Triangle inequality for `Lp`-seminorm #

In this file we prove several versions of the triangle inequality for the Lp seminorm, as well as simple corollaries.

theorem MeasureTheory.eLpNorm'_add_le {α : Type u_1} {E : Type u_2} {m : MeasurableSpace α} [NormedAddCommGroup E] {q : ℝ} {μ : MeasureTheory.Measure α} {f : α → E} {g : α → E} (hf : MeasureTheory.AEStronglyMeasurable f μ) (hg : MeasureTheory.AEStronglyMeasurable g μ) (hq1 : 1 ≤ q) :

MeasureTheory.eLpNorm' (f + g) q μ ≤ MeasureTheory.eLpNorm' f q μ + MeasureTheory.eLpNorm' g q μ

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@[deprecated MeasureTheory.eLpNorm'_add_le]

theorem MeasureTheory.snorm'_add_le {α : Type u_1} {E : Type u_2} {m : MeasurableSpace α} [NormedAddCommGroup E] {q : ℝ} {μ : MeasureTheory.Measure α} {f : α → E} {g : α → E} (hf : MeasureTheory.AEStronglyMeasurable f μ) (hg : MeasureTheory.AEStronglyMeasurable g μ) (hq1 : 1 ≤ q) :

MeasureTheory.eLpNorm' (f + g) q μ ≤ MeasureTheory.eLpNorm' f q μ + MeasureTheory.eLpNorm' g q μ

Alias of MeasureTheory.eLpNorm'_add_le.

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theorem MeasureTheory.eLpNorm'_add_le_of_le_one {α : Type u_1} {E : Type u_2} {m : MeasurableSpace α} [NormedAddCommGroup E] {q : ℝ} {μ : MeasureTheory.Measure α} {f : α → E} {g : α → E} (hf : MeasureTheory.AEStronglyMeasurable f μ) (hq0 : 0 ≤ q) (hq1 : q ≤ 1) :

MeasureTheory.eLpNorm' (f + g) q μ ≤ 2 ^ (1 / q - 1) * (MeasureTheory.eLpNorm' f q μ + MeasureTheory.eLpNorm' g q μ)

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@[deprecated MeasureTheory.eLpNorm'_add_le_of_le_one]

theorem MeasureTheory.snorm'_add_le_of_le_one {α : Type u_1} {E : Type u_2} {m : MeasurableSpace α} [NormedAddCommGroup E] {q : ℝ} {μ : MeasureTheory.Measure α} {f : α → E} {g : α → E} (hf : MeasureTheory.AEStronglyMeasurable f μ) (hq0 : 0 ≤ q) (hq1 : q ≤ 1) :

MeasureTheory.eLpNorm' (f + g) q μ ≤ 2 ^ (1 / q - 1) * (MeasureTheory.eLpNorm' f q μ + MeasureTheory.eLpNorm' g q μ)

Alias of MeasureTheory.eLpNorm'_add_le_of_le_one.

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theorem MeasureTheory.eLpNormEssSup_add_le {α : Type u_1} {E : Type u_2} {m : MeasurableSpace α} [NormedAddCommGroup E] {μ : MeasureTheory.Measure α} {f : α → E} {g : α → E} :

MeasureTheory.eLpNormEssSup (f + g) μ ≤ MeasureTheory.eLpNormEssSup f μ + MeasureTheory.eLpNormEssSup g μ

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@[deprecated MeasureTheory.eLpNormEssSup_add_le]

theorem MeasureTheory.snormEssSup_add_le {α : Type u_1} {E : Type u_2} {m : MeasurableSpace α} [NormedAddCommGroup E] {μ : MeasureTheory.Measure α} {f : α → E} {g : α → E} :

MeasureTheory.eLpNormEssSup (f + g) μ ≤ MeasureTheory.eLpNormEssSup f μ + MeasureTheory.eLpNormEssSup g μ

Alias of MeasureTheory.eLpNormEssSup_add_le.

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theorem MeasureTheory.eLpNorm_add_le {α : Type u_1} {E : Type u_2} {m : MeasurableSpace α} [NormedAddCommGroup E] {p : ENNReal} {μ : MeasureTheory.Measure α} {f : α → E} {g : α → E} (hf : MeasureTheory.AEStronglyMeasurable f μ) (hg : MeasureTheory.AEStronglyMeasurable g μ) (hp1 : 1 ≤ p) :

MeasureTheory.eLpNorm (f + g) p μ ≤ MeasureTheory.eLpNorm f p μ + MeasureTheory.eLpNorm g p μ

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@[deprecated MeasureTheory.eLpNorm_add_le]

theorem MeasureTheory.snorm_add_le {α : Type u_1} {E : Type u_2} {m : MeasurableSpace α} [NormedAddCommGroup E] {p : ENNReal} {μ : MeasureTheory.Measure α} {f : α → E} {g : α → E} (hf : MeasureTheory.AEStronglyMeasurable f μ) (hg : MeasureTheory.AEStronglyMeasurable g μ) (hp1 : 1 ≤ p) :

MeasureTheory.eLpNorm (f + g) p μ ≤ MeasureTheory.eLpNorm f p μ + MeasureTheory.eLpNorm g p μ

Alias of MeasureTheory.eLpNorm_add_le.

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noncomputable def MeasureTheory.LpAddConst (p : ENNReal) :

ENNReal

A constant for the inequality ‖f + g‖_{L^p} ≤ C * (‖f‖_{L^p} + ‖g‖_{L^p}). It is equal to 1 for p ≥ 1 or p = 0, and 2^(1/p-1) in the more tricky interval (0, 1).

Equations

MeasureTheory.LpAddConst p = if p ∈ Set.Ioo 0 1 then 2 ^ (1 / p.toReal - 1) else 1

Instances For

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theorem MeasureTheory.LpAddConst_of_one_le {p : ENNReal} (hp : 1 ≤ p) :

MeasureTheory.LpAddConst p = 1

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theorem MeasureTheory.LpAddConst_zero :

MeasureTheory.LpAddConst 0 = 1

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theorem MeasureTheory.LpAddConst_lt_top (p : ENNReal) :

MeasureTheory.LpAddConst p < ⊤

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theorem MeasureTheory.eLpNorm_add_le' {α : Type u_1} {E : Type u_2} {m : MeasurableSpace α} [NormedAddCommGroup E] {μ : MeasureTheory.Measure α} {f : α → E} {g : α → E} (hf : MeasureTheory.AEStronglyMeasurable f μ) (hg : MeasureTheory.AEStronglyMeasurable g μ) (p : ENNReal) :

MeasureTheory.eLpNorm (f + g) p μ ≤ MeasureTheory.LpAddConst p * (MeasureTheory.eLpNorm f p μ + MeasureTheory.eLpNorm g p μ)

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@[deprecated MeasureTheory.eLpNorm_add_le']

theorem MeasureTheory.snorm_add_le' {α : Type u_1} {E : Type u_2} {m : MeasurableSpace α} [NormedAddCommGroup E] {μ : MeasureTheory.Measure α} {f : α → E} {g : α → E} (hf : MeasureTheory.AEStronglyMeasurable f μ) (hg : MeasureTheory.AEStronglyMeasurable g μ) (p : ENNReal) :

MeasureTheory.eLpNorm (f + g) p μ ≤ MeasureTheory.LpAddConst p * (MeasureTheory.eLpNorm f p μ + MeasureTheory.eLpNorm g p μ)

Alias of MeasureTheory.eLpNorm_add_le'.

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theorem MeasureTheory.exists_Lp_half {α : Type u_1} (E : Type u_2) {m : MeasurableSpace α} [NormedAddCommGroup E] (μ : MeasureTheory.Measure α) (p : ENNReal) {δ : ENNReal} (hδ : δ ≠ 0) :

∃ (η : ENNReal), 0 < η ∧ ∀ (f g : α → E), MeasureTheory.AEStronglyMeasurable f μ → MeasureTheory.AEStronglyMeasurable g μ → MeasureTheory.eLpNorm f p μ ≤ η → MeasureTheory.eLpNorm g p μ ≤ η → MeasureTheory.eLpNorm (f + g) p μ < δ

Technical lemma to control the addition of functions in L^p even for p < 1: Given δ > 0, there exists η such that two functions bounded by η in L^p have a sum bounded by δ. One could take η = δ / 2 for p ≥ 1, but the point of the lemma is that it works also for p < 1.

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theorem MeasureTheory.eLpNorm_sub_le' {α : Type u_1} {E : Type u_2} {m : MeasurableSpace α} [NormedAddCommGroup E] {μ : MeasureTheory.Measure α} {f : α → E} {g : α → E} (hf : MeasureTheory.AEStronglyMeasurable f μ) (hg : MeasureTheory.AEStronglyMeasurable g μ) (p : ENNReal) :

MeasureTheory.eLpNorm (f - g) p μ ≤ MeasureTheory.LpAddConst p * (MeasureTheory.eLpNorm f p μ + MeasureTheory.eLpNorm g p μ)

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@[deprecated MeasureTheory.eLpNorm_sub_le']

theorem MeasureTheory.snorm_sub_le' {α : Type u_1} {E : Type u_2} {m : MeasurableSpace α} [NormedAddCommGroup E] {μ : MeasureTheory.Measure α} {f : α → E} {g : α → E} (hf : MeasureTheory.AEStronglyMeasurable f μ) (hg : MeasureTheory.AEStronglyMeasurable g μ) (p : ENNReal) :

MeasureTheory.eLpNorm (f - g) p μ ≤ MeasureTheory.LpAddConst p * (MeasureTheory.eLpNorm f p μ + MeasureTheory.eLpNorm g p μ)

Alias of MeasureTheory.eLpNorm_sub_le'.

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theorem MeasureTheory.eLpNorm_sub_le {α : Type u_1} {E : Type u_2} {m : MeasurableSpace α} [NormedAddCommGroup E] {p : ENNReal} {μ : MeasureTheory.Measure α} {f : α → E} {g : α → E} (hf : MeasureTheory.AEStronglyMeasurable f μ) (hg : MeasureTheory.AEStronglyMeasurable g μ) (hp : 1 ≤ p) :

MeasureTheory.eLpNorm (f - g) p μ ≤ MeasureTheory.eLpNorm f p μ + MeasureTheory.eLpNorm g p μ

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@[deprecated MeasureTheory.eLpNorm_sub_le]

theorem MeasureTheory.snorm_sub_le {α : Type u_1} {E : Type u_2} {m : MeasurableSpace α} [NormedAddCommGroup E] {p : ENNReal} {μ : MeasureTheory.Measure α} {f : α → E} {g : α → E} (hf : MeasureTheory.AEStronglyMeasurable f μ) (hg : MeasureTheory.AEStronglyMeasurable g μ) (hp : 1 ≤ p) :

MeasureTheory.eLpNorm (f - g) p μ ≤ MeasureTheory.eLpNorm f p μ + MeasureTheory.eLpNorm g p μ

Alias of MeasureTheory.eLpNorm_sub_le.

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theorem MeasureTheory.eLpNorm_add_lt_top {α : Type u_1} {E : Type u_2} {m : MeasurableSpace α} [NormedAddCommGroup E] {p : ENNReal} {μ : MeasureTheory.Measure α} {f : α → E} {g : α → E} (hf : MeasureTheory.Memℒp f p μ) (hg : MeasureTheory.Memℒp g p μ) :

MeasureTheory.eLpNorm (f + g) p μ < ⊤

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@[deprecated MeasureTheory.eLpNorm_add_lt_top]

theorem MeasureTheory.snorm_add_lt_top {α : Type u_1} {E : Type u_2} {m : MeasurableSpace α} [NormedAddCommGroup E] {p : ENNReal} {μ : MeasureTheory.Measure α} {f : α → E} {g : α → E} (hf : MeasureTheory.Memℒp f p μ) (hg : MeasureTheory.Memℒp g p μ) :

MeasureTheory.eLpNorm (f + g) p μ < ⊤

Alias of MeasureTheory.eLpNorm_add_lt_top.

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theorem MeasureTheory.eLpNorm'_sum_le {α : Type u_1} {E : Type u_2} {m : MeasurableSpace α} [NormedAddCommGroup E] {q : ℝ} {μ : MeasureTheory.Measure α} {ι : Type u_3} {f : ι → α → E} {s : Finset ι} (hfs : ∀ i ∈ s, MeasureTheory.AEStronglyMeasurable (f i) μ) (hq1 : 1 ≤ q) :

MeasureTheory.eLpNorm' (∑ i ∈ s, f i) q μ ≤ ∑ i ∈ s, MeasureTheory.eLpNorm' (f i) q μ

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@[deprecated MeasureTheory.eLpNorm'_sum_le]

theorem MeasureTheory.snorm'_sum_le {α : Type u_1} {E : Type u_2} {m : MeasurableSpace α} [NormedAddCommGroup E] {q : ℝ} {μ : MeasureTheory.Measure α} {ι : Type u_3} {f : ι → α → E} {s : Finset ι} (hfs : ∀ i ∈ s, MeasureTheory.AEStronglyMeasurable (f i) μ) (hq1 : 1 ≤ q) :

MeasureTheory.eLpNorm' (∑ i ∈ s, f i) q μ ≤ ∑ i ∈ s, MeasureTheory.eLpNorm' (f i) q μ

Alias of MeasureTheory.eLpNorm'_sum_le.

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theorem MeasureTheory.eLpNorm_sum_le {α : Type u_1} {E : Type u_2} {m : MeasurableSpace α} [NormedAddCommGroup E] {p : ENNReal} {μ : MeasureTheory.Measure α} {ι : Type u_3} {f : ι → α → E} {s : Finset ι} (hfs : ∀ i ∈ s, MeasureTheory.AEStronglyMeasurable (f i) μ) (hp1 : 1 ≤ p) :

MeasureTheory.eLpNorm (∑ i ∈ s, f i) p μ ≤ ∑ i ∈ s, MeasureTheory.eLpNorm (f i) p μ

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@[deprecated MeasureTheory.eLpNorm_sum_le]

theorem MeasureTheory.snorm_sum_le {α : Type u_1} {E : Type u_2} {m : MeasurableSpace α} [NormedAddCommGroup E] {p : ENNReal} {μ : MeasureTheory.Measure α} {ι : Type u_3} {f : ι → α → E} {s : Finset ι} (hfs : ∀ i ∈ s, MeasureTheory.AEStronglyMeasurable (f i) μ) (hp1 : 1 ≤ p) :

MeasureTheory.eLpNorm (∑ i ∈ s, f i) p μ ≤ ∑ i ∈ s, MeasureTheory.eLpNorm (f i) p μ

Alias of MeasureTheory.eLpNorm_sum_le.

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theorem MeasureTheory.Memℒp.add {α : Type u_1} {E : Type u_2} {m : MeasurableSpace α} [NormedAddCommGroup E] {p : ENNReal} {μ : MeasureTheory.Measure α} {f : α → E} {g : α → E} (hf : MeasureTheory.Memℒp f p μ) (hg : MeasureTheory.Memℒp g p μ) :

MeasureTheory.Memℒp (f + g) p μ

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theorem MeasureTheory.Memℒp.sub {α : Type u_1} {E : Type u_2} {m : MeasurableSpace α} [NormedAddCommGroup E] {p : ENNReal} {μ : MeasureTheory.Measure α} {f : α → E} {g : α → E} (hf : MeasureTheory.Memℒp f p μ) (hg : MeasureTheory.Memℒp g p μ) :

MeasureTheory.Memℒp (f - g) p μ

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theorem MeasureTheory.memℒp_finset_sum {α : Type u_1} {E : Type u_2} {m : MeasurableSpace α} [NormedAddCommGroup E] {p : ENNReal} {μ : MeasureTheory.Measure α} {ι : Type u_3} (s : Finset ι) {f : ι → α → E} (hf : ∀ i ∈ s, MeasureTheory.Memℒp (f i) p μ) :

MeasureTheory.Memℒp (fun (a : α) => ∑ i ∈ s, f i a) p μ

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theorem MeasureTheory.memℒp_finset_sum' {α : Type u_1} {E : Type u_2} {m : MeasurableSpace α} [NormedAddCommGroup E] {p : ENNReal} {μ : MeasureTheory.Measure α} {ι : Type u_3} (s : Finset ι) {f : ι → α → E} (hf : ∀ i ∈ s, MeasureTheory.Memℒp (f i) p μ) :

MeasureTheory.Memℒp (∑ i ∈ s, f i) p μ

Documentation

Mathlib.MeasureTheory.Function.LpSeminorm.TriangleInequality

Triangle inequality for `Lp`-seminorm #

Triangle inequality for Lp-seminorm #

Triangle inequality for `Lp`-seminorm #