[1] Zhengru Ren, Xu Han, Xingji Yu*, Roger Skjetne, Bernt Johan Leira, Svein Sævik, and Man Zhu. Data-driven simultaneous identification of the 6dof dynamic model and wave load for a ship in waves. Mechanical Systems and Signal Processing, 184:109422, 2023. [中科院小类一区 Top, 影响因子:6.823].
[2] Zhengru Ren, Xingwei Zhen*, Zhiyu Jiang, Zhen Gao, Ye Li, and Wei Shi. Underactuated control and analysis of active single blade installation. Marine Structures, 88:103338, 2023. [中科院小类一区 Top, 影响因子:3.458].
[3] Zhengru Ren, Hongyu Zhou, Binbin Li, Zhenzhong Hu, Menghong Yu, and Wei Shi*. Localization and topological observability analysis of a moored floating structure using mooring line tension measurements. Ocean Engineering, 266(5):112706, 2022. [中科院小类一区 Top, 影响因子:3.795].
[4] Hongyu Zhou, Zhengru Ren*, Mathias Marley, and Roger Skjetne. Stepwise path planning with anti-collision using stream function for marine vessels. IEEE Transactions on Control Systems Technology, 30(6):2630–2645, 2022. [中科院小类二区, 影响因子:5.485].
[5] Xingji Yu*, Kristian Stenerud Skeie, Michael Dahl Knudsen, Zhengru Ren, Lars Imsland, and Laurent Georges. Influence of data pre-processing and sensor dynamics on grey-box models for space-heating: Analysis using field measurements. Building and Environment, 212:108832, 2022. [中科院小类一区 Top, 影响因子:6.456].
[6] Yuxin Zeng, Wei Shi, Constantine Michailides, Zhengru Ren, and Xin Li*. Turbulence model effects on the hydrodynamic response of an oscillating water column (owc) with use of a computational fluid dynamics model. Energy, page 124926, 2022.
[7] Zhengru Ren, Amrit Shankar Verma, Ye Li*, Julie J.E. Teuwen, and Zhiyu Jiang. Offshore wind turbine operations and maintenance: A state-of-the-art review. Renewable & Sustainable Energy Reviews, 144:110886, 2021. ESI hot paper&ESI highly-cited paper [中科院小类一区 Top, 影响因子:14.982].
[8] Zhengru Ren, Amrit Verma*, Behfar Ataei, Karl Henning Halse, and Hans Petter Hildre. Model-free anti-swing control of complex-shaped payload with offshore floating cranes and a large number of lift wires. Ocean Engineering, 228:108868, 2021. [中科院小类一区 Top, 影响因子:3.795].
[9] Zhengru Ren*, Xu Han, Amrit Shankar Verma, Johann Alexander Dirdal, and Roger Skjetne. Sea state estimation based on vessel motion responses: improved smoothness and robustness using Bézier surface and L1 optimization. Marine Structures, 76:102904, 2021. [中科院小类一区 Top, 影响因子:3.458].
[10] Zhengru Ren*, Roger Skjetne, Amrit Shankar Verma, Zhiyu Jiang, Zhen Gao, and Karl Henning Halse. Active heave compensation of floating wind turbine installation using a catamaran construction vessel. Marine Structures, 75:102868, 2021. ESI highly-cited paper [中科院小类一区 Top, 影响因子:3.458].
[11] Xu Han*, Zhengru Ren, Bernt Johan Leira, and Svein Sævik. Adaptive identification of lowpass filter cutoff frequency for online vessel model tuning. Ocean Engineering, 236:109483, 2021. [中科院小类一区 Top, 影响因子:3.795].
[12] Xu Han*, Bernt Johan Leira, Svein Sævik, and Zhengru Ren. Onboard tuning of vessel seakeeping model parameters and sea state characteristics. Marine Structures, 78:102998, 2021. [中科院小类一区 Top, 影响因子:3.458].
[13] Amrit Shankar Verma*, Sandro Di Noi, Zhengru Ren, Zhiyu Jiang, and Julie J.E. Teuwen. Minimum leading edge protection application length to combat rain-induced erosion of wind turbine. Energies, 14(6):1629, 2021. [中科院小类四区, 影响因子:3.004].
[14] Kamran Ali Shah, Fantai Meng*, Ye Li*, Ryozo Nagamune, Yarong Zhou, Zhengru Ren, and Zhiyu Jiang. A synthesis of feasible control methods for floating offshore wind turbine system dynamics. Renewable & Sustainable Energy Reviews, 151:111525, 2021. [中科院小类一区 Top, 影响因子:14.982].
[15] Zhengru Ren*, Bo Zhao, and Dong Trong Nguyen. Finite-time neural adaptive control of a class of nonlinear system: Proved by Bernoulli inequality. IEEE Access, 8:47768–47775, 2020. [中科院小类二区 Top, 影响因子:3.367].
[16] Zhengru Ren, Roger Skjetne, Zhiyu Jiang*, and Zhen Gao. Active single-blade installation using tugger line tension control and optimal control allocation. International Journal of Offshore and Polar Engineering, 30(2):220–227, 2020. [中科院小类四区, 影响因子:0.670].
