【学术简介】
博士,副教授,硕导。加泰罗尼亚理工大学信号理论与通信专业博士,读博期间曾在法国Nokia Bell labs III-V lab和意大利CNR TECIP研究所联合培养。IEEE Member,OSA Member,ICEEAC技术编委,审稿OL, JLT, JOCN等期刊。拥有多年下一代通信技术的研发,架构和管理经验,主要从事B5G/6G框架下移动通信接入网技术的研究。
【工作经历】
2017.02--至今,江南大学,光电系,副教授
【研究领域】
相干解调w/wo DSP,高速Serdes电路设计,高阶m-PSK
【主要论著】
a国际期刊与会议(SCI收录):
[1] S. Li,G. Y. Chu*, K. Zhu, P. Niu, S. Zhang and G. Yang, A high efficiency 14 to 28Gbs tunable analog receiver front-end in 65nm CMOS technology, J. Circuits, systems and computers, issue 2450116, Oct. 2023.
[2] K. Zhu, S. Li,G. Y. Chu*, A 25Gb/s RX front-end with multi-stage linear equalizer and 3-tap specula- tive DFE in 65nm CMOS technology, IEICE Electronics Express, vol. 20, no. 3, pp.1-6, Feb. 2023.
[3] G. Xu, L. Hu, S. Zhang, G. Yang,G. Y. Chu*, Multiuser 4×10 Gb/s bidirectional transmission with wavelength conversion using a single SOA, Optical Engineering, vol. 60, issue 7, pp. 076108, Jul. 2021.
[4] X. R. Chen,G. Y. Chu*, 10 Gb/s Bidirectional Transmission with an Optimized SOA and a SOA-EAM Based ONU, Applied Sciences, vol.10, no.24, pp.0-8960, 2020.
[5] R Sun, G Yang, F Wang,G. Y. Chu,N Lu, X Shen, A theoretical study on the metal contacts of monolayer gallium nitride (GaN), Mat. Sci. in Semi. Proc., vol. 84, pp. 64-70, May 2018.
[6] P Yan, J Wang, G Yang, N Lu,G. Y. Chu, X Zhang, X Shen, Chemical vapor deposition of monolayer MoS2 on sapphire, Si and GaN substrates, Superlat. and Microstr., vol.120, pp. 235-240, May 2018.
[7] M. Presi , M. Artiglia, F. Bottoni, M. Rannello, I. Cano, J. Tabares, J. Velasquez, S. Ghasemi, V. Polo,G. Y. Chu, J. Prat, G. Azcarate, R. Pous, C. Vila, H. Debregeas, G. Llosera, A. Rafel, E. Ciaramella*, Field-Trial of a High-Budget, Filterless, λ-to-the-User, UDWDM-PON Enabled by an Innovative Class of Low-Cost Coherent Transceivers, Journal of Lightw. Tech., vol. 35, no.23, Dec. 2017.
[8]G. Y. Chu*, J. Prat, Ultra-fast wavelength jumping and wavelength adjustment with low current using monolithically integrated FML for long reach UDWDM-PON, Photonics J., vol. 8, issue 6, Dec., 2016.
[9]G. Y. Chu, A. Maho, I. Cano, V. Polo, R. Brenot, H. Debregeas*, J. Prat, First demonstration and field trial on multi-user UDWDM-PON full duplex PSK-PSK with single monolithic integrated dual-output- DFB-SOA based ONUs, OSA Optics Letters, vol. 41, no. 20, Sept., 2016.
[10]G. Y. Chu*, I. Cano, V.Polo, J. Prat, Application on minimizing residual AM in DPSK UDWDM-PON ONU by integrated Dual-EML, Photonics J.. vol. 8, issue 3, Jun., 2016.
[11]G. Y. Chu,A. Lerín, I. Cano, V. Polo, J. Prat*, Coherent ONU based on 850 μm-long cavity-RSOA for next-generation ultra-dense access network, OSA Chin. Opt. Lett., vol. 14, issue 5, May, 2016.
[12]G. Y. Chu*, I. Cano, V. Polo, C. Kazmierski, R. Brenot, J. Prat, Monolithically integrated dual-output DEML for full duplex DPSK-ASK and DPSK-SSB ONU in ultra-dense channel spaced access network, Journal of Lightw. Tech.(invited), vol. 34, no. 8, Apr., 2016.
[13]G. Y. Chu, V. Polo, A. Lerín, J. Tabares, I. N. Cano, J. Prat*, 1.25-3.125 Gb/s per user PON with RSOA as phase modulator for statistical wavelength ONU, Opt. Comm., vol. 357, Dec., 2015.
b部分已发表国际会议(EI收录)
[1] S.Li,G. Y. Chu*, J. Velasquez, P. Niu, S. Zhang and G.Yang, A 56 Gb/s 9.6 mW PAM-4 Receiver Analog Front- end based on gm-boosted, OSA/IEEE Asia Communications and Photonics Conference, Wuhan, Nov. 2023.
[2] X. R. Chen,G. Y. Chu*, 10 Gb/s bidirectional transmission via exploiting optimized integrated EML- SOA based ONU, OSA/IEEE Asia Communications and Photonics Conference, T4A.49, Shanghai, Oct. 2021.
