Multiplicative ergodic theorem
Oseledets's multiplicative ergodic theorem, Oseledec's multiplicative ergodic theorem
Consider a linear homogeneous system of differential equations
 | (a1) |
The Lyapunov exponent of a solution 
of (a1) is defined as
 |
A more general setting (Lyapunov exponents for families of system of differential equations) for discussing Lyapunov exponents and related matters is as follows. Let 
be a measurable flow on a measure space 
. For all 
, let 
be an 
-dimensional vector space. (Think, for example, of a vector bundle 
.) A cocycle 
associated with the flow 
is a measurable function on 
that assigns to 
an invertible linear mapping 
such that
 | (a2) |
I.e. if the collection of vector spaces 
is viewed as an 
-dimensional vector bundle over 
, then 
defines an isomorphism of vector bundles 
over 
,
 |
and condition (a2) simply says that 
. So 
is a flow on 
that lifts 
. 
is sometimes called the skew product flow defined by 
and 
. This set-up is sufficiently general to discuss Lyapunov exponents for non-linear flows, and even stochastic non-linear flows and such things as products of random matrices. If 
, 
, the classical situation (a1) reappears. Let 
be a differential equation on a manifold 
. Take 
, the tangent bundle over 
. Let 
be the flow on 
defined by 
. The associated cocycle is defined by the differential 
of 
,
 |
For a skew product flow 
on 
the Lyapunov exponent at 
in the direction 
is defined by
 |
The multiplicative ergodic theorem of V.I. Oseledets [a1] now is as follows. Let 
be a skew product flow and assume that there is an invariant probability measure 
on 
for 
, i.e. 
for all 
. Suppose, moreover, that
 |
Then there exists a measurable 
-invariant set 
of 
-measure 1 such that for all 
there are 
numbers 
, 
, and corresponding subspaces 
of dimensions 
such that for all 
,
 |
If moreover 
is ergodic for 
, i.e. all 
-invariant subsets have 
-measure 
or 
, then the 
, 
, 
are constants independent of 
(or 
). However, the spaces 
may still depend on 
(if the bundle 
is a trivial bundle so that all the 
can be identified). The set 
is called the Lyapunov spectrum of the flow. For more details and applications cf. [a2], [a3].
References
| [a1] | V.I. [V.I. Oseledets] Oseledec, "A multiplicative ergodic theorem. Lyapunov characteristic numbers for dynamical systems" Trans. Moscow Math. Soc. , 19 (1968) pp. 197–231 Trudy Moskov. Mat. Obshch. , 19 (1968) pp. 179–210 |
| [a2] | W. Kliemann, "Analysis of nonlinear stochastic systems" W. Schiehlen (ed.) W. Wedig (ed.) , Analysis and estimation of stochastic mechanical systems , Springer (Wien) (1988) pp. 43–102 |
| [a3] | L. Arnold (ed.) V. Wihstutz (ed.) , Lyapunov exponents , Lect. notes in math. , 1186 , Springer (1986) |
Multiplicative ergodic theorem. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Multiplicative_ergodic_theorem&oldid=49317