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Yunlang Xu
ORCID
Publication Activity (10 Years)
Years Active: 2019-2024
Publications (10 Years): 20
Top Topics
Permanent Magnet
Neural Network
Optimization Algorithm
Sliding Mode Control
Top Venues
Knowl. Based Syst.
IECON
IEEE Access
CoRR
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Publications
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Zhibo Zeng
,
He Dong
,
Yunlang Xu
,
Wei Zhang
,
Hangcheng Yu
,
Xiaoping Li
Teaching-learning-based optimization algorithm with dynamic neighborhood and crossover search mechanism for numerical optimization.
Appl. Soft Comput.
154 (2024)
Xinyi Su
,
Xiaofeng Yang
,
Yunlang Xu
Fuzzy adaptive terminal sliding mode control based on recurrent neural network compensation for a maglev system.
Eng. Appl. Artif. Intell.
124 (2023)
Xinyi Su
,
Xiaofeng Yang
,
Yunlang Xu
Adaptive parameter learning and neural network control for uncertain permanent magnet linear synchronous motors.
J. Frankl. Inst.
360 (16) (2023)
Yunlang Xu
,
Feng Shu
,
Xinyi Su
,
Guo Liang
,
Han Shuo
,
Xiaofeng Yang
A composite neural network-based adaptive sliding mode control method for reluctance actuator maglev system.
Neural Comput. Appl.
35 (21) (2023)
Xinyi Su
,
Xiaofeng Yang
,
Yunlang Xu
Analytical Modelling of a Hybrid Reluctance Motor Based on Magnetic Equivalent Circuit.
ICIT
(2023)
Yunlang Xu
,
Yi Peng
,
Xinyi Su
,
Zhile Yang
,
Chenyang Ding
,
Xiaofeng Yang
Improving teaching-learning-based-optimization algorithm by a distance-fitness learning strategy.
Knowl. Based Syst.
257 (2022)
Yang Wang
,
Chengyu Jin
,
Qiang Li
,
Tianyu Hu
,
Yunlang Xu
,
Chao Chen
,
Yuqian Zhang
,
Zhile Yang
A Dynamic Opposite Learning-Assisted Grey Wolf Optimizer.
Symmetry
14 (9) (2022)
Dongsheng Yang
,
Mingliang Wu
,
Di Li
,
Yunlang Xu
,
Xianyu Zhou
,
Zhile Yang
Dynamic opposite learning enhanced dragonfly algorithm for solving large-scale flexible job shop scheduling problem.
Knowl. Based Syst.
238 (2022)
He Dong
,
Yunlang Xu
,
Di Cao
,
Wei Zhang
,
Zhile Yang
,
Xiaoping Li
An improved teaching-learning-based optimization algorithm with a modified learner phase and a new mutation-restarting phase.
Knowl. Based Syst.
258 (2022)
Pan Wang
,
Yunlang Xu
,
Runze Ding
,
Weike Liu
,
Steve Shu
,
Xiaofeng Yang
Multi-Kernel Neural Network Sliding Mode Control for Permanent Magnet Linear Synchronous Motors.
IEEE Access
9 (2021)
Peijin Zhang
,
Chengyang Ding
,
Yunlang Xu
,
Runze Ding
,
Xiaofeng Yang
,
Hongliang Lu
A Co-Optimization Method of Actuators/Sensors Placement and LQG Controller for Vibration Suppression.
IEEE Access
9 (2021)
Zidong Liu
,
Yunlang Xu
,
Pan Wang
,
Xiaofeng Yang
,
Zhi Li
,
Feng Shu
Fractional-Order Sliding Mode Control with Adaptive Neural Network for High-Precision Position Control of Reluctance Actuators.
IECON
(2021)
He Dong
,
Yunlang Xu
,
Xiaoping Li
,
Zhile Yang
,
Chenhao Zou
An improved antlion optimizer with dynamic random walk and dynamic opposite learning.
Knowl. Based Syst.
216 (2021)
Wei Zhang
,
He Dong
,
Yunlang Xu
,
Xiaoping Li
Performance assessment and tuning of PID control using TLBO: the single-loop case and PI/P cascade case.
CoRR
(2021)
Yunlang Xu
,
Zhile Yang
,
Xiaoping Li
,
Huazhou Kang
,
Xiaofeng Yang
Corrigendum to "Dynamic opposite learning enhanced teaching-learning-based optimization" [Knowl.-Based Syst. 188 (2020) 104966].
Knowl. Based Syst.
216 (2021)
Zhi Li
,
Yunlang Xu
,
Xiaofeng Yang
,
Jie Feng
,
Wei Fang
Generalized Inverse Multiplicative Structure for Differential-Equation-Based Hysteresis Models.
IEEE Trans. Ind. Electron.
68 (5) (2021)
Yunlang Xu
,
Xiaofeng Yang
,
Zhile Yang
,
Xiaoping Li
,
Pang Wang
,
Runze Ding
,
Weike Liu
An enhanced differential evolution algorithm with a new oppositional-mutual learning strategy.
Neurocomputing
435 (2021)
Runze Ding
,
Chenyang Ding
,
Yunlang Xu
,
Weike Liu
,
Xiaofeng Yang
An Optimal Actuator Placement Method for Direct-drive Stages to Maximize Control Bandwidth.
IECON
(2020)
Yunlang Xu
,
Zhile Yang
,
Xiaoping Li
,
Huazhou Kang
,
Xiaofeng Yang
Dynamic opposite learning enhanced teaching-learning-based optimization.
Knowl. Based Syst.
188 (2020)
Yunlang Xu
,
Xiaoping Li
,
Liwei Wu
,
Zhile Yang
,
Peijin Zhang
,
Xiaofeng Yang
A direct inverse hysteresis model and its application in reluctance actuators.
AIM
(2019)