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张俊杰 教授

办公室:

威廉williamhill体育宝山校区东区通信B215

通信地址:

上海市上大路99号威廉希尔

邮政编码:

200444

电话:

21-66136321

电子邮件:

zjj@staff.shu.edu.cn

English Version

个人主页:

/Prof/zhangjj.htm

个人简介(简历)

1999年毕业于中国科学技术大学近代物理系,获理学学士学位;2002年毕业于中国科学技术大学近代物理系,获理学硕士学位;2005年毕业于中国科学技术大学近代物理系,获工学博士学位。2013~2014年英国Bangor大学,高级访问学者。2008年获上海市科技进步一等奖。

  

科研方向

   光接入网;拟态安全;网络通信信息安全。

  

本科生教学

·    《微机原理》;

《超大规模集成电路设计》;

《面向复杂对象的可测性设计与故障容错设计》

  

公司产品

·       每年学术硕士1~2名,专业硕士1~2名,博士生1

  

承担或参与的科研项目(倒序)

(1)    拟态安全调度器芯片设计,2020.01-2020.12              主持

(2)    160Gbps高性能大数据加速设备开发, 2019.01-2019.12   主持

(3)    国家自然科学基金国际合作重点项目,2015.01-2019.12  基于基础架构抽象的自适应光接入网理论与关键技术研究 61420106011), 参与。

(4)    上海市科委重点项目,2015.01-2018.10 “工业控制拟态安全处理器原型验证 14dz1104800),FPGA关键技术负责人。

(5)    国家自然科学基金重点项目,2012.01-2016.12“OFDM-PON理论与关键技术研究61132004),参与。完成了基于4GS/s ADC/DAC以及Xilinx ML605 FPGA的实时OFDM调制解调平台。

(6)     863项目“新概念高效能计算机体系结构及系统研究开发”(2009AA012201)子课题“内存文件协同管理器以及互联与智能存储实现”(2011~2012)  主持人

(7)    863项目“新概念高效能计算机体系结构及系统研究开发”(2009AA012201)子课题“CMTP自定义协议设计实现与测试”(2011~2012)  主持人

(8)    863项目“新概念高效能计算机体系结构及系统研究开发”(2009AA012201)子课题“DCSP合同及作业流程控制设计与实现”(2011~2012  参与

(9)    上海市科委重点项目“印刷电路板宽带光互连关键技术研究”(10511500500)(2010.07.012012.06.30) 参与。

(10)  上海市科委集成电路专项“10GEPON 媒质访问控制器芯片研究”(08706201000)(2008~2010 负责人。

(11)  上海市科委重点项目“宽带高性能互联网网络行为实时分析技术研究及系统研制”(075115004)(2007.10~2009.9)。

(12)  上海市科委集成电路项目“以太无源光网媒质访问控制器芯片设计”(057062019)(2005~2007  负责人。

(13)  上海市科委重大项目,“基于IPv6的宽带接入汇聚与服务系统的研究”(05dz15003)(2005~2007  参与。 该项目于2008年获上海市科技进步一等奖

学术论文及授权发明专利

期刊论文:

[1].     Junjie Peng, You Sun, Haoshuo Chen, Tingting Xu, Zhengxuan Li, Qianwu Zhang,and Junjie Zhang*.“High-Precision and Low-Complexity Symbol Synchronization Algorithm Based on Dual-Threshold Amplitude Decision for Real-Time IMDD OFDM-PON,” IEEE PHOTONICS JOURNAL, 2019, 11(1): 1-14

[2].     J. J. Zhang, W. L. Wang, R. P. Giddings, Q. W. Zhang, J. J. Peng, J. Chen, and J.M.Tang, "Analytical Solution of Stage-Dependent Bit Resolution of Full Parallel Variable Point FFTs for Real-Time DSP Implementation," Journal of Lightwave Technology, 2018, 36(22): 5177-5187

[3].     Y. Qin, and J. Zhang(*), “Novel toggle-rate based energy-efficient scheme for heavy load real-time IM-DD OFDM-PON with ONU LLID identification in time-domain using amplitude decision,” Optics Express, 2017,25(14):16771-16782.

[4].     Junjie Zhang, Jie Yin, Qi Zhang, Jun Shi*, Yan Li, “Robust sound event classification with bilinear multi-column ELM-AE and two-stage ensemble learning,” EURASIP Journal on Audio, Speech, and Music Processing, vol. 2017, no. 1, pp. 11, May 19, 2017.

[5].     Junjie Zhang, Zehua Tang, Roger Giddings, Qi Wu, Weilong Wang, Bingyao Cao, Qianwu Zhang, and J.M. Tang, "Stage-Dependent DSP Operation Range Clipping-Induced Bit Resolution Reductions of Full Parallel 64-Point FFTs Incorporated in FPGA-Based Optical OFDM Receivers," Journal of Lightwave Technology. 2016,34(16):3752-3760.

[6].     Q. Zhang, M. Liu, J. Chen, H. Dun, J. Zhang, Y. Li, Y. Song and M. Wang, "Real-time optical OFDM transmissions with spectral efficiency up to 6.93bit/s/Hz over 50km SSMF IMDD systems," Opt Commun, 2017,38(7):12-17.

[7].     Zhang QianwuHugues-Salas, EmilioGiddings, Roger P.Zhang, JunjieWang, MinTang, Jianming. “13.625 Gb/s real-time dual-band adaptive optical orthogonal frequency division multiplexing transmissions over 25 km standard single-mode fibre intensity modulation and direct detection systems utilising strongly saturated reflective semiconductor optical amplifier intensity modulators”. IET Optoelectronics201485):175-180.

