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I refer to definition of viscosity solution in user's guide to viscosity solutions of second order partial differential equations by Michael G. Crandall, Hitoshi Ishii and Pierre-Louis Lions.

Viscosity solutions are generalized solutions which can be implied if the Sobolev theory (or similar) doesn't provide "useful" solutions. A standard example is the problem $$ \begin{cases} |u'| - 1 = 0,\\ u(-1) = 1,\\ u(1)=1. \end{cases} $$ All "zig-zag" functions with appropriate boundary conditions provide a solution, but $u(x)=|x|$ is the unique viscosity solution.

But except its formal beauty why do we regard a viscosity solution as useful, and what is the 'physical' or 'intuitive' interpretation of being a viscosity solution?

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    $\begingroup$ Doesn't the first paragraph in the paper you link to give a great way to sell the subject? :) $\endgroup$
    – Mariano Suárez-Álvarez
    Commented Mar 24, 2011 at 17:23
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    $\begingroup$ Suppose we have got a a unique viscosity solution. Ok, if it is smooth (enough, $C^2$ should suffice), it does indeed solve the problem in a classical sense. How can I imagine a viscosity solution, or why is this generalized notion still useful to concretely handle with it? The problem will likely be embedded in a bigger agenda, so the solution must be more than abstract non-sense. I don't see where authors refer to this. $\endgroup$
    – shuhalo
    Commented Mar 24, 2011 at 18:44
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    $\begingroup$ Martin, as I read it, Mariano's comment was meant to support your sentiment (not the converse). $\endgroup$
    – user9072
    Commented Mar 24, 2011 at 21:27

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Viscosity solutions are the "appropriate" notion of solutions for second-order elliptic equations in nondivergence form, and for some classes of first-order equations. Here is a brief summary of why.

From the point of view of applications, the viscosity solution is almost always the right solution. For example, in optimal control theory, it has long been known that if the value function is smooth, it satisfies a certain PDE-- but the value is known to not be smooth in most cases. When Crandall and Lions invented viscosity solutions, it was clear immediately that the viscosity solution is precisely the value function. This story has played out over and over again, for many different applications, to the point that people in the field are completely shocked and stunned when there is some reason to consider a notion of solution other than viscosity solution.

From a mathematical point of view, viscosity solutions are natural. For equations in nondivergence form, energy methods are unavailable. Therefore, all one usually has is the maximum principle. Viscosity solutions are to weak solutions as the maximum principle is to energy methods. The term "viscosity solution" is rather unfortunate in this sense-- they should be called "comparison solutions" or something. The point is, these equations should satisfy a maximum principle. So it makes sense to define your weak solution as a one for which the maximum principle holds when you compare to smooth functions.

Finally, in the cases where there is overlap, like for the p-Laplacian, viscosity solutions are equivalent to (bounded) weak solutions in the integration-by-parts sense.

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    $\begingroup$ Could you give some more detail on "Viscosity solutions are to weak solutions as the maximum principle is to energy methods" please? And also “So it makes sense to define your weak solution as a one for which the maximum principle holds when you compare to smooth functions”? $\endgroup$
    – roi_saumon
    Commented Oct 27, 2023 at 12:59

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