An isoperimetric-type inequality inside a cubeName for an inequality of isoperimetric typeLevy's isoperimetric inequality for sphereStronger version of the isoperimetric inequalityIsoperimetric-like inequality for non-connected setsHypercube isoperimetric inequality for non-increasing eventsPeculiar vertex-isoperimetric inequality on the discrete torus (and generalization)Isoperimetric inequality via Crofton's formulaAn isoperimetric type of inequality in terms of Wasserstein distance/Optimal transportA cube is placed inside another cubeA question of Ahlswede and Katona: known lower bounds on $beta(d,n)$?
An isoperimetric-type inequality inside a cube
Name for an inequality of isoperimetric typeLevy's isoperimetric inequality for sphereStronger version of the isoperimetric inequalityIsoperimetric-like inequality for non-connected setsHypercube isoperimetric inequality for non-increasing eventsPeculiar vertex-isoperimetric inequality on the discrete torus (and generalization)Isoperimetric inequality via Crofton's formulaAn isoperimetric type of inequality in terms of Wasserstein distance/Optimal transportA cube is placed inside another cubeA question of Ahlswede and Katona: known lower bounds on $beta(d,n)$?
$begingroup$
I am looking for a reference for the following inequality: if $Omega subset [0,1]^d$ satisfies $mboxvol(Omega) leq 1/2$, then
$$ mathcalH^d-1left( partialOmega cap (0,1)^dright) geq c_d mboxvol(Omega)^fracd-1d,$$
where $mathcalH^d-1$ is the $(d-1)-$dimensional Hausdorff measure and $c_d > 0$ is a universal constant depending only on $d$.
This is a variation of the classical isoperimetric inequality with the interesting addition that surface 'on the boundary of the cube' does not count. This seems like it should be known. A discrete version of this inequality (for subsets of the grid graph) was proven by Bollobas and Leader (Edge-isoperimetric inequalities in the grid, Combinatorica 1991) and it seems there is a wealth of information for the discrete case. Has anybody seen the continuous case stated somewhere?
reference-request mg.metric-geometry geometric-measure-theory isoperimetric-problems
asked 2 days ago
Stefan SteinerbergerStefan Steinerberger
433
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$begingroup$
I am looking for a reference for the following inequality: if $Omega subset [0,1]^d$ satisfies $mboxvol(Omega) leq 1/2$, then
$$ mathcalH^d-1left( partialOmega cap (0,1)^dright) geq c_d mboxvol(Omega)^fracd-1d,$$
where $mathcalH^d-1$ is the $(d-1)-$dimensional Hausdorff measure and $c_d > 0$ is a universal constant depending only on $d$.
This is a variation of the classical isoperimetric inequality with the interesting addition that surface 'on the boundary of the cube' does not count. This seems like it should be known. A discrete version of this inequality (for subsets of the grid graph) was proven by Bollobas and Leader (Edge-isoperimetric inequalities in the grid, Combinatorica 1991) and it seems there is a wealth of information for the discrete case. Has anybody seen the continuous case stated somewhere?
reference-request mg.metric-geometry geometric-measure-theory isoperimetric-problems
asked 2 days ago
Stefan SteinerbergerStefan Steinerberger
433
New contributor
Stefan Steinerberger is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
$endgroup$
add a comment |
$begingroup$
I am looking for a reference for the following inequality: if $Omega subset [0,1]^d$ satisfies $mboxvol(Omega) leq 1/2$, then
$$ mathcalH^d-1left( partialOmega cap (0,1)^dright) geq c_d mboxvol(Omega)^fracd-1d,$$
where $mathcalH^d-1$ is the $(d-1)-$dimensional Hausdorff measure and $c_d > 0$ is a universal constant depending only on $d$.
This is a variation of the classical isoperimetric inequality with the interesting addition that surface 'on the boundary of the cube' does not count. This seems like it should be known. A discrete version of this inequality (for subsets of the grid graph) was proven by Bollobas and Leader (Edge-isoperimetric inequalities in the grid, Combinatorica 1991) and it seems there is a wealth of information for the discrete case. Has anybody seen the continuous case stated somewhere?
reference-request mg.metric-geometry geometric-measure-theory isoperimetric-problems
asked 2 days ago
Stefan SteinerbergerStefan Steinerberger
433
New contributor
Stefan Steinerberger is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
$endgroup$
I am looking for a reference for the following inequality: if $Omega subset [0,1]^d$ satisfies $mboxvol(Omega) leq 1/2$, then
$$ mathcalH^d-1left( partialOmega cap (0,1)^dright) geq c_d mboxvol(Omega)^fracd-1d,$$
where $mathcalH^d-1$ is the $(d-1)-$dimensional Hausdorff measure and $c_d > 0$ is a universal constant depending only on $d$.
This is a variation of the classical isoperimetric inequality with the interesting addition that surface 'on the boundary of the cube' does not count. This seems like it should be known. A discrete version of this inequality (for subsets of the grid graph) was proven by Bollobas and Leader (Edge-isoperimetric inequalities in the grid, Combinatorica 1991) and it seems there is a wealth of information for the discrete case. Has anybody seen the continuous case stated somewhere?
reference-request mg.metric-geometry geometric-measure-theory isoperimetric-problems
reference-request mg.metric-geometry geometric-measure-theory isoperimetric-problems
asked 2 days ago
Stefan SteinerbergerStefan Steinerberger
433
New contributor
Stefan Steinerberger is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
asked 2 days ago
Stefan SteinerbergerStefan Steinerberger
433
New contributor
Stefan Steinerberger is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
edited 2 days ago
Stefan Steinerberger
asked 2 days ago
Stefan SteinerbergerStefan Steinerberger
433
New contributor
Stefan Steinerberger is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
asked 2 days ago
Stefan SteinerbergerStefan Steinerberger
433
asked 2 days ago
Stefan SteinerbergerStefan Steinerberger
433
433
New contributor
Stefan Steinerberger is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
New contributor
Stefan Steinerberger is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
Stefan Steinerberger is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
add a comment |
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1 Answer
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This result is known as the relative isoperimetric inequality, see e.g. Functions of Bounded Variation by L. Ambrosio, N. Fusco and D. Pallara (2000), Eq. (3.43).
It follows from Poincare inequality (see e.g. Eq. (3.41) in the cited book) applied to $chi_Omega$ (the indicator of the set $Omega$). Indeed, by Poincare inequality it holds
$|chi_Omega - mboxvol(Omega)|_L^p((0,1)^d) le C |Dchi_Omega|((0,1)^d)$, where $p=fracdd-1$. Here $|Dchi_Omega|((0,1)^d)=mathcalH^d-1(partial Omega cap (0,1^d))$ if $partial Omega$ is sufficiently smooth.
And
$$
|chi_Omega - mboxvol(Omega)|_p = bigl((1 - mboxvol(Omega))^p mboxvol(Omega) + mboxvol(Omega)^p (1 - mboxvol(Omega))bigr)^1/p ge frac12 mboxvol(Omega)^1/p
$$
since $mboxvol(Omega) le frac12$.
answered 2 days ago
SkeeveSkeeve
1,020614
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$begingroup$
Thanks for the reference!
$endgroup$
– Stefan Steinerberger
2 days ago
add a comment |
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1 Answer
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1 Answer
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$begingroup$
This result is known as the relative isoperimetric inequality, see e.g. Functions of Bounded Variation by L. Ambrosio, N. Fusco and D. Pallara (2000), Eq. (3.43).
It follows from Poincare inequality (see e.g. Eq. (3.41) in the cited book) applied to $chi_Omega$ (the indicator of the set $Omega$). Indeed, by Poincare inequality it holds
$|chi_Omega - mboxvol(Omega)|_L^p((0,1)^d) le C |Dchi_Omega|((0,1)^d)$, where $p=fracdd-1$. Here $|Dchi_Omega|((0,1)^d)=mathcalH^d-1(partial Omega cap (0,1^d))$ if $partial Omega$ is sufficiently smooth.
And
$$
|chi_Omega - mboxvol(Omega)|_p = bigl((1 - mboxvol(Omega))^p mboxvol(Omega) + mboxvol(Omega)^p (1 - mboxvol(Omega))bigr)^1/p ge frac12 mboxvol(Omega)^1/p
$$
since $mboxvol(Omega) le frac12$.
answered 2 days ago
SkeeveSkeeve
1,020614
$endgroup$
$begingroup$
Thanks for the reference!
$endgroup$
– Stefan Steinerberger
2 days ago
add a comment |
$begingroup$
This result is known as the relative isoperimetric inequality, see e.g. Functions of Bounded Variation by L. Ambrosio, N. Fusco and D. Pallara (2000), Eq. (3.43).
It follows from Poincare inequality (see e.g. Eq. (3.41) in the cited book) applied to $chi_Omega$ (the indicator of the set $Omega$). Indeed, by Poincare inequality it holds
$|chi_Omega - mboxvol(Omega)|_L^p((0,1)^d) le C |Dchi_Omega|((0,1)^d)$, where $p=fracdd-1$. Here $|Dchi_Omega|((0,1)^d)=mathcalH^d-1(partial Omega cap (0,1^d))$ if $partial Omega$ is sufficiently smooth.
And
$$
|chi_Omega - mboxvol(Omega)|_p = bigl((1 - mboxvol(Omega))^p mboxvol(Omega) + mboxvol(Omega)^p (1 - mboxvol(Omega))bigr)^1/p ge frac12 mboxvol(Omega)^1/p
$$
since $mboxvol(Omega) le frac12$.
answered 2 days ago
SkeeveSkeeve
1,020614
$endgroup$
$begingroup$
Thanks for the reference!
$endgroup$
– Stefan Steinerberger
2 days ago
add a comment |
$begingroup$
This result is known as the relative isoperimetric inequality, see e.g. Functions of Bounded Variation by L. Ambrosio, N. Fusco and D. Pallara (2000), Eq. (3.43).
It follows from Poincare inequality (see e.g. Eq. (3.41) in the cited book) applied to $chi_Omega$ (the indicator of the set $Omega$). Indeed, by Poincare inequality it holds
$|chi_Omega - mboxvol(Omega)|_L^p((0,1)^d) le C |Dchi_Omega|((0,1)^d)$, where $p=fracdd-1$. Here $|Dchi_Omega|((0,1)^d)=mathcalH^d-1(partial Omega cap (0,1^d))$ if $partial Omega$ is sufficiently smooth.
And
$$
|chi_Omega - mboxvol(Omega)|_p = bigl((1 - mboxvol(Omega))^p mboxvol(Omega) + mboxvol(Omega)^p (1 - mboxvol(Omega))bigr)^1/p ge frac12 mboxvol(Omega)^1/p
$$
since $mboxvol(Omega) le frac12$.
answered 2 days ago
SkeeveSkeeve
1,020614
$endgroup$
This result is known as the relative isoperimetric inequality, see e.g. Functions of Bounded Variation by L. Ambrosio, N. Fusco and D. Pallara (2000), Eq. (3.43).
It follows from Poincare inequality (see e.g. Eq. (3.41) in the cited book) applied to $chi_Omega$ (the indicator of the set $Omega$). Indeed, by Poincare inequality it holds
$|chi_Omega - mboxvol(Omega)|_L^p((0,1)^d) le C |Dchi_Omega|((0,1)^d)$, where $p=fracdd-1$. Here $|Dchi_Omega|((0,1)^d)=mathcalH^d-1(partial Omega cap (0,1^d))$ if $partial Omega$ is sufficiently smooth.
And
$$
|chi_Omega - mboxvol(Omega)|_p = bigl((1 - mboxvol(Omega))^p mboxvol(Omega) + mboxvol(Omega)^p (1 - mboxvol(Omega))bigr)^1/p ge frac12 mboxvol(Omega)^1/p
$$
since $mboxvol(Omega) le frac12$.
answered 2 days ago
SkeeveSkeeve
1,020614
answered 2 days ago
SkeeveSkeeve
1,020614
answered 2 days ago
SkeeveSkeeve
1,020614
answered 2 days ago
SkeeveSkeeve
1,020614
1,020614
$begingroup$
Thanks for the reference!
$endgroup$
– Stefan Steinerberger
2 days ago
add a comment |
$begingroup$
Thanks for the reference!
$endgroup$
– Stefan Steinerberger
2 days ago
$begingroup$
Thanks for the reference!
$endgroup$
– Stefan Steinerberger
2 days ago
$begingroup$
Thanks for the reference!
$endgroup$
– Stefan Steinerberger
2 days ago
add a comment |
Stefan Steinerberger is a new contributor. Be nice, and check out our Code of Conduct.
Stefan Steinerberger is a new contributor. Be nice, and check out our Code of Conduct.
Stefan Steinerberger is a new contributor. Be nice, and check out our Code of Conduct.
Stefan Steinerberger is a new contributor. Be nice, and check out our Code of Conduct.
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