Stopping rule
Encyclopedia
Probability theory
Probability theory is the branch of mathematics concerned with analysis of random phenomena. The central objects of probability theory are random variables, stochastic processes, and events: mathematical abstractions of non-deterministic events or measured quantities that may either be single...
, in particular in the study of stochastic process
Stochastic process
In probability theory, a stochastic process , or sometimes random process, is the counterpart to a deterministic process...
es, a stopping time (also Markov time) is a specific type of “random time”.
The theory of stopping rules and stopping times can be analysed in probability
Probability
Probability is ordinarily used to describe an attitude of mind towards some proposition of whose truth we arenot certain. The proposition of interest is usually of the form "Will a specific event occur?" The attitude of mind is of the form "How certain are we that the event will occur?" The...
and statistics
Statistics
Statistics is the study of the collection, organization, analysis, and interpretation of data. It deals with all aspects of this, including the planning of data collection in terms of the design of surveys and experiments....
, notably in the optional stopping theorem
Optional stopping theorem
In probability theory, the optional stopping theorem says that, under certain conditions, the expected value of a martingale at a stopping time is equal to its initial value...
. Also, stopping times are frequently applied in mathematical proofs- to “tame the continuum of time”, as Chung put it in his book (1982).
Definition
A stopping time with respect to a sequence of random variableRandom variable
In probability and statistics, a random variable or stochastic variable is, roughly speaking, a variable whose value results from a measurement on some type of random process. Formally, it is a function from a probability space, typically to the real numbers, which is measurable functionmeasurable...
s X1, X2, ... is a random variable
with the property that for each t, the occurrence or non-occurrence of the event 
= t depends only on the values of X1, X2, ..., Xt. In some cases, the definition specifies that Pr(
< ∞) = 1, or that 
be almost surelyAlmost surely
In probability theory, one says that an event happens almost surely if it happens with probability one. The concept is analogous to the concept of "almost everywhere" in measure theory...
finite, although in other cases this requirement is omitted.
Another, more general definition may be given in terms of a filtration: Let
be an ordered index setIndex set
In mathematics, the elements of a set A may be indexed or labeled by means of a set J that is on that account called an index set...
(often
or a compact subset thereof), and let 
be a filtered probability space, i.e. a probability spaceProbability space
In probability theory, a probability space or a probability triple is a mathematical construct that models a real-world process consisting of states that occur randomly. A probability space is constructed with a specific kind of situation or experiment in mind...
equipped with a filtration. Then a random variable
is called a stopping time if 
for all 
in 
. Often, to avoid confusion, we call it a 
-stopping time and explicitly specify the filtration. Speaking concretely, for 
to be a stopping time, it should be possible to decide whether or not 
has occurred on the basis of the knowledge of 
, i.e., event 
is 
-measurable.Stopping times occur in decision theory
Decision theory
Decision theory in economics, psychology, philosophy, mathematics, and statistics is concerned with identifying the values, uncertainties and other issues relevant in a given decision, its rationality, and the resulting optimal decision...
, in which a stopping rule is characterized as a mechanism for deciding whether to continue or stop a process on the basis of the present position and past events, and which will almost always
Almost Always
"Almost Always" is a popular song. It was recorded by Joni James in 1953. The recording was released by MGM as catalog number 11470. The song was only on the Billboard magazine charts for one week, reaching #18 on May 9, 1953. The flip side was "Is It Any Wonder?"...
lead to a decision to stop at some time.
Examples
To illustrate some examples of random times that are stopping rules and some that are not, consider a gambler playing rouletteRoulette
Roulette is a casino game named after a French diminutive for little wheel. In the game, players may choose to place bets on either a single number or a range of numbers, the colors red or black, or whether the number is odd or even....
with a typical house edge, starting with $100:
- Playing one, and only one, game corresponds to the stopping time
= 1, and is a stopping rule. - Playing until he either runs out of money or has played 500 games is a stopping rule.
- Playing until he is the maximum amount ahead he will ever be is not a stopping rule and does not provide a stopping time, as it requires information about the future as well as the present and past.
- Playing until he doubles his money (borrowing if necessary if he goes into debt) is not a stopping rule, as there is a positive probabilityProbabilityProbability is ordinarily used to describe an attitude of mind towards some proposition of whose truth we arenot certain. The proposition of interest is usually of the form "Will a specific event occur?" The attitude of mind is of the form "How certain are we that the event will occur?" The...
that he will never double his money. (Here it is assumed that there are limits that prevent the employment of a martingale systemMartingale (betting system)Originally, martingale referred to a class of betting strategies popular in 18th century France. The simplest of these strategies was designed for a game in which the gambler wins his stake if a coin comes up heads and loses it if the coin comes up tails...
, or a variant thereof, such as each bet being triple the size of the last. Such limits could include betting limits but not limits to borrowing.) - Playing until he either doubles his money or runs out of money is a stopping rule, even though there is potentially no limit to the number of games he plays, since the probability that he stops in a finite time is 1.
Localization
Stopping times are frequently used to generalize certain properties of stochastic processes to situations in which the required property is satisfied in only a local sense. First, if X is a process and
is a stopping time, then X
is used to denote the process X stopped at time 
.
Then, X is said to locally satisfy some property P if there exists a sequence of stopping times
n, which increases to infinity and for which the processes 
satisfy property P. Common examples, with time index set I = [0,∞), are as follows;
- (Local martingale) A process X is a local martingaleLocal martingaleIn mathematics, a local martingale is a type of stochastic process, satisfying the localized version of the martingale property. Every martingale is a local martingale; every bounded local martingale is a martingale; however, in general a local martingale is not a martingale, because its...
if it is càdlàgCàdlàgIn mathematics, a càdlàg , RCLL , or corlol function is a function defined on the real numbers that is everywhere right-continuous and has left limits everywhere...
and there exists a sequence of stopping times
n increasing to infinity, such that 
is a martingaleMartingale (probability theory)In probability theory, a martingale is a model of a fair game where no knowledge of past events can help to predict future winnings. In particular, a martingale is a sequence of random variables for which, at a particular time in the realized sequence, the expectation of the next value in the...
for each n. - (Locally integrable) A non-negative and increasing process X is locally integrable if there exists a sequence of stopping times
n increasing to infinity, such that 
for each n.
Types of stopping times
Stopping times, with time index set I = [0,∞), are often divided into one of several types depending on whether it is possible to predict when they are about to occur.A stopping time
is predictable if it is equal to the limit of an increasing sequence of stopping times 
n satisfying 
n < 
whenever 
> 0. The sequence 
n is said to announce 
, and predictable stopping times are sometimes known as announceable.Examples of predictable stopping times are hitting time
Hitting time
In the study of stochastic processes in mathematics, a hitting time is a particular instance of a stopping time, the first time at which a given process "hits" a given subset of the state space...
s of continuous and adapted
Adapted process
In the study of stochastic processes, an adapted process is one that cannot "see into the future". An informal interpretation is that X is adapted if and only if, for every realisation and every n, Xn is known at time n...
processes. If
is the first time at which a continuous and real valued process X is equal to some value a, then it is announced by the sequence 
n, where 
n is the first time at which X is within a distance of 1/n of a.Accessible stopping times are those that can be covered by a sequence of predictable times. That is, stopping time
is accessible if, P(
=
n for some n) = 1, where 
n are predictable times.A stopping time
is totally inaccessible if it can never be announced by an increasing sequence of stopping times. Equivalently, P(
= σ < ∞) = 0 for every predictable time σ. Examples of totally inaccessible stopping times include the jump times of Poisson processPoisson process
A Poisson process, named after the French mathematician Siméon-Denis Poisson , is a stochastic process in which events occur continuously and independently of one another...
es.
Every stopping time
can be uniquely decomposed into an accessible and totally inaccessible time. That is, there exists a unique accessible stopping time σ and totally inaccessible time υ such that 
= σ whenever σ < ∞, 
= υ whenever υ < ∞, and 
= ∞ whenever σ = υ = ∞.Note that in the statement of this decomposition result, stopping times do not have to be almost surely finite, and can equal ∞.
See also
- Optimal stoppingOptimal stoppingIn mathematics, the theory of optimal stopping is concerned with the problem of choosing a time to take a particular action, in order to maximise an expected reward or minimise an expected cost. Optimal stopping problems can be found in areas of statistics, economics, and mathematical finance...
- Odds algorithmOdds algorithmThe odds-algorithm is a mathematical method for computing optimalstrategies for a class of problems that belong to the domain of optimal stopping problems. Their solution follows from the odds-strategy, and the importance of the...
- Secretary problemSecretary problemThe secretary problem is one of many names for a famous problem of theoptimal stopping theory.The problem has been studied extensively in the fields ofapplied probability, statistics, and decision theory...
- Hitting timeHitting timeIn the study of stochastic processes in mathematics, a hitting time is a particular instance of a stopping time, the first time at which a given process "hits" a given subset of the state space...
- Stopped processStopped processIn mathematics, a stopped process is a stochastic process that is forced to assume the same value after a prescribed time.-Definition:Let* be a probability space;...
- Disorder problemDisorder problemIn the study of stochastic processes in mathematics, a disorder problem has been formulated by Kolmogorov. Specifically, the problem is use ongoing observations on a stochastic process to decide whether or not to raise an alarm that the probabilistic properties of the process have changed.An...
- Parking problem
- Quick detection
Further reading
- Thomas S. Ferguson. “Who solved the secretary problem?”, Stat. Sci. vol. 4, 282–296, (1989).
- An introduction to stopping times.
- F. Thomas Bruss, “Sum the odds to one and stop”, Annals of Probability, Vol. 4, 1384–1391,(2000)