counting classical patterns in sn(132) and sn(123)duqiu/files/ucla19.pdfpattern distribution in...
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![Page 1: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/1.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
1/45
Counting classical patterns in Sn(132) andSn(123)
Dun QiuUC San Diego
Based on joint work with Jeffrey Remmel
University of California, Los Angeles
January 17, 2019
![Page 2: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/2.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
2/45
Outline
1 Motivation
2 Introduction
3 Counting Patterns in Sn(132)
4 Counting Patterns in Sn(123)
5 Applications in Pattern Popularity
6 Applications in Circular Permutations
![Page 3: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/3.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
2/45
Outline
1 Motivation
2 Introduction
3 Counting Patterns in Sn(132)
4 Counting Patterns in Sn(123)
5 Applications in Pattern Popularity
6 Applications in Circular Permutations
![Page 4: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/4.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
3/45
Motivation
Ran Pan’s Project P
http://www.math.ucsd.edu/∼projectp/
Problem 13: enumerate permutations in Sn avoiding aclassical pattern and a consecutive pattern at the same time.
Pan, Remmel and I worked on the distribution of consecutivepatterns in Sn(132) and Sn(123).
Remmel and I started work on the distribution of classicalpatterns in Sn(132) and Sn(123).
![Page 5: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/5.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
3/45
Outline
1 Motivation
2 Introduction
3 Counting Patterns in Sn(132)
4 Counting Patterns in Sn(123)
5 Applications in Pattern Popularity
6 Applications in Circular Permutations
![Page 6: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/6.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
4/45
Permutations, LRmins
A permutation σ = σ1 · · ·σn of [n] = {1, . . . , n} is arearrangement of the numbers 1, . . . , n.
The set of permutations of [n] is denoted by Sn.
We let LRmin(σ) denote the number of left to rightminima of σ.
3672418
![Page 7: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/7.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
4/45
Permutations, LRmins
A permutation σ = σ1 · · ·σn of [n] = {1, . . . , n} is arearrangement of the numbers 1, . . . , n.
The set of permutations of [n] is denoted by Sn.
We let LRmin(σ) denote the number of left to rightminima of σ.
3672418
![Page 8: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/8.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
4/45
Permutations, LRmins
A permutation σ = σ1 · · ·σn of [n] = {1, . . . , n} is arearrangement of the numbers 1, . . . , n.
The set of permutations of [n] is denoted by Sn.
We let LRmin(σ) denote the number of left to rightminima of σ.
3672418
![Page 9: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/9.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
5/45
Inversions, Coinversions
(σi , σj) is an inversion if i < j and σi > σj .
inv(σ) denotes the number of inversions in σ.
(σi , σj) is a coinversion if i < j and σi < σj .
coinv(σ) denotes the number of coinversions in σ.
σ = 24531inv(σ) = 6 {(2, 1), (4, 3), (4, 1), (5, 3), (5, 1), (3, 1)}coinv(σ) = 4 {(2, 4), (2, 5), (2, 3), (4, 5)}
![Page 10: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/10.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
5/45
Inversions, Coinversions
(σi , σj) is an inversion if i < j and σi > σj .
inv(σ) denotes the number of inversions in σ.
(σi , σj) is a coinversion if i < j and σi < σj .
coinv(σ) denotes the number of coinversions in σ.
σ = 24531inv(σ) = 6 {(2, 1), (4, 3), (4, 1), (5, 3), (5, 1), (3, 1)}coinv(σ) = 4 {(2, 4), (2, 5), (2, 3), (4, 5)}
![Page 11: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/11.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
5/45
Inversions, Coinversions
(σi , σj) is an inversion if i < j and σi > σj .
inv(σ) denotes the number of inversions in σ.
(σi , σj) is a coinversion if i < j and σi < σj .
coinv(σ) denotes the number of coinversions in σ.
σ = 24531inv(σ) = 6 {(2, 1), (4, 3), (4, 1), (5, 3), (5, 1), (3, 1)}coinv(σ) = 4 {(2, 4), (2, 5), (2, 3), (4, 5)}
![Page 12: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/12.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
6/45
Reduction of A Sequence
Given a sequence of distinct positive integers w = w1 . . .wn,we let the reduction (or standardization) of the sequence,red(w), denote the permutation of [n] obtained from w byreplacing the i-th smallest letter in w by i .
Example
If w = 4592, then red(w) = 2341.
![Page 13: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/13.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
7/45
Classical Patterns Occurrence and Avoidance
Given a permutation τ = τ1 . . . τj in Sj ,
we say the pattern τ occurs in σ = σ1 . . . σn ∈ Sn if thereexist 1 ≤ i1 < · · · < ij ≤ n such that red(σi1 . . . σij ) = τ .
We let occrτ (σ) denote the number of τ occurrence in σ.
We say σ avoids the pattern τ if τ does not occur in σ.
Example
π = 867932451 avoids pattern 132, contains pattern 123.occr123(π) = 2 since pattern occurrences are 6, 7, 9 and 3, 4, 5.
τ is called a classical pattern.
inversion −→ pattern 21, coinversion −→ pattern 12.
![Page 14: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/14.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
7/45
Classical Patterns Occurrence and Avoidance
Given a permutation τ = τ1 . . . τj in Sj ,
we say the pattern τ occurs in σ = σ1 . . . σn ∈ Sn if thereexist 1 ≤ i1 < · · · < ij ≤ n such that red(σi1 . . . σij ) = τ .
We let occrτ (σ) denote the number of τ occurrence in σ.
We say σ avoids the pattern τ if τ does not occur in σ.
Example
π = 867932451 avoids pattern 132, contains pattern 123.occr123(π) = 2 since pattern occurrences are 6, 7, 9 and 3, 4, 5.
τ is called a classical pattern.
inversion −→ pattern 21, coinversion −→ pattern 12.
![Page 15: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/15.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
7/45
Classical Patterns Occurrence and Avoidance
Given a permutation τ = τ1 . . . τj in Sj ,
we say the pattern τ occurs in σ = σ1 . . . σn ∈ Sn if thereexist 1 ≤ i1 < · · · < ij ≤ n such that red(σi1 . . . σij ) = τ .
We let occrτ (σ) denote the number of τ occurrence in σ.
We say σ avoids the pattern τ if τ does not occur in σ.
Example
π = 867932451 avoids pattern 132, contains pattern 123.occr123(π) = 2 since pattern occurrences are 6, 7, 9 and 3, 4, 5.
τ is called a classical pattern.
inversion −→ pattern 21, coinversion −→ pattern 12.
![Page 16: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/16.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
7/45
Classical Patterns Occurrence and Avoidance
Given a permutation τ = τ1 . . . τj in Sj ,
we say the pattern τ occurs in σ = σ1 . . . σn ∈ Sn if thereexist 1 ≤ i1 < · · · < ij ≤ n such that red(σi1 . . . σij ) = τ .
We let occrτ (σ) denote the number of τ occurrence in σ.
We say σ avoids the pattern τ if τ does not occur in σ.
Example
π = 867932451 avoids pattern 132, contains pattern 123.occr123(π) = 2 since pattern occurrences are 6, 7, 9 and 3, 4, 5.
τ is called a classical pattern.
inversion −→ pattern 21, coinversion −→ pattern 12.
![Page 17: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/17.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
7/45
Classical Patterns Occurrence and Avoidance
Given a permutation τ = τ1 . . . τj in Sj ,
we say the pattern τ occurs in σ = σ1 . . . σn ∈ Sn if thereexist 1 ≤ i1 < · · · < ij ≤ n such that red(σi1 . . . σij ) = τ .
We let occrτ (σ) denote the number of τ occurrence in σ.
We say σ avoids the pattern τ if τ does not occur in σ.
Example
π = 867932451 avoids pattern 132, contains pattern 123.occr123(π) = 2 since pattern occurrences are 6, 7, 9 and 3, 4, 5.
τ is called a classical pattern.
inversion −→ pattern 21, coinversion −→ pattern 12.
![Page 18: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/18.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
7/45
Classical Patterns Occurrence and Avoidance
Given a permutation τ = τ1 . . . τj in Sj ,
we say the pattern τ occurs in σ = σ1 . . . σn ∈ Sn if thereexist 1 ≤ i1 < · · · < ij ≤ n such that red(σi1 . . . σij ) = τ .
We let occrτ (σ) denote the number of τ occurrence in σ.
We say σ avoids the pattern τ if τ does not occur in σ.
Example
π = 867932451 avoids pattern 132, contains pattern 123.occr123(π) = 2 since pattern occurrences are 6, 7, 9 and 3, 4, 5.
τ is called a classical pattern.
inversion −→ pattern 21, coinversion −→ pattern 12.
![Page 19: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/19.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
8/45
Sn(σ)
We let Sn(λ) denote the set of permutations in Snavoiding λ.
Let Λ = {λ1, . . . , λr}, then Sn(Λ) is the set ofpermutations in Sn avoiding λ1, . . . , λr .
∣∣Sn(132)∣∣ =
∣∣Sn(123)∣∣ = Cn = 1
n+1
(2nn
), the nth Catalan
number.
Cn is also the number of n × n Dyck paths.
![Page 20: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/20.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
8/45
Sn(σ)
We let Sn(λ) denote the set of permutations in Snavoiding λ.
Let Λ = {λ1, . . . , λr}, then Sn(Λ) is the set ofpermutations in Sn avoiding λ1, . . . , λr .
∣∣Sn(132)∣∣ =
∣∣Sn(123)∣∣ = Cn = 1
n+1
(2nn
), the nth Catalan
number.
Cn is also the number of n × n Dyck paths.
![Page 21: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/21.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
9/45
Our Problem
Given two sets of permutations Λ = {λ1, . . . , λr} andΓ = {γ1, . . . , γs}, we study the distribution of classical patternsγ1, . . . , γs in Sn(Λ).
Especially, we study pattern τ distribution in Sn(132) andSn(123) in the case when τ is of length 3 and some specialform.
![Page 22: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/22.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
10/45
Generating Function
For Γ = {γ1, . . . , γs}, we define
Generating functions QΓn,Λ, QΓ
Λ
QΓn,Λ(x1, . . . , xs) =
∑σ∈Sn(Λ)
xoccrγ1 (σ)1 · · · xoccrγs (σ)
s , and
QΓΛ(t, x1, . . . , xs) = 1 +
∑n≥1
tnQΓn,Λ(x1, . . . , xs)
= 1 +∑n≥1
tn∑
σ∈Sn(Λ)
xoccrγ1 (σ)1 · · · xoccrγs (σ)
s .
![Page 23: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/23.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
11/45
Generating Function
Especially, we have
Generating functions Qγn,λ, Qγ
λ
Qγn,λ(x) =
∑σ∈Sn(λ)
xoccrγ(σ) and
Qγλ(t, x) = 1 +
∑n≥1
tnQγn,λ(x) = 1 +
∑n≥1
tn∑
σ∈Sn(λ)
xoccrγ(σ).
![Page 24: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/24.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
12/45
Wilf-equivalence
Given a permutation σ = σ1σ2 . . . σn ∈ Sn,
reverse : σr = σn . . . σ2σ1,
complement :σc = (n + 1− σ1)(n + 1− σ2) . . . (n + 1− σn),
reverse-complement : σrc = (σr )c ,
inverse : σ−1.
Example
Let σ = 15324, thenσr = 42351, σc = 51342, σrc = 24315, σ−1 = 14352.
![Page 25: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/25.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
12/45
Wilf-equivalence
Given a permutation σ = σ1σ2 . . . σn ∈ Sn,
reverse : σr = σn . . . σ2σ1,
complement :σc = (n + 1− σ1)(n + 1− σ2) . . . (n + 1− σn),
reverse-complement : σrc = (σr )c ,
inverse : σ−1.
Example
Let σ = 15324, thenσr = 42351, σc = 51342, σrc = 24315, σ−1 = 14352.
![Page 26: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/26.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
13/45
Wilf-equivalence
Lemma
Given any permutation pattern γ,
Qγλ(t, x) = Qγ∗
λ∗ (t, x),
where ∗ is r , c , rc or −1.
reason: e.g. σ ∈ Sn(λ)←→ σr ∈ Sn(λr ),
occrγ(σ) = occrγr (σr ).
![Page 27: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/27.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
14/45
Wilf-equivalence
Since 123 = 123rc = 123−1 and 132 = 132−1, we have thefollowing corollary.
Corollary
Given any permutation pattern γ,
Qγ123(t, x) = Qγrc
123(t, x) = Qγ−1
123 (t, x),
Qγ132(t, x) = Qγ−1
132 (t, x).
![Page 28: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/28.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
15/45
Wilf-equivalence
When we let γ be a pattern of length 3,
Corollary
There are 4 Wilf-equivalent classes for Sn(132),(1) Q123
132 (t, x),(2) Q213
132 (t, x),(3) Q231
132 (t, x) = Q312132 (t, x),
(4) Q321132 (t, x),
and there are 3 Wilf-equivalent classes for Sn(123),(1) Q132
123 (t, x) = Q213123 (t, x),
(2) Q231123 (t, x) = Q312
123 (t, x),(3) Q321
123 (t, x).
![Page 29: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/29.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
16/45
Method – Using Dyck Path Bijections
An (n, n)-Dyck path is a path from (0, 0) to (n, n) that stayson or below the diagonal y = x .
The return of a Dyck path P is the smallest number i > 0 suchthat P goes through the point (i , i).
Example: a (9, 9)-Dyck path.(0, 0)
(9, 9)
return= 4
![Page 30: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/30.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
17/45
Method – Using Dyck Path Bijections
Krattenthaler’s map Φ : Sn(132)→ Dn.
8
67
9
43
2
5
1
→
![Page 31: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/31.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
18/45
Method – Using Dyck Path Bijections
Elizalde and Deutsch’s map Ψ : Sn(123)→ Dn.
8
6
9
7
43
2
5
1
→
![Page 32: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/32.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
19/45
Method – Using Dyck Path Bijections
Then, we the recursion of Dyck path by breaking the path atthe first place it hits the diagonal to break it into 2 Dyck paths.
Let D(x) be the generating function enumerating the numberof Dyck paths of size n,
D(x) = 1 + xD(x)2.
D(x)
D(x)
x
Recursion of Dyck path
![Page 33: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/33.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
20/45
Method – Recursive Counting for Sn(132)
Let σ = σ1 · · ·σn ∈ Sn(132) such that σk = n. The numbersσ1, . . . , σk−1 must be bigger than the numbers σk+1, . . . , σn.
We let A(σ) = red(σ1 · · ·σk−1) and B(σ) = red(σk+1 · · ·σn),then A(σ) ∈ Sk−1(132) and B(σ) ∈ Sn−k(132).
A(σ)
B(σ)
n
![Page 34: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/34.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
20/45
Outline
1 Motivation
2 Introduction
3 Counting Patterns in Sn(132)
4 Counting Patterns in Sn(123)
5 Applications in Pattern Popularity
6 Applications in Circular Permutations
![Page 35: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/35.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
21/45
Counting Length 2 pattern in Sn(132)
We first consider permutations that are avoiding 132 and thedistribution of pattern of length 2, i.e. inv and coinv.
Let Qn(x1, x2) := Q{12,21}n,132 (x1, x2),
Q(t, x1, x2) := Q{12,21}132 (t, x1, x2).
![Page 36: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/36.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
22/45
Counting Length 2 pattern in Sn(132)
Let Qn(x1, x2) := Q{12,21}n,132 (x1, x2),
Q(t, x1, x2) := Q{12,21}132 (t, x1, x2).
Theorem (Furlinger and Hofbauer)
Q0(x1, x2) = 1
Qn(x1, x2) =n∑
k=1
xk−11 x
k(n−k)2 Qk−1(x1, x2)Qn−k(x1, x2),
andQ(t, x , 1) = 1 + tQ(t, x , 1) · Q(tx , x , 1).
Qn(q, 1) is q-Catalan number.
![Page 37: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/37.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
23/45
Counting Length 3 pattern in Sn(132)
Let Γ2 = {12, 21} and Γ3 = {123, 213, 231, 312, 321} be sets ofpermutation patterns. We shall prove the following theoremabout the function
QΓ2∪Γ3n,132 (x1, x2, x3, x4, x5, x6, x7)
= Q{12,21,123,213,231,312,321}n,132 (x1, x2, x3, x4, x5, x6, x7)
![Page 38: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/38.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
24/45
Counting Length 3 pattern in Sn(132)
Theorem
The function QΓ2∪Γ3n,132 (x1, x2, x3, x4, x5, x6, x7) satisfies the
recursionQ0(x1, x2, x3, x4, x5, x6, x7) = 1,
Qn(x1, x2, x3, x4, x5, x6, x7) =n∑
k=1
xk−11 x
k(n−k)2 x
(k−1)(n−k)5
· Qk−1(x1x3x(n−k)5 , x2x4x
(n−k)7 , x3, x4, x5, x6, x7)
· Qn−k(x1xk6 , x2x
k7 , x3, x4, x5, x6, x7).
![Page 39: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/39.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
25/45
Counting Length 3 pattern in Sn(132)
LetPγn (q, x) :=
∑σ∈Sn(132)
qcoinv(σ)xoccrγ(σ),
then
Pγ0 (q, x) = 1 for each pattern γ, and
![Page 40: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/40.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
26/45
Counting Length 3 pattern in Sn(132)
Corollary
We have the following equations.
P123n (q, x) =
n∑k=1
qk−1Pk−1(qx , x)Pn−k(q, x),
P213n (q, x) =
n∑k=1
qk−1x(k−1)(k−2)
2 Pk−1(q
x, x)Pn−k(q, x),
P231n (q, x) =
n∑k=1
qk−1x (k−1)(n−k)Pk−1(qx (n−k), x)Pn−k(q, x), and
P321n (q, x) =
n∑k=1
qk−1x(n−k)(kn−4k+2)
2 Pk−1(q
xn−k, x)Pn−k(
q
xk, x).
![Page 41: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/41.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
27/45
Track all patterns of length 2 and 3 in Sn(132)
Expansion of Q{12,21,123,213,231,312,321}n,132 (x1, x2, x3, x4, x5, x6, x7)
n Q12,21,123,213,231,312,321n,132 (x1, x2, x3, x4, x5, x6, x7)
0 11 12 x1 + x2
3 x31x7 + x2
1x2x5 + x21x2x6 + x1x
22x4 + x3
2x3
4 x61x
47 + x5
1x2x25x
27 + x5
1x2x5x6x27 + x5
1x2x26x
27 + x4
1x22x4x
25x7 + x4
1x22x4x
26x7 + x4
1x22x
25x
26
+x31x
32x3x
35 + x3
1x32x3x
36 + x3
1x32x
34x7 + x2
