2022-12-06
一、 基本情况
张为,男,博士,3200威尼斯vip教授,博士生导师。长期从事数字信号处理与VLSI实现、射频模拟集成电路设计、图像分析与模式识别的研究工作。先后主持、参与科技部重点研发计划项目、国家自然科学基金项目、各部委项目、天津市科技计划项目和企事业单位委托研发项目等50余项,发表高水平学术论文200余篇,授权发明专利30余项。获得天津市技术发明二等奖1项,出版教材一部。曾荣获天津市技术发明二等奖一项,应急管理部消防救援科技创新一等奖。开发了国内首款视频火因调查分析系统“火察”,已由应急管理部消防救援局配装全国消防救援部队。
二、个人经历
教育经历:
(1) 2002年8月于3200威尼斯vip获博士学位
(2) 1997年6月于3200威尼斯vip获学士学位
科研与学术工作经历:
博士毕业后留校工作,2011年晋升教授
三、研究领域
数字信号处理与VLSI实现,射频模拟集成电路设计,图像分析与模式识别
四、教学工作及成果
课程:
(1) 《半导体物理》——本科生
(2) 《VLSI电路与系统设计》——博士研究生
人才计划与奖励:
(1) 入选2012年3200威尼斯vip“北洋学者,青年骨干教师计划”
(2) 2018年3200威尼斯vip第十一届研究生“我心目中的好导师”评选活动中荣获“好导师”称号
(3)张为,教育部新世纪优秀人才计划,2013年
五、科研工作及成果
近三年主持科研项目(课题)情况:
(1)国家基础加强重点课题,“极端低温下SiGe HBT低噪声放大器研究”
(2)天津市基金合作课题,“基于认知计算技术的金融云平台系统”
(3)技术开发项目,“建筑抗震支吊架智能监测系统开发”
(4)技术开发项目,“智慧消防关键技术与系统研究”
(5)技术开发项目,“功能集成电路IP测试与优化”
(6)技术开发项目,“高速图像压缩及存储系统硬件平台”
(7)技术开发项目,“视频编码分析工具与压缩信号仿真源”
代表性研究成果和学术奖励情况:
(一)代表性论著
(1) Wang H, Zhang W, Liang Y, et al. Efficient reconstruction architecture of compressed sensing and integrated source-channel decoder based on Reed Solomon code[J]. IEEE Communications Letters, 2019, 24(2): 239-243.
(2) Wang Y, Zhang W, Liu Y, et al. Two-branch fusion network with attention map for crowd counting[J]. Neurocomputing, 2020, 411: 1-8.
(3) Zhang W, Zhang W, Hao D. Adjustable Coupled Optoelectronic Oscillator Based on Double Frequency Output[J]. Journal of Nanoelectronics and Optoelectronics, 2020, 15(6): 769-776..
(4) Liu X, Zhang W, Hao D, et al. Compact K/Ka‐band dipole antenna element with ball grid array packaging[J]. Microwave and Optical Technology Letters, 2020, 62(12): 3890-3896..
(5) Liu X, Zhang W, Hao D, et al. Surface‐mount bowtie antenna element for millimeter‐wave applications[J]. Microwave and Optical Technology Letters, 2020, 62(10): 3232-3238.
(6) Wang Y, Zhang W, Liu Y, et al. Multi-density map fusion network for crowd counting[J]. Neurocomputing, 2020, 397: 31-38.
(7) Zhang W, Zou S, Liu Y. Iterative soft decoding of reed-solomon codes based on deep learning[J]. IEEE Communications Letters, 2020, 24(9): 1991-1994.
(8) Zhao J, Zhang W, Liu Y, et al. A rate-matching concatenation scheme of polar codes with outer reed-Solomon codes[J]. IEEE Wireless Communications Letters, 2020, 10(3): 459-463.
(9) Wang H, Zhang W, An X, et al. Sparsity adaptive compressed sensing and reconstruction architecture based on reed-solomon codes[J]. IEEE Communications Letters, 2020, 25(3): 716-720.
(10) Wang Y, Zhang W, Huang D, et al. Multi-level feature fusion and multi-loss learning for person Re-Identification[J]. Signal Processing: Image Communication, 2021, 94: 116197.
(11) Wang Y, Zhang W, Huang D, et al. Multi-level feature fusion and multi-loss learning for person Re-Identification[J]. Signal Processing: Image Communication, 2021, 94: 116197.
