Filtration (mathematics)

In mathematics, a filtration is an indexed set S_i of subobjects of a given algebraic structure S, with the index i running over some index set I that is a totally ordered set, subject to the condition that if i ≤ j in I then S_i ⊆ S_j. The concept dual to a filtration is called a cofiltration.

Sometimes, as in a filtered algebra, there is instead the requirement that the $S i$ be subobjects^{[clarification needed]} with respect to certain operations (say, vector addition), but with respect to other operations (say, multiplication), they instead satisfy $S_i \cdot S_j \subset S_{i+j}$ , where here the index set is the natural numbers; this is by analogy with a graded algebra.

Sometimes, filtrations are supposed to satisfy the additional requirement that the union of the $S i$ be the whole $S$ , or (in more general cases, when the notion of union does not make sense) that the canonical homomorphism from the direct limit of the $S i$ to $S$ is an isomorphism. Whether this requirement is assumed or not usually depends on the author of the text and is often explicitly stated. We are not going to impose this requirement in this article.

There is also the notion of a descending filtration, which is required to satisfy $S_i \supseteq S_j$ in lieu of $S_i \subseteq S_j$ (and, occasionally, $\bigcap_{i\in I} S_i=0$ instead of $\bigcup_{i\in I} S_i=S$ ). Again, it depends on the context how exactly the word "filtration" is to be understood. Descending filtrations are not to be confused with cofiltrations (which consist of quotient objects rather than subobjects).

Filtrations are widely used in abstract algebra, homological algebra (where they are related in an important way to spectral sequences), and in measure theory and probability theory for nested sequences of σ-algebras. In functional analysis and numerical analysis, other terminology is usually used, such as scale of spaces or nested spaces.

1 Examples
- 1.1 Algebra
- 1.2 Measure theory
2 See also
3 References

Examples

Algebra

Groups

Rings and modules: descending filtrations

Given a ring R and an R-module M, a descending filtration of M is a decreasing sequence of submodules M_n. This is therefore a special case of the notion for groups, with the additional condition that the subgroups be submodules. The associated topology is defined as for groups.

An important special case is known as the I-adic topology (or J-adic, etc.). Let R be a commutative ring, and I an ideal of R.

Given an R-module M, the sequence IⁿM of submodules of M forms a filtration of M. The I-adic topology on M is then the topology associated to this filtration. If M is just the ring R itself, we have defined the I-adic topology on R.

When R is given the I-adic topology, R becomes a topological ring. If an R-module M is then given the I-adic topology, it becomes a topological R-module, relative to the topology given on R.

Rings and modules: ascending filtrations

Given a ring R and an R-module M, an ascending filtration of M is an increasing sequence of submodules M_n. In particular, if R is a field, then an ascending filtration of the R-vector space M is an increasing sequence of vector subspaces of M. Flags are one important class of such filtrations.

Sets

A maximal filtration of a set is equivalent to an ordering (a permutation) of the set. For instance, the filtration $\{0\} \subset \{0,1\} \subset \{0,1,2\}$ corresponds to the ordering $(0,1,2)$ . From the point of view of the field with one element, an ordering on a set corresponds to a maximal flag (a filtration on a vector space), considering a set to be a vector space over the field with one element.

Measure theory

In measure theory, in particular in martingale theory and the theory of stochastic processes, a filtration is an increasing sequence of σ-algebras on a measurable space. That is, given a measurable space $(\Omega, \mathcal{F})$ , a filtration is a sequence of σ-algebras $\{ \mathcal{F}_{t} \}_{t \geq 0}$ with $\mathcal{F}_{t} \subseteq \mathcal{F}$ for each t and

$t_{1} \leq t_{2} \implies \mathcal{F}_{t_{1}} \subseteq \mathcal{F}_{t_{2}}.$

The exact range of the "times" t will usually depend on context: the set of values for t might be discrete or continuous, bounded or unbounded. For example,

$t \in \{ 0, 1, \dots, N \}, \mathbb{N}_{0}, [0, T] \mbox{ or } [0, + \infty).$

Similarly, a filtered probability space (also known as a stochastic basis) is a probability space with a filtration of its σ-algebra.

It is also useful (in the case of an unbounded index set) to define $\mathcal{F}_{\infty}$ as the σ-algebra generated by the infinite union of the $\mathcal{F}_{t}$ 's, which is contained in $\mathcal{F}$ :

$\mathcal{F}_{\infty} = \sigma\left(\bigcup_{t \geq 0} \mathcal{F}_{t}\right) \subseteq \mathcal{F}.$

A σ-algebra defines the set of events that can be measured, which in a probability context is equivalent to events that can be discriminated, or "questions that can be answered at time t". Therefore a filtration is often used to represent the change in the set of events that can be measured, through gain or loss of information. A typical example is in mathematical finance, where a filtration represents the information available up to and including each time t, and is more and more precise (the set of measurable events is staying the same or increasing) as more information from the evolution of the stock price becomes available.

References

Øksendal, Bernt K. (2003). Stochastic Differential Equations: An Introduction with Applications. Berlin: Springer. ISBN 3-540-04758-1.

Categories:

Algebra
Measure theory
Stochastic processes

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Filtration (mathematics)

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