2017年初获得北航电子信息工程学院通信与信息系统博士学位,随后赴丹麦科技大学(Technical University of Denmark, DTU)从事为期两年的博后工作。2019年荣获欧盟“地平线-2020”研究与创新框架下杰出人才计划“玛丽·居里学者”(Marie Skłodowska-Curie Fellowship)项目的资助,与德国慕尼黑工业大学(Technical University of Munich, TUM)的研究团队开展为期两年的合作研究。2021年底正式加入北航任教至今,并于2022年正式受聘为TUM客座科学家。2022年入选国家级青年人才计划。2023年获得科技部中法杰青项目资助。
长期从事实时系统与网络领域的研究,发表SCI/EI等论文30余篇,出版专著1部,其中以第一/通讯作者的代表性论著发表在RTSS、RTAS、IEEE TII、TIE、IEEE TNSM、Real-Time Systems等实时系统网络国际顶级会议/顶级期刊上,谷歌引用1200余次,h指数为17,FWCI指数为2.89。担任多个顶级IEEE TII、IEEE/ACM ToN、IEEE TCOM等审稿人,担任IEEE RTNS、ETFA、WoNeCa、IFIP、RTCSA等TPC member。
我们致力于打造未来智能世界的神经系统——实时通信网络与系统,专注于通过严谨的科学方法,确保关键信息在极端复杂的网络环境中,也能准确、实时、可靠地传递。这不仅是保障航空航天、工业自动化、智能网联汽车等安全关键领域正常运行的基石,更是推动人工智能、物联网等前沿技术落地的关键。如果你对探索高科技背后的“real-time”充满热情,渴望用你的才智参与设计并构建未来世界,那么,欢迎加入我们的研究团队!与我们一同用理论和代码为智能未来保驾护航!我们正在积极招募有上进心、数理基础好的学生,他们对实时系统、计算机网络、人工智能、形式化验证的有趣研究充满热情!
代表性论文(Full list: Google Scholar)
[1] Luxi Zhao*, Lei Rao, Qiao Li, Rubi Debnath. "Formal Timing Analysis of CQF Interference in TSN: A Network Calculus-Based Approach", Real-Time Systems Symposium (RTSS), CCF-A, accepted, 2025.
[2] Sifan Yu, Feng He, Anlan Xie, and Luxi Zhao*. "Efficient adaptive bandwidth allocation for deadline-aware online admission control in centralized time-sensitive networking." Journal of Systems Architecture, early access, 2025.
[3] Rubi Debnath, Luxi Zhao*, Sebastian Steinhorst. "Learning-Based Traffic Classification for Mixed-Critical Flows in Time-Sensitive Networking", IEEE International Conference on Communications (ICC), accepted, 2025.
[4] Anlan Xie, Feng He, and Luxi Zhao*. "Optimizing Quantum Assignment for DRR in TSN: A Network Calculus-Based Method", Real-Time Systems Symposium (RTSS), CCF-A, 2024.
[5] Luxi Zhao, Xinyu Zhang, Feng He, Zheng Li. "Incremental Performance Analysis for Accelerating Verification of TSN Network Reconfigurations", IEEE Transactions on Network and Service Management, Early Access, 2024. (citations 2)
[6] Luxi Zhao, Yida Yan, and Xuan Zhou. "Minimum Bandwidth Reservation for CBS in TSN with Real-Time QoS Guarantees." IEEE Transactions on Industrial Informatics, 20(4), 2023. (citations 17)
[7] Luxi Zhao*, Paul Pop, and Sebastian Steinhorst. "Quantitative Performance Comparison of Various Traffic Shapers in Time-Sensitive Networking." IEEE Transactions on Network and Service Management, 19(3), 2022 (citations 103).
[8] Luxi Zhao*, Paul Pop, Zhong Zheng, Hugo Daigmorte, and Marc Boyer. "Latency analysis of multiple classes of AVB traffic in TSN with standard credit behavior using network calculus." IEEE Transactions on Industrial Electronics, 68(10), 2020 (citations 108).
[9] Luxi Zhao*, Paul Pop, Zijie Gong, and Bingwu Fang. "Improving latency analysis for flexible window-based GCL scheduling in TSN networks by integration of consecutive nodes offsets." IEEE Internet of Things Journal, 8(7), 2020 (citations 56).
[10] Luxi Zhao*, Paul Pop, Zhong Zheng, and Qiao Li. "Timing analysis of AVB traffic in TSN networks using network calculus." in Proc. of IEEE Real-Time and Embedded Technology and Applications Symposium (RTAS), 2018 (citations 186).
[11] Luxi Zhao*, Paul Pop, and Silviu S. Craciunas. "Worst-case latency analysis for IEEE 802.1 Qbv time sensitive networks using network calculus." IEEE Access, 6, 2018 (citations 171).
[12] Luxi Zhao, Paul Pop, Qiao Li, Junyan Chen, and Huagang Xiong. "Timing analysis of rate-constrained traffic in TTEthernet using network calculus." Real-Time Systems, 53(2), 2017, (citations 101).
[13] Luxi Zhao, Huagang Xiong, Zhong Zheng, and Qiao Li. "Improving worst-case latency analysis for rate-constrained traffic in the time-triggered ethernet network." IEEE Communications Letters, 18(11), 2014 (citations 67).