1x42x3x
24x5 + x2
1x42x3x
24x6 + x1x
52x
23x
24 + x6
2x43
5 x101 x10
7 + x91x2x
35x
77 + x9
1x2x25x6x
77 + x9
1x2x5x26x
77 + x9
1x2x36x
77 + x8
1x22x4x
45x
57 + x8
1x22x4x
25x
26x
57
+x81x
22x4x
46x
57 + x8
1x22x
45x
26x
47 + x8
1x22x
35x
36x
47 + x8
1x22x
25x
46x
47 + x7
1x32x3x
65x
37 + x7
1x32x3x
35x
36x
37
+x71x
32x3x
66x
37 + x7
1x32x
34x
35x
47 + x7
1x32x
34x
36x
47 + x7
1x32x4x
45x
36x
27 + x7
1x32x4x
35x
46x
27 + x6
1x42x3x
24x
55x
27
+x61x
42x3x
24x
45x6x
27 + x6
1x42x3x
24x5x
46x
27 + x6
1x42x3x
24x
56x
27 + x6
1x42x3x
65x
36 + x6
1x42x3x
35x
66
+x61x
42x
64x
47 + x5
1x52x
23x
24x
55x7 + x5
1x52x
23x
24x
56x7 + x5
1x52x3x
54x
25x
27 + x5
1x52x3x
54x5x6x
27
+x51x
52x3x
54x
26x
27 + x4
1x62x
43x
65 + x4
1x62x
43x
66 + x4
1x62x
23x
54x
25x7 + x4
1x62x
23x
54x
26x7 + x4
1x62x
23x
44x
25x
26
+x31x
72x
43x
34x
35 + x3
1x72x
43x
34x
36 + x3
1x72x
33x
64x7 + x2
1x82x
53x
44x5 + x2
1x82x
53x
44x6 + x1x
92x
73x
34 + x10
2 x103
![Page 42: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/42.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
28/45
Track all patterns of length 2, 3 and 4 in Sn(132)
Let Γ4 = S4(132). We want to computeQΓ2∪Γ3∪Γ4
n,132 (x1, . . . , x21). We shall do a refinement:
Qn,i (x1, . . . , x19) := QΓ2∪Γ3∪Γ4n,132 (x , 1, x1, . . . , x19)
∣∣x i,
then
QΓ2∪Γ3∪Γ4n,132 (x1, . . . , x21) =
(n2)∑i=0
x i1x(n2)−i2 Qn,i (x3, . . . , x21).
![Page 43: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/43.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
28/45
Track all patterns of length 2, 3 and 4 in Sn(132)
Let Γ4 = S4(132). We want to computeQΓ2∪Γ3∪Γ4
n,132 (x1, . . . , x21). We shall do a refinement:
Qn,i (x1, . . . , x19) := QΓ2∪Γ3∪Γ4n,132 (x , 1, x1, . . . , x19)
∣∣x i,
then
QΓ2∪Γ3∪Γ4n,132 (x1, . . . , x21) =
(n2)∑i=0
x i1x(n2)−i2 Qn,i (x3, . . . , x21).
![Page 44: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/44.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
29/45
Track all patterns of length 2, 3 and 4 in Sn(132)
Theorem
Q0,0(x1, . . . , x5, y1, . . . , y14) = 1,
Qn,i (x1, . . . , x5, y1, . . . , y14) = 0 for i < 0 or i >
(n
2
), and
Qn,i (x1, . . . , x5, y1, . . . , y14) =n∑
k=1
i+1−k∑j=0
x j1x(k−1
2 )−j2
x(n−k)(k+j−1)3 x
k(i+1−k−j)4 x
(n−k)((k−12 )−j)+k((n−k
2 )+k+j−i−1)5
yj(n−k)4 y
((k−12 )−j)(n−k)
7 y(j+k−1)(i+1−k−j)8 y
(j+k−1)((n−k2 )+k+j−i−1)
9
y((k−1
2 )−j)(i+1−k−j)13 y
((k−12 )−j)((n−k
2 )+k+j−i−1))
14 ·Qk−1,j(x1y1yn−k4 ,
x2y2yn−k7 , x3y3y
n−k9 , x4y5y
n−k12 , x5y6y
n−k14 , y1, . . . , y14)
· Qn−k,i+1−k−j(x1yk10, x2y
k11, x3y
k12, x4y
k13, x5y
k14, y1, . . . , y14).
![Page 45: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/45.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
29/45
Track all patterns of length 2, 3 and 4 in Sn(132)
Theorem
Q0,0(x1, . . . , x5, y1, . . . , y14) = 1,
Qn,i (x1, . . . , x5, y1, . . . , y14) = 0 for i < 0 or i >
(n
2
), and
Qn,i (x1, . . . , x5, y1, . . . , y14) =n∑
k=1
i+1−k∑j=0
x j1x(k−1
2 )−j2
x(n−k)(k+j−1)3 x
k(i+1−k−j)4 x
(n−k)((k−12 )−j)+k((n−k
2 )+k+j−i−1)5
yj(n−k)4 y
((k−12 )−j)(n−k)
7 y(j+k−1)(i+1−k−j)8 y
(j+k−1)((n−k2 )+k+j−i−1)
9
y((k−1
2 )−j)(i+1−k−j)13 y
((k−12 )−j)((n−k
2 )+k+j−i−1))
14 ·Qk−1,j(x1y1yn−k4 ,
x2y2yn−k7 , x3y3y
n−k9 , x4y5y
n−k12 , x5y6y
n−k14 , y1, . . . , y14)
· Qn−k,i+1−k−j(x1yk10, x2y
k11, x3y
k12, x4y
k13, x5y
k14, y1, . . . , y14).
![Page 46: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/46.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
30/45
Special Case: γ = 1 · · ·m for Sn(132)
Given m ≥ 2 and n ≥ 0, we let
Q(m)n,132(x2, x3, . . . , xm) :=
∑σ∈Sn(132)
xoccr12(σ)2 x
occr123(σ)3 · · · xoccr12···m(σ)
m and
Q(m)132 (t, x2, x3, . . . , xm) :=
∑n≥0
tnQ(m)n,132(x2, x3, . . . , xm).
![Page 47: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/47.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
31/45
Special Case: γ = 1 · · ·m for Sn(132)
Theorem
Q(m)n,132(x2, . . . , xm) =
n∑k=1
xk−12
· Q(m)k−1,132(x2x3, x3x4, . . . , xm−1xm, xm)Q
(m)n−k,132(x2, . . . , xm),
Q(m)132 (t, x2, . . . , xm) = 1 + t
· Q(m)132 (tx2, x2x3, x3x4, . . . , xm−1xm, xm) · Q(m)
132 (t, x2, . . . , xm).
![Page 48: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/48.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
31/45
Outline
1 Motivation
2 Introduction
3 Counting Patterns in Sn(132)
4 Counting Patterns in Sn(123)
5 Applications in Pattern Popularity
6 Applications in Circular Permutations
![Page 49: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/49.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
32/45
Counting Length 3 pattern in Sn(123)
We also get nice recursions for patterns 132 and 231distributions in Sn(123).
Theorem (when γ = 132)
Let Q132n,123(s, q, x) =
∑σ∈Sn(123) s
LRmin(σ)qcoinv(σ)xoccr132(σ),then we have the following recursions,
Q1320,123(s, q, x) = 1,
Q132n,123(s, q, x) = sQn−1 +
n∑k=2
Qk−1(sq, qx , x)Qn−k(s, q, x).
![Page 50: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/50.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
33/45
Counting Length 3 pattern in Sn(123)
Given σ ∈ Sn(123), we let linv(σ) be the number of pairs (i , j)such that σi is a left-to-right minimum, σj is not a left-to-rightminimum and σi > σj .
We define
Dn(s, q, x , y) :=∑
σ∈Sn(123)
sLRmin(σ)qoccr12(σ)x linv(σ)yoccr231(σ),
Dn,k(q, x , y) :=∑
σ∈Sn(123),LRmin(σ)=k
qoccr12(σ)x linv(σ)yoccr231(σ).
![Page 51: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/51.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
33/45
Counting Length 3 pattern in Sn(123)
Given σ ∈ Sn(123), we let linv(σ) be the number of pairs (i , j)such that σi is a left-to-right minimum, σj is not a left-to-rightminimum and σi > σj . We define
Dn(s, q, x , y) :=∑
σ∈Sn(123)
sLRmin(σ)qoccr12(σ)x linv(σ)yoccr231(σ),
Dn,k(q, x , y) :=∑
σ∈Sn(123),LRmin(σ)=k
qoccr12(σ)x linv(σ)yoccr231(σ).
![Page 52: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/52.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
34/45
Counting Length 3 pattern in Sn(123)
Theorem
D0(s, q, x , y) = D0,0(q, x , y) = 1. For any n, k ≥ 1,Dn,1(q, x , y) = qn−1, Dn,n(q, x , y) = 1,Dn,k(q, x , y) = 0 for k > n, and
Dn,k(q, x , y) = xn−kDn−1,k−1(q, x , y) + qkDn−1,k(q, xy , y)
+n−1∑i=2
min(i−1,k−1)∑j=max(1,k+i−n)
qjx j(n−i−k+j)y j(n−i)
· Di−1,j(qyn−i , xy , y)Dn−i ,k−j(q, x , y).
![Page 53: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/53.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
35/45
Special Case: γ = 1 · · ·m for Sn(123)
We define
Q(m)n,123(s, x2, . . . , xm) :=
∑σ∈Sn(123)
sLRmin(σ)xoccr12(σ)2 · · · xoccr1m(m−1)···2(σ)
m ,
Q(m)123 (t, s, x2, . . . , xm) :=
∑n≥0
tnQn,123(s, x2, x3, . . . , xm).
![Page 54: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/54.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
36/45
Special Case: γ = 1 · · ·m for Sn(132)
Theorem
Q(m)n,123(s, x2, . . . , xm) = sQ
(m)n−1,123(s, x2, . . . , xm)
+n∑
k=2
Q(m)k−1,123(sx2, x2x3, x3x4, . . . , xm−1xm, xm)
· Q(m)n−k,123(s, x2, . . . , xm),
and
Q(m)123 (t, s, x2, . . . , xm) = 1 + t(s − 1)Q
(m)123 (t, s, x2, . . . , xm)
+ tQ(m)123 (t, sx2, x2x3, x3x4, . . . , xm−1xm, xm)
· Q(m)123 (t, s, x2, . . . , xm).
![Page 55: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/55.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
37/45
An equality between Sn(132) and Sn(123)
By looking at the coefficients of the generating functions, wefind a coincidence among Sn(132) and Sn(123). We have thefollowing theorem.
Theorem
For any nonnegative integers i < j ,
[tnx i ]Q1···j
132 (t,x)= [tnx i ]
Q1j···2123 (t,x)
.
![Page 56: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/56.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
37/45
Outline
1 Motivation
2 Introduction
3 Counting Patterns in Sn(132)
4 Counting Patterns in Sn(123)
5 Applications in Pattern Popularity
6 Applications in Circular Permutations
![Page 57: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/57.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
38/45
Applications in Pattern Popularity
Let S be a set of permutations and γ be a permutationpattern. The popularity of γ in S , fS(γ), is defined by
fS(γ) :=∑σ∈S
occr(γ).
Let
Fγ(t) :=∑n≥0
fSn(132)(γ)tn and
Gγ(t) :=∑n≥0
fSn(123)(γ)tn,
![Page 58: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/58.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
38/45
Applications in Pattern Popularity
Let S be a set of permutations and γ be a permutationpattern. The popularity of γ in S , fS(γ), is defined by
fS(γ) :=∑σ∈S
occr(γ).
Let
Fγ(t) :=∑n≥0
fSn(132)(γ)tn and
Gγ(t) :=∑n≥0
fSn(123)(γ)tn,
![Page 59: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/59.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
39/45
Applications in Pattern Popularity
Bona and Homberger studied the popularity of length 2 or 3patterns in Sn(132) and Sn(123