A PDE Perspective of the Normalized Infinity Laplacian

The inhomogeneous normalized infinity Laplace equation was derived from the tug-of-war game in [2121. Peres , Y. , Schramm , O. , Sheffield , S. , Wilson , D. ( 2006 ). Tug of war and the infinity Laplacian. arXiv:math.AP/0605002 v1 28 Apr 2006 .

View all references] with the positive right-hand-side as a running payoff. The existence, uniqueness and comparison with polar quadratic functions were proved in [2121. Peres , Y. , Schramm , O. , Sheffield , S. , Wilson , D. ( 2006 ). Tug of war and the infinity Laplacian. arXiv:math.AP/0605002 v1 28 Apr 2006 .

View all references] by the game theory. In this paper, the normalized infinity Laplacian, formally written as , is defined in a canonical way with the second derivatives in the local maximum and minimum directions, and understood analytically by a dichotomy. A comparison with polar quadratic polynomials property, the counterpart of the comparison with cones property, is proved to characterize the viscosity solutions of the inhomogeneous normalized infinity Laplace equation. We also prove that there is exactly one viscosity solution of the boundary value problem for the infinity Laplace equation

Our PDE method approach is quite different from those in [2121. Peres , Y. , Schramm , O. , Sheffield , S. , Wilson , D. ( 2006 ). Tug of war and the infinity Laplacian. arXiv:math.AP/0605002 v1 28 Apr 2006 .

View all references].

Keywords

• Comparison property,
• Inhomogeneous equation,
• Normalized infinity Laplacian,
• Stability of solutions,
• Tug-of-war game,
• Viscosity solutions,
• Well-posedness

Mathematics Subject Classification

• 35J70,
• 35B35