Martino Bardi, Paola Mannucci
Published 2009-12-22Version 1
We study the Dirichlet problem for subelliptic partial differential equations of Monge-Ampere type involving the derivates with respect to a family X of vector fields of Carnot type. The main result is a comparison principle among viscosity subsolutions, convex with respect to X, and viscosity supersolutions (in a weaker sense than usual), which implies the uniqueness of solution to the Dirichlet problem. Its assumptions include the equation of prescribed horizontal Gauss curvature in Carnot groups. By Perron method we also prove the existence of a solution either under a growth condition of the nonlinearity with respect to the gradient of the solution, or assuming the existence of a subsolution attaining continuously the boundary data, therefore generalizing some classical result for Euclidean Monge-Ampere equations.
Comparison principles for nonlinear potential theories and PDEs with fiberegularity and sufficient monotonicity
Comparison principles for viscosity solutions of elliptic branches of fully nonlinear equations independent of the gradient
A comparison principle based on couplings of partial integro-differential operators
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