default search action
Google
Google Scholar
Semantic Scholar
Internet Archive Scholar
CiteSeerX
ORCIDPeter E. Caines
Person information
Refine list
refinements active!
zoomed in on ?? of ?? records
view refined list in
export refined list as
showing all ?? records
2020 – today
- 2024
[j66]Rinel Foguen Tchuendom, Roland P. Malhamé, Peter E. Caines:
On a class of linear quadratic Gaussian quantilized mean field games. Autom. 170: 111878 (2024)- [j65]Ali Pakniyat
, Peter E. Caines:
The minimum principle of hybrid optimal control theory. Math. Control. Signals Syst. 36(1): 21-70 (2024) - [j64]Rinel Foguen Tchuendom, Shuang Gao, Peter E. Caines, Minyi Huang:
Infinite horizon LQG Graphon Mean Field Games: Explicit Nash values and local minima. Syst. Control. Lett. 187: 105780 (2024) - [j63]Borna Sayedana, Mohammad Afshari, Peter E. Caines, Aditya Mahajan:
Strong Consistency and Rate of Convergence of Switched Least Squares System Identification for Autonomous Markov Jump Linear Systems. IEEE Trans. Autom. Control. 69(6): 3952-3959 (2024) - [c125]Peter E. Caines, Minyi Huang:
Mean Field Games on Dense and Sparse Networks: The Graphexon MFG Equations. ACC 2024: 4230-4235 - [c124]Alex Dunyak, Peter E. Caines:
Stochastic Control on Large Networks: A Q-noise Formulation. ACC 2024: 5219-5225 - [i15]Alex Dunyak, Peter E. Caines:
Quadratic Optimal Control of Graphon Q-noise Linear Systems. CoRR abs/2407.00212 (2024) - [i14]Xingjian Wu, Xiaoting Wang, Xiaozhe Wang, Peter E. Caines, Jingyu Liu:
Comparative Analysis of Learning-Based Methods for Transient Stability Assessment. CoRR abs/2409.02336 (2024) - [i13]Borna Sayedana, Peter E. Caines, Aditya Mahajan:
Concentration of Cumulative Reward in Markov Decision Processes. CoRR abs/2411.18551 (2024) - 2023
- [j62]Shuang Gao, Peter E. Caines, Minyi Huang:
LQG Graphon Mean Field Games: Analysis via Graphon-Invariant Subspaces. IEEE Trans. Autom. Control. 68(12): 7482-7497 (2023) - [c123]Borna Sayedana, Mohammad Afshari, Peter E. Caines, Aditya Mahajan:
Relative Almost Sure Regret Bounds for Certainty Equivalence Control of Markov Jump Systems. CDC 2023: 6629-6634 - [c122]Alex Dunyak, Peter E. Caines:
Graphon Field Tracking Games with Discrete Time Q-noise. CDC 2023: 8194-8199 - [c121]Alex Dunyak, Peter E. Caines:
Linear Stochastic Processes on Networks and Low Rank Graph Limits. COMPLEX NETWORKS (2) 2023: 395-407 - 2022
- [j61]Dena Firoozi, Ali Pakniyat, Peter E. Caines:
A class of hybrid LQG mean field games with state-invariant switching and stopping strategies. Autom. 141: 110244 (2022) - [c120]Borna Sayedana, Mohammad Afshari, Peter E. Caines, Aditya Mahajan:
Thompson-Sampling Based Reinforcement Learning for Networked Control of Unknown Linear Systems. CDC 2022: 723-730 - [c119]Alex Dunyak, Peter E. Caines:
Linear Stochastic Graphon Systems with Q-Space Noise. CDC 2022: 3926-3932 - [c118]João Saúde, Peter E. Caines:
Markowitz Portfolio Optimization Extended Quadratic Mean-Field Games Approach. CDC 2022: 5523-5528 - [c117]Peter E. Caines:
Embedded Vertexon-Graphons and Embedded GMFG Systems. CDC 2022: 5550-5557 - [c116]Rinel Foguen Tchuendom, Shuang Gao, Minyi Huang, Peter E. Caines:
Optimal Network Location in Infinite Horizon LQG Graphon Mean Field Games. CDC 2022: 5558-5565 - [c115]Borna Sayedana, Mohammad Afshari, Peter E. Caines, Aditya Mahajan:
Consistency and Rate of Convergence of Switched Least Squares System Identification for Autonomous Markov Jump Linear Systems. CDC 2022: 6678-6685 - [i12]Rinel Foguen Tchuendom, Shuang Gao, Peter E. Caines:
Stationary Cost Nodes in Infinite Horizon LQG-GMFGs. CoRR abs/2207.11343 (2022) - [i11]Shuang Gao, Peter E. Caines:
Transmission Neural Networks: From Virus Spread Models to Neural Networks. CoRR abs/2208.03616 (2022) - 2021
- [j60]Shuang Gao, Rinel Foguen Tchuendom, Peter E. Caines:
Linear quadratic graphon field games. Commun. Inf. Syst. 21(3): 341-369 (2021) - [j59]Peter E. Caines, Minyi Huang:
Graphon Mean Field Games and Their Equations. SIAM J. Control. Optim. 59(6): 4373-4399 (2021) - [j58]Ali Pakniyat, Peter E. Caines:
On the Hybrid Minimum Principle: The Hamiltonian and Adjoint Boundary Conditions. IEEE Trans. Autom. Control. 66(3): 1246-1253 (2021) - [j57]Dena Firoozi, Peter E. Caines:
$\epsilon$-Nash Equilibria for Major-Minor LQG Mean Field Games With Partial Observations of All Agents. IEEE Trans. Autom. Control. 66(6): 2778-2786 (2021) - [j56]Shuang Gao, Peter E. Caines:
Subspace Decomposition for Graphon LQR: Applications to VLSNs of Harmonic Oscillators. IEEE Trans. Control. Netw. Syst. 8(2): 576-586 (2021) - [c114]Rinel Foguen Tchuendom, Peter E. Caines, Minyi Huang:
Critical Nodes in Graphon Mean Field Games. CDC 2021: 166-170 - [c113]Shuang Gao, Peter E. Caines, Minyi Huang:
LQG Graphon Mean Field Games: Graphon Invariant Subspaces. CDC 2021: 5253-5260 - [c112]Alex Dunyak, Peter E. Caines:
Large Scale Systems and SIR Models: A Featured Graphon Approach. CDC 2021: 6928-6933 - [i10]Borna Sayedana, Mohammad Afshari, Peter E. Caines, Aditya Mahajan:
Consistency and Rate of Convergence of Switched Least Squares System Identification for Autonomous Switched Linear Systems. CoRR abs/2112.10753 (2021) - 2020
- [j55]Dena Firoozi, Sebastian Jaimungal, Peter E. Caines:
Convex analysis for LQG systems with applications to major-minor LQG mean-field game systems. Syst. Control. Lett. 142: 104734 (2020) - [j54]Shuang Gao, Peter E. Caines:
Graphon Control of Large-Scale Networks of Linear Systems. IEEE Trans. Autom. Control. 65(10): 4090-4105 (2020) - [c111]Rinel Foguen Tchuendom, Peter E. Caines, Minyi Huang:
On the Master Equation for Linear Quadratic Graphon Mean Field Games. CDC 2020: 1026-1031 - [i9]Shuang Gao, Peter E. Caines:
Subspace Decomposition for Graphon LQR: Applications to VLSNs of Harmonic Oscillators. CoRR abs/2004.00677 (2020) - [i8]Shuang Gao, Peter E. Caines, Minyi Huang:
LQG Graphon Mean Field Games. CoRR abs/2004.00679 (2020) - [i7]Shuang Gao, Rinel Foguen Tchuendom, Peter E. Caines:
Linear Quadratic Graphon Field Games. CoRR abs/2006.03964 (2020)
2010 – 2019
- 2019
- [j53]Peter E. Caines, David Levanony:
Stochastic ε-Optimal Linear Quadratic Adaptation: An Alternating Controls Policy. SIAM J. Control. Optim. 57(2): 1094-1126 (2019) - [j52]Nevroz Sen, Peter E. Caines:
Mean Field Games with Partial Observation. SIAM J. Control. Optim. 57(3): 2064-2091 (2019) - [c110]Peter E. Caines, Minyi Huang:
Graphon Mean Field Games and the GMFG Equations: ε-Nash Equilibria. CDC 2019: 286-292 - [c109]Rinel Foguen Tchuendom, Roland P. Malhamé, Peter E. Caines:
A Quantilized Mean Field Game Approach To Energy Pricing With Application To Fleets Of Plug-In Electric Vehicles. CDC 2019: 299-304 - [c108]Dena Firoozi, Peter E. Caines:
Belief Estimation by Agents in Major Minor LQG Mean Field Games. CDC 2019: 1615-1622 - [c107]Shuang Gao, Peter E. Caines:
Spectral Representations of Graphons in Very Large Network Systems Control. CDC 2019: 5068-5075 - [c106]Shuang Gao, Peter E. Caines:
Optimal and Approximate Solutions to Linear Quadratic Regulation of a Class of Graphon Dynamical Systems. CDC 2019: 8359-8365 - [i6]Shuang Gao, Peter E. Caines:
Spectral Representations of Graphons in Very Large Network Systems Control. CoRR abs/1911.01536 (2019) - 2018
- [c105]Peter E. Caines, Minyi Huang:
Graphon Mean Field Games and the GMFG Equations. CDC 2018: 4129-4134 - [c104]Hamed Layeghi, Peter E. Caines:
Stability of Receding Horizon Control with Smooth Value Functions. CDC 2018: 4295-4300 - [c103]Dena Firoozi, Sebastian Jaimungal, Peter E. Caines:
Mean Field Game Systems with Common and Latent Processes. CDC 2018: 5500-5505 - [c102]Shuang Gao, Peter E. Caines:
Grapbon Linear Quadratic Regulation of Large-Scale Networks of Linear Systems. CDC 2018: 5892-5897 - [i5]Dena Firoozi, Peter E. Caines, Sebastian Jaimungal:
Mean Field Game Systems with Common Noise and Markovian Latent Processes. CoRR abs/1809.07865 (2018) - [i4]Dena Firoozi, Ali Pakniyat, Peter E. Caines:
A Hybrid Optimal Control Approach to LQG Mean Field Games with Switching and Stopping Strategies. CoRR abs/1810.02920 (2018) - [i3]Dena Firoozi, Peter E. Caines:
ε-Nash Equilibria for Major Minor LQG Mean Field Games with Partial Observations of All Agents. CoRR abs/1810.04369 (2018) - [i2]Dena Firoozi, Sebastian Jaimungal, Peter E. Caines:
Convex Analysis for LQG Systems with Applications to Major Minor LQG Mean Field Game Systems. CoRR abs/1810.07551 (2018) - 2017
- [j51]Mohamed K. Helwa, Peter E. Caines:
In-Block Controllability of Affine Systems on Polytopes. IEEE Trans. Autom. Control. 62(6): 2950-2957 (2017) - [j50]Peter E. Caines, Arman C. Kizilkale:
ε-Nash Equilibria for Partially Observed LQG Mean Field Games With a Major Player. IEEE Trans. Autom. Control. 62(7): 3225-3234 (2017) - [j49]Ali Pakniyat, Peter E. Caines:
On the Relation Between the Minimum Principle and Dynamic Programming for Classical and Hybrid Control Systems. IEEE Trans. Autom. Control. 62(9): 4347-4362 (2017) - [j48]Mohamad Aziz, Peter E. Caines:
