mathematics Mathematics is a field of study that discovers and organizes methods, Mathematical theory, theories and theorems that are developed and Mathematical proof, proved for the needs of empirical sciences and mathematics itself. There are many ar ...

, a constraint is a condition of an

optimization Mathematical optimization (alternatively spelled ''optimisation'') or mathematical programming is the selection of a best element, with regard to some criteria, from some set of available alternatives. It is generally divided into two subfiel ...

problem that the solution must satisfy. There are several types of constraints—primarily

equality Equality generally refers to the fact of being equal, of having the same value. In specific contexts, equality may refer to: Society * Egalitarianism, a trend of thought that favors equality for all people ** Political egalitarianism, in which ...

constraints,

inequality Inequality may refer to: * Inequality (mathematics), a relation between two quantities when they are different. * Economic inequality, difference in economic well-being between population groups ** Income inequality, an unequal distribution of i ...

constraints, and integer constraints. The set of

candidate solution In mathematical optimization and computer science, a feasible region, feasible set, or solution space is the set of all possible points (sets of values of the choice variables) of an optimization problem that satisfy the problem's constraints, ...

s that satisfy all constraints is called the

feasible set In mathematical optimization and computer science, a feasible region, feasible set, or solution space is the set of all possible points (sets of values of the choice variables) of an optimization problem that satisfy the problem's constraints, ...

Example

The following is a simple optimization problem: :

\min f(\mathbf x) = x_1^2+x_2^4

subject to :

x_1 \ge 1

and :

x_2 = 1,

where

\mathbf x

denotes the vector (''x''₁, ''x''₂). In this example, the first line defines the function to be minimized (called the

objective function In mathematical optimization and decision theory, a loss function or cost function (sometimes also called an error function) is a function that maps an event or values of one or more variables onto a real number intuitively representing some "cost ...

, loss function, or cost function). The second and third lines define two constraints, the first of which is an inequality constraint and the second of which is an equality constraint. These two constraints are hard constraints, meaning that it is required that they be satisfied; they define the feasible set of candidate solutions. Without the constraints, the solution would be (0,0), where

f(\mathbf x)

has the lowest value. But this solution does not satisfy the constraints. The solution of the

constrained optimization In mathematical optimization, constrained optimization (in some contexts called constraint optimization) is the process of optimizing an objective function with respect to some variables in the presence of constraints on those variables. The obj ...

problem stated above is

\mathbf x = (1,1)

, which is the point with the smallest value of

f(\mathbf x)

that satisfies the two constraints.

Terminology

* If an inequality constraint holds with ''equality'' at the optimal point, the constraint is said to be , as the point ''cannot'' be varied in the direction of the constraint even though doing so would improve the value of the objective function. * If an inequality constraint holds as a ''strict inequality'' at the optimal point (that is, does not hold with equality), the constraint is said to be , as the point ''could'' be varied in the direction of the constraint, although it would not be optimal to do so. Under certain conditions, as for example in convex optimization, if a constraint is non-binding, the optimization problem would have the same solution even in the absence of that constraint. * If a constraint is not satisfied at a given point, the point is said to be infeasible.

Hard and soft constraints

If the problem mandates that the constraints be satisfied, as in the above discussion, the constraints are sometimes referred to as ''hard constraints''. However, in some problems, called flexible constraint satisfaction problems, it is preferred but not required that certain constraints be satisfied; such non-mandatory constraints are known as '' soft constraints''. Soft constraints arise in, for example,

preference-based planning In artificial intelligence, preference-based planning is a form of automated planning and scheduling which focuses on producing plans that additionally satisfy as many user-specified preferences as possible. In many problem domains, a task can be a ...

. In a MAX-CSP problem, a number of constraints are allowed to be violated, and the quality of a solution is measured by the number of satisfied constraints.

Global constraints

Global constraints are constraints representing a specific relation on a number of variables, taken altogether. Some of them, such as th
alldifferent
constraint, can be rewritten as a conjunction of atomic constraints in a simpler language: the alldifferent constraint holds on ''n'' variables

x_1... x_n

, and is satisfied if the variables take values which are pairwise different. It is semantically equivalent to the conjunction of inequalities

x_1 \neq x_2, x_1 \neq x_3..., x_2 \neq x_3, x_2 \neq x_4 ... x_ \neq x_n

. Other global constraints extend the expressivity of the constraint framework. In this case, they usually capture a typical structure of combinatorial problems. For instance, the regular constraint expresses that a sequence of variables is accepted by a

deterministic finite automaton In the theory of computation, a branch of theoretical computer science, a deterministic finite automaton (DFA)—also known as deterministic finite acceptor (DFA), deterministic finite-state machine (DFSM), or deterministic finite-state auto ...

. Global constraints are used to simplify the modeling of

constraint satisfaction problems Constraint satisfaction problems (CSPs) are mathematical questions defined as a set of objects whose state must satisfy a number of constraints or limitations. CSPs represent the entities in a problem as a homogeneous collection of finite const ...

, to extend the expressivity of constraint languages, and also to improve the constraint resolution: indeed, by considering the variables altogether, infeasible situations can be seen earlier in the solving process. Many of the global constraints are referenced into a
online catalog.

References

External links

Nonlinear programming FAQ

Mathematical Programming Glossary
{{Webarchive, url=https://web.archive.org/web/20100328165516/http://glossary.computing.society.informs.org/ , date=2010-03-28 Mathematical optimization Constraint programming ca:Restricció es:Restricción (matemáticas)