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ORCIDDavid H. Owens 0001
Person information
- affiliation: Zhengzhou University, Division of Electric Engineering and Automation, Zhengzhou, China
- affiliation: University of Sheffield, Department of Automatic Control and Systems Engineering, Sheffield, UK
- affiliation: University of Exeter, Centre for Systems and Control Engineering, School of Engineering, UK
Other persons with the same name
- David H. Owens 0002 (aka: David Hatfield Owens) — Scientific Data Systems, Santa Monica, CA, USA
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2020 – today
- 2024
[j54]David H. Owens
, Bing Chu:
Error Corrected References for Accelerated Convergence of Low Gain Norm Optimal Iterative Learning Control. IEEE Trans. Autom. Control. 69(9): 5836-5851 (2024)- 2022
- [j53]Zan Zhang, Bing Chu, Yanhong Liu, Haichuan Ren, Zhe Li, David H. Owens:
Multiperiodic Repetitive Control for Functional Electrical Stimulation-Based Wrist Tremor Suppression. IEEE Trans. Control. Syst. Technol. 30(4): 1494-1509 (2022) - [j52]Bing Chu, Andreas Rauh, Harald Aschemann, Eric Rogers, David H. Owens:
Constrained Iterative Learning Control for Linear Time-Varying Systems With Experimental Validation on a High-Speed Rack Feeder. IEEE Trans. Control. Syst. Technol. 30(5): 1834-1846 (2022) - 2020
- [c62]Bing Chu, David H. Owens:
Iterative Learning Control for Region to Region Tracking. CDC 2020: 3739-3744
2010 – 2019
- 2018
- [c61]David H. Owens, Bing Chu:
Error Corrected References and Acceleration of Norm Optimal iterative Learning Control. ACC 2018: 5594-5599 - 2016
- [j51]Bing Chu, David H. Owens, Christopher T. Freeman:
Iterative Learning Control With Predictive Trial Information: Convergence, Robustness, and Experimental Verification. IEEE Trans. Control. Syst. Technol. 24(3): 1101-1108 (2016) - 2015
- [j50]David H. Owens, Chris T. Freeman, Bing Chu:
Generalized norm optimal iterative learning control with intermediate point and sub-interval tracking. Int. J. Autom. Comput. 12(3): 243-253 (2015) - [j49]Bing Chu, Chris T. Freeman, David H. Owens:
A Novel Design Framework for Point-to-Point ILC Using Successive Projection. IEEE Trans. Control. Syst. Technol. 23(3): 1156-1163 (2015) - [c60]Bing Chu, David H. Owens, Christopher T. Freeman:
Predictive gradient iterative learning control. CDC 2015: 2377-2382 - [r1]David H. Owens:
Iterative Learning Control. Encyclopedia of Systems and Control 2015 - 2014
- [j48]David H. Owens, Chris T. Freeman, Bing Chu:
An inverse-model approach to multivariable norm optimal iterative learning control with auxiliary optimisation. Int. J. Control 87(8): 1646-1671 (2014) - [j47]David H. Owens, Bing Chu, Eric Rogers, Chris T. Freeman, Paul L. Lewin:
Influence of Nonminimum Phase Zeros on the Performance of Optimal Continuous-Time Iterative Learning Control. IEEE Trans. Control. Syst. Technol. 22(3): 1151-1158 (2014) - 2013
- [j46]David H. Owens, Chris T. Freeman, Bing Chu:
Multivariable norm optimal iterative learning control with auxiliary optimisation. Int. J. Control 86(6): 1026-1045 (2013) - [j45]David H. Owens, Christopher T. Freeman, Thanh Van Dinh:
Norm-Optimal Iterative Learning Control With Intermediate Point Weighting: Theory, Algorithms, and Experimental Evaluation. IEEE Trans. Control. Syst. Technol. 21(3): 999-1007 (2013) - [c59]David H. Owens, Christopher Thomas Freeman, Bing Chu:
Norm Optimal Iterative Learning Control with Auxiliary Optimization: A Switching Approach. ALCOSP 2013: 140-145 - [c58]David H. Owens, Christopher Thomas Freeman, Bing Chu:
Norm Optimal Iterative Learning Control for Planar Tracking Tasks. ALCOSP 2013: 683-688 - [c57]David H. Owens, Chris T. Freeman, Bing Chu:
Norm optimal Iterative Learning Control with auxiliary optimization - An inverse model approach. ACC 2013: 6691-6696 - [c56]Bing Chu, David H. Owens:
Singular value distribution of non-minimum phase systems with application to iterative learning control. CDC 2013: 6700-6705 - 2012
- [j44]David H. Owens, Bing Chu, Mutita Songjun:
Parameter-optimal iterative learning control using polynomial representations of the inverse plant. Int. J. Control 85(5): 533-544 (2012) - [j43]David H. Owens:
Multivariable norm optimal and parameter optimal iterative learning control: a unified formulation. Int. J. Control 85(8): 1010-1025 (2012) - [c55]David H. Owens, Chris T. Freeman, Thanh Van Dinh:
Intermediate point norm optimal iterative learning control. CDC 2012: 3954-3959 - 2010
- [j42]Eric Rogers, Gerwald Lichtenberg, David H. Owens, Herbert Werner, Chris T. Freeman, Paul L. Lewin, Stefan Kichhoff, Christian Schmidt:
Norm-Optimal Iterative Learning Control with Application to Problems in Accelerator-Based Free Electron Lasers and Rehabilitation Robotics. Eur. J. Control 16(5): 497-522 (2010) - [j41]Lukasz Hladowski, Krzysztof Galkowski, Eric Rogers, David H. Owens:
On controllability and control laws for discrete linear repetitive processes. Int. J. Control 83(1): 66-73 (2010) - [j40]Liuping Wang, Peter J. Gawthrop, David H. Owens, Eric Rogers:
Switched linear model predictive controllers for periodic exogenous signals. Int. J. Control 83(4): 848-861 (2010) - [j39]Bing Chu, David H. Owens:
Iterative learning control for constrained linear systems. Int. J. Control 83(7): 1397-1413 (2010) - [j38]David H. Owens, Bing Chu:
Modelling of non-minimum phase effects in discrete-time norm optimal iterative learning control. Int. J. Control 83(10): 2012-2027 (2010) - [c54]David H. Owens, Bing Chu, Zhonglun Cai, Eric Rogers, Chris T. Freeman, Paul L. Lewin:
Modeling the Influence of Non-minimum Phase Zeros on Gradient Based Linear Iterative Learning Control. CCA 2010: 392-397 - [c53]Christopher T. Freeman, Paul L. Lewin, Eric Rogers, David H. Owens:
Iterative learning control of the redundant upper limb for rehabilitation. ACC 2010: 1278-1283 - [c52]Youde Han, David H. Owens, Bing Chu:
Discrete Time Linear Optimal Repetitive Control - A Low Order Controller Scheme. CICSyN 2010: 238-243
2000 – 2009
- 2009
- [j37]Bing Chu, David H. Owens:
Accelerated norm-optimal iterative learning control algorithms using successive projection. Int. J. Control 82(8): 1469-1484 (2009) - 2008
- [j36]David H. Owens, Steve Daley:
Iterative Learning Control - Monotonicity and Optimization. Int. J. Appl. Math. Comput. Sci. 18(3): 279-293 (2008) - [j35]David H. Owens, Maria Tomas-Rodriguez, Steve Daley:
Limit sets and switching strategies in parameter-optimal iterative learning control. Int. J. Control 81(4): 626-640 (2008) - [j34]David H. Owens, Steve Daley:
Robust gradient iterative learning control: time and frequency domain conditions. Int. J. Model. Identif. Control. 4(4): 315-322 (2008) - [j33]Chris T. Freeman, Paul L. Lewin, Eric Rogers, David H. Owens, Jari J. Hätönen:
An Optimality-Based Repetitive Control Algorithm for Discrete-Time Systems. IEEE Trans. Circuits Syst. I Regul. Pap. 55-I(1): 412-423 (2008) - [c51]I. L. Davies, Chris T. Freeman, Paul L. Lewin, Eric Rogers, David H. Owens:
Newton method based iterative learning control of the upper limb. ACC 2008: 3887-3892 - 2007
- [j32]T. Lin, David H. Owens:
Monotonic Newton method based ILC with parameter optimization for non-linear systems. Int. J. Control 80(8): 1291-1298 (2007) - [j31]Bartlomiej Sulikowski, Krzysztof Galkowski, Eric Rogers, David H. Owens:
Decoupling and iterative approaches to the control of discrete linear repetitive processes. Multidimens. Syst. Signal Process. 18(4): 249-272 (2007) - [c50]David H. Owens, Jari J. Hätönen, Steve Daley:
Robust Gradient-based Iterative Learning Control. ICNSC 2007: 163-168 - [c49]Jari J. Hätönen, Fan Zhang, Steve Daley, David H. Owens:
Adjoint multivariable repetitive control algorithm for active control of vibration. PSYCO 2007: 228-233 - 2006
- [j30]Jari J. Hätönen, David H. Owens, K. Feng:
Basis functions and parameter optimisation in high-order iterative learning control. Autom. 42(2): 287-294 (2006) - [j29]Bartlomiej Sulikowski, Krzysztof Galkowski, Eric Rogers, David H. Owens:
PI control of discrete linear repetitive processes. Autom. 42(5): 877-880 (2006) - [j28]Jari J. Hätönen, Christopher T. Freeman, David H. Owens, Paul L. Lewin, Eric Rogers:
A Gradient-based Repetitive Control Algorithm Combining ILC and Pole Placement. Eur. J. Control 12(3): 278-292 (2006) - [j27]David H. Owens, Maria Tomas-Rodriguez, Jari J. Hätönen:
Limiting behaviour in Parameter Optimal Iterative Learning Control. Int. J. Autom. Comput. 3(3): 222-228 (2006) - [j26]Arturo Molina-Cristobal, Ian Griffin, Peter J. Fleming, David H. Owens:
Linear matrix inequalities and evolutionary optimization in multiobjective control. Int. J. Syst. Sci. 37(8): 513-522 (2006) - [j25]Wojciech Paszke, Krzysztof Galkowski, Eric Rogers, David H. Owens:
H∞ control of differential linear repetitive processes. IEEE Trans. Circuits Syst. II Express Briefs 53-II(1): 39-44 (2006) - [j24]James D. Ratcliffe, Paul L. Lewin, Eric Rogers, Jari J. Hätönen, David H. Owens:
Norm-Optimal Iterative Learning Control Applied to Gantry Robots for Automation Applications. IEEE Trans. Robotics 22(6): 1303-1307 (2006) - [c48]Bartlomiej Sulikowski, Krzysztof Galkowski, Eric Rogers, David H. Owens, Anton Kummert:
Output feedback/feedforward control of discrete linear repetitive processes for performance and disturbance rejection. ACC 2006: 1-6 - [c47]Eric Rogers, David H. Owens:
The Role of the 2D Lyapunov Equation in Stability and Control Law Design for Discrete Linear Repetitive Processes. CDC 2006: 2777-2782 - 2005
- [j23]David H. Owens, Jari J. Hätönen:
Iterative learning control - An optimization paradigm. Annu. Rev. Control. 29(1): 57-70 (2005) - [c46]Blazej Cichy, Krzysztof Galkowski, Eric Rogers, David H. Owens:
Control of a Class of. ISIC 2005: 370-375 - [c45]James D. Ratcliffe, Paul L. Lewin, Eric Rogers, Jari J. Hätönen, Tom Harte, David H. Owens:
Measuring the Performance of Iterative Learning Control Systems. ISIC 2005: 1213-1218 - [c44]Bartlomiej Sulikowski, Krzysztof Galkowski, Eric Rogers, David H. Owens:
Proportional plus integral control and disturbance rejection for differential linear repetitive processes. ACC 2005: 1782-1787 - [c43]James D. Ratcliffe, Lize van Duinkerken, Paul L. Lewin, Eric Rogers, Jari J. Hätönen, Thomas James Harte, David H. Owens:
Fast norm-optimal iterative learning control for industrial applications. ACC 2005: 1951-1956 - [c42]David H. Owens, Eric Rogers:
Boundary conditions and the stability of a class of 2D continuous-discrete linear systems. ACC 2005: 2076-2081 - [c41]Wojciech Paszke, Krzysztof Galkowski, Eric Rogers, Anton Kummert, David H. Owens:
Mixed H2/H∞ and robust control of differential linear repetitive processes. CDC/ECC 2005: 7900-7905 - [c40]Jari J. Hätönen, Steve Daley, David H. Owens:
Effect of measurement noise on a gradient based repetitive control algorithm. CIRA 2005: 385-390 - [c39]James D. Ratcliffe, Paul L. Lewin, Eric Rogers, Jari J. Hätönen, Thomas James Harte, David H. Owens:
Stable repetitive control by frequency aliasing. ICINCO 2005: 323-327 - 2004
- [j22]David H. Owens, Eric Rogers:
Comments on 'On the equivalence of causal LTI iterative learning control and feedback control'. Autom. 40(5): 895-898 (2004) - [j21]Jari J. Hätönen, David H. Owens:
Convex modifications to an iterative learning control law. Autom. 40(7): 1213-1220 (2004) - [j20]Bartlomiej Sulikowski, Krzysztof Galkowski, Eric Rogers, David H. Owens:
Output feedback control of discrete linear repetitive processes. Autom. 40(12): 2167-2173 (2004) - [j19]Eric Rogers, David H. Owens:
On the stability of linear repetitive processes described by a delay-difference equation. IEEE Trans. Circuits Syst. II Express Briefs 51-II(7): 359-363 (2004) - [j18]Wojciech Paszke, Krzysztof Galkowski, Eric Rogers, David H. Owens:
Guaranteed cost control of uncertain differential linear repetitive processes. IEEE Trans. Circuits Syst. II Express Briefs 51-II(11): 629-634 (2004) - [j17]Wojciech Paszke, Krzysztof Galkowski, Eric Rogers, David H. Owens:
Corrections to "Guaranteed Cost Control of Uncertain Differential Linear Repetitive Processes". IEEE Trans. Circuits Syst. II Express Briefs 51-II(12): 690 (2004) - [c38]Wojciech Paszke, Krzysztof Galkowski, Eric Rogers, David H. Owens:
H∞ control of differential linear repetitive processes. ACC 2004: 1386-1391 - [c37]Bartlomiej Sulikowski, Krzysztof Galkowski, Eric Rogers, David H. Owens:
LMI based output feedback control of discrete linear repetitive processes. ACC 2004: 1998-2003 - [c36]Jari J. Hätönen, Chris T. Freeman, David H. Owens, Paul L. Lewin, Eric Rogers:
Robustness analysis of a gradient-based repetitive algorithm for discrete-time systems. CDC 2004: 1301-1306 - [c35]Hongwei Dang, David H. Owens:
MIMO multi-periodic repetitive control system: adaptive control schemes. CDC 2004: 1325-1330 - [c34]Hongwei Dang, David H. Owens:
Adaptive MIMO Multi-Periodic Repetitive Control System: Liapunov Analysis. ICINCO (3) 2004: 249-256 - [c33]Christopher T. Freeman, Paul L. Lewin, Eric Rogers, Jari J. Hätönen, Tom Harte, David H. Owens:
A Novel Repetitive Control Algorithm Combining ILC and Dead-Beat Control. ICINCO (3) 2004: 257-263 - [c32]Bartlomiej Sulikowski, Krzysztof Galkowski, Eric Rogers, David H. Owens:
Further Results on Output Feedback Control of Discrete Linear Repetitive Processes. ICINCO (3) 2004: 264-269 - 2003
- [j16]Michael Dymkov, Ivan Gaishun, Eric Rogers, Krzysztof Galkowski, David H. Owens:
z - Transform and Volterra-Operator Based Approaches to Controllability and Observability Analysis for Discrete Linear Repetitive Processes. Multidimens. Syst. Signal Process. 14(4): 365-395 (2003) - [j15]Krzysztof Galkowski, Wojciech Paszke, Eric Rogers, Shengyuan Xu, James Lam, David H. Owens:
Stability and control of differential linear repetitive processes using an LMI setting. IEEE Trans. Circuits Syst. II Express Briefs 50(9): 662-666 (2003) - [c31]Bartlomiej Sulikowski, Krzysztof Galkowski, Eric Rogers, David H. Owens:
Feedforward/feedback control of discrete linear repetitive processes with disturbances applied to a material rolling process. CCA 2003: 1410-1415 - [c30]Jari J. Hätönen, K. Feng, David H. Owens:
New connections between positivity and Parameter-Optimal Iterative Learning Control. ISIC 2003: 69-74 - [c29]Vasilis E. Hatzikos, David H. Owens, Jari J. Hätönen:
An evolutionary based optimisation method for nonlinear iterative learning control systems. ACC 2003: 3638-3643 - [c28]Krzysztof Galkowski, Wojciech Paszke, Bartlomiej Sulikowski, Eric Rogers, Shengyuan Xu, James Lam, David H. Owens:
Stability and control of a physical class of 2D continuous-discrete linear systems using an LMI setting. ACC 2003: 5058-5063 - [c27]Siarhei Michailovich Dymkou, Eric Rogers, Michael Dymkov, Krzysztof Galkowski, David H. Owens:
Controllability and optimization for differential linear repetitive processes. CDC 2003: 604-609 - [c26]Wojciech Paszke, Krzysztof Galkowski, Eric Rogers, David H. Owens:
H∞ control of discrete linear repetitive processes. CDC 2003: 628-633 - [c25]Jari J. Hätönen, Thomas James Harte, David H. Owens, James D. Ratcliffe, Paul L. Lewin, Eric Rogers:
A new robust iterative learning control algorithm for application on a gantry robot. ETFA (2) 2003: 305-312 - [c24]Vasilis E. Hatzikos, Jari J. Hätönen, Tom Harte, David H. Owens:
Robust analysis of a genetic algorithm based optimization method for real-time iterative learning control applications. ETFA (2) 2003: 396-401 - [c23]Vasilis E. Hatzikos, Jari J. Hätönen, David H. Owens:
Basis functions, identification and genetic algorithms in norm-optimal iterative learning control. ECC 2003: 222-227 - [c22]David H. Owens, K. Feng:
Parameter optimisation in iterative learning control. ECC 2003: 228-233 - [c21]Jari J. Hätönen, David H. Owens, R. Ylinen:
A new optimality based repetitive control algorithm for discrete-time systems. ECC 2003: 234-239 - [c20]Bartlomiej Sulikowski, Krzysztof Galkowski, Eric Rogers, David H. Owens:
Control of discrete linear repetitive processes with application to a material rolling process. ECC 2003: 1654-1659 - [c19]Wojciech Paszke, Krzysztof Galkowski, James Lam, Shengyuan Xu, Eric Rogers, David H. Owens:
Stability and stabilisation of 2D discrete linear systems with multiple delays. ISCAS (3) 2003: 670-673 - 2002
- [c18]Jari J. Hätönen, Kevin L. Moore, David H. Owens:
An algebraic approach to iterative learning control. ISIC 2002: 37-42 - [c17]Krzysztof Galkowski, Wojciech Paszke, Bartlomiej Sulikowski, Eric Rogers, David H. Owens:
LMI based stability analysis and controller design for a class of 2D continuous-discrete linear systems. ACC 2002: 29-34 - [c16]Eric Rogers, Krzysztof Galkowski, David H. Owens:
Delay differential control theory applied to differential linear repetitive processes. ACC 2002: 2761-2766 - [c15]David H. Owens, Jari J. Hätönen:
A new optimality based adaptive ILC-algorithm. ICARCV 2002: 1496-1501 - 2001
- [c14]Jaroslaw Gramacki, Artur Gramacki, Krzysztof Galkowski, Eric Rogers, David H. Owens:
On some aspects of discrete equivalents of differential linear repetitive processes. CDC 2001: 1205-1210 - [c13]Michael Dymkov, Ivan Gaishun, Eric Rogers, Krzysztof Galkowski, David H. Owens:
On the observability properties of a class of 2D discrete linear systems. CDC 2001: 3625-3630 - [c12]Eric Rogers, James Lam, Krzysztof Galkowski, Shengyuan Xu, Jeffrey Wood, David H. Owens:
LMI based stability analysis and controller design for a class of 2D discrete linear systems. CDC 2001: 4457-4462 - [c11]Michael Dymkov, Ivan Gaishun, Krzysztof Galkowski, Eric Rogers, David H. Owens:
A volterra operator approach to the stability analysis of a class of 2D linear systems. ECC 2001: 1410-1415 - [c10]T. Y. Townley, David H. Owens:
Output steering using iterative learning control. ECC 2001: 3364-3369 - [c9]David H. Owens, L. M. Li, S. P. Banks:
MIMO multi-periodic repetitive control: Stability analysis. ECC 2001: 3393-3397 - [c8]Mark French, Eric Rogers, H. Wibowo, David H. Owens:
A 2D systems approach to iterative learning control based on nonlinear adaptive control techniques. ISCAS (2) 2001: 429-432 - 2000
- [j14]David H. Owens, N. Amann, Eric Rogers, Mark French:
Analysis of Linear Iterative Learning Control Schemes - A 2D Systems/Repetitive Processes Approach. Multidimens. Syst. Signal Process. 11(1-2): 125-177 (2000) - [j13]Jeffrey Wood, Ulrich Oberst, Eric Rogers, David H. Owens:
A Behavioral Approach to the Pole Structure of One-Dimensional and Multidimensional Linear Systems. SIAM J. Control. Optim. 38(2): 627-661 (2000) - [j12]Stuart Townley, Achim Ilchmann, Martin G. Weiß, Warren McClements, Antonio C. Ruiz, David H. Owens, Dieter Prätzel-Wolters:
Existence and learning of oscillations in recurrent neural networks. IEEE Trans. Neural Networks Learn. Syst. 11(1): 205-214 (2000) - [j11]Nikos E. Mastorakis, David H. Owens, Anastasios E. Venetsanopoulos:
Stability margin of two-dimensional continuous systems. IEEE Trans. Signal Process. 48(12): 3591-3594 (2000) - [c7]S. E. Benton, Etar Rogers, David H. Owens:
Stability tests for a class of differential linear repetitive processes with dynamic boundary conditions. CDC 2000: 3721-3726 - [c6]Etar Rogers, Jeffrey Wood, David H. Owens:
On the poles of a class of 2D linear systems. CDC 2000: 5002-5003 - [c5]Krzysztof Galkowski, Eric Rogers, Artur Gramacki, Jaroslaw Gramacki, David H. Owens:
Strong practical stability for a class of 2D linear systems. ISCAS 2000: 403-406
1990 – 1999
- 1999
- [j10]Jeffrey Wood, Eric Rogers, David H. Owens:
Controllable and Autonomous nD Linear Systems. Multidimens. Syst. Signal Process. 10(1): 33-70 (1999) - [c4]Liuping Wang, Graham C. Goodwin, David H. Owens:
Robust controller design for unstable systems using statistical confidence bounds. ECC 1999: 4674-4679 - [c3]S. E. Benton, Eric Rogers, David H. Owens:
Lyapunov stability theory for linear repetitive processes - The 2D equation approach. ECC 1999: 4768-4773 - [c2]Eric Rogers, Jaroslaw Gramacki, Artur Gramacki, Krzysztof Galkowski, David H. Owens:
Lyapunov stability theory for linear repetitive processes - The 1D equation approach. ECC 1999: 4774-4779 - [c1]Paul Zaris, Jeffrey Wood, Eric Rogers, David H. Owens:
A behavioural approach to the pole/zero structure of nD linear systems. ISCAS (5) 1999: 5-8 - 1998
- [j9]Jeffrey Wood, Eric Rogers, David H. Owens:
A formal theory of matrix primeness. Math. Control. Signals Syst. 11(1): 40-78 (1998) - [j8]Antonio C. Ruiz, David H. Owens, Stuart Townley:
Existence, learning, and replication of periodic motions in recurrent neural networks. IEEE Trans. Neural Networks 9(4): 651-661 (1998) - 1996
- [j7]Eric Rogers, David H. Owens:
Lyapunov stability theory and performance bounds for a class of 2D linear systems. Multidimens. Syst. Signal Process. 7(2): 179-194 (1996) - 1993
- [j6]Eric Rogers, David H. Owens:
Stability tests and performance bounds for a class of 2D linear systems. Multidimens. Syst. Signal Process. 4(4): 355-391 (1993) - [j5]Sheng-Guo Wang, David H. Owens:
Control parameterization and robustness of feedback systems: an asymptotic analysis. IEEE Trans. Autom. Control. 38(4): 636-639 (1993)
1980 – 1989
- 1986
- [j4]David H. Owens:
Models and sensitivity of control systems: A. Wierzbicki. Autom. 22(2): 260-261 (1986) - 1984
- [j3]David H. Owens, A. Chotai:
Robust sampled regulators for stable systems from plant step data. Autom. 20(4): 465-469 (1984) - 1982
- [j2]David H. Owens, A. Chotai:
High performance controllers for unknown multivariable systems. Autom. 18(5): 583-587 (1982)
1970 – 1979
- 1976
- [j1]David H. Owens:
Review of "Computer Aided Control System Design" by H. H. Rosenbrock. IEEE Trans. Syst. Man Cybern. 6(11): 794 (1976) - 1973
- [b1]David H. Owens:
A multivarious control analysis of distributed parameter nuclear reactors. Imperial College London, UK, 1973
Coauthor Index
[j52] [j47] [j42] [j41] [j40] [c54] [c53] [j33] [c51] [j31] [j29] [j28] [j25] [j24] [c48] [c47] [c46] [c45] [c44] [c43] [c42] [c41] [c39] [j22] [j20] [j19] [j18] [j17] [c38] [c37] [c36] [c33] [c32] [j16] [j15] [c31] [c28] [c27] [c26] [c25] [c20] [c19] [c17] [c16] [c14] [c13] [c12] [c11] [c8] [j14] [j13] [c5] [j10] [c3] [c2] [c1] [j9] [j7] [j6]
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