[3] M. Rannello, I. Cano, J. Tabares, J. Velásquez, S. Ghasemi, V. Polo,G. Y. Chu,J. Prat, R. Pous, G. Azcárate, C. Vilà, H. Debrégeas, G. Vall-llosera, A. Rafel, M. Artiglia, F. Bottoni, M. Presi, E. Ciaramella, Field-trial of a λ-to-the-user high- budget PON using a novel class of low-cost coherent transceivers and compatible with EPON system op- eration,IEEE International Conference on Transparent Optical Networks(invited),Th.B1.3, Girona, 2017.
[4] I. Cano, J. Prat, J. Tabares, J. Valasquez, S. Ghasemi, V. Polo,G. Y. Chu*,M. Presi, M. Ranello, F. Bottoni, M. Artiglia, R. Pous, G. Azcarate, C. Vila, H. Debregeas, E. Ciaramella, Field-trial of low-cost coherent UDWDM-PON with real-time processing, λ -Monitoring and EPON coexistence, European Conference on Network and Optical Communications, M.1.E.5, Düsseldorf, 2016.
[5] J. Prat, I. Cano, M. Presi, J. Tabares, M. Ranello, J. C. Velssquez, F. Bottoni, S. Ghasemi, V. Polo,G. Y. Chu,M. Artiglia, R. Pous, G. Azcárate, C. Vilà, H. Debrégeas, E. Ciaramella, Ultra dense WDM Access Network Field Trial, European Conference on Network and Optical Communications(invited),S5.2, Lisbon, Jun. 2016.
[6] A. Lerín,G. Y. Chu, V. Polo, I. Cano, J. Prat, Chip Integrated DFB-EAM for Directly Phase Modu- lation Performance Improvement in UDWDM-PON, European Conference on Network and Optical Communications, P.7.10, Valencia, Sept. 2015.
[7] I. Cano, A. Lerín,G.Y. Chu,V. Polo, J. Prat, Performance comparison between direct phase modulated DFB and RSOA for cost effective user transmitter in udWDM-PONs, IEEE International Conference on Transparent Optical Networks(invited),Mo.D2.2, Budapest, Jul. 2015.
[8]G. Y. Chu*, I. N. Cano, C. Kazmierski, R. Brenot, J. Prat, First demonstration of monolithically inte- grated dual output DEML for full-duplex UDWDM-PON ONU, IEEE European Conference on Network and Optical Communications(Top scored), Th.1.3.1, Valencia, Sept. 2015.
[9]G. Y. Chu,V. Polo, A. Lerín, I. N. Cano, J. Prat*, Optimizing Reflective Semiconductor Optical Am- plifier as Phase Modulator for Low Cost Colorless ONU with 3x3 Homodyne Detection, OSA/IEEE Asia Communications and Photonics Conference, AF2B.5, Shanghai, Nov. 2014.
[10]G. Y. Chu, A. Lerín, I. N. Cano, V. Polo, J. A. Tabares, J. Prat*, Exploiting RSOA for Uplink Transmis- sion with Coherent Detection for Low Cost UDWDM-PON, OSA/IEEE Asia Communications and Pho- tonics Conference, AF2B.1, Shanghai, Nov. 2014.
c部分国内期刊与会议:
[1]陈芯蕊,楚广勇*,全双工直接调制激光器光网络单元的优化研究,激光与红外, vol.51, issue 07, pp. 865-870,Jul. 2021.
[2]楚广勇*,集成化单激光器相干光检测方案的优化与实测,中国光学学会学术大会,深圳, Sept. 2021.
[3]徐贵勇,胡立发,邓灿冉,张士勋,楚广勇*,基于迭代算法的半导体光放大器动态模型构建,激光技术,vol. 44, no.02, pp.255-260, Mar. 2020.
[4]陈芯蕊,楚广勇*,基于半导体光放大器的优化建模,第十八届全国光学测试学术交流会(受邀),Nov., 2020.
[5]徐贵勇,楚广勇*,利用SOA波长转换效应的多用户双全工传输研究,第十八届全国光学测试学术交流会(受邀),Nov., 2020.
[6]邓灿冉,朱益清,徐贵勇,张士勋,楚广勇*,反射型半导体光放大器建模与模拟,应用激光, 3, 532-538, 2020.
d发明专利:
[1]楚广勇,陈芯蕊,基于EML的UDWDM无源光网络系统及光传输方法, ZL202111299639.0, 2021. (已授权)
[2]楚广勇,郑枫,李顺禹,朱柯臻,陈芯蕊,基于DQPSK的全双工无源光网络传输系统及方法, ZL202211088962.8,2022. (已授权)
[3]杨国锋,汪金,楚广勇,一种高灵敏度有毒气体传感器及其制备方法,ZL201811062453.1, 2018. (已授权)
[4]楚广勇,李顺禹,郑枫,朱柯臻,胡立发,杨国锋,一种基于gm-TIA的低功耗接收机模拟前端均衡电路CN202211609210.1,2022. (实审,已公开)
[5]楚广勇,朱柯臻,李顺禹,郑枫,陈芯蕊,一种用于高速串行链路的接收机模拟前端多级均衡器,CN2211623463.4,2022. (实审,已公开)
【科研、教学项目】
主持项目:
江苏省自然科学基金1项,教育部中央高校研究专项1项,江南大学教学改革项目1项,企业委托项目3项
参与项目:
欧盟FP7-ICT-COCONUT, France-ANR-LAMPION, Spain-ICT-Fliper, Spain-ICT-Romula
【在读硕、博士人数】
9人
【已毕业硕、博士人数】
6人
【以上资料更新日期】
2024年5月