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ORCIDHiroshi Ito 0001
Person information
- affiliation: Kyushu Institute of Technology, Iizuka, Fukuoka, Japan
Other persons with the same name
- Hiroshi Ito — disambiguation page
- Hiroshi Ito 0002
![[0000-0002-3581-4798]](https://dblp.dagstuhl.de/img/orcid-mark.12x12.png "0000-0002-3581-4798")
— National Institute of Radiological Sciences, Chiba, Japan - Hiroshi Ito 0003 — Mitsubishi Electric Corporation, Kanagawa, Japan
- Hiroshi Ito 0004 — East Japan Railway Company, Saitama, Japan
- Hiroshi Ito 0005 — Kitasato University, Minato, Japan
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2020 – today
- 2023
[j37]Hiroshi Ito, Hyungbo Shim:
A Toolkit for Globally Robust Observer-Based Feedback With Relaxed Characterization of iISS/ISS. IEEE Trans. Autom. Control. 68(7): 3858-3871 (2023)- [c62]Hiroshi Ito:
Asymmetric Dissipativity and Supply Rates for Compartmental Systems with Logarithmic Storage Functions. ACC 2023: 3018-3023 - 2022
- [j36]Hiroshi Ito:
Strict Smooth Lyapunov Functions and Vaccination Control of the SIR Model Certified by ISS. IEEE Trans. Autom. Control. 67(9): 4514-4528 (2022) - [c61]Hiroshi Ito:
A Global and Semi-Global Controller for SIQR Epidemic Model by A Control Lyapunov Function via Logarithmic Sum. CDC 2022: 6419-6424 - [c60]Hiroshi Ito:
An ISS Lyapunov function estimating admissible inflow perturbations for semi-global control of SIQR model. SICE 2022: 321-326 - [c59]Hiroshi Ito:
Dynamic feedback control of SIQR model guaranteeing semi-global asymptotic stability and robustness for inflow perturbations. SICE 2022: 327-332 - 2021
- [c58]Hiroshi Ito:
A Strict Smooth Lyapunov Function and Input-to-State Stability of SIR Model. ACC 2021: 4811-4816 - [c57]Hiroshi Ito:
Vaccination with Input-to-State Stability for SIR Model of Epidemics. CDC 2021: 2812-2817 - 2020
- [j35]Hiroshi Ito:
Interpreting models of infectious diseases in terms of integral input-to-state stability. Math. Control. Signals Syst. 32(4): 611-631 (2020) - [j34]Hiroshi Ito:
A Complete Characterization of Integral Input-to-State Stability and Its Small-Gain Theorem for Stochastic Systems. IEEE Trans. Autom. Control. 65(7): 3039-3052 (2020) - [c56]Hiroshi Ito:
Strong Integral Input-to-State Stability of Nonlinear Networks through Balancing Kinetics. CDC 2020: 482-487 - [c55]Hiroshi Ito:
Signed Small-Gain Criteria Amenable to Asymmetry with Respect to Equilibria in Establishing iISS of Networks. CDC 2020: 6278-6284
2010 – 2019
- 2019
- [j33]Hiroshi Ito:
An intuitive modification of max-separable Lyapunov functions to cover non-ISS systems. Autom. 107: 518-525 (2019) - [j32]Hiroshi Ito, Christopher M. Kellett:
A Small-Gain Theorem in the Absence of Strong iISS. IEEE Trans. Autom. Control. 64(9): 3897-3904 (2019) - [c54]Hiroshi Ito:
Chamfering Max-Separable Lyapunov Functions to Accept Non-ISS in Interconnected Systems. ACC 2019: 2402-2407 - [c53]Hiroshi Ito, Thach Ngoc Dinh:
An Approach to Interval Observers for Takagi-Sugeno Systems with Attractiveness Guarantees. SICE 2019: 1268-1273 - 2018
- [j31]Yûki Nishimura, Hiroshi Ito:
Stochastic Lyapunov functions without differentiability at supposed equilibria. Autom. 92: 188-196 (2018) - [j30]Sorin Olaru, Hiroshi Ito:
Characterization of Ultimate Bounds for Systems With State-Dependent Disturbances. IEEE Control. Syst. Lett. 2(4): 797-802 (2018) - [j29]Hiroshi Ito, Thach Ngoc Dinh:
Interval observers for global feedback control of nonlinear systems with robustness with respect to disturbances. Eur. J. Control 39: 68-77 (2018) - [c52]Hiroshi Ito:
Integral Input-to-State Stability of Cascaded Systems and Observer-Based Feedback Design. ACC 2018: 1339-1345 - [c51]Hiroshi Ito:
A Smooth Construction of ISS Lyapunov Functions for Interconnected Systems. CDC 2018: 3086-3091 - [c50]Hiroshi Ito, Hyungbo Shim:
Adaptable iISS Small-Gain Formulation and its Application to Observer-Based Output Feedback Design. CDC 2018: 5616-5621 - 2017
- [j28]Christopher M. Kellett, Peter M. Dower, Hiroshi Ito:
Relationships Between Subclasses of Integral Input-to-State Stability. IEEE Trans. Autom. Control. 62(5): 2476-2482 (2017) - [c49]Hiroshi Ito:
A small-gain-type improved criterion via preservation of iISS/ISS dissipation inequalities. ACC 2017: 1935-1941 - [c48]Hiroshi Ito, Christopher M. Kellett:
A new formulation of small-gain theorem without imposing strong iISS with respect to Disturbances on components. CDC 2017: 1193-1198 - [c47]Hiroshi Ito:
Convergence of stochastic processes in the presence of disturbances: IISS/ISS and their cascades. CDC 2017: 2461-2466 - 2016
- [j27]Hiroshi Ito, Christopher M. Kellett:
iISS and ISS dissipation inequalities: preservation and interconnection by scaling. Math. Control. Signals Syst. 28(3): 17:1-17:36 (2016) - [j26]Hiroshi Ito, Yûki Nishimura:
An iISS Framework for Stochastic Robustness of Interconnected Nonlinear Systems. IEEE Trans. Autom. Control. 61(6): 1508-1523 (2016) - [c46]Hiroshi Ito:
Allowing vanishing stability margins in preservation of (i)ISS dissipation inequalities by scaling. ACC 2016: 1130-1135 - [c45]Hiroshi Ito:
Stability of systems coupled through noisy mediums. ACC 2016: 2983-2988 - [c44]Hiroshi Ito:
Lower-power Lyapunov functions for networks of integral input-to-state stable systems. CDC 2016: 471-476 - [c43]Thach Ngoc Dinh, Hiroshi Ito:
Interval observers for continuous-time bilinear systems with discrete-time outputs. ECC 2016: 1418-1423 - 2015
- [j25]Hiroshi Ito, Yûki Nishimura:
Stability of stochastic nonlinear systems in cascade with not necessarily unbounded decay rates. Autom. 62: 51-64 (2015) - [j24]Andrii Mironchenko, Hiroshi Ito:
Construction of Lyapunov Functions for Interconnected Parabolic Systems: An iISS Approach. SIAM J. Control. Optim. 53(6): 3364-3382 (2015) - [c42]Hiroshi Ito, Yûki Nishimura:
A Lyapunov approach to iISS and iNSS for stochastic systems in path-wise probability. ACC 2015: 5986-5991 - [c41]Björn Rüffer, Hiroshi Ito:
Sum-separable Lyapunov functions for networks of ISS systems: A gain function approach. CDC 2015: 1823-1828 - [c40]Hiroshi Ito, Yûki Nishimura:
Integral input-to-state stabilization by stochastic noise generated in bounded regions. CDC 2015: 1835-1840 - [c39]Andrii Mironchenko, Hiroshi Ito:
Construction of iISS Lyapunov functions for interconnected parabolic systems. ECC 2015: 37-42 - 2014
- [j23]Antoine Chaillet, David Angeli, Hiroshi Ito:
Strong iISS is preserved under cascade interconnection. Autom. 50(9): 2424-2427 (2014) - [j22]Antoine Chaillet, David Angeli, Hiroshi Ito:
