研究方向Research Directions 水下无线光通信,声-光-射频融合的空天地海一体化通信网络,水下目标识别,水下捕获对准跟踪,水下无线光能量传输,数字信号处理,图像处理,机器学习 2. 机电结构优化与控制 研究内容:在对机电结构进行分析和优化的基础上,运用控制理论进行结构参数的调整,使结构性能满足设计要求。1. 仿生结构材料拓扑优化设计, 仿生机械设计 研究内容:以仿生结构为研究对象,运用连续体结构拓扑优化设计理论和方法,对多相仿生结构(机构)材料进行2. 机电结构优化与控制 研究内容:在对机电结构进行分析和优化的基础上,运用控制理论进行结构参数的调整,使结构性能满足设计要求。1. 仿生结构材料拓扑优化设计, 仿生机械设计 研究内容:以仿生结构为研究对象,运用连续体结构拓扑优化设计理论和方法,对多相仿生结构(机构)材料进行整体布局设计。 整体布局设计。 团队展示 目前,KGroup课题组有1个直博生,2个硕士研究生。 项目情况 1. 用于自动化海底操作的声-光-射频融合通信网络2. 面向移动海洋观测网的水下无线光通信和捕获对准跟踪一体化系统研究3. 应用于东海移动海底观测网的水下目标检测技术 报考意向 招生信息 海洋与地球科学学院 硕士研究生 序号 专业 招生人数 年份 1 海洋科学 1 2023 博士研究生 序号 专业 招生人数 年份 1 海洋科学 1 2023 博士1: 海洋技术(海洋信息技术、海洋观测技术) 报考意向 姓名: 手机号码: 邮箱: 毕业院校: 所学专业: 报考类型: 博士 硕士 个人简历*: 上传附件 支持扩展名:.rar .zip .doc .docx .pdf .jpg .png .jpeg 成绩单*: 上传附件 支持扩展名:.rar .zip .doc .docx .pdf .jpg .png .jpeg 其他材料: 上传附件 支持扩展名:.rar .zip .doc .docx .pdf .jpg .png .jpeg 备注: 提交 科研项目 上海市领军人才(海外)青年人才项目,负责人 研究成果 [1] Kong, M., Guo, Y., Alkhazragi, O., Sait, M., Kang, C. H., Ng, T. K.,and Ooi, B. S., 2022. Real-time Optical-Wireless Video Surveillance System forHigh Visual-fidelity Underwater Monitoring. IEEE Photonics Journal.[2] Guo,Y., Kong, M. (共同一作),Alkhazragi, O., Sait, M. A., Kang, C. H., Ashry, I., Yang, Q., Ng, T.K. andOoi, B. S., 2022. Current Trend in Optical Internet of Underwater Things. IEEE PhotonicsJournal.[3] Kong, M., Guo,Y., Sait, M., Alkhazragi, O., Kang, C. H., Ng, T. K., & Ooi, B. S., 2021.Toward automatic subsea operations using real-time underwater optical wirelesssensor networks. IEEE Photonics Journal, 14(1), 1-8.[4] (Invited) Kong, M., C.H., Kang, Sun, X., Guo, Y., Sait, M., Holguin-Lerma,J.A., Ng, T.K. and Ooi, B.S., 2020. Survey of energy-autonomous solar cellreceivers for satellite–air–ground–ocean optical wireless communication. Progressin Quantum Electronics, pp.100300. [5] Kong, M., Lin, J., Guo, Y., Sun, X., Sait, M., Alkhazragi, O., C.H.,Kang, Holguin-Lerma, J.A., Kheireddine, M., Ouhssain, M., Jones B.H., Ng, T.K.and Ooi, B.S., 2020. AquaE-lite hybrid-solar-cell receiver-modality forenergy-autonomous terrestrial and underwater Internet-of-Things. IEEE PhotonicsJournal, 12(4), pp.1-13. [6] Holguin-Lerma, J.A., Kong, M. (共同一作),Alkhazragi, O., Sun, X., Ng, T.K. and Ooi, B.S., 2020. 480-nmdistributed-feedback InGaN laser diode for 10.5-Gbit/s visible-lightcommunication. Optics Letters, 45(3),pp.742-745. [7] Kong, M., Lin, J., Kang, C.H., Shen, C., Guo, Y., Sun, X., Sait, M.,Weng, Y., Zhang, H., Ng, T.K. and Ooi, B.S., 2019. Toward self-powered andreliable visible light communication using amorphous silicon thin-film solarcells. Optics Express, 27(24), pp.34542-34551. [8] Kong, M., Chen, Y., Sarwar, R., Sun, B., Xu, Z., Han, J., Chen, J.,Qin, H. and Xu, J., 2018. Underwater wireless optical communication using anarrayed transmitter/receiver and optical superimposition-based PAM-4signal. Optics Express, 26(3), pp.3087-3097.