姓名:崔璨
职称/职务:副教授,博士生导师
泰山学者青年专家、山东省海外优秀青年基金获得者
电子信箱:cuican_ouc@126.com
研究方向:
[1] 深度强化学习理论及其应用;
[2] 智能控制与优化决策;
[3] 海洋平台结构健康监测;
[4] 暖通空调系统建模、设计与运维;
授课:
本科生课程:《自动化仪表与过程控制》、《电工学》
研究生课程:《先进控制》
研究生招生:
欢迎本专业及跨专业(海工、信息、能动等)具有较好数理、编程基础的同学加入本课题组。
本科生科研:
欢迎本校学有余力的优秀本科生提前加入课题组开展科研工作,探索感兴趣的研究课题。
主要学术成果:
发表SCI Top期刊论文20余篇 (1作/通讯10篇);发表国际会议论文10篇;出版Springer-Nature英文专著1本 (3 Chapters);5篇代表性论文:
[1] Cui C*, Li C, Li M. An Online Reinforcement Learning Method for Multi-zone Ventilation Control with Pre-Training[J]. IEEE Transactions on Industrial Electronics, 2022, 70(7): 7163-7172. 影响因子:8.162;中科院一区
[2] Li C, Cui C*, Li M. A proactive 2-stage indoor CO2-based demand-controlled ventilation method considering control performance and energy efficiency[J]. Applied Energy, 2023, 329: 120288. 影响因子:11.446;中科院一区
[3] Cui C, Zhang X*, Cai W. An energy-saving oriented air balancing method for demand controlled ventilation systems with branch and black-box model[J]. Applied Energy, 2020, 264: 114734. 影响因子:11.446;中科院一区
[4] Cui C, Zhang X*, Cai W, et al. A novel air balancing method for HVAC systems by a full data-driven duct system model[J]. IEEE Transactions on Industrial Electronics, 2020, 68(12): 12595-12606. 影响因子:8.162;中科院一区
[5] Cui C*, Liu Z, Li M. A two-phase online air balancing method for multi-zone ventilation systems based on distributed finite-time control[J]. Building and Environment, 2023: 110030.0 影响因子:7.093;中科院一区
专利:
授权中国发明专利11项(第一发明人),5项代表性专利:
[1] 海洋平台通风系统在线风平衡控制方法及控制系统。授权号:CN114265306B (中国发明专利,第一发明人)
[2] 基于温度和硫化氢浓度控制的海洋平台通风系统控制方法。授权号:CN114484822B (中国发明专利,第一发明人)
[3] 离线预训练-在线学习的通风系统风量控制方法。授权号:CN114216256B (中国发明专利,第一发明人)
[4] 一种应用于变风量系统的智能风阀及系统和控制方法。授权号:CN114838452B (中国发明专利,第一发明人)
[5] 一种易安装的智能风阀。授权号:CN114893898B (中国发明专利,第一发明人)
项目:
主持国家自然科学基金项目 1 项,省部级项目 2 项,其他项目 3 项;
Title: Associate Professor
Taishan Scholars, Shandong Provincial Distinguished Young Scholars (Overseas)
E-mail: cuican_ouc@126.com;
Research interests:
[1] Deep reinforcement learning theory and its applications;
[2] Intelligent control and optimization decision-making;
[3] Health monitoring of offshore platform;
[4] HVAC system modeling, design and operation;
Course:
Undergraduate courses:Process Automation and Instrumentation; Electrotechnics;
Graduate courses:Advanced control
Major academic achievements:
Published one book (Springer Nature, 3 chapters), and more than 20 top SCI papers. Representative publications are as follows:
[1] Cui C*, Li C, Li M. An Online Reinforcement Learning Method for Multi-zone Ventilation Control with Pre-Training[J]. IEEE Transactions on Industrial Electronics, 2022, 70(7): 7163-7172. IF: 8.162; Top Journal
[2] Li C, Cui C*, Li M. A proactive 2-stage indoor CO2-based demand-controlled ventilation method considering control performance and energy efficiency[J]. Applied Energy, 2023, 329: 120288. IF: 11.446; Top Journal
[3] Cui C, Zhang X*, Cai W. An energy-saving oriented air balancing method for demand controlled ventilation systems with branch and black-box model[J]. Applied Energy, 2020, 264: 114734. IF: 11.446; Top Journal
[4] Cui C, Zhang X*, Cai W, et al. A novel air balancing method for HVAC systems by a full data-driven duct system model[J]. IEEE Transactions on Industrial Electronics, 2020, 68(12): 12595-12606. IF: 8.162; Top Journal
[5] Cui C*, Liu Z, Li M. A two-phase online air balancing method for multi-zone ventilation systems based on distributed finite-time control[J]. Building and Environment, 2023: 110030.0 IF: 7.093; Top Journal
