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2020 – today
- 2025
[j30]Viv Bone, Chris van der Heide, Kieran Mackle, Ingo Jahn, Peter M. Dower, Chris Manzie:
Gradient-enhanced deep Gaussian processes for multifidelity modeling. J. Comput. Phys. 520: 113474 (2025)- 2024
- [j29]Vincenzo Basco, Peter M. Dower:
A two-player game representation for a class of infinite horizon control problems under state constraints. Math. Control. Signals Syst. 36(4): 775-795 (2024) - [j28]Vincenzo Basco, Peter M. Dower:
Correction to: A two-player game representation for a class of infinite horizon control problems under state constraints. Math. Control. Signals Syst. 36(4): 797-798 (2024) - [j27]James Kennedy
, Peter M. Dower, Airlie Chapman:
Input-to-Output Stability for a Coverage Controller. IEEE Trans. Control. Netw. Syst. 11(2): 842-854 (2024) - [c82]Vincent Liu, Chris Manzie, Peter M. Dower:
Efficient Value Function Upper Bounds for a Class of Constrained Linear Time-Varying Optimal Control Problems. ACC 2024: 4084-4089 - [c81]William M. McEneaney, Peter M. Dower, Yifei Zheng:
Computational reduction for systems with low-dimensional nonlinearities via staticization-based duality. CDC 2024: 267-272 - [c80]Joshua Keene, Chris Manzie, Peter M. Dower, Airlie Chapman:
Towards Coverage Control with Jointly Time-Varying Coverage Regions and Density Functions. CDC 2024: 7637-7643 - [i4]Viv Bone, Chris van der Heide, Kieran Mackle, Ingo H. J. Jahn, Peter M. Dower, Chris Manzie:
Gradient-enhanced deep Gaussian processes for multifidelity modelling. CoRR abs/2402.16059 (2024) - [i3]Yuansan Liu, Jeygopi Panisilvam, Peter M. Dower, Sejeong Kim, James Bailey:
Bidirectional Adversarial Autoencoders for the design of Plasmonic Metasurfaces. CoRR abs/2405.04056 (2024) - 2023
- [j26]Jérôme Darbon, Peter M. Dower, Tingwei Meng:
Neural network architectures using min-plus algebra for solving certain high-dimensional optimal control problems and Hamilton-Jacobi PDEs. Math. Control. Signals Syst. 35(1): 1-44 (2023) - [j25]William M. McEneaney, Peter M. Dower, Tao Wang:
Second-Order Hamilton-Jacobi PDE Problems and Certain Related First-Order Problems, Part 1: Approximation. SIAM J. Control. Optim. 61(6): 3280-3315 (2023) - [c79]Peter M. Dower, William M. McEneaney, Yifei Zheng:
Min-max and stat game representations for nonlinear optimal control problems. ACC 2023: 2733-2738 - [c78]Antoni Z. Skoraczynski, Chris Manzie, Peter M. Dower:
Incentivizing Local Controllability in Optimal Trajectory Planning. ACC 2023: 2745-2750 - [c77]Chris van der Heide, Peter Cudmore, Ingo Jahn, Viv Bone, Peter M. Dower, Chris Manzie:
Feasibility Detection for Nested Codesign of Hypersonic Vehicles. CDC 2023: 632-637 - 2022
- [c76]James Kennedy, Peter M. Dower, Airlie Chapman:
Regions of Exponential Convergence for a Coverage Controller. ACC 2022: 3905-3910 - [c75]Vincent Liu, Chris Manzie, Peter M. Dower:
Constraint Handling of an Airbreathing Hypersonic Vehicle via Predictive Reference Management. ACC 2022: 3991-3996 - 2021
- [j24]Peter M. Dower, Hidehiro Kaise, William M. McEneaney, Tao Wang, Ruobing Zhao:
Solution existence and uniqueness for degenerate SDEs with application to Schrödinger-equation representations. Commun. Inf. Syst. 21(2): 297-315 (2021) - [c74]James Kennedy, Peter M. Dower, Airlie Chapman:
Exponential Convergence in Voronoi-based Coverage Control. ANZCC 2021: 226-231 - [i2]Jérôme Darbon, Peter M. Dower, Tingwei Meng:
Neural network architectures using min plus algebra for solving certain high dimensional optimal control problems and Hamilton-Jacobi PDEs. CoRR abs/2105.03336 (2021) - 2020
- [j23]Alejandro I. Maass, Dragan Nesic, Romain Postoyan, Peter M. Dower:
Observer Design for Nonlinear Networked Control Systems With Persistently Exciting Protocols. IEEE Trans. Autom. Control. 65(7): 2992-3006 (2020) - [c73]Peter M. Dower, William M. McEneaney:
A min-plus fundamental solution semigroup for a class of approximate infinite dimensional optimal control problems. ACC 2020: 794-799 - [c72]Vincenzo Basco, Peter M. Dower:
A two-player game representation for a class of infinite horizon control problems under state constraints. ACC 2020: 993-998 - [c71]Peter M. Dower, William M. McEneaney:
Verification of stationary action trajectories via optimal control. ACC 2020: 1779-1784 - [c70]William M. McEneaney, Peter M. Dower:
Conversion of a Class of Stochastic Control Problems to Fundamental-Solution Deterministic Control Problems. ACC 2020: 2814-2819
2010 – 2019
- 2019
- [j22]Alejandro I. Maass, Dragan Nesic, Romain Postoyan, Peter M. Dower:
Lp stability of networked control systems implemented on WirelessHART. Autom. 109 (2019) - [c69]James Kennedy, Airlie Chapman, Peter M. Dower:
Generalized Coverage Control for Time-Varying Density Functions. ECC 2019: 71-76 - [i1]Ivan Yegorov, Peter M. Dower, Lars Grüne:
Synthesis of control Lyapunov functions and stabilizing feedback strategies using exit-time optimal control. CoRR abs/1906.02703 (2019) - 2018
- [j21]Farzin Taringoo, Peter M. Dower, Dragan Nesic, Ying Tan:
Optimization Methods on Riemannian Manifolds via Extremum Seeking Algorithms. SIAM J. Control. Optim. 56(5): 3867-3892 (2018) - [c68]Ivan Yegorov, Peter M. Dower, Lars Grüne:
Global extension of local control Lyapunov functions via exit-time optimal control. CDC 2018: 874-879 - [c67]Alejandro I. Maass, Dragan Nesic, Romain Postoyan, Peter M. Dower:
Observer design for networked control systems implemented over WirelessHART. CDC 2018: 2836-2841 - 2017
- [j20]Duc N. Tran, Christopher M. Kellett, Peter M. Dower:
Qualitative equivalences of ISS and lp-gain stability properties for discrete-time nonlinear systems. Autom. 77: 360-369 (2017) - [j19]William M. McEneaney, Peter M. Dower:
Staticization, its dynamic program and solution propagation. Autom. 81: 56-67 (2017) - [j18]Peter M. Dower, Huan Zhang:
A max-plus primal space fundamental solution for a class of differential Riccati equations. Math. Control. Signals Syst. 29(3): 15:1-15:33 (2017) - [j17]Peter M. Dower, William M. McEneaney:
Solving Two-Point Boundary Value Problems for a Wave Equation via the Principle of Stationary Action and Optimal Control. SIAM J. Control. Optim. 55(4): 2151-2205 (2017) - [j16]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) - [c66]Peter M. Dower, William M. McEneaney:
Representation of fundamental solution groups for wave equations via stationary action and optimal control. ACC 2017: 2510-2515 - [c65]Peter M. Dower, William M. McEneaney:
Hamilton-jacobi-bellman equations for two-point boundary value problems constrained by conservative dynamics. ASCC 2017: 1217-1221 - [c64]Peter M. Dower, Michael Cantoni:
State constrained optimal control of linear time-varying systems. CDC 2017: 1338-1343 - [c63]Alejandro I. Maass, Dragan Nesic, Romain Postoyan, Peter M. Dower, Vineeth S. Varma:
Emulation-based stabilisation of networked control systems over WirelessHART. CDC 2017: 6628-6633 - 2016
- [j15]Christopher M. Kellett, Peter M. Dower:
Input-to-State Stability, Integral Input-to-State Stability, and ℒ2-Gain Properties: Qualitative Equivalences and Interconnected Systems. IEEE Trans. Autom. Control. 61(1): 3-17 (2016) - [c62]Alejandro I. Maass, Dragan Nesic, Peter M. Dower:
A hybrid model of networked control systems implemented on WirelessHART networks under source routing configuration. AuCC 2016: 60-65 - [c61]Duc N. Tran, Christopher M. Kellett, Peter M. Dower:
Analysis of discrete-time nonlinear ℓ2-gain bounds via dynamic programming. AuCC 2016: 66-70 - [c60]Guodong Shi, Bo Li, Zibo Miao, Peter M. Dower, Matthew R. James:
Agreeing over quantum hybrid networks: Centralized and distributed solutions. AuCC 2016: 159-161 - [c59]Peter M. Dower, Michael Cantoni:
An approximating game for a continuous-time state-constrained linear regulator problem. AuCC 2016: 197-202 - [c58]Zibo Miao, Peter M. Dower:
A reduced complexity min-plus method for synchronisation of qubits. AuCC 2016: 391-396 - [c57]Peter M. Dower, William M. McEneaney, Michael Cantoni:
A game representation for state constrained linear regulator problems. CDC 2016: 1074-1079 - 2015
- [j14]Huan Zhang, Peter M. Dower:
Max-plus fundamental solution semigroups for a class of difference Riccati equations. Autom. 52: 103-110 (2015) - [j13]Peter M. Dower, William M. McEneaney:
A Max-plus Dual Space Fundamental Solution for a Class of Operator Differential Riccati Equations. SIAM J. Control. Optim. 53(2): 969-1002 (2015) - [j12]William M. McEneaney, Peter M. Dower:
The Principle of Least Action and Fundamental Solutions of Mass-Spring and N-Body Two-Point Boundary Value Problems. SIAM J. Control. Optim. 53(5): 2898-2933 (2015) - [c56]Duc N. Tran, Christopher M. Kellett, Peter M. Dower:
A discrete-time strong implication-form Lyapunov function for ISS systems with respect to positive semidefinite measurement functions. AuCC 2015: 39-42 - [c55]Peter M. Dower, Huan Zhang:
A new fundamental solution for differential Riccati equations arising in L2-gain analysis. AuCC 2015: 65-68 - [c54]Peter M. Dower, Christopher M. Kellett:
A small-gain feedback interconnection for bilinear systems. AuCC 2015: 126-130 - [c53]Duc N. Tran, Christopher M. Kellett, Peter M. Dower:
Input-to-state stability with respect to two measurement functions: Discrete-time systems. CDC 2015: 1817-1822 - [c52]Peter M. Dower, William M. McEneaney:
An optimal control approach to the approximation of fundamental solution groups for lossless wave equations. CDC 2015: 3882-3887 - [c51]Farzin Taringoo, Dragan Nesic, Peter M. Dower, Ying Tan:
Coordination of blind agents on Lie groups. CDC 2015: 7256-7261 - [c50]Peter M. Dower, William M. McEneaney, Huan Zhang:
Max-plus fundamental solution semigroups for optimal control problems. SIAM Conf. on Control and its Applications 2015: 368-375 - [c49]William M. McEneaney, Peter M. Dower:
Staticization and Associated Hamilton-Jacobi and Riccati Equations. SIAM Conf. on Control and its Applications 2015: 376-383 - [c48]Peter M. Dower, William M. McEneaney:
A max-plus fundamental solution semigroup for a class of lossless wave equations. SIAM Conf. on Control and its Applications 2015: 400-407 - 2014
- [c47]Peter M. Dower, William M. McEneaney:
Max-plus fundamental solution semigroups for dual operator differential Riccati equations. AuCC 2014: 19-24 - [c46]Huan Zhang, Peter M. Dower:
A new non-iterative solution for a class of difference Riccati equations. AuCC 2014: 112-117 - [c45]Huan Zhang, Peter M. Dower:
Pruning error analysis for a class of curse-of-dimensionality free methods. AuCC 2014: 176-181 - [c44]Peter M. Dower, Christopher M. Kellett:
Nonlinear L2-gain verification for bilinear systems. AuCC 2014: 227-232 - [c43]Peter M. Dower, Christopher M. Kellett:
Nonlinear systems with nonlinear ℒ2-gain. CDC 2014: 777-782 - [c42]Farzin Taringoo, Dragan Nesic, Ying Tan, Peter M. Dower:
Extremum seeking control for nonlinear systems on compact Riemannian manifolds. CDC 2014: 2667-2672 - 2013
- [j11]Huan Zhang, Peter M. Dower:
Computation of tight integral input-to-state stability bounds for nonlinear systems. Syst. Control. Lett. 62(4): 355-365 (2013) - [c41]Christopher M. Kellett, Peter M. Dower:
Stability of (integral) input-to-state stable interconnected nonlinear systems via qualitative equivalences. AuCC 2013: 41-46 - [c40]Farzin Taringoo, Dragan Nesic, Ying Tan, Peter M. Dower:
Closeness of solutions and averaging for nonlinear systems on Riemannian manifolds. AuCC 2013: 47-52 - [c39]Alireza Farhadi, Peter M. Dower, Michael Cantoni:
Computation time analysis of centralized and distributed optimization algorithms applied to automated irrigation networks. AuCC 2013: 263-269 - [c38]Peter M. Dower, William M. McEneaney:
A fundamental solution for an infinite dimensional two-point boundary value problem via the principle of stationary action. AuCC 2013: 270-275 - [c37]Huan Zhang, Peter M. Dower, William M. McEneaney:
A pruning algorithm for managing complexity in the solution of a class of linear non-quadratic regulator problems. AuCC 2013: 307-312 - [c36]Farzin Taringoo, Dragan Nesic, Ying Tan, Peter M. Dower:
Averaging for nonlinear systems on Riemannian manifolds. CDC 2013: 654-659 - [c35]Alireza Farhadi, Michael Cantoni, Peter M. Dower:
Computation time analysis of a distributed optimization algorithm applied to automated irrigation networks. CDC 2013: 2193-2199 - [c34]Huan Zhang, Peter M. Dower:
Max-plus based computation of nonlinear ℒ2-gain performance bounds using a piecewise affine-quadratic basis. ECC 2013: 2232-2237 - [c33]Huan Zhang, Peter M. Dower:
A max-plus based fundamental solution to a class of linear regulator problems with non-quadratic terminal payoff. ECC 2013: 2238-2243 - [c32]Christopher M. Kellett, Fabian R. Wirth, Peter M. Dower:
Input-To-State Stability, Integral Input-To-State Stability, and Unbounded Level Sets. NOLCOS 2013: 38-43 - [c31]Huan Zhang, Peter M. Dower:
A max-plus method for the approximate solution of discrete time linear regulator problems with non-quadratic terminal payoff. SIAM Conf. on Control and its Applications 2013: 106-113 - [c30]William M. McEneaney, Peter M. Dower:
The Principle of Least Action and Solution of Two-Point Boundary Value Problems on a Limited Time Horizon. SIAM Conf. on Control and its Applications 2013: 199-206 - 2012
- [j10]Huan Zhang, Peter M. Dower:
Performance bounds for nonlinear systems with a nonlinear ℒ2-gain property. Int. J. Control 85(9): 1293-1312 (2012) - [j9]Peter M. Dower, Huan Zhang, Christopher M. Kellett:
Nonlinear L2-gain verification for nonlinear systems. Syst. Control. Lett. 61(4): 563-572 (2012) - [c29]Huan Zhang, Peter M. Dower:
Approximation of nonlinear ℒ2-gain bounds via a max-plus method. CDC 2012: 612-617 - [c28]Peter M. Dower, William M. McEneaney:
A max-plus method for optimal control of a diffusion equation. CDC 2012: 618-623 - [c27]Peter M. Dower, Christopher M. Kellett, Huan Zhang:
A weak L2-gain property for nonlinear systems. CDC 2012: 2286-2291 - [c26]Christopher M. Kellett, Peter M. Dower:
A generalization of Input-to-State Stability. CDC 2012: 2970-2975 - 2011
- [c25]Huan Zhang, Peter M. Dower:
Minimum integral input-to-state stability bounds. AuCC 2011: 76-81 - [c24]Michael Kearney, Michael Cantoni, Peter M. Dower:
Non-iterative distributed MPC for large-scale irrigation channels. AuCC 2011: 217-223 - [c23]Peter M. Dower, Huan Zhang:
Deterministic optimal stopping via a max-plus method. AuCC 2011: 248-253 - [c22]Peter M. Dower, Huan Zhang, Christopher M. Kellett:
A verification theorem for nonlinear systems with nonlinear ℒ2-gain. AuCC 2011: 272-277 - [c21]Michael Kearney, Peter M. Dower, Michael Cantoni:
Model predictive control for flood mitigation: A Wivenhoe Dam case study. AuCC 2011: 290-296 - [c20]Peter M. Dower, William M. McEneaney:
A max-plus based fundamental solution for a class of infinite dimensional Riccati equations. CDC/ECC 2011: 615-620 - [c19]Michael Kearney, Michael Cantoni, Peter M. Dower:
Model predictive control for systems with scheduled load and its application to automated irrigation channels. ICNSC 2011: 186-191 - 2010
- [j8]Peter M. Dower, Peter Mark Farrell:
Small-signal power transient modelling and regulation in Raman amplified optical fibre links. Int. J. Control 83(10): 1975-1993 (2010) - [c18]Huan Zhang, Peter M. Dower, Christopher M. Kellett:
A Bounded Real Lemma for nonlinear ℒ2-gain. CDC 2010: 2729-2734 - [c17]Peter M. Dower, Huan Zhang, Christopher M. Kellett:
Nonlinear ℒ2-gain analysis via a cascade. CDC 2010: 6242-6247 - [c16]Björn Rüffer, Hiroshi Ito, Peter M. Dower:
Computing asymptotic gains of large-scale interconnections. CDC 2010: 7413-7418
2000 – 2009
- 2009
- [c15]Peter M. Dower, Peter Mark Farrell, Kerry Hinton:
On the stability of a class of single-mode laser diode models. CDC 2009: 1788-1793 - [c14]Peter M. Dower, Peter Mark Farrell:
Transient modelling for dynamic power regulation in Raman amplified optical fibre links. CDC 2009: 7327-7332 - 2008
- [j7]Peter M. Dower, Peter Mark Farrell, Dragan Nesic:
Extremum Seeking Control of Cascaded Raman Optical Amplifiers. IEEE Trans. Control. Syst. Technol. 16(3): 396-407 (2008) - [c13]Peter M. Dower, Christopher M. Kellett:
A dynamic programming approach to the approximation of nonlinear L2-gain. CDC 2008: 1-6 - 2007
- [j6]Peter M. Dower, Peter Mark Farrell, Brant C. Gibson:
Optimal refractive index design for an optical fibre-based evanescent field sensor. Syst. Control. Lett. 56(9-10): 634-645 (2007) - 2006
- [c12]Peter M. Dower, Peter Mark Farrell, Dragan Nesic:
An application of extremum seeking in cascaded optical amplifier control. CDC 2006: 4472-4477 - 2005
- [j5]Shoudong Huang, Matthew R. James, Dragan Nesic, Peter M. Dower:
Analysis of input-to-state stability for discrete time nonlinear systems via dynamic programming. Autom. 41(12): 2055-2065 (2005) - [j4]Shoudong Huang, Matthew R. James, Dragan Nesic, Peter M. Dower:
A unified approach to controller design for achieving ISS and related properties. IEEE Trans. Autom. Control. 50(11): 1681-1697 (2005) - [c11]Peter M. Dower, Peter Mark Farrell:
Optimal refractive index profile design for a pair of optical fibre-based devices. CDC/ECC 2005: 48-53 - 2004
- [c10]Shoudong Huang, Matthew R. James, Dragan Nesic, Peter M. Dower:
Measurement feedback controller design to achieve input to state stability. CDC 2004: 2515-2520 - [c9]Peter M. Dower, Peter Mark Farrell, Brant C. Gibson:
An optimal control problem arising in the design of optical fibre sensors. CDC 2004: 2742-2747 - 2003
- [j3]Peter M. Dower:
A variational inequality for measurement feedback almost-dissipative control. Syst. Control. Lett. 50(1): 21-38 (2003) - [c8]Peter M. Dower, William M. McEneaney:
A max-plus affine power method for approximation of a class of mixed L2 / L∞ value functions. CDC 2003: 2573-2578 - [c7]Shoudong Huang, Matthew R. James, Dragan Nesic, Peter M. Dower:
Analysis of input to state stability for discrete time nonlinear systems via dynamic programming. CDC 2003: 5068-5073 - [c6]Shoudong Huang, Matthew R. James, Dragan Nesic, Peter M. Dower:
On practical input to state stabilization for nonlinear discrete-time systems: A dynamic programming approach. ECC 2003: 77-82 - 2002
- [j2]Peter M. Dower, Matthew R. James:
Worst Case Power Generating Capabilities of Nonlinear Systems. Math. Control. Signals Syst. 15(1): 13-41 (2002) - [c5]Peter M. Dower:
An optimal stopping problem arising in almost-dissipative systems. CDC 2002: 3982-3987 - 2001
- [j1]Dragan Nesic, Peter M. Dower:
A note on input-to-state stability and averaging of systems with inputs. IEEE Trans. Autom. Control. 46(11): 1760-1765 (2001) - [c4]Peter M. Dower:
Numerical computation of anti-stabilizing storage functions for nonlinear systems with power gain. CDC 2001: 436-441 - [c3]Peter M. Dower:
An optimal controller for reducing limit cycle behaviour in nonlinear systems with disturbances. CDC 2001: 2752-2757 - 2000
- [c2]Peter M. Dower:
Comments on ℒ2-gain analysis of systems with persistent outputs. CDC 2000: 263-268 - [c1]Peter M. Dower:
Numerical computation of state feedback controllers for systems with persistent outputs. CDC 2000: 4442-4447
Coauthor Index
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