(12) Wang Y, Zhang W, Liu Y. Multi‐scale feature fusion network for person re‐identification[J]. IET Image Processing, 2020, 14(17): 4614-4620.
(13) Gao J, Zhang W, Liu Y, et al. High-Performance Concatenation Decoding of Reed–Solomon Codes With SPC Codes[J]. IEEE Transactions on Very Large Scale Integration (VLSI) Systems, 2021, 29(9): 1670-1674.
(14) Zhao J, Zhang W, Liu Y. A novel puncturing scheme of low rate polar codes based on fixed information set[J]. IEEE Communications Letters, 2021, 25(7): 2104-2108.
(15) Hao D, Zhang W. A Wideband True Time Delay in GaAs pHMET MMIC[C]//2020 IEEE 2nd International Conference on Circuits and Systems (ICCS). IEEE, 2020: 97-100.
(16) Hao D, Zhang W, Liu X, et al. A DC to 25 GHz 6‐bit digital attenuator based on 0.18 μm SiGe BiCMOS technology[J]. International Journal of RF and Microwave Computer‐Aided Engineering, 2021, 31(8): e22730.
(17) Hao D, Zhang W, Liu X, et al. A low insertion loss variation trombone true time delay in GaAs pHEMT monolithic microwave integrated circuit[J]. IEEE Microwave and Wireless Components Letters, 2021, 31(7): 889-892.
(18) Liu X, Zhang W, Hao D, et al. Cost-effective surface-mount off-center-fed dipole antenna element and its array for 5G millimeter wave new radio applications[J]. IEEE Transactions on Components, Packaging and Manufacturing Technology, 2021, 11(7): 1106-1114.
(19) Chang Y, Zhang W, Wang H, et al. Fast Blind Recognition of BCH Code Based on Spectral Analysis and Probability Statistics[J]. IEEE Communications Letters, 2021, 25(10): 3170-3174.
(20) Wang H, Zhang W, Liu Y. Joint Coding Scheme Based on Reed-Solomon Codes[C]//2021 IEEE 6th International Conference on Computer and Communication Systems (ICCCS). IEEE, 2021: 541-545.
(21) Li Y, Zhang W, Liu Y, et al. A visualized fire detection method based on convolutional neural network beyond anchor[J]. Applied Intelligence, 2022: 1-16.
(22) Wang H, Zhang W, Jing Y, et al. Controversial Variable Node Selection-Based Adaptive Belief Propagation Decoding Algorithm Using Bit Flipping Check for JSCC Systems[J]. Entropy, 2022, 24(3): 427.
(23) Wang H, Zhang W, Chang Y, et al. Low-Complexity Chase Decoding of Reed–Solomon Codes Using Channel Evaluation[J]. Entropy, 2022, 24(3): 424.
(24) Zhang R, Zhang W, Liu Y, et al. An efficient deep neural network with color-weighted loss for fire detection[J]. Multimedia Tools and Applications, 2022: 1-19.
(25) Liu X, Zhang W, Hao D, et al. Differential-Fed Magneto-Electric Dipole Antenna with Integrated Balun Based on Ball Grid Array Packaging[J]. IEEE Transactions on Components, Packaging and Manufacturing Technology, 2022.
(26) Jing Y, Zhang W, Wang H, et al. Improved Adaptive Belief Propagation Decoding of Reed-Solomon Codes with SPC Codes[J]. IEEE Communications Letters, 2022.
(二)论著之外的代表性研究成果和学术奖励
授权发明专利
(1)基于提升算法的二维离散小波变换架构设计方法,CN201811047089.1
(2)一种带有巴伦的上变频混频器,CN201810646233.7
(3)一种降低计算复杂度和硬件成本的硬判决译码方法,CN201810301389.1
(4)基于多级二维离散小波变换的VLSI设计方法, CN201810416167.4
(5)一种消除转置存储器的二维离散小波变换VLSI设计方法,CN202110790745.2
(6)一种对不同图像分辨率鲁棒的人脸表情识别方法,CN202110823660.X
六、学术兼职及社会工作
担任IEEE Transactions on Circuits and Systems、IEEE Transactions on Very Large Scale Integration (VLSI) Systems、IEEE Communications Letters、IET image Processing、IET Communications等国际期刊审稿人。
七、联系方式
通信地址:3200威尼斯vip 3200威尼斯vip 20楼436室
电子邮箱:tjuzhangwei@tju.edu.cn