Combining iISS and ISS With Respect to Small Inputs: The Strong iISS Property. IEEE Trans. Autom. Control. 59(9): 2518-2524 (2014) - [c38]Hiroshi Ito, Yûki Nishimura:
Stochastic robustness of interconnected nonlinear systems in an iISS framework. ACC 2014: 5210-5216 - [c37]Pierdomenico Pepe, Hiroshi Ito, Zhong-Ping Jiang:
Design of decentralized, practically stabilizing controllers for a class of interconnected retarded systems. CDC 2014: 1209-1214 - [c36]Hiroshi Ito, Björn Sebastian Rüffer, Anders Rantzer:
Max- and sum-separable Lyapunov functions for monotone systems and their level sets. CDC 2014: 2371-2377 - [c35]Andrii Mironchenko, Hiroshi Ito:
Integral input-to-state stability of bilinear infinite-dimensional systems. CDC 2014: 3155-3160 - 2013
- [j21]Hiroshi Ito, Zhong-Ping Jiang, Pierdomenico Pepe:
Construction of Lyapunov-Krasovskii functionals for networks of iISS retarded systems in small-gain formulation. Autom. 49(11): 3246-3257 (2013) - [j20]Frédéric Mazenc, Hiroshi Ito:
Lyapunov Technique and Backstepping for Nonlinear Neutral Systems. IEEE Trans. Autom. Control. 58(2): 512-517 (2013) - [j19]Hiroshi Ito, Zhong-Ping Jiang, Sergey Dashkovskiy, Björn Rüffer:
Robust Stability of Networks of iISS Systems: Construction of Sum-Type Lyapunov Functions. IEEE Trans. Autom. Control. 58(5): 1192-1207 (2013) - [j18]Hiroshi Ito:
Disturbance and Delay Robustness Guarantees of Gradient Systems Based on Static Noncooperative Games With an Application to Feedback Control for PEV Charging Load Allocation. IEEE Trans. Control. Syst. Technol. 21(4): 1374-1385 (2013) - [c34]Hiroshi Ito, Björn Rüffer:
A two-phase approach to stability of networks given in iISS framework: Utilization of a matrix-like criterion. ACC 2013: 4838-4843 - [c33]Frédéric Mazenc, Hiroshi Ito, Pierdomenico Pepe:
Construction of Lyapunov functionals for coupled differential and continuous time difference equations. CDC 2013: 2245-2250 - [c32]Hiroshi Ito:
Utility of Iiss in Composing Lyapunov Functions for Interconnections. NOLCOS 2013: 723-730 - 2012
- [j17]Hiroshi Ito, Sergey Dashkovskiy, Fabian Wirth:
Capability and limitation of max- and sum-type construction of Lyapunov functions for networks of iISS systems. Autom. 48(6): 1197-1204 (2012) - [j16]Hiroshi Ito:
Necessary conditions for global asymptotic stability of networks of iISS systems. Math. Control. Signals Syst. 24(1-2): 55-74 (2012) - [j15]Pierdomenico Pepe, Hiroshi Ito:
On Saturation, Discontinuities, and Delays, in iISS and ISS Feedback Control Redesign. IEEE Trans. Autom. Control. 57(5): 1125-1140 (2012) - [c31]Frédéric Mazenc, Hiroshi Ito:
New stability analysis technique and backstepping for neutral nonlinear systems. ACC 2012: 4673-4678 - [c30]Hiroshi Ito, Frédéric Mazenc:
An iISS formulation for establishing robust stability of dynamical networks with neutral, retarded and communication delay. ACC 2012: 6394-6399 - [c29]Antoine Chaillet, David Angeli, Hiroshi Ito:
Strong iISS: Combination of iISS and ISS with respect to small inputs. CDC 2012: 2256-2261 - [c28]Hiroshi Ito, Zhong-Ping Jiang, Sergey Dashkovskiy, Björn Sebastian Rüffer:
A cyclic small-gain condition and an equivalent matrix-like criterion for iISS networks. CDC 2012: 4158-4164 - [c27]Hiroshi Ito, Pierdomenico Pepe, Zhong-Ping Jiang:
Decentralized Iiss Robustification of Interconnected Time-Delay Systems: A Small-Gain Approach. TDS 2012: 219-224 - 2011
