Jump to content

Interval propagation

From Wikipedia, the free encyclopedia

This is the current revision of this page, as edited by KylieTastic (talk | contribs) at 16:29, 28 May 2023 (Reverted 2 edits by 2A0C:5BC0:40:107C:211:85FF:FE76:7C66 (talk) to last revision by Randompointofview). The present address (URL) is a permanent link to this version.

(diff) ← Previous revision | Latest revision (diff) | Newer revision → (diff)

In numerical mathematics, interval propagation or interval constraint propagation is the problem of contracting interval domains associated to variables of R without removing any value that is consistent with a set of constraints (i.e., equations or inequalities). It can be used to propagate uncertainties in the situation where errors are represented by intervals.[1] Interval propagation considers an estimation problem as a constraint satisfaction problem.

Atomic contractors

[edit]

A contractor associated to an equation involving the variables x1,...,xn is an operator which contracts the intervals [x1],..., [xn] (that are supposed to enclose the xi's) without removing any value for the variables that is consistent with the equation.

A contractor is said to be atomic if it is not built as a composition of other contractors. The main theory that is used to build atomic contractors are based on interval analysis.

Example. Consider for instance the equation

which involves the three variables x1,x2 and x3.

The associated contractor is given by the following statements

For instance, if

the contractor performs the following calculus

Figure 1: boxes before contraction
Figure 2: boxes after contraction

For other constraints, a specific algorithm for implementing the atomic contractor should be written. An illustration is the atomic contractor associated to the equation

is provided by Figures 1 and 2.

Decomposition

[edit]

For more complex constraints, a decomposition into atomic constraints (i.e., constraints for which an atomic contractor exists) should be performed. Consider for instance the constraint

could be decomposed into

The interval domains that should be associated to the new intermediate variables are

Propagation

[edit]

The principle of the interval propagation is to call all available atomic contractors until no more contraction could be observed. [2] As a result of the Knaster-Tarski theorem, the procedure always converges to intervals which enclose all feasible values for the variables. A formalization of the interval propagation can be made thanks to the contractor algebra. Interval propagation converges quickly to the result and can deal with problems involving several hundred of variables. [3]

Example

[edit]

Consider the electronic circuit of Figure 3.

Figure 3: File:Electronic circuit to illustrate the interval propagation

Assume that from different measurements, we know that

From the circuit, we have the following equations

After performing the interval propagation, we get

References

[edit]
  1. ^ Jaulin, L.; Braems, I.; Walter, E. (2002). Interval methods for nonlinear identification and robust control (PDF). In Proceedings of the 41st IEEE Conference on Decision and Control (CDC).
  2. ^ Cleary, J.L. (1987). Logical arithmetic. Future Computing Systems.
  3. ^ Jaulin, L. (2006). Localization of an underwater robot using interval constraints propagation (PDF). In Proceedings of CP 2006.