A Mean Field Game Computational Methodology for Decentralized Cellular Network Optimization. IEEE Trans. Control. Syst. Technol. 25(2): 563-576 (2017) - [c101]Dena Firoozi, Peter E. Caines:
An optimal execution problem in finance targeting the market trading speed: An MFG formulation. CDC 2017: 7-14 - [c100]Shuang Gao, Peter E. Caines:
The control of arbitrary size networks of linear systems via graphon limits: An initial investigation. CDC 2017: 1052-1057 - [c99]Dena Firoozi, Ali Pakniyat, Peter E. Caines:
A mean field game - Hybrid systems approach to optimal execution problems in finance with stopping times. CDC 2017: 3144-3151 - 2016
- [j47]Nevroz Sen, Peter E. Caines:
Nonlinear Filtering Theory for McKean-Vlasov Type Stochastic Differential Equations. SIAM J. Control. Optim. 54(1): 153-174 (2016) - [j46]Nevroz Sen, Peter E. Caines:
Mean Field Game Theory with a Partially Observed Major Agent. SIAM J. Control. Optim. 54(6): 3174-3224 (2016) - [c98]Nevroz Sen, Peter E. Caines:
On Mean Field Games and nonlinear filtering for agents with individual-state partial observations. ACC 2016: 4681-4686 - [c97]Dena Firoozi, Peter E. Caines:
Mean Field Game ε-Nash equilibria for partially observed optimal execution problems in finance. CDC 2016: 268-275 - [c96]Ali Pakniyat, Peter E. Caines:
On the stochastic Minimum Principle for hybrid systems. CDC 2016: 1139-1144 - [c95]Nevroz Sen, Peter E. Caines:
Mean field game theory for agents with individual-state partial observations. CDC 2016: 6105-6110 - [i1]Mohamed K. Helwa, Peter E. Caines:
On the Control of Affine Systems with Safety Constraints: Relaxed In-Block Controllability. CoRR abs/1610.09703 (2016) - 2015
- [c94]Ali Pakniyat, Peter E. Caines:
On the Relation between the Hybrid Minimum Principle and Hybrid Dynamic Programming: a Linear Quadratic Example. ADHS 2015: 169-174 - [c93]Ali Pakniyat, Peter E. Caines:
Time Optimal Hybrid Minimum Principle and the Gear Changing Problem for Electric Vehicles. ADHS 2015: 187-192 - [c92]Nevroz Sen, Peter E. Caines:
ε-Nash equilibria for a partially observed mean field game with major player. ACC 2015: 4791-4797 - [c91]Prokopis C. Prokopiou, Peter E. Caines, Aditya Mahajan:
An estimation based allocation rule with super-linear regret and finite lock-on time for time-dependent multi-armed bandit processes. CCECE 2015: 1299-1306 - [c90]Mohamed K. Helwa, Peter E. Caines:
Epsilon controllability of nonlinear systems on polytopes. CDC 2015: 252-257 - [c89]Mohamed K. Helwa, Peter E. Caines:
On the construction of in-block controllable covers of nonlinear systems on polytopes. CDC 2015: 276-281 - [c88]Nevroz Sen, Peter E. Caines:
On the generation of conditional densities in nonlinear filtering for McKean-Vlasov systems. CDC 2015: 1130-1135 - [c87]Ali Pakniyat, Peter E. Caines:
On the minimum principle and dynamic programming for hybrid systems with low dimensional switching manifolds. CDC 2015: 2567-2573 - [c86]Dena Firoozi, Peter E. Caines:
ε-Nash equilibria for partially observed LQG mean field games with major agent: Partial observations by all agents. CDC 2015: 4430-4437 - [r1]Peter E. Caines:
Mean Field Games. Encyclopedia of Systems and Control 2015 - 2014
- [j45]Martino Bardi, Peter E. Caines, Italo Capuzzo Dolcetta:
Preface: DGAA 2nd Special Issue on Mean Field Games. Dyn. Games Appl. 4(2): 107-109 (2014) - [j44]Mojtaba Nourian, Peter E. Caines, Roland P. Malhamé:
A Mean Field Game Synthesis of Initial Mean Consensus Problems: A Continuum Approach for Non-Gaussian Behavior $ $. IEEE Trans. Autom. Control. 59(2): 449-455 (2014) - [c85]Ali Pakniyat, Peter E. Caines:
On the relation between the Minimum Principle and Dynamic Programming for Hybrid systems. CDC 2014: 19-24 - [c84]Nevroz Sen, Peter E. Caines:
Mean field games with partially observed major player and stochastic mean field. CDC 2014: 2709-2715 - [c83]Mohamed K. Helwa, Peter E. Caines:
In-block controllability of affine systems on polytopes. CDC 2014: 3936-3942 - [c82]Mohamed K. Helwa, Peter E. Caines:
Relaxed in-block controllability of affine systems on polytopes. CDC 2014: 3943-3949 - [c81]Mohamed K. Helwa, Peter E. Caines:
Hierarchical control of piecewise affine hybrid systems. CDC 2014: 3950-3956 - [c80]Mohamad Aziz, Peter E. Caines:
Computational investigations of decentralized cellular network optimization via mean field control. CDC 2014: 5560-5567 - [c79]Peter E. Caines:
Two challenges for systems and control. ICARCV 2014 - [c78]Ali Pakniyat, Peter E. Caines:
The gear selection problem for electric vehicles: An optimal control formulation. ICARCV 2014: 1261-1266 - 2013
