| Superheated steam temperature control based on modified active disturbance rejection control Z Wu, T He, D Li, Y Xue, L Sun, L Sun Control Engineering Practice 83, 83-97, 2019 | 92 | 2019 |
| On transitioning from PID to ADRC in thermal power plants Z Wu, Z Gao, D Li, YQ Chen, Y Liu Control Theory and Technology 19, 3-18, 2021 | 73 | 2021 |
| A tuning method of active disturbance rejection control for a class of high-order processes T He, Z Wu, D Li, J Wang IEEE Transactions on Industrial Electronics 67 (4), 3191-3201, 2019 | 62 | 2019 |
| Gain scheduling design based on active disturbance rejection control for thermal power plant under full operating conditions Z Wu, D Li, Y Xue, YQ Chen Modeling, Identification, and Control for Cyber-Physical Systems Towards …, 2024 | 48 | 2024 |
| Modified active disturbance rejection control for fluidized bed combustor Z Wu, D Li, Y Xue, L Sun, T He, S Zheng ISA transactions 102, 135-153, 2020 | 33 | 2020 |
| Performance analysis of improved ADRCs for a class of high-order processes with verification on main steam pressure control Z Wu, D Li, Y Liu, YQ Chen IEEE Transactions on Industrial Electronics 70 (6), 6180-6190, 2022 | 29 | 2022 |
| Control of the superheated steam temperature: A comparison study between PID and fractional order PID controller Z Wu, D Li, L Wang 2016 35th Chinese Control Conference (CCC), 10521-10526, 2016 | 29 | 2016 |
| Active disturbance rejection control design for high-order integral systems Z Wu, G Shi, D Li, Y Liu, YQ Chen ISA transactions 125, 560-570, 2022 | 24 | 2022 |
| Maximum sensitivity-constrained data-driven active disturbance rejection control with application to airflow control in power plant T He, Z Wu, R Shi, D Li, L Sun, L Wang, S Zheng Energies 12 (2), 231, 2019 | 21 | 2019 |
| Active disturbance rejection control design based on probabilistic robustness for uncertain systems Z Wu, D Li, YQ Chen Industrial & Engineering Chemistry Research 59 (40), 18070-18087, 2020 | 20 | 2020 |
| Superheated steam temperature control based on a hybrid active disturbance rejection control G Shi, Z Wu, J Guo, D Li, Y Ding Energies 13 (7), 1757, 2020 | 20 | 2020 |
| An active disturbance rejection control design with actuator rate limit compensation for the ALSTOM gasifier benchmark problem Z Wu, J Yuan, Y Liu, D Li, YQ Chen Energy 227, 120447, 2021 | 19 | 2021 |
| A new PID controller design with constraints on relative delay margin for first-order plus dead-time systems Z Wu, D Li, Y Xue Processes 7 (10), 713, 2019 | 19 | 2019 |
| A modified luenberger observer for SOC estimation of lithium-ion battery T He, D Li, Z Wu, Y Xue, Y Yang 2017 36th Chinese control conference (CCC), 924-928, 2017 | 19 | 2017 |
| Decentralized active disturbance rejection control design for the gas turbine G Shi, Z Wu, T He, D Li, Y Ding, S Liu Measurement and Control 53 (9-10), 1589-1601, 2020 | 16 | 2020 |
| Physics-informed energy-balanced modeling and active disturbance rejection control for circulating fluidized bed units Z Wu, T He, Y Liu, D Li, YQ Chen Control Engineering Practice 116, 104934, 2021 | 15 | 2021 |
| Tuning for fractional order PID controller based on probabilistic robustness Z Wu, D Li, Y Xue, T He, S Zheng IFAC-PapersOnLine 51 (4), 675-680, 2018 | 14 | 2018 |
| The influence of rate limit on proportional–integral controller for first-order plus time-delay systems Z Wu, J Yuan, D Li, Y Xue, YQ Chen ISA transactions 105, 157-173, 2020 | 13 | 2020 |
| On the flexible operation of supercritical circulating fluidized bed: Burning carbon based decentralized active disturbance rejection control F Zhang, Y Xue, D Li, Z Wu, T He Energies 12 (6), 1132, 2019 | 13 | 2019 |
| Shaft speed control of the gas turbine based on active disturbance rejection control G Shi, Z Wu, T He, D Li, Y Ding, S Liu IFAC-PapersOnLine 53 (2), 12523-12529, 2020 | 12 | 2020 |
YangQuan ChenMechatronics, Embedded Systems and Automation (MESA) Lab, University of California, MercedVerified email at ucmerced.edu