[8].     Zhang, Q.WHugues-Salas, E.Ling, Y.Zhang, H.B.Giddings, R.P.Zhang, J.J.Wang, M.Tang, J.M.”Record-high and robust 17.125Gb/s gross-rate over 25km SSMF transmissions of real-time dual-band optical OFDM signals directly modulated by 1GHz RSOAs”, Optics Express2014226):6339-6348.

国际会议论文:

[1]    Zhang, J.JYuan, W.Y.Giddings, R.P.Wang, M.Tang, J.M. IFFT stage-dependent minimum bit resolution maps for real-time optical OFDM transceivers, Optical Fiber Communication Conference, OFC 2014San Francisco, CA, United states2014.3.9-2014.3.13, Th2A.36.

[2]    Zhang, J.JWang, K.Yuan, W.Y.Cao, B.Y.Giddings, R.P.Wang, M.Tang, J.M. Stage-dependent minimum bit resolution maps of fullparallel pipelined FFT/IFFT for real-time optical OFDM transceivers. Asia Communications and Photonics Conference, ACP 2014Shanghai, China2014.11.11-2014.11.1, AW3E.2.

[3]  Ziwei Xue, Junjie Zhang, Chen Qian, Bingyao Cao, and Qianwu Zhang,“An Energy Saving Strategy for OFDM-PON Based on ONU Data Identification. Asia Communications and Photonics Conference, ACP 2015Hongkong, China2015.11.19-2014.11.23 AM1F. 6.

[4]    Junjie Zhang, Qi Wu, Chen Qian, Bingyao Cao, Ziwei Xue, Han Dun, and Qianwu Zhang, An Optimized Full-parallel Variable-length FFT Design for Software-defined Optical OFDM Receivers . Asia Communications and Photonics Conference, ACP 2015Hongkong, China2015.11.19-2015.11.23ASu1E. 4.

[5]  Weiliang Wu, Junjie Zhang, Zhen Zhang, Han Dun, and Qianwu Zhang. A Novel Amplitude Decision based Symbol Synchronization Method for Real-time IMDD-OOFDM Systems. OECC 2016 ,Niigata, Japan,2016.07.03-2016.07.07.

[6]  Youxiang Qin, Junjie Zhang(*), Junjie Ma, Weilong Wang, Xizhen Peng, Tengfen Sun, and Qianwu Zhang. A Novel Toggle-rate based Energy-Efficient Scheme for Real-time IMDD-OFDM-PON Using Time-domain ONU Identification. Asia Communications and Photonics Conference, ACP 2016Wuhan, China2016.11.02-2016.11.05.

[7]  Zhen Zhang, Yingxiong Song, Junjie Zhang, Yufeng Cai, and Qianwu Zhang. A Novel Timing Estimation Method for DDO-OFDM systems. OECC 2016 ,Niigata, Japan,2016.07.03-2016.07.07.

[8]  Zhen Zhang, Qianwu Zhang, Weiliang Wu, Junjie Zhang, and Yingxiong Song, “A Sign Bit Summation based Symbol Synchronization Method for Real-time IMDD-OOFDM Systems,” in Asia Communications and Photonics Conference 2016, ATh2D.3.

[9]  Zhen Zhang, Yingxiong Song, Junjie Zhang, Yufeng Cai, Weiliang Wu, and Qianwu Zhang, "A robust timing estimation method for DDO-OFDM systems," OptoElectronics and Communications Conference (OECC) held jointly with 2016 International Conference on Photonics in Switching (PS), 2016 21st. IEEE, 2016.

[10] J. Peng, Y. Tian, Y. Qin, W. Wang, and J. Zhang(*), "High-precision and Low-complexity Symbol Synchronization Algorithm Based on Dual-threshold Amplitude Decision for IMDD OFDM-PON," in Asia Communications and Photonics Conference, OSA Technical Digest (online) (Optical Society of America, 2017), paper Su2A.34.

授权专利:

[1]  张俊杰,袁文燕,曹炳尧,薛子威,宋英雄,李迎春,陈健.一种OFDM-PON下行数据节能传输方法(ZL201510637272.7)  授权日:2019-08-20

[2]  张俊杰,顿涵,李迎春,张镇,唐泽华,曹炳尧,宋英雄,陈健,张倩武.  一种低资源开销的OFDMA-PON系统上行传输方法(ZL201610204448.4) 授权日:2019-04-16

[3]  袁文燕,吴琦,张俊杰,李迎春,宋英雄,陈健,尹杰,唐泽华.低资源消耗高精度的OFDM-PON系统符号同步方法(ZL201510257170.2)授权日:2018.07.10

[4]  袁文燕,张俊杰,汪微龙,曹斌尧,张倩武,陈健,宋英雄,李迎春.一种OFDM-PON的传输节能方法(ZL201510682102.0)    授权日:2018.10.23

[5]  袁文燕,吴伟良,张镇,唐泽华,张俊杰,陈健,宋英雄,李迎春,张倩武.一种正交频分复用无源光网络的同步帧与符号同步方法(zl201610344695.4   授权日:2019-04-16

[6]  宋英雄,岳露露,张镇,张卫宾,邝彩霞,张俊杰,陈健,李迎春,张倩武.一种低复杂OFDM-PON系统采样时钟频率偏差补偿的方法(申请号:zl201610966929.9). 授权日:2019-08-20

  

其他

张俊杰老师的研究工作主要是围绕FPGA的高速通信协议加速、高速信号处理算法的并行实现以及FPGA/ASIC芯片的节能等方面开展,有将近20年的FPGA开发工作经验,目前所在的光接入网团队具有Xilinx FPGA全系列的开发平台(Virtex/Kintex Ultrascale+, VC707, ML605)。欢迎对FPGA研究方面有兴趣的同学到实验室来沟通。同时也期待有FPGA定制需求的企事业合作伙伴开展深入的合作。