[9] Kong, M., Sun, B., Sarwar, R., Shen, J., Chen, Y., Qu, F., Han, J.,Chen, J., Qin, H. and Xu, J., 2018. Underwater wireless optical communicationusing a lens-free solar panel receiver. Optics Communications, 426,pp.94-98. [10] Kong, M., Lv, W., Ali, T., Sarwar, R., Yu, C., Qiu, Y., Qu, F., Xu,Z., Han, J. and Xu, J., 2017. 10-m 9.51-Gb/s RGB laser diodes-based WDMunderwater wireless optical communication. Optics Express, 25(17),pp.20829-20834. [11] Kong, M., Wang, J., Chen, Y., Ali, T., Sarwar, R., Qiu, Y., Wang, S.,Han, J. and Xu, J., 2017. Security weaknesses of underwater wireless opticalcommunication. Optics Express, 25(18),pp.21509-21518. [12] (Invited) Ooi,B.S., Kong, M. and Ng, T.K., 2020. Underwater wireless opticalcommunications: Opportunity, challenges and future prospects commentaryon" Recent progress in and perspectives of underwater wireless opticalcommunication". Progress in Quantum Electronics, 73,pp.100275. [13] Xu, J., Kong, M., Lin, A., Song, Y., Han, J., Xu,Z., Wu, B., Gao, S. and Deng, N., 2017. Directly modulated green-lightdiode-pumped solid-state laser for underwater wireless opticalcommunication. Optics Letters, 42(9),pp.1664-1667.[14] Xu, J., Kong, M., Lin, A., Song, Y., Yu, X., Qu,F., Han, J. and Deng, N., 2016. OFDM-based broadband underwater wirelessoptical communication system using a compact blue LED. OpticsCommunications, 369, pp.100-105.[15] Guo,Y., Kong, M., Sait, M., Marie, S., Alkhazragi, O., Ng, T. K., and Ooi, B.S., 2022. Compact scintillating-fiber/450-nm-laser transceiver for full-duplexunderwater wireless optical communication system under turbulence. Optics Express, 30(1),53-69.[16] Guo, Y., Kong, M., Alkhazragi, O., Sun, X., Sait,M., Ng, T.K. and Ooi, B.S., 2020. Diffused-line-of-sight communication for mobile and fixedunderwater nodes. IEEE Photonics Journal. [17] Sun, X., Kong, M., Telegenov, K, Ouhssain, M.,Sait, M., Guo, Y., Alkhazragi, O., Jones, B.H., Shamma,J.S., Ng, T.K. and Ooi, B.S., 2020. Field demonstrations of wide-beam optical communicationthrough water–air interface. IEEEAccess, 8,pp.160480-160489. [18] Sun, X., Kong, M., Alkhazragi, O., Shen, C., Ooi,E.N., Zhang, X., Buttner, U., Ng, T.K. and Ooi, B.S., 2020. Non-line-of-sightmethodology for high-speed wireless optical communication in highly turbidwater. Optics Communications, pp.125264. [19] Sun, X., Kong, M., Shen, C., Kang, C.H., Ng, T.K.and Ooi, B.S., 2019. On the realization of across wavy water-air-interfacediffuse-line-of-sight communication based on an ultraviolet emitter. OpticsExpress, 27(14), pp.19635-19649.[20] Chen, Y., Kong, M., Ali, T., Wang, J., Sarwar, R., Han, J.,Guo, C., Sun, B., Deng, N. and Xu, J., 2017. 26 m/5.5 Gbps air-water opticalwireless communication based on an OFDM-modulated 520-nm laser diode. 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