Journal, vol. 12, no. 21, pp. 45925-45928, 2025. [2] J. Zhao, X. Dong*, H. Zhang and M. Sun, DOA Estimation of Coherent Signals Exploiting Forward/Backward Convolutional Kernels[J], IEEE Signal Processing Letters, vol. 32, pp. 876-880, 2025. [3] X. Dong, Y. Zhang, J. Qiu, J. Zhao, et. al. Non-circular Coherent Signal DOA Estimation Based on Block Diagonal Spatial Smoothing Mechanism[J]. Circuits, Systems, and Signal Processing, 2025, 44(12):9549-9569. [4] X. Dong, J. Zhao, M. Sun, Y. Wang, and H. C. So, Comments on ``A Robust Direction of Arrival Estimation Method with High DOF Mirror Coprime Array in Impulsive Noise''[J], IEEE Transactions on Vehicular Technology, 2025. [5] X. Dong, J. Zhao, M. Sun, et. al. Cramér-Rao Bound Analysis of Nested Arrays Under Impulsive Noise with Coarrays and Floss[J]. Signal Processing, 2026. [6] X. Dong, H. Liu, J. Zhao, et. al. Robust ESLOM-Based Direction Finding for Noncircular Sources via Sparse Nested Arrays in alpha-Stable Noise Environments[J]. Digital Signal Processing, 2026. [7] J. Zhao, X. Dong*, et.al. Sparse RIS-aided DOA Estimation for NLOS scenario: a Pseudo-inverse Vectorization Perspective[J]. IEEE Transactions on Vehicular Technology, doi: 10.1109/TVT.2025.3632831. [8] X. Yang, ... , X. Dong. Multimodal Remote Sensing of Thunderstorm Charge Motion: A Radar Echo and Electric Field Fusion Approach[J]. IEEE Transactions on Geoscience and Remote Sensing, vol. 63, pp. 1-13, 2025. [9] X. Yang, ... , X. Dong. Thunderstorm Detection and Prewarning via Multisource Fusion of Precipitation and Atmospheric Electric Field Features[J], IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, vol. 18, pp. 29103-29112, 2025. [10] X. Yang, ... , X. Dong. Multimodal Measurement Framework for Thunderstorm Charge Motion: Spatiotemporal Sensor Fusion with Bayesian-Optimized Localization[J]. IEEE Transactions on Instrumentation and Measurement, doi: 10.1109/TIM.2025.3637944. [11] P. Chen, ... , X. Dong, QoS-oriented Task Offloading in NOMA-based Multi-UAV Cooperative MEC Systems[J]. IEEE Transactions on Wireless Communications, 2025. [12] H. Zhang, ..., X. Dong*. Closed-form expression for resolution limit of direction-of-arrival estimation in co-prime array[J]. Signal Processing, 2026. [13] M. Sun, J. Pan, X. Dong, Y. Wang, H. C. So and X. Zhang. Adaptive Correntropy based Correlation for DOA Estimation by using Co-prime Array in the Presence of Impulsive Noise[J]. IEEE Transactions on Aerospace and Electronic Systems, doi: 10.1109/TAES.2025.3603553. [14] J. Li, X. Dong, X. Zhang, Y. Xie and D. Shi, COMET-Based Direct Position Determination of Incoherently Distributed Sources: Algorithms and Performance Analysis[J], IEEE Transactions on Vehicular Technology, doi: 10.1109/TVT.2025.3584224. [15] Luo J, Wang W, Qiu J, Zhang Q, Li C, Hou W, Dong, X, Hu M. Both non-uniform mixing states and coating structures are important for the absorption enhancement and radiative effect of black carbon[J]. Optics Express, 2025, 33(10): 21719-21735. [16] Dong X, Zhao J, Sun M, et al. A modified δ-generalized labeled multi-Bernoulli filtering for multi-source DOA tracking with coprime array[J]. IEEE Transactions on Wireless Communications, 2023, 22(12): 9424-943. [17] Dong X, Sun M, Zhao J, et al. Enhanced BNC approach for non-circular signals direction finding with sparse array in the scenario of impulsive noise[J]. IEEE Transactions on Aerospace and Electronic Systems, 2023, 59(5): 6265–6277. [18] Dong X, Zhang X, Zhao J, et al. Multi-maneuvering sources DOA tracking with improved interactive multi-model multi-bernoulli filter for acoustic vector sensor (AVS) array[J]. IEEE Transactions on Vehicular Technology, 2021, 70(8): 7825-7838. [19] Dong X, Zhang X, Zhao J, et al. Non-circular sources DOA estimation for coprime array with impulsive noise: a novel augmented phased fractional low-order moment[J]. IEEE Transactions on Vehicular Technology, 2022, 71(10): 10559-10569. [20] Dong X, Sun M, Zhao J, et al. An improved PHD filtering for DOA tracking with sparse array via unscented transform strategy[J]. IEEE Transactions on Circuits and Systems II: Express Briefs, 2023, 70(8): 3174-3178. [21] Dong X, Zhang X, Zhao J, et al. DOA Estimation for Coprime Array With Mixed Noise Scenario via Phased Fractional Low-Order Moment[J]. IEEE Wireless Communications Letters, 2021, 10(11): 2567-2571. [22] Dong X, Sun M, Zhang X, et al. Fractional low-order moments based DOA estimation with co-prime array in presence of impulsive noise[J]. IEEE Access, 2021, 9: 23537-23543. [23] Dong X, Zhao J, Sun M, et al. Non-circular signal DOA estimation with nested array via off-grid sparse Bayesian learning[J]. Sensors, 2023, 23(21): 8907. [24] Dong X, Zhao J, Pan J, et al. DOA estimation with nested arrays in impulsive noise scenario: an adaptive order moment strategy[J]. IEEE Open Journal of Signal Processing, vol. 5, pp. 493-502, 2024. [25] S. Wu, X. Dong, J. Zhao, et al. “A fast implementation of interactive-model generalized labeled Multi-Bernoulli filter for interval measurements,” Signal Processing, 2019, 164: 345-353. [26] Li J, Dong X, Shi X, et al. An enhanced direct position determination of non-circular sources via sparse Bayesian inference and grid refinement strategy[J]. Digital Signal Processing, 2024: 104564. [27] Pan J, Sun M, Dong X, et al. Enhanced DOA estimation with co-prime array in the scenario of impulsive noise: a pseudo snapshot augmentation perspective[J]. IEEE Transactions on Vehicular Technology, 2023, 72(9): 11603-11616. [28] Sun M, Mao S, Dong X, et al. DOA estimation with co-prime array by a combined BNC-PFLOM method in presence of impulsive noise[J]. IEEE Transactions on Circuits and Systems II: Express Briefs, 2023, 70(7): 2695-2699. [29] Zhao J, Gui R, Dong X. PHD filtering for multi-source DOA tracking with extended co-prime array: an improved MUSIC pseudo-likelihood[J]. IEEE Communications Letters, 2021, 25(10): 3267-3271. [30] Zhao J, Gui R, Dong X, et al. Time-varying DOA tracking algorithm based on generalized labeled multi-Bernoulli[J]. IEEE Access, 2021, 9: 5943-5950. [31] Zhao J, Gui R, Dong X. A new measurement association mapping strategy for DOA tracking[J]. Digital Signal Processing, 2021, 118: 103228. [32] Zhao J, Gui R, Dong X. DOA Tracking With Nested Arrays via an Improved Multisource Multi-Bernoulli Filtering in the Presence of Impulsive Noise[J]. IEEE Sensors Letters, 2022, 6(11): 1-4. [33] Zhao J, Gui R, Dong X, et al. Direction of Arrival Estimation with Nested Arrays in Presence of Impulsive Noise: A Correlation Entropy-Based Infinite Norm Strategy[J]. Remote Sensing, 2023, 15(22): 5345. [34] Zhao J, Gui R, Dong X. An enhanced multi-target multi-Bernoulli particle filtering for direction of arrival tracking in the presence of impulsive noise[J]. Wireless Personal Communication,2024. [35] Zhao J, Gui R, Dong X, Sun M. An augmented space smoothing method based on the signal space in coherent scenarios[J]. Circuits Systems and Signal Processing, 2024. [36] Zhao J, Gui R, Dong X, Yufei Zhao. DOA estimation of coherent sources via a signal-space deep convolution (SSDC) network[J]. Symmetry, 2024. [37] Zhao J, Gui R, Dong, X. Generalized labeled multi-Bernoulli filter-based passive localization and tracking of radiation sources carried by unmanned aerial vehicles[J]. Drones, 2024, 8(3),96. [38] 吴孙勇,赵君,董续东,薛秋条,廖桂生.脉冲噪声下多伯努利滤波的单声矢量DOA跟踪[J].信号处理, 2020,36(01):139-148. [39] Dong X, Zhao J, Pan J, et al. Robust DOA Estimation in Co-prime Arrays with Impulsive Noise using EBNC-PFLOM Method[C]//IEEE International Geoscience and Remote Sensing Symposium (IGARSS 2024). 2024: # 1597. [40] Dong X, Zhang X, Zhao J, et al. DOA Tracking with Multi-Bernoulli Filter for Two-Parallel Linear Array: Reconstruct MUSIC as Pseudo-Likelihood[C]//Wireless Technology, Intelligent Network Technologies, Smart Services and Applications: Proceedings of 4th International Conference on Wireless Communications and Applications (ICWCA 2020). Springer Singapore, 2022: 65-73. [41] Dong X, Sun M, Zhao J, et al. Orthogonal Matching Pursuit DOA Estimation for Nested Arrays in Non-Gaussian Clutter[C]//2021 International Conference on Control, Automation and Information Sciences (ICCAIS). IEEE, 2021: 99-103. [42] Dong X, Zhao J, Sun M, et al. Median Value Filtering Method for Non-Circular Signal DOA Estimation with Nested Arrays in the Presence of Impulsive Noise Scenarios[C]//2022 14th International Conference on Signal Processing Systems (ICSPS). IEEE, 2022: 285-290. [43] S. Wu, X. Dong, J. Zhao, Q. Xue and R. Cai, Multiple source DOA tracking based on Multi-Bernoulli Particle Filter under acoustic vector sensor array, 2019 International Conference on Control, Automation and Information Sciences (ICCAIS), Chengdu, China, 2019, pp. 1-6. [44] Zhao J, Wu S, Dong X, et al. Multi-target multi-Bernoulli filtering based on propagator method for DOA tracking[C]. International Conference Signal Processing Systems, 2019. 著作
[1] 董续东,张小飞,孙萌等:一种使用互质阵列的概率假设密度DOA跟踪的方法, 授权公告号 CN 113093097 B. 2021.07.09. [2] 董续东,张小飞,孙萌等:互质阵列混合噪声环境下的ESPRIT-DOA估计方法, 授权公告号:CN112731280B. 2023.11.07. [3] 董续东,张小飞,孙萌等:增广互质阵列脉冲噪声环境下相干信源的DOA估计方法, 授权公告号:CN112698264B. 2023.12.05. [4] 董续东,张小飞,孙萌等:互质阵列脉冲环境下非圆信号的共轭增广DOA估计方法, 授权公告号:CN113296049B. 2024.02.20. [5] 董续东,张小飞,孙萌等:嵌套阵列非高斯环境下的正交匹配追踪DOA估计方法,授权公告号:CN113791379B. 2024.02.20. [6] 董续东,张小飞,孙萌等:使用声矢量传感器阵列的多机动信号源DOA跟踪的方法, 授权公告号:CN112328965B. 2024.02.20. [7] 董续东,张小飞,孙萌等:一种使用互质阵列的概率假设密度DOA跟踪的方法, 授权公告号:CN113093097B. 2022.07.08. [8] 董续东,赵君,陈佩佩等:脉冲噪声下非圆EBNC-PFLOM联合优化DOA估计方法,授权公告号:CN119846547B. 2025.05.16. [9] 董续东,张永奎,赵君等:一种基于非圆信号的对角化空间平滑相干DOA估计方法,授权公告号:CN119846548B. 2025.05.23. [10] 董续东,赵宇飞,赵君等:无线传感器网络下多目标概率假设密度DOA跟踪方法,授权公告号:CN 120085244 B. 2025.11.18. [11] 曹金科,董续东,李宝宝等:一种被动多监测站粒子滤波直接定位跟踪方法, 授权公告号:CN115236590B. 2025.02.11. [12] 杨旭,王慧,董续东等:一种基于模糊C均值聚类的雷暴时间窗口捕捉方法, 授权公告号:CN119004117B. 2025.01.17. [13] 杨旭,王慧,董续东等:一种时空域雷暴活动解释方法, 授权公告号: CN119004047B. 2025.02.07. [14] 吴孙勇,董续东,赵君等:区间量测下交互式多模广义标签多伯努利的快速跟踪方法, 授权公告号:CN109508444B. 2022.11.04. [15] 潘慧敏, 潘晶晶, 孙萌, 董续东等:一种基于互质采样的探地雷达时延估计方法和系统, 授权公告号:CN116559863B. 2024.11.01. [16] 一种脉冲噪声下基于伪快拍增量的互质阵列DOA估计方法(第4). [17] 基于简化空间平滑的相干信号波达方向估计方法(第5). [18] 基于增广互质阵列的加权子空间数据融合直接定位方法(第5). [19] 基于非圆多嵌套阵降维子空间数据融合的直接定位方法(第5) |