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ORCIDNoboru Sebe
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2020 – today
- 2024
[j11]Masayuki Sato, Noboru Sebe
:
Observer-structured controller for linear parametric plant. Autom. 163: 111569 (2024)- [c35]Koichi Suyama, Noboru Sebe:
Switching L2 Gain for Evaluating the Fluctuations Around an Output of a Specified Transfer Property. ECC 2024: 3306-3311 - 2023
- [j10]Keita Hara, Masaki Inoue, Noboru Sebe:
Dissipativity-constrained learning of MPC with guaranteeing closed-loop stability. Autom. 157: 111271 (2023) - [c34]Koichi Suyama, Noboru Sebe:
Switching L2 gain for analyzing successive system switches*. ECC 2023: 1-6 - 2022
- [j9]Masaaki Nagahara, Yu Iwai, Noboru Sebe:
Projection onto the Set of Rank-Constrained Structured Matrices for Reduced-Order Controller Design. Algorithms 15(9): 322 (2022) - [c33]Masayuki Sato, Noboru Sebe:
Conversion From Unstructured LPV Controllers to Observer-Structured LPV Controllers. CDC 2022: 3297-3302 - [c32]Koichi Suyama, Noboru Sebe:
Augmented switching $\mathcal{L}_{2}$ gain for evaluating the smoothness of transient responses after a system switch. ECC 2022: 1097-1102 - [c31]Yoshio Ebihara, Hayato Motooka, Hayato Waki, Noboru Sebe, Victor Magron, Dimitri Peaucelle, Sophie Tarbouriech:
L2+ Induced Norm Analysis of Continuous-Time LTI Systems Using Positive Filters and Copositive Programming. ECC 2022: 1385-1390 - [c30]Honoka Shimatate, Kana Shikada, Noboru Sebe:
Reduction of steady-state error for a ramp input in type 1 servo systems. SICE 2022: 924-929 - 2021
- [c29]Koichi Suyama, Noboru Sebe:
Safety design of control systems according to international standards. ECC 2021: 1310-1315 - [c28]Aki Nakamura, Noboru Sebe, Shuichi Enokida, Eitaku Nobuyama:
A Dense Optical Flow Estimation Based on Dynamical System Approach under Intensity Variation Violating the Conservation Law. SICE 2021: 472-477 - [c27]Kana Shikada, Noboru Sebe, Masayuki Sato:
Robust observer-based controller against plant uncertainties. SICE 2021: 1196-1201 - [c26]Koichi Suyama, Noboru Sebe:
Design of safe preventive maintenance procedure for control systems. SysTol 2021: 37-43 - 2020
- [j8]Katherin Indriawati, Noboru Sebe:
Fault Tolerant method on position Cascade control of DC servo System. Mechatron. Syst. Control. 48(2) (2020) - [j7]Yoshio Ebihara, Noboru Sebe, Hayato Waki:
On Gain-Scheduled State-Feedback Controller Synthesis With Quadratic Stability Condition. IEEE Control. Syst. Lett. 4(3): 662-667 (2020) - [j6]Hayato Waki, Noboru Sebe:
Characterization of the dual problem of linear matrix inequality for H-infinity output feedback control problem via facial reduction. Math. Control. Signals Syst. 32(3): 361-384 (2020) - [c25]Aki Nakamura, Noboru Sebe, Shuichi Enokida, Eitaku Nobuyama:
A New Optical Flow Estimation Based on Dynamical System Approach with Intensity Variation Violating the Conservation Law. SICE 2020: 967-972 - [c24]Kyohei Azumi, Noboru Sebe:
Improvement of Convergence of the Overbounding Approximation Method for BMI problems by Regularization Term. SICE 2020: 1880-1885 - [c23]Kana Shikada, Noboru Sebe, Koichi Suyama, Katherin Indriawati:
Robust fault-tolerant servo system against sensor failure and plant uncertainties. SICE 2020: 1886-1891
2010 – 2019
- 2019
- [j5]Hayato Waki, Noboru Sebe:
Application of facial reduction to H ∞ state feedback control problem. Int. J. Control 92(2): 303-316 (2019) - [j4]Koichi Suyama, Noboru Sebe:
Switching ℒ2 gain for evaluating the fluctuations in transient responses after an unpredictable system switch. Int. J. Control 92(5): 1084-1093 (2019) - [c22]Soji Kayo, Akiko Nohmi, Noboru Sebe, Masayuki Sato:
Minimal order observer based H∞ controller design based on overbounding approximation method. ASCC 2019: 167-172 - [c21]Koichi Suyama, Noboru Sebe:
Initial state design for controller switches by using state-dependent switching L2 gain. ECC 2019: 1257-1262 - [i1]Keita Hara, Masaki Inoue, Noboru Sebe:
Learning Koopman Operator under Dissipativity Constraints. CoRR abs/1911.03884 (2019) - 2018
- [c20]Koichi Suyama, Noboru Sebe:
State-Dependent Switching L2 Gain for Analyzing the Fluctuations in Transient Responses After a System Switch. CDC 2018: 6263-6268 - [c19]Koichi Suyama, Noboru Sebe:
Control System Design for Safely Performing Preventive Maintenance. ICCA 2018: 1087-1094 - 2017
- [c18]Tomoki Tada, Yuya Izumiguchi, Noboru Sebe:
Effectiveness of higher order controllers for uncertain systems. ASCC 2017: 582-587 - [c17]Mai Ichikawa, Noboru Sebe, Koichi Suyama, Katherin Indriawati:
A bias fault estimation of actuators and sensors by optimization with ℓ0 norm constraint. ASCC 2017: 1443-1448 - [c16]Hayato Waki, Noboru Sebe:
Reduction of H∞ state feedback control problems for the servo systems. ASCC 2017: 2244-2249 - [c15]Yuya Michishita, Noboru Sebe, Shuichi Enokida, Eitaku Nobuyama:
Simultaneous Estimation of Optical Flow and Its Boundaries based on the Dynamical System Model. VISIGRAPP (6: VISAPP) 2017: 377-385 - 2016
- [c14]Hayato Waki, Yoshio Ebihara, Noboru Sebe:
Reduction of SDPs in H∞ control of SISO systems and performance limitations analysis. CDC 2016: 646-651 - [c13]Koichi Suyama, Noboru Sebe:
Switching ℒ2 gain for analyzing the magnitude of a system switch. CDC 2016: 6395-6402 - [c12]Koichi Suyama, Noboru Sebe:
Evaluation of the ease of restarts in fault-tolerant control systems using multiple switching ℒ2 gains. IECON 2016: 140-147 - 2015
- [c11]Shogo Katsuki, Noboru Sebe:
Rotation matrix optimization with quaternion. ASCC 2015: 1-6 - [c10]Kenta Toyoda, Noboru Sebe, Koichi Suyama:
Effects of diagonal dominance on performance of passive fault tolerant servo systems. ASCC 2015: 1-6 - [c9]Yoshio Ebihara, Hayato Waki, Noboru Sebe:
H∞ performance limitations analysis for SISO systems: A dual LMI approach. CDC 2015: 6629-6634 - [c8]Koichi Suyama, Noboru Sebe:
Tolerance against multiple fault modes and its application to corrective maintenance of faulty actuators in servo systems. ETFA 2015: 1-8 - 2014
- [c7]Koichi Suyama, Noboru Sebe:
Fault-tolerant servo systems using integrators with variable limits. ETFA 2014: 1-8 - [c6]Koichi Suyama, Noboru Sebe:
Dependability analysis of fault-tolerant servo systems using limited integrators. ECC 2014: 652-659 - 2013
- [c5]Koichi Suyama, Noboru Sebe:
Fault-tolerant servo systems against sensor failures using limited integrators. ECC 2013: 3796-3802 - 2012
- [c4]Noboru Sebe, Koichi Suyama:
Fault-Tolerant Servo Systems against Actuator Failures. ROCOND 2012: 505-510 - 2010
- [c3]Yoshio Ebihara, Noboru Sebe:
Decentralized control for discrete-time LTI systems: Lower bound analysis of H∞ performance achievable via LTI controllers. ACC 2010: 5602-5607
2000 – 2009
- 2007
- [j3]Noboru Sebe:
Unification of independent and sequential procedures for decentralized controller design. Autom. 43(4): 707-713 (2007) - 2004
- [j2]Noboru Sebe:
Explicit characterization of decentralized coprime factors. Autom. 40(9): 1569-1574 (2004) - 2003
- [c2]Noboru Sebe:
A unified approach to decentralized controller design. CDC 2003: 1086-1091 - 2001
- [c1]Noboru Sebe:
A characterization of solutions to the inverse H∞ optimal control problem. CDC 2001: 273-278
1990 – 1999
- 1999
- [j1]Noboru Sebe:
A design of controllers for simultaneous H infinity control problem. Int. J. Syst. Sci. 30(1): 25-31 (1999)
Coauthor Index
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