ill-posed problem - meaning and definition. What is ill-posed problem
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What (who) is ill-posed problem - definition

FUNCTIONAL RELATIONSHIP F BETWEEN SOME INPUT X AND OUTPUT Y SUCH THAT Y=G(X) AND G IS LIPSCHITZ IN A NEIGHBOURHOOD OF EVERY X
Well-conditioned problem; Ill-posed problem; Ill-posed; Well-posedness; Ill-posed problems; Well-poised; Well-posed; Ill posed; Ill-posedness; Well-posed problem (numerical analysis)

Well-posed problem         
The mathematical term well-posed problem stems from a definition given by 20th-century French mathematician Jacques Hadamard. He believed that mathematical models of physical phenomena should have the properties that:
louping ill         
ANIMAL DISEASE
Louping ill virus
['la?p???l]
¦ noun a tick-borne viral disease of animals, especially sheep, causing staggering and jumping.
Origin
ME: from loup (dialect var of leap) + the noun ill.
Louping ill         
ANIMAL DISEASE
Louping ill virus
Louping-ill () is an acute viral disease primarily of sheep that is characterized by a biphasic fever, depression, ataxia, muscular incoordination, tremors, posterior paralysis, coma, and death. Louping-ill is a tick-transmitted disease whose occurrence is closely related to the distribution of the primary vector, the sheep tick Ixodes ricinus.

Wikipedia

Well-posed problem

The mathematical term well-posed problem stems from a definition given by 20th-century French mathematician Jacques Hadamard. He believed that mathematical models of physical phenomena should have the properties that:

  1. a solution exists,
  2. the solution is unique,
  3. the solution's behaviour changes continuously with the initial conditions.

Examples of archetypal well-posed problems include the Dirichlet problem for Laplace's equation, and the heat equation with specified initial conditions. These might be regarded as 'natural' problems in that there are physical processes modelled by these problems.

Problems that are not well-posed in the sense of Hadamard are termed ill-posed. Inverse problems are often ill-posed. For example, the inverse heat equation, deducing a previous distribution of temperature from final data, is not well-posed in that the solution is highly sensitive to changes in the final data.

Continuum models must often be discretized in order to obtain a numerical solution. While solutions may be continuous with respect to the initial conditions, they may suffer from numerical instability when solved with finite precision, or with errors in the data. Even if a problem is well-posed, it may still be ill-conditioned, meaning that a small error in the initial data can result in much larger errors in the answers. Problems in nonlinear complex systems (so-called chaotic systems) provide well-known examples of instability. An ill-conditioned problem is indicated by a large condition number.

If the problem is well-posed, then it stands a good chance of solution on a computer using a stable algorithm. If it is not well-posed, it needs to be re-formulated for numerical treatment. Typically this involves including additional assumptions, such as smoothness of solution. This process is known as regularization. Tikhonov regularization is one of the most commonly used for regularization of linear ill-posed problems.