Newton Optimization on Helmholtz Decomposition for Continuous Games

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Newton Optimization on Helmholtz Decomposition for Continuous Games
Authors:

Giorgia Ramponi, Marcello Restelli

Conference:

AAAI 2021

Abstract:

Many learning problems involve multiple agents optimizing different interactive functions. In these problems, the standard policy gradient algorithms fail due to the non-stationarity of the setting and the different interests of each agent. In fact, algorithms must take into account the complex dynamics of these systems to guarantee rapid convergence towards a (local) Nash equilibrium. In this paper, we propose NOHD (Newton Optimization on Helmholtz Decomposition), a Newton-like algorithm for multi-agent learning problems based on the decomposition of the dynamics of the system in its irrotational (Potential) and solenoidal (Hamiltonian) component. This method ensures quadratic convergence in purely irrotational systems and pure solenoidal systems. Furthermore, we show that NOHD is attracted to stable fixed points in general multi-agent systems and repelled by strict saddle ones. Finally, we empirically compare the NOHD’s performance with that of state-of-the-art algorithms on some bimatrix games and continuous Gridworlds environment.

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