马战国

姓  名

马战国

性  别

男

出生年月

1982.03

导师类别

硕士生导师

技术职称

讲师

任职部门

自动化系

E_mail

mazhanguo@hrbust.edu.cn

电  话

0451-86390863

教育经历

2002.09-2006.07哈尔滨工程大学，自动化，学士

2006.09-2008.07哈尔滨工业大学，控制科学与工程，硕士

2013.09-2018.01哈尔滨工程大学，核科学与技术，博士

工作经历

2008.07-2012.10北京广利核系统工程有限公司，工程师

2018.01-2021.10哈尔滨工程大学核科学与技术学院，工程师

2019.10-2020.10布里斯托大学工学院土木工程系，访问学者

2021.10-至今哈尔滨理工大学自动化学院，讲师

研究领域及方向

1.研究领域（学科）：

[1]控制科学与工程

[2]核科学与技术

2.主要研究方向：

[1]人工智能、机器学习与深度学习

[2]装备状态监测、预测与故障诊断

[3]系统可靠性分析

科研项目

1. 主持或参与纵向课题

[1]英国商务能源与产业战略部(BEIS)，英国国家核电研发计划，核电仪控系统测试性(R3.9.10“Improving C&I Design for Testability”)，2019年05月至2021年09月，100万元，参与。

[2]英国商务能源与产业战略部(BEIS)，英国国家核电研发计划，核电仪控系统可靠性(R3.9.11“Reliability Limits of Programmable Protection Systems”)，2019年05月至2021年09月，100万元，参与。

[3]核动力装置在线监测与运行支持技术研究，国防科工局核能开发项目，2016年01月至2019年12月，470万参与。

2. 主持横向课题

[1]智能故障诊断及辅助决策系统软件研发项目，横向课题，2022年4月至2023年4月，168万，参与(技术负责人)，在研。

代表性科研论文

[1]Zhuoran Zhou, Zhanguo Ma*, Yingying Jiang and Minjun Peng. Fault Diagnosis Using Bond Graphs in an Expert System, Energies2022, 15(15), 5703 (SCI)

[2]Zhanguo MA,Xinkai LIU, Minjun PENG, etc., Failure Mode Effects and Criticality Analysis for Nuclear Fuel Reliability Improvement of a Commercial PWR, ISSNP 2021.

[3]Zhanguo MA, Minjun PENG, Hidekazu YOSHIKAWA, etc., A Safety-Critical Software Reliability Analysis Method Based On Statistical Model Checking And Bayesian Theory，ICONE27, 2019 (EI：20193507377554).

[4]Zhanguo MA, Hidekazu YOSHIKAWA, Ming YANG, A human-machine interaction design and evaluation method by combination of scenario simulation and knowledge base,Journal of Nuclear Science and Technology, 2018, 55:5, 516-529 (SCI: WOS: 000428678300006; EI: 20175204585076).

[5]Zhanguo Ma, Hidekazu Yoshikawa, Takashi Nakagawa and Ming Yang, Knowledge-based software design for Defense-in-Depth Risk monitor system and application for AP1000, Journal of Nuclear Science and Technology, 2017, 54:5, 552-568 (SCI:WOS: 000399483900005; EI: 20170903386006).

[6]Zhanguo MA, Hidekazu YOSHIKAWA, Ming YANG, Reliability model of the digital reactor protection system considering the repair time and common cause failure, Journal of Nuclear Science and Technology, 2017, 54:5, 539-551 (SCI: WOS: 000399483900004; EI: 20171003424646).

[7]Zhanguo MA, Hidekazu YOSHIKAWA, Ming YANG, Module level reliability performance evaluation of digital reactor protection system considering the repair and common cause failure, Annals of nuclear energy. 2017, 110, 805-817. (SCI: WOS: 000412251000071; EI:20173204028509).

[8]Zhanguo Ma, Hidekazu Yoshikawa, Ming Yang, The reliability model for the FPGA-based instrument and control system using Colored Petri Net, ICONE25, 2017 (EI:20174404360639).

[9]MA Zhanguo, YANG Ming, Knowledge-based software design for Defense-in-Depth risk monitor system with the preliminary study for AP1000 application, International Journal of Nuclear Safety and Simulation, Vol. 7, Number 1, 2017.

[10]MA Zhanguo, YOSHIKAWA Hidekazu, NAWAZ Amjad, YANG Ming, Developmental Study of Advanced Human Interface System Design Method for Digital I&C+HMIT -A Preliminary Study for Passive Safety PWR AP1000, International Journal of Nuclear Safety and Simulation, Vol. 7, Number 2, 2017.

[11]Ma Zhanguo, Yoshikawa Hidekazu, Yang Ming, Function-centered modeling of the Digital Instrument and Control system using the colored Petri net, ICONE23, 2015 (EI: 20160902019370).

[12]MA Zhanguo, YOSHIKAWA Hidekazu, YANG Ming, Global generic model for reliability analysis of the digital instrumentation and control systems, International Journal of Nuclear Safety and Simulation, Vol. 6, Number 1, 2015.

[13]Zhanguo Ma, Hidekazu Yoshikawa, Takashi Nakagawa, Development of Knowledge-based Software Tools for Defense-in-Depth Risk Monitor System, Transactions of the American Nuclear Society -2015 ANS Winter Meeting and Nuclear Technology Expo.

[14]Yue Yu, Min-jun Peng, Hang Wang, Zhan-guo Ma, Wei Li, Improved PCA model for multiple fault detection, isolation and reconstruction of sensors in nuclear power plant, (SCI: 000568756900005; EI: 20202908957972).

[15]Hidekazu Yoshikawa, Zhanguo Ma, Amjad Nawaz, Ming Yang, conceptual formation of advanced his design method for digital I&C+HMIT, ICONE25, 2017 (EI: 20174404360645).

[16]Wei Li, Min-jun Peng, Ming Yang, Geng-lei Xia, Hang Wang, Nan Jiang, Zhan-guo Ma, Design of comprehensive diagnosis system in nuclear power plant, Annals of nuclear energy. (SCI: 000418211500010; EI: 20172103690845).

[17]LI Wei, PENG Minjun, LIU Yongkuo, MA Zhanguo, Condition monitoring of sensors with PCA method in nuclear power plants, International Journal of Nuclear Safety and Simulation, Vol. 8, Number 2, 2017

[18]Hidekazu Yoshikawa, Zhanguo Ma, Amjad Nawaz, Ming Yang, Developmental Study of Advanced HIS (Human Interface System) Design Method for Digital I&C+HMIT -A Preliminary Study for Passive Safety PWR AP1000, 8th International Symposium on Symbiotic Nuclear Power Systems for 21st Century, September 26-28, 2016, Chengdu, China.

代表性专利、专著

[1]译著：先进重水反应堆空间控制策略，哈尔滨工程大学出版社，2021年05月，24.9万字。

社会、学会及学术兼职

  担任Journal of nuclear science and technology、Progress in nuclear energy、Nuclear Engineering and Design、Annals of nuclear energy、Reliability Engineering & System Safety、International Journal of Critical Infrastructure Protection等多个国际期刊审稿人。