1 |
PETER C. Robotics and control: fundamental algorithms in MATLAB. Switzerland: Springer Nature, 2022.
|
2 |
LOUIS G B, GILBERT A. Modelling and simulation: exploring dynamic system behavior. 3rd edition. Switzerland: Springer Nature, 2019.
|
3 |
ALBERTO I. Nonlinear control systems. 3rd edition. London: Springer Verlag, 1995.
|
4 |
HOU Z S, WANG Z From model-based control to data-driven control: survey, classification and perspective. Information Sciences, 2013, 235, 3- 35.
doi: 10.1016/j.ins.2012.07.014
|
5 |
PRECUP R E, ROMAN R C, SAFAEI A. Data-driven model-free controllers. Boca Raton: CRC Press, 2022.
|
6 |
YU C P, LI Y, FANG H, et al System identification approach for inverse optimal control of finite-horizon linear quadratic regulators. Automatica, 2021, 129, 109636.
doi: 10.1016/j.automatica.2021.109636
|
7 |
GAO R Z, XIA Y Q, DAI LI, et al Design and implementation of data-driven predictive cloud control system. Journal of Systems Engineering and Electronics, 2022, 33 (6): 1258- 1268.
|
8 |
MILANESE M, NOVARA C Set membership prediction of nonlinear time series. IEEE Trans. on Automatic Control, 2005, 50 (11): 1655- 1669.
doi: 10.1109/TAC.2005.858693
|
9 |
MILANESE M, NOVARA C. Set membership identification of nonlinear systems. Automatica, 2004, 40(2): 957–975.
|
10 |
TANASKOVIC M, FAGIANO L, SMITH R, et al Adaptive receding horizon control for constrained MIMO systems. Automatica, 2014, 50 (12): 3019- 3029.
doi: 10.1016/j.automatica.2014.10.036
|
11 |
OHLSSON H, LJUNG L Identification of switched linear regression models using sum of norms regularization. Automatica, 2013, 49 (4): 1045- 1050.
doi: 10.1016/j.automatica.2013.01.031
|
12 |
LAUER F, BLOCH G A continuous optimization framework for hybrid system identification. Automatica, 2011, 47 (3): 608- 613.
doi: 10.1016/j.automatica.2011.01.020
|
13 |
LAUER F On the complexity of switching linear regression. Automatica, 2016, 74 (12): 80- 83.
|
14 |
WANG J H, RAMIREZ-MENDOZA R A Stability analysis for nonlinear closed loop system structure. Systems Science & Control Engineering, 2020, 8 (1): 339- 349.
|
15 |
WANG J H, RAMIREZ-MENDOZA R A Data driven strategy for linear parameter varying control design. IEEE Access, 2022, 10, 70068- 70077.
doi: 10.1109/ACCESS.2022.3187968
|
16 |
WANG J H, RAMIREZ-MENDOZA R A Direct data driven model reference control for flight simulation table. IEEE Access, 2022, 10, 34415- 34427.
doi: 10.1109/ACCESS.2022.3162204
|
17 |
WANG J H, RAMIREZ-MENDOZA R A Synthesis analysis for data driven model reference control. Systems Science & Control Engineering, 2022, 10 (1): 79- 89.
|
18 |
WANG J H, RAMIREZ-MENDOZA R A Adaptive direct data driven design for two degrees of freedom controllers. International Journal of Innovative, Computing, Information and Control, 2022, 18 (3): 783- 800.
|
19 |
ZEILINGER M N, MORARI M Soft constrained model predictive control with robust stability guarantees. IEEE Trans. on Automatic Control, 2022, 59 (5): 1190- 1202.
|
20 |
SIEBER J, ZANELLI A System level disturbance reachable sets and their application to tube based MPC. European Journal of Control, 2022, 68 (3): 413- 423.
|
21 |
LI D Y, GE S S, LEE T H Fixed-time synchronized consensus control of multi-agent systems. IEEE Trans. on Control of Network Systems, 2021, 8 (1): 89- 98.
doi: 10.1109/TCNS.2020.3034523
|
22 |
XU Y, ZHENG W M, LUO D L, et al Dynamic affine formation control of networked under-actuated quad-rotor UAVs with three-dimensional patterns. Journal of Systems Engineering and Electronics, 2022, 33 (6): 1269- 1285.
|
23 |
WANG X Y, SUN S J, XIAO F, et al Dynamic event-triggered formation control of second-order nonholonomic systems. Journal of Systems Engineering and Electronics, 2023, 34 (2): 501- 514.
|
24 |
LI D Y, CAO K, KONG L H, et al Fully distributed cooperative circumnavigation of networked unmanned aerial vehicles. IEEE/ASME Trans. on Mechatronics, 2021, 26 (2): 709- 718.
doi: 10.1109/TMECH.2021.3055654
|
25 |
GONG X, BASIN M V, FENG Z G, et al Resilient time-varying formation-tracking of multi-UAV systems against composite attacks: a two-layered framework. IEEE/CAA Journal of Automatica Sinica, 2023, 10 (4): 969- 984.
doi: 10.1109/JAS.2023.123339
|