- [j43]Martino Bardi, Peter E. Caines, Italo Capuzzo Dolcetta:
Preface: DGAA Special Issue on Mean Field Games. Dyn. Games Appl. 3(4): 443-445 (2013) - [j42]Farzin Taringoo, Peter E. Caines:
On the Optimal Control of Impulsive Hybrid Systems on Riemannian Manifolds. SIAM J. Control. Optim. 51(4): 3127-3153 (2013) - [j41]Mojtaba Nourian, Peter E. Caines:
Epsilon-Nash Mean Field Game Theory for Nonlinear Stochastic Dynamical Systems with Major and Minor Agents. SIAM J. Control. Optim. 51(4): 3302-3331 (2013) - [j40]Peng Jia, Peter E. Caines:
Analysis of Decentralized Quantized Auctions on Cooperative Networks. IEEE Trans. Autom. Control. 58(2): 529-534 (2013) - [j39]Mojtaba Nourian, Peter E. Caines, Roland P. Malhamé, Minyi Huang:
Nash, Social and Centralized Solutions to Consensus Problems via Mean Field Control Theory. IEEE Trans. Autom. Control. 58(3): 639-653 (2013) - [j38]Arman C. Kizilkale, Peter E. Caines:
Mean Field Stochastic Adaptive Control. IEEE Trans. Autom. Control. 58(4): 905-920 (2013) - [j37]Benjamin Passenberg, Peter E. Caines, Marion Leibold, Olaf Stursberg, Martin Buss:
Optimal Control for Hybrid Systems With Partitioned State Space. IEEE Trans. Autom. Control. 58(8): 2131-2136 (2013) - [c77]Peter E. Caines, Arman C. Kizilkale:
Recursive estimation of common partially observed disturbances in MFG systems with application to large scale power markets. CDC 2013: 2505-2512 - [c76]Farzin Taringoo, Peter E. Caines:
On the optimal control of hybrid systems on Lie groups and the exponential gradient HMP algorithm. CDC 2013: 2653-2658 - [c75]Ali Pakniyat, Peter E. Caines:
The Hybrid Minimum Principle in the presence of switching costs. CDC 2013: 3831-3836 - [c74]Peng Jia, Peter E. Caines:
A Mean Field Games formulation of network based auction dynamics. CDC 2013: 7844-7849 - 2012
- [j36]Stefan Ng Yow Thow, Peter E. Caines:
On the continuity of optimal controls and value functions with respect to initial conditions. Syst. Control. Lett. 61(12): 1294-1298 (2012) - [j35]Minyi Huang, Peter E. Caines, Roland P. Malhamé:
Social Optima in Mean Field LQG Control: Centralized and Decentralized Strategies. IEEE Trans. Autom. Control. 57(7): 1736-1751 (2012) - [j34]Mojtaba Nourian, Peter E. Caines, Roland P. Malhamé, Minyi Huang:
Mean Field LQG Control in Leader-Follower Stochastic Multi-Agent Systems: Likelihood Ratio Based Adaptation. IEEE Trans. Autom. Control. 57(11): 2801-2816 (2012) - [c73]Farzin Taringoo, Peter E. Caines:
The Exponential Gradient HMP Algorithm for the Optimization of Hybrid Systems On Lie Groups. ADHS 2012: 33-38 - [c72]Dmitry Gromov, Peter E. Caines:
Hybrid Thermodynamic Control Systems with Phase Transitions. ADHS 2012: 277-283 - [c71]Dmitry Gromov, Peter E. Caines:
On the stability of interconnected thermodynamic systems with heat and work exchange. ACC 2012: 386-391 - [c70]Farzin Taringoo, Peter E. Caines:
On an extension of the Hybrid Minimum Principle to systems on Lie groups. ACC 2012: 4534-4539 - [c69]Mojtaba Nourian, Peter E. Caines:
ε-Nash Mean Field Game theory for nonlinear stochastic dynamical systems with mixed agents. CDC 2012: 2090-2095 - [c68]Arman C. Kizilkale, Shie Mannor, Peter E. Caines:
Large scale real-time bidding in the smart grid: A mean field framework. CDC 2012: 3680-3687 - [c67]Farzin Taringoo, Peter E. Caines:
Newton-Geodesic HMP algorithms for the optimization of hybrid systems and the geometric properties of hybrid value functions. CDC 2012: 4211-4216 - [c66]Arman C. Kizilkale, Peter E. Caines:
Emergence of coalitions in mean field stochastic systems. CDC 2012: 5768-5773 - 2011
- [j33]Farzin Taringoo, Peter E. Caines:
Gradient geodesic and Newton geodesic HMP algorithms for the optimization of hybrid systems. Annu. Rev. Control. 35(2): 187-198 (2011) - [j32]Mojtaba Nourian, Roland P. Malhamé, Minyi Huang, Peter E. Caines:
Mean Field (NCE) Formulation of Estimation Based Leader-Follower Collective Dynamics. Int. J. Robotics Autom. 26(1) (2011) - [c65]Farzin Taringoo, Peter E. Caines:
On the extension of the hybrid minimum principle to Riemannian manifolds. CDC/ECC 2011: 3301-3306 - [c64]Mojtaba Nourian, Peter E. Caines, Roland P. Malhamé:
An evolution mean field equation system of initial mean consensus behaviour: A stability analysis. CDC/ECC 2011: 5029-5034 - [c63]Arman C. Kizilkale, Peter E. Caines:
Mean Field (NCE) stochastic control: Populations of major and egoist-altruist agents. CDC/ECC 2011: 5547-5552 - [c62]Mojtaba Nourian, Peter E. Caines, Roland P. Malhamé:
A solution to the initial mean consensus problem via a continuum based Mean Field control approach. CDC/ECC 2011: 5708-5713 - [c61]Dmitry Gromov, Peter E. Caines:
Stability of interconnected thermodynamic systems. CDC/ECC 2011: 6730-6735 - 2010
- [j31]Peng Jia, Peter E. Caines:
Analysis of a class of decentralized dynamical systems: rapid convergence and efficiency of dynamical quantized auctions. IMA J. Math. Control. Inf. 27(3): 329-372 (2010) - [j30]Peng Jia, Peter E. Caines:
Analysis of Quantized Double Auctions with Application to Competitive Electricity Markets. INFOR Inf. Syst. Oper. Res. 48(4): 239-250 (2010) - [j29]Zhongjing Ma, Peter E. Caines, Roland P. Malhamé:
Control of Admission and Routing in Loss Networks: Hybrid Dynamic Programming Equations. IEEE Trans. Autom. Control. 55(2): 350-366 (2010) - [j28]Minyi Huang, Peter E. Caines, Roland P. Malhamé:
The NCE (Mean Field) Principle With Locality Dependent Cost Interactions. IEEE Trans. Autom. Control. 55(12): 2799-2805 (2010) - [c60]Mojtaba Nourian, Peter E. Caines, Roland P. Malhamé:
Synthesis of Cucker-Smale type flocking via Mean Field stochastic control theory: Nash equilibria. Allerton 2010: 814-819 - [c59]Peng Jia, Peter E. Caines:
Analysis of decentralized decision processes in competitive markets: Quantized single and double-sided auctions. CDC 2010: 237-243 - [c58]Farzin Taringoo, Peter E. Caines:
Gradient-geodesic HMP algorithms for the optimization of Hybrid systems based on the geometry of switching manifolds. CDC 2010: 1534-1539 - [c57]Mojtaba Nourian, Roland P. Malhamé, Minyi Huang, Peter E. Caines:
Optimality of adaption based Mean Field control laws in leader-follower stochastic collective dynamics. CDC 2010: 2270-2275 - [c56]Minyi Huang, Peter E. Caines, Roland P. Malhamé:
Social dynamics in mean field LQG control: Egoistic and altruistic agents. CDC 2010: 3140-3145 - [c55]Benjamin Passenberg, Marion Sobotka, Olaf Stursberg, Martin Buss, Peter E. Caines:
An algorithm for discrete state sequence and trajectory optimization for hybrid systems with partitioned state space. CDC 2010: 4223-4229 - [c54]Arman C. Kizilkale, Peter E. Caines:
Stochastic adaptive Nash Certainty Equivalence control: Population parameter distribution estimation. CDC 2010: 6169-6176 - [c53]Benjamin Passenberg, Peter E. Caines, Marion Sobotka, Olaf Stursberg, Martin Buss:
The minimum principle for hybrid systems with partitioned state space and unspecified discrete state sequence. CDC 2010: 6666-6673 - [c52]Farzin Taringoo, Peter E. Caines:
On the geometry of switching manifolds for autonomous hybrid systems. WODES 2010: 35-40 - [c51]Dmitry Gromov, Peter E. Caines:
Initial investigations of hybrid thermodynamic control systems with phase transitions. WODES 2010: 53-58
2000 – 2009
- 2009
- [j27]Peng Jia, Clare W. Qu, Peter E. Caines:
On the rapid convergence of a class of decentralized decision processes: quantized progressive second-price auctions. IMA J. Math. Control. Inf. 26(3): 325-355 (2009) - [j26]M. Shahid Shaikh, Peter E. Caines:
Correction to "On the Hybrid Optimal Control Problem: Theory and Algorithms". IEEE Trans. Autom. Control. 54(6): 1440 (2009) - [c50]Farzin Taringoo, Peter E. Caines:
Geometrical Properties of Optimal Hybrid System Trajectories and the Optimization of Switching Manifolds. ADHS 2009: 310-315 - [c49]Minyi Huang, Peter E. Caines, Roland P. Malhamé:
Social optima in mean field LQG control: Centralized and decentralized strategies. Allerton 2009: 322-329 - [c48]Peng Jia, Peter E. Caines:
Auctions on networks: Efficiency, consensus, passivity, rates of convergence. CDC 2009: 8606-8611 - [c47]Peng Jia, Peter E. Caines:
Equilibria and convergence of auctions on networks. GAMENETS 2009: 268-276 - [c46]Zhongjing Ma, Peter E. Caines, Roland P. Malhamé:
Large population games in radial loss networks: Computationally tractable equilibria for distributed network admission control. GAMENETS 2009: 418-427 - [c45]Farzin Taringoo, Peter E. Caines:
The Sensitivity of Hybrid Systems Optimal Cost Functions with Respect to Switching Manifold Parameters. HSCC 2009: 475-479 - 2008
- [j25]Peter E. Caines, Zhongjing Ma, Roland P. Malhamé:
On the viscosity solutions of hybrid HJB equations arising in optimal control of loss networks. Commun. Inf. Syst. 8(1): 17-38 (2008) - [c44]Zhongjing Ma, Roland P. Malhamé, Peter E. Caines:
Distributed control for radial loss network systems via the ash Certainty Equivalence (mean field) principle. CDC 2008: 3829-3834 - [c43]Peng Jia, Peter E. Caines:
Probabilistic analysis of the rapid convergence of a class of progressive second price auctions. CDC 2008: 5476-5481 - [c42]Minyi Huang, Peter E. Caines, Roland P. Malhamé:
A locality generalization of the NCE (Mean Field) principle: Agent specific cost interactions. CDC 2008: 5539-5544 - 2007
- [j24]Minyi Huang, Peter E. Caines, Roland P. Malhamé:
An Invariance Principle in Large Population Stochastic Dynamic Games. J. Syst. Sci. Complex. 20(2): 162-172 (2007) - [j23]Iakov Romanovski, Peter E. Caines:
On the supervisory control of multi-agent product systems: Controllability properties. Syst. Control. Lett. 56(2): 113-121 (2007) - [j22]Minyi Huang, Peter E. Caines, Roland P. Malhamé:
Large-Population Cost-Coupled LQG Problems With Nonuniform Agents: Individual-Mass Behavior and Decentralized ε-Nash Equilibria. IEEE Trans. Autom. Control. 52(9): 1560-1571 (2007) - [j21]M. Shahid Shaikh, Peter E. Caines:
On the Hybrid Optimal Control Problem: Theory and Algorithms. IEEE Trans. Autom. Control. 52(9): 1587-1603 (2007) - [j20]Huanshui Zhang, Wing Shing Wong, Weiyan Ge, Peter E. Caines:
A Stochastic Approximation Approach to the Power-Control Problem. IEEE Trans. Commun. 55(5): 878-886 (2007) - [c41]Minyi Huang, Peter E. Caines, Roland P. Malhamé:
The Nash certainty equivalence principle and McKean-Vlasov systems: An invariance principle and entry adaptation. CDC 2007: 121-126 - [c40]Clare W. Qu, Peng Jia, Peter E. Caines:
Analysis of a class of decentralized decision processes: Quantized progressive second price auctions. CDC 2007: 779-784 - [c39]Angela Schöllig, Peter E. Caines, Magnus Egerstedt, Roland P. Malhamé:
A Hybrid Bellman Equation for systems with regional dynamics. CDC 2007: 3393-3398 - [c38]Zhongjing Ma, Roland P. Malhamé, Peter E. Caines:
Distributed control of loss network systems: Independent subnetwork behaviour in infinite networks. CDC 2007: 4421-4426 - [c37]Peter E. Caines, Magnus Egerstedt, Roland P. Malhamé, Angela Schöllig:
A Hybrid Bellman Equation for Bimodal Systems. HSCC 2007: 656-659 - 2006
- [j19]Peter E. Caines, Minyi Huang, Roland P. Malhamé:
Large population stochastic dynamic games: closed-loop McKean-Vlasov systems and the Nash certainty equivalence principle. Commun. Inf. Syst. 6(3): 221-252 (2006) - [j18]Iakov Romanovski, Peter E. Caines:
On the supervisory control of multiagent product systems. IEEE Trans. Autom. Control. 51(5): 794-799 (2006) - [c36]Zhongjing Ma, Peter E. Caines, Roland P. Malhamé:
Stochastic Hybrid Netcad Systems for Modeling Call Admission and Routing control in Networks. ADHS 2006: 166-171 - [c35]Zhongjing Ma, Peter E. Caines, Roland P. Malhamé:
Stochastic Control of Network Systems I: NETCAD State Space Structure & Dynamics. CDC 2006: 2577-2582 - [c34]Zhongjing Ma, Peter E. Caines, Roland P. Malhamé:
Stochastic Control of Network Systems II: NETCAD Optimal Control & the HJB Equation. CDC 2006: 3236-3241 - [c33]Peter E. Caines, F. H. Clarke, X. Liu, Richard B. Vinter:
A Maximum Principle for Hybrid Optimal Control Problems with Pathwise State Constraints. CDC 2006: 4821-4825 - [c32]Minyi Huang, Roland P. Malhamé, Peter E. Caines:
Nash Certainty Equivalence in Large Population Stochastic Dynamic Games: Connections with the Physics of Interacting Particle Systems. CDC 2006: 4921-4926 - [c31]Peter E. Caines, M. Shahid Shaikh:
Optimality Zone Algorithms for Hybrid Systems: Efficient Algorithms for Optimal Location and Control Computation. HSCC 2006: 123-137 - 2005
- [j17]Minyi Huang, Peter E. Caines, Roland P. Malhamé:
Degenerate Stochastic Control Problems with ExponentialCosts and Weakly Coupled Dynamics: Viscosity Solutions and a Maximum Principle. SIAM J. Control. Optim. 44(1): 367-387 (2005) - [j16]Minyi Huang, Roland P. Malhamé, Peter E. Caines:
Computationally tractable stochastic power control laws in wireless communications. IEEE Trans. Autom. Control. 50(2): 263-268 (2005) - [c30]Peter E. Caines, M. Shahid Shaikh:
Optimality Zone Algorithms for Hybrid Systems Computation and Control: From Exponential to Linear Complexity. ISIC 2005: 1292-1297 - [c29]Minyi Huang, Roland P. Malhamé, Peter E. Caines:
Nash Strategies and Adaptation for Decentralized Games Involving Weakly-coupled Agents. CDC/ECC 2005: 1050-1055 - [c28]M. Shahid Shaikh, Peter E. Caines:
Optimality Zone Algorithms for Hybrid Systems Computation and Control: From Exponential to Linear Complexity. CDC/ECC 2005: 1403-1408 - [c27]Peter E. Caines, David Levanony:
Stochastic linear-quadratic adaptive control: A conceptual scheme. CDC/ECC 2005: 1747-1752 - 2004
