2.6 Conditional expectation 35andE[X|H] is uniquely defined only up to events ofP-measure zero, none of
this should be of a significant concern. First, we will rarely need closed form
expressions for conditional expectations, but we rather need how they relate to
other expectations, conditional or not. This is also the reason why it should not be
concerning that they are only determined up to zero probability events: Usually,
conditional expectations appear in other expectations or in statements that are
concerned with how probable some event is, making the difference between the
different ‘versions’ of conditional expectations disappear.
We close the section by summarizing some additional important properties of
conditional expectations. These follow from the definition directly and the reader
is invited to prove them in Exercise 2.19.Theorem2.12. Let(Ω,F,P)be a probability space,G,G 1 ,G 2 ⊂ F be sub-σ-
algebras ofFandX,Y integrable random variables on(Ω,F,P). The fol lowing
hold true:
1 IfX≥ 0 , thenE[X|G]≥ 0 almost surely.
2 E[1|G] = 1almost surely.
3 E[X+Y|G] =E[X|G] +E[Y|G]almost surely.
4 E[XY|G] =YE[X|G]almost surely ifE[XY]exists andY isG-measurable.
5 ifG 1 ⊂G 2 , thenE[X|G 1 ] =E[E[X|G 2 ]|G 1 ]almost surely.
6 ifσ(X)is independent ofG 2 givenG 1 thenE[X|σ(G 1 ∪G 2 )]=E[X|G 1 ]
almost surely.
7 IfG={∅,Ω}is the trivialσ-algebra, thenE[X|G] =E[X]almost surely.Properties 1 and 2 are self-explanatory. Property 3 generalizes the linearity of
expectation. Property 4 shows that a measurable quantity can be pulled outside
of a conditional expectation and corresponds to the property that for constants
c,E[cX]=cE[X]. Property 5 is called thetower ruleor thelaw of total
expectations. It says that the fineness ofE[X|G 2 ] is obliterated when taking the
conditional expectation with respect toG 1. Property 6 relates independence and
conditional expectations and it says that conditioning on independent quantities
does not give further information on expectations. Here, the two event systemsA
andBare said to beconditionally independentof each other given aσ-algebra
Fif for allA∈ AandB∈ B,P(A∩B|F)=P(A|F)P(B|F)holds almost
surely. We also often say thatAis conditionally independent ofBgivenF, but
of course, this relation is symmetric. This property is often applied with random
variables:Xis said to be conditionally independent ofY givenZ, ifσ(X) is
conditionally independent ofσ(Y) givenσ(Z). In this case,E[X|Y,Z]=E[X|Z]
holds almost surely. Property 7 states that conditioning on no information gives
the same expectation as not conditioning at all.