A Polish Borel space is measurably equivalent to a set of reals #
theorem
MeasureTheory.exists_nat_measurableEquiv_range_coe_fin_of_finite
(α : Type u_1)
[MeasurableSpace α]
[StandardBorelSpace α]
[Finite α]
:
theorem
MeasureTheory.measurableEquiv_range_coe_nat_of_infinite_of_countable
(α : Type u_1)
[MeasurableSpace α]
[StandardBorelSpace α]
[Infinite α]
[Countable α]
:
theorem
MeasureTheory.exists_subset_real_measurableEquiv
(α : Type u_1)
[MeasurableSpace α]
[StandardBorelSpace α]
:
Any standard Borel space is measurably equivalent to a subset of the reals.
theorem
MeasureTheory.exists_measurableEmbedding_real
(α : Type u_1)
[MeasurableSpace α]
[StandardBorelSpace α]
:
∃ (f : α → ℝ), MeasurableEmbedding f
Any standard Borel space embeds measurably into the reals.
noncomputable def
MeasureTheory.embeddingReal
(Ω : Type u_2)
[MeasurableSpace Ω]
[StandardBorelSpace Ω]
:
Ω → ℝ
A measurable embedding of a standard Borel space into ℝ
.
Equations
- MeasureTheory.embeddingReal Ω = ⋯.choose
Instances For
theorem
MeasureTheory.measurableEmbedding_embeddingReal
(Ω : Type u_2)
[MeasurableSpace Ω]
[StandardBorelSpace Ω]
: