Carlo Cenedese scite author profile

We consider the charge scheduling coordination of a fleet of plug-in electric vehicles, developing a hybrid decision-making framework for efficient and profitable usage of the distribution grid. Each charging dynamics, affected by the aggregate behavior of the whole fleet, is modelled as an inter-dependent, mixed-logical-dynamical system. The coordination problem is formalized as a generalized mixed-integer aggregative potential game, and solved via semi-decentralized implementation of a sequential best-response algorithm that leads to an approximated equilibrium of the game.

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An asynchronous distributed and scalable generalized Nash equilibrium seeking algorithm for strongly monotone games

Cenedese

Belgioioso

Grammatico

et al. 2021

European Journal of Control

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In this paper, we present three distributed algorithms to solve a class of generalized Nash equilibrium (GNE) seeking problems in strongly monotone games. The first one (SD-GENO) is based on synchronous updates of the agents, while the second and the third (AD-GEED and AD-GENO) represent asynchronous solutions that are robust to communication delays. AD-GENO can be seen as a refinement of AD-GEED, since it only requires node auxiliary variables, enhancing the scalability of the algorithm. Our main contribution is to prove converge to a variational GNE of the game via an operator-theoretic approach. Finally, we apply the algorithms to network Cournot games and show how different activation sequences and delays affect convergence. We also compare the proposed algorithms to the only other in the literature (ADAGNES), and observe that AD-GENO outperforms the alternative.

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Time-varying constrained proximal type dynamics in multi-agent network games

Cenedese

Belgioioso

Grammatico

et al. 2020

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An asynchronous, forward-backward, distributed generalized Nash equilibrium seeking algorithm

Cenedese

Belgioioso

Grammatico

et al. 2019

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In this paper, we propose an asynchronous distributed algorithm for the computation of generalized Nash equilibria in noncooperative games, where the players interact via an undirected communication graph. Specifically, we extend the paper "Asynchronous distributed algorithm for seeking generalized Nash equilibria" by Yi and Pavel: we redesign the asynchronous update rule using auxiliary variables over the nodes rather than over the edges. This key modification renders the algorithm scalable for highly interconnected games. The derived asynchronous algorithm is robust against delays in the communication and it eliminates the idle times between computations, hence modeling a more realistic interaction between players with different update frequencies. We address the problem from an operator-theoretic perspective and design the algorithm via a preconditioned forward-backward splitting. Finally, we numerically simulate the algorithm for the Cournot competition in networked markets.

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Towards Time-Varying Proximal Dynamics in Multi-Agent Network Games

Cenedese

Kawano

Grammatico

et al. 2018

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In this paper, we study multi-agent network games subject to affine time-varying coupling constraints and a timevarying communication network. We focus on the class of games adopting proximal dynamics and study their convergence to a persistent equilibrium. The assumptions considered to solve the problem are discussed and motivated. We develop an iterative equilibrium seeking algorithm, using only local information, that converges to a special class of game equilibria. Its derivation is motivated by several examples, showing that the original game dynamics fail to converge. Finally, we apply the designed algorithm to solve a constrained consensus problem, validating the theoretical results.

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Carlo Cenedese

Charging plug-in electric vehicles as a mixed-integer aggregative game

An asynchronous distributed and scalable generalized Nash equilibrium seeking algorithm for strongly monotone games

Time-varying constrained proximal type dynamics in multi-agent network games

An asynchronous, forward-backward, distributed generalized Nash equilibrium seeking algorithm

Towards Time-Varying Proximal Dynamics in Multi-Agent Network Games

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