- [j14]Sergey Dashkovskiy, Hiroshi Ito, Fabian Wirth:
On a Small Gain Theorem for ISS Networks in Dissipative Lyapunov Form. Eur. J. Control 17(4): 357-365 (2011) - [c26]Hiroshi Ito, Zhong-Ping Jiang, Sergey N. Dashkovskiy, Björn Sebastian Rüffer:
A small-gain theorem and construction of sum-type Lyapunov functions for networks of iISS systems. ACC 2011: 1971-1977 - [c25]Hiroshi Ito:
An asymmetric small-gain technique to construct Lyapunov-Krasovskii functionals for nonlinear time-delay systems with static components. ACC 2011: 4872-4877 - [c24]Hiroshi Ito:
Disturbance and delay robustness of gradient feedback systems based on static noncooperative games with application to PEV charging. CDC/ECC 2011: 325-330 - [c23]Antoine Chaillet, Hiroshi Ito:
A sensitivity trade-off arising in small-gain design for nonlinear systems: An iISS framework. CDC/ECC 2011: 6066-6071 - [c22]Hiroshi Ito:
Connecting several stability criteria for iISS networks and their application to a network computing model. CDC/ECC 2011: 6072-6078 - 2010
- [j13]Hiroshi Ito, Pierdomenico Pepe, Zhong-Ping Jiang:
A small-gain condition for iISS of interconnected retarded systems based on Lyapunov-Krasovskii functionals. Autom. 46(10): 1646-1656 (2010) - [j12]Hiroshi Ito:
A Lyapunov Approach to Cascade Interconnection of Integral Input-to-State Stable Systems. IEEE Trans. Autom. Control. 55(3): 702-708 (2010) - [c21]Hiroshi Ito, Hiroto Suzuki, Shunji Taketomi:
Delay Robustness of CDMA Power Control in the Presence of Disturbances using iISS Small-gain Technique. CCA 2010: 1109-1114 - [c20]Pierdomenico Pepe, Hiroshi Ito:
On saturation, discontinuities and time-delays in iISS and ISS feedback control redesign. ACC 2010: 190-195 - [c19]Hiroshi Ito:
Construction of lyapunov functions for networks of iISS systems: An explicit solution for a cyclic structure. ACC 2010: 196-201 - [c18]Hiroshi Ito, Randy A. Freeman, Antoine Chaillet:
Interpreting the iISS small-gain theorem as transient plus ISS small-gain regulation. CDC 2010: 2432-2437 - [c17]Hiroshi Ito:
Necessary conditions for stability of networks of iISS systems. CDC 2010: 7401-7406 - [c16]Björn Rüffer, Hiroshi Ito, Peter M. Dower:
Computing asymptotic gains of large-scale interconnections. CDC 2010: 7413-7418
2000 – 2009
- 2009
- [j11]Hiroshi Ito, Zhong-Ping Jiang:
Necessary and Sufficient Small Gain Conditions for Integral Input-to-State Stable Systems: A Lyapunov Perspective. IEEE Trans. Autom. Control. 54(10): 2389-2404 (2009) - [c15]Hiroshi Ito, Pierdomenico Pepe, Zhong-Ping Jiang:
Further results on Lyapunov-Krasovskii functionals via nonlinear small-gain conditions for interconnected retarded iISS systems. ACC 2009: 5452-5458 - [c14]Hiroshi Ito, Pierdomenico Pepe, Zhong-Ping Jiang:
Construction of Lyapunov-Krasovskii functionals for interconnection of retarded dynamic and static systems via a small-gain condition. CDC 2009: 1310-1316 - [c13]Hiroshi Ito, Sergey Dashkovskiy, Fabian Wirth:
On a small gain theorem for networks of iISS systems. CDC 2009: 4210-4215 - [c12]Sergey Dashkovskiy, Hiroshi Ito, Fabian Wirth:
On a small gain theorem for ISS networks in dissipative Lyapunov form. ECC 2009: 1077-1082 - 2008
- [j10]Hiroshi Ito:
A degree of flexibility in Lyapunov inequalities for establishing input-to-state stability of interconnected systems. Autom. 44(9): 2340-2346 (2008) - [c11]Hiroshi Ito, Zhong-Ping Jiang:
Small-gain conditions and Lyapunov functions applicable equally to iISS and ISS Systems without uniformity assumption. ACC 2008: 2297-2303 - [c10]Hiroshi Ito, Pierdomenico Pepe, Zhong-Ping Jiang:
A small-gain condition for integral input-to-state stability of interconnected retarded nonlinear systems. CDC 2008: 19-24 - [c9]Hiroshi Ito:
A Lyapunov approach to integral input-to-state stability of cascaded systems with external signals. CDC 2008: 628-633 - 2007
- [j9]Rathinasamy Sakthivel, Hiroshi Ito:
Non-linear robust boundary control of the Kuramoto-Sivashinsky equation. IMA J. Math. Control. Inf. 24(1): 47-55 (2007) - [c8]Hiroshi Ito, Zhong-Ping Jiang:
A Lyapunov function for interconnected ISS systems derived from dissipation inequalities. CDC 2007: 4465-4470 - 2006
- [j8]Hiroshi Ito:
State-Dependent Scaling Problems and Stability of Interconnected iISS and ISS Systems. IEEE Trans. Autom. Control. 51(10): 1626-1643 (2006) - [c7]Hiroshi Ito, Zhong-Ping Jiang:
On necessary conditions for stability of interconnected iISS systems. ACC 2006: 1-6 - [c6]Hiroshi Ito:
A tool for stability analysis of nonlinear large-scale systems by cascading star products. ACC 2006 - [c5]Hiroshi Ito, Zhong-Ping Jiang:
Nonlinear Small-Gain Condition Covering iISS Systems: Necessity and Sufficiency from a Lyapunov Perspective. CDC 2006: 355-360 - 2004
- [j7]Hiroshi Ito, Zhong-Ping Jiang:
Robust disturbance attenuation of nonlinear systems using output feedback and state-dependent scaling. Autom. 40(9): 1621-1628 (2004) - [j6]Hiroshi Ito:
A Reduced-Order Controller Design for Nonlinear Systems with Uncertainties and Disturbances. Eur. J. Control 10(3): 207-222 (2004) - 2002
- [j5]Hiroshi Ito:
Effectiveness of Multirate Input Control in Deadbeat Servomechanism. Eur. J. Control 8(4): 326-340 (2002) - [j4]Hiroshi Ito, Randy A. Freeman:
Uniting local and global controllers for uncertain nonlinear systems: beyond global inverse optimality. Syst. Control. Lett. 45(1): 59-79 (2002) - 2001
- [j3]Hiroshi Ito, Randy A. Freeman:
State-dependent scaling design for a unified approach to robust backstepping. Autom. 37(6): 843-855 (2001) - [j2]Hiroshi Ito:
New characterization and solution of input-to-state stabilization: a state-dependent scaling approach. Autom. 37(10): 1663-1670 (2001) - [c4]Hiroshi Ito:
State-dependent scaling approach to global control of interconnected nonlinear dynamic systems. ACC 2001: 3654-3659 - [c3]Hiroshi Ito, Zhong-Ping Jiang:
Output feedback disturbance attenuation with robustness to nonlinear uncertain dynamics via state-dependent scaling. CDC 2001: 2772-2777
1990 – 1999
- 1999
- [j1]Hiroshi Ito:
Local stability and performance robustness of nonlinear systems with structured uncertainty. IEEE Trans. Autom. Control. 44(6): 1250-1254 (1999) - [c2]Hiroshi Ito, Randy A. Freeman:
Generalized state-dependent scaling: Backstepping for local optimality, global inverse optimality, and global robust stability. ECC 1999: 1669-1674 - [c1]Hiroshi Ito:
Qualitative analysis of worst-case performance for general deterministically nonsynchronous controllers. ECC 1999: 4059-4064
Coauthor Index
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