[17] Amrit Shankar Verma*, Zhiyu Jiang, Zhengru Ren, Marco Caboni, Hans Verhoef, Harald van der Mijle Meijer, Saullo G.P. Castro, and Julie J.E. Teuwen. A probabilistic long-term framework for site-specific erosion analysis of wind turbine blades: A case study of 31 Dutch sites. Wind Energy, pages 1315–1336, 2021. [中科院小类三区, 影响因子:2.730].
[18] Amrit Shankar Verma*, Zhiyu Jiang, Zhengru Ren, Weifei Hu, and Julie Teuwen. Effects of onshore and offshore environmental parameters on leading edge erosion of wind turbine blades: A comparative study. Journal of Offshore Mechanics and Arctic Engineering, 143(4):042001, 2020. [中科院小类四区, 影响因子:1.355].
[19] Ming Song*, Bin Qin, Li Zhou, and Zhengru Ren. A three-dimensional model for strength assessment of type-c independent cargo tank structures. Journal of Ship Production and Design, 36(04):271–279, 2020. [中科院小类四区, 影响因子:1.141].
[20] Roger Skjetne and Zhengru Ren*. A survey on modeling and control of thruster-assisted position mooring systems. Marine Structures, 74:102830, 2020. [中科院小类一区 Top, 影响因子:3.458].
[21] Zhengru Ren*, Roger Skjetne, and Zhen Gao. A crane overload protection controller for blade lifting operation based on model predictive control. Energies, 12(1):50, 2019. ESI highly-cited paper [中科院小类四区, 影响因子:3.004].
[22] Zhengru Ren*, Roger Skjetne, Zhiyu Jiang, Zhen Gao, and Amrit Shankar Verma. Integrated GNSS/IMU hub motion estimator for offshore wind turbine blade installation. Mechanical Systems and Signal Processing, 123:222–243, 2019. ESI highly-cited paper [中科院小类一区 Top, 影响因子:6.823].
[23] Amrit Shankar Verma*, Zhiyu Jiang, Zhengru Ren, Zhen Gao, and Nils Petter Vedvik. Response-based assessment of operational limits for mating blades on monopile-type offshore wind turbines. Energies, 12(10):1867, 2019. [中科院小类四区, 影响因子:3.004].
[24] Amrit Shankar Verma, Zhiyu Jiang*, Nils Petter Vedvik, Zhen Gao, and Zhengru Ren. Impact assessment of a wind turbine blade root during an offshore mating process. Engineering Structures, 180:205–222, 2019. [中科院小类二区 Top, 影响因子:4.471].
[25] Ming Song, Wei Shi, Zhengru Ren, and Li Zhou*. Numerical study of the interaction between level ice and wind turbine tower for estimation of ice crushing loads on structure. Journal of Marine Science and Engineering, 7(12):439, 2019. [中科院小类二区, 影响因子:2.458].
[26] Zhengru Ren, Zhiyu Jiang*, Roger Skjetne, and Zhen Gao. Active tugger line force control method for single blade installations. Wind Energy, 21:1344–1358, 2018. [中科院小类三区, 影响因子:2.730].
[27] Zhengru Ren, Zhiyu Jiang*, Roger Skjetne, and Zhen Gao. Development and application of a simulator for offshore wind turbine blades installation. Ocean Engineering, 166:380–395, 2018. [中科院小类一区 Top, 影响因子:3.795].
[28] Jiafeng Xu, Zhengru Ren*, Yue Li, Roger Skjetne, and Karl Henning Halse. Dynamic simulation and control of an active roll reduction system using free-flooding tanks with vacuum pumps. Journal of Offshore Mechanics and Arctic Engineering, 140:061302, 2018. [中科院小类四区, 影响因子:1.355].
[29] Zhiyu Jiang, Zhen Gao, Zhengru Ren, Ye Li*, and Lei Duan. A parametric study on the blade mating process for monopile wind turbine installations under rough environmental conditions. Engineering Structures, 172:1042 – 1056, 2018. [中科院小类二区 Top, 影响因子:4.471].
[30] Zhiyu Jiang, Weifei Hu, Wenbin Dong, Zhen Gao, and Zhengru Ren*. Structural reliability analysis of wind turbines: a review. Energies, 10:2099, 2017. [中科院小类四区, 影响因子:3.004].
[31] Hui Liang*, Zhi Zong, Lei Sun, Li Zou, Li Zhou, Yanjie Zhao, and Zhengru Ren. Generalized weissinger’s L-method for prediction of curved wings operating above a free surface in subsonic flow. Journal of Engineering Mathematics, 83(1):109–129, 2013. [中科院小类四区, 影响因子:1.509].
EI 期刊
[1] Fan Gao, Astrid H. Brodtkorb, Sigrid Marie Mo, Zhengru Ren, and Asgeir J. Sørensen. Adaptive backstepping control of ship speed tracking and hybrid mode selection. IFAC-PapersOnLine, 54(16):63–69, 2021.
[2] Amrit Shankar Verma*, Zhiyu Jiang, Zhengru Ren, Zhen Gao, and Nils Petter Vedvik. Effects of wind-wave misalignment on a wind turbine blade mating process: impact velocities, blade root damages and structural safety assessment. Journal of Marine Science and Application, 19:218–233, 2020.
[3] Zhengru Ren and Roger Skjetne. An on-site current profile estimation algorithm for a moored floating structure. IFAC-PapersOnLine, 49(23):153–158, 2016.
[4] Zhengru Ren and Roger Skjetne. A tension-based position estimation solution of a moored structure and its uncertain anchor positions. IFAC-PapersOnLine, 49(23):251–257, 2016.
[5] Zhengru Ren, Roger Skjetne, and Øivind Käre Kjerstad. A tension-based position estimation approach for moored marine vessels. IFAC-PapersOnLine, 48(16):248–253, 2015.
[6] Zhengru Ren, Roger Skjetne, and Vahid Hassani. Supervisory control of line breakage for thruster-assisted position mooring system. IFAC-PapersOnLine, 48(16):235–240, 2015.
EI 会议
[1] Amrit Shankar Verma, Zhiyu Jiang, Zhengru Ren, and Julie Teuwen. Leading edge erosion of wind turbine blades: Effects of environmental parameters on impact velocities and erosion damage rate. In ASME 2020 39th International Conference on Ocean, Offshore and Arctic Engineering, pages OMAE2020–18173. American Society of Mechanical Engineers, 2020.
[2] Zhiyu Jiang, Bjørnholm Marius, Jiamin Guo, Wenbin Dong, Zhengru Ren, and Amrit Shankar Verma. Damage identification of a jacket support structure for offshore wind turbines. In The 15th IEEE Conference on Industrial Electronics and Applications (ICIEA2020), pages 995–1000. IEEE, 2020.
[3] Amrit Shankar Verma, Zhen Gao, Zhiyu Jiang, Zhengru Ren, and Nils Petter Vedvik. Structural safety assessment of marine operations from a long-term perspective: A case study of offshore wind turbine blade installation. In ASME 2019 38th International Conference on Ocean, Offshore and Arctic Engineering. American Society of Mechanical Engineers Digital Collection, 2019.
[4] Zhen Gao, Amrit Shankar Verma, Yuna Zhao, Zhiyu Jiang, and Zhengru Ren. A summary of the recent work at NTNU on marine operations related to installation of offshore wind turbines. In ASME 2018 37th International Conference on Ocean, Offshore and Arctic Engineering, page V11AT12A044. American Society of Mechanical Engineers, 2018.
[5] Zhengru Ren, Zhiyu Jiang, Roger Skjetne, and Zhen Gao. Single blade installation using active control of three tugger lines. In The 28th International Ocean and Polar Engineering Conference, pages 594–601. International Society of Offshore and Polar Engineers, 2018.
[6] Zhiyu Jiang, Zhengru Ren, Zhen Gao, Karl Henning Halse, and Peter Christian Sandvik. Mating control of a wind turbine tower-nacelle-rotor assembly for a catamaran installation vessel. In Proceedings of the 2018 International Ocean and Polar Engineering Conference, pages 584–593. International Society of Offshore and Polar Engineers, 2018.
[7] Zhengru Ren, Roger Skjetne, and Zhen Gao. Modeling and control of crane overload protection during marine lifting operation based on model predictive control. In ASME 2017 36th International Conference on Ocean, Offshore and Arctic Engineering, pages OMAE2017–62003. American Society of Mechanical Engineers, 2017.
[8] Jiafeng Xu, Zhengru Ren, Yue Li, Roger Skjetne, and Karl Henning Halse. Dynamic simulation and control of an active roll reduction system using free-flooding tanks with vacuum pumps. In ASME 2017 36th International Conference on Ocean, Offshore and Arctic Engineering, pages OMAE2017–61292. American Society of Mechanical Engineers, 2017.
中文核心
[1] 周利, 段玉响, 任政儒, and 安松. 主动式升沉补偿控制系统及运动预报. 华中科技大学学报 (自然科学版), 2021.
[2] 段玉响, 任政儒, and 周利. 主动式升沉补偿技术研究现状和发展趋势. 舰船科学技术, 2020.
[3] 任政儒, 倪少玲, 李海涛, and 李隆帜. 船模性能虚拟实验教学软件开发和应用. 船海工程, 43(1):95–98, 2014. [4] 倪少玲, 任政儒, 李海涛, and 邵昊燕. 船模阻力虚拟试验教学系统开发研究. 船海工程, 41(6):34–37, 2012.
其他
[1] Ning Guo, Zhengru Ren, Michal Lewandowski, and Corinna Netzer. Predictions of emission and flammability limit of mild combustion of ammonia and syngas. In The 39th International Symposium on Combustion, 2022-07-24.
[3] Jingzhe Jin, Vatne Sigrid Ringdalen Jiang, Zhiyu, Zhengru Ren, Yuna Zhao, and Zhen Gao. Installation of pre-assembled offshore wind turbines using a catamaran vessel and an active gripper motion control method. In Grand Renewable Energy 2018 Proceedings, 2018.