- [j15]Minyi Huang, Peter E. Caines, Roland P. Malhamé:
Uplink power adjustment in wireless communication systems: a stochastic control analysis. IEEE Trans. Autom. Control. 49(10): 1693-1708 (2004) - [c26]Minyi Huang, Roland P. Malhamé, Peter E. Caines:
On a class of large-scale cost-coupled Markov games with applications to decentralized power control. CDC 2004: 2830-2835 - [c25]Minyi Huang, Peter E. Caines, Roland P. Malhamé:
Large-population cost-coupled LQG problems: generalizations to non-uniform individuals. CDC 2004: 3453-3458 - [c24]Girish N. Nair, Robin J. Evans, Peter E. Caines:
Stabilising decentralised linear systems under data rate constraints. CDC 2004: 3992-3997 - 2003
- [c23]Minyi Huang, Roland P. Malhamé, Peter E. Caines:
Stochastic power control in wireless communication systems with an infinite horizon discounted cost. ACC 2003: 963-968 - [c22]M. Shahid Shaikh, Peter E. Caines:
On the optimal control of hybrid systems: optimization of switching times and combinatoric location schedules. ACC 2003: 2773-2778 - [c21]Iakov Romanovski, Peter E. Caines:
Graph MA product systems. ACC 2003: 4932-4936 - [c20]Minyi Huang, Peter E. Caines, Roland P. Malhamé:
Individual and mass behaviour in large population stochastic wireless power control problems: centralized and Nash equilibrium solutions. CDC 2003: 98-103 - [c19]M. Shahid Shaikh, Peter E. Caines:
On the optimal control of hybrid systems: analysis and zonal algorithms for trajectory and schedule optimization. CDC 2003: 2144-2149 - [c18]M. Shahid Shaikh, Peter E. Caines:
Hedging point policies for multi state failure prone manufacturing systems. CDC 2003: 2150-2155 - [c17]Huanshui Zhang, Weiyan Ge, Wing Shing Wong, Peter E. Caines:
A stochastic approximation approach to the robust power control problem. CDC 2003: 2601-2605 - [c16]Yasha Romanovski, Peter E. Caines:
On multi-agent product systems: Graph MA Products and partially observed MA products. CDC 2003: 2680-2685 - [c15]Minyi Huang, Roland P. Malhamé, Peter E. Caines:
Stochastic power control in wireless communication systems: analysis, approximate control algorithms and state aggregation. CDC 2003: 4231-4236 - [c14]M. Shahid Shaikh, Peter E. Caines:
On the Optimal Control of Hybrid Systems: Optimization of Trajectories, Switching Times, Location Schedules. HSCC 2003: 466-481 - 2002
- [j14]Peter E. Caines:
An introduction to hybrid dynamical systems: A. van der Schaft, and H. Schumacher; LNCIS 251, Springer, Berlin, 2000, ISBN 1-85233-233-6. Autom. 38(3): 566-567 (2002) - [j13]Peter E. Caines, Ekaterina S. Lemch:
On the Global Controllability of Nonlinear Systems: Fountains, Recurrence, and Applications to Hamiltonian Systems. SIAM J. Control. Optim. 41(5): 1532-1553 (2002) - [j12]Paul Hubbard, Peter E. Caines:
Dynamical consistency in hierarchical supervisory control. IEEE Trans. Autom. Control. 47(1): 37-52 (2002) - [j11]Gang Shen, Peter E. Caines:
Hierarchically accelerated dynamic programming for finite-state machines. IEEE Trans. Autom. Control. 47(2): 271-283 (2002) - [c13]Yasha Romanovski, Peter E. Caines:
Multi-agent products and trajectory specifications in supervisory control theory. ACC 2002: 722-723 - [c12]Minyi Huang, Roland P. Malhamé, Peter E. Caines:
Quality of service control for wireless systems: minimum power and minimum energy solutions. ACC 2002: 2424-2429 - [c11]Yasha Romanovski, Peter E. Caines:
On the supervisory control of multi-agent product systems. CDC 2002: 1181-1186 - [c10]M. Shahid Shaikh, Peter E. Caines:
On trajectory optimization for hybrid systems: theory and algorithms for fixed schedules. CDC 2002: 1997-1998 - [c9]David Levanony, Peter E. Caines:
On persistent excitation for linear systems with stochastic coefficients. CDC 2002: 2177-2182 - 2001
- [j10]David Levanony, Peter E. Caines:
On Persistent Excitation for Linear Systems with Stochastic Coefficients. SIAM J. Control. Optim. 40(3): 882-897 (2001) - [c8]Minyi Huang, Peter E. Caines, Charalambos D. Charalambous, Roland P. Malhamé:
Power control in wireless systems: a stochastic control formulation. ACC 2001: 750-755 - [c7]Minyi Huang, Peter E. Caines:
On a class of singular stochastic control problems arising in communications and their viscosity solutions. CDC 2001: 1031-1036 - [c6]Minyi Huang, Peter E. Caines, Charalambos D. Charalambous:
Stochastic power control for wireless systems: classical and viscosity solutions. CDC 2001: 1037-1042 - [c5]Yasha Romanovski, Peter E. Caines:
On vector trajectory specifications for multi-agent product systems. CDC 2001: 2333-2334 - [c4]Ekaterina S. Lemch, Shankar Sastry, Peter E. Caines:
Global Controllability of Hybrid Systems with Controlled and Autonomous Switchings. HSCC 2001: 375-386 - 2000
- [j9]Michel Adès, Peter E. Caines, Roland P. Malhamé:
Stochastic optimal control under Poisson-distributed observations. IEEE Trans. Autom. Control. 45(1): 3-13 (2000) - [c3]Ekaterina S. Lemch, Shankar Sastry, Peter E. Caines:
On the global controllability of hybrid systems: hybrifolds and fountains. CDC 2000: 981-986
1990 – 1999
- 1998
- [j8]Peter E. Caines, Yuan-Jun Wei:
Hierarchical hybrid control systems: a lattice theoretic formulation. IEEE Trans. Autom. Control. 43(4): 501-508 (1998) - [c2]Ekaterina S. Lemch, Peter E. Caines:
Hierarchical Hybrid Systems: Partition Deformations and Applications to the Acrobot System. HSCC 1998: 237-252 - 1997
- [j7]Suning Wang, Peter E. Caines:
Automated Reasoning with Function Evaluation for COCOLOG. Ann. Math. Artif. Intell. 20(1-4): 301-334 (1997) - 1995
- [j6]Derek N. Dyck, Peter E. Caines:
The logical control of an elevator. IEEE Trans. Autom. Control. 40(3): 480-486 (1995) - 1994
- [c1]Peter E. Caines, Yuan-Jun Wei:
On Dynamically Consistent Hybrid Systems. Hybrid Systems 1994: 86-105
1980 – 1989
- 1986
- [j5]M. A. Furst, Peter E. Caines:
Edge detection with image enhancement via dynamic programming. Comput. Vis. Graph. Image Process. 33(3): 263-279 (1986) - 1985
- [j4]Huan-Yuan Chen, Peter E. Caines:
On the adaptive control of a class of systems with random parameters and disturbances. Autom. 21(6): 737-741 (1985) - 1981
- [j3]Graham C. Goodwin, Peter J. Ramadge, Peter E. Caines:
A globally convergent adaptive predictor. Autom. 17(1): 135-140 (1981) - [j2]Peter E. Caines:
Review of 'Linear Systems' (T. Kailath, 1980). IEEE Trans. Inf. Theory 27(3): 385 (1981)
1970 – 1979
- 1974
- [j1]Peter E. Caines, Jorma Rissanen:
Maximum likelihood estimation of parameters in multivariate Gaussian stochastic processes (Corresp.). IEEE Trans. Inf. Theory 20(1): 102-104 (1974)
Coauthor Index
manage site settings
To protect your privacy, all features that rely on external API calls from your browser are turned off by default. You need to opt-in for them to become active. All settings here will be stored as cookies with your web browser. For more information see our F.A.Q.
Unpaywalled article links
Add open access links from 
to the list of external document links (if available).
Privacy notice: By enabling the option above, your browser will contact the API of unpaywall.org to load hyperlinks to open access articles. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Unpaywall privacy policy.
Archived links via Wayback Machine
For web page which are no longer available, try to retrieve content from the 
of the Internet Archive (if available).
Privacy notice: By enabling the option above, your browser will contact the API of archive.org to check for archived content of web pages that are no longer available. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Internet Archive privacy policy.
Reference lists
Add a list of references from 
, 
, and 
to record detail pages.
load references from crossref.org and opencitations.net
Privacy notice: By enabling the option above, your browser will contact the APIs of crossref.org, opencitations.net, and semanticscholar.org to load article reference information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Crossref privacy policy and the OpenCitations privacy policy, as well as the AI2 Privacy Policy covering Semantic Scholar.
Citation data
Add a list of citing articles from and to record detail pages.
load citations from opencitations.net
Privacy notice: By enabling the option above, your browser will contact the API of opencitations.net and semanticscholar.org to load citation information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the OpenCitations privacy policy as well as the AI2 Privacy Policy covering Semantic Scholar.
OpenAlex data
Load additional information about publications from 
.
Privacy notice: By enabling the option above, your browser will contact the API of openalex.org to load additional information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the information given by OpenAlex.
last updated on 2025-01-21 00:03 CET by the dblp team
all metadata released as open data under CC0 1.0 license
see also: Terms of Use | Privacy Policy | Imprint
dblp was originally created in 1993 at:
since 2018, dblp has been operated and maintained by:
the dblp computer science bibliography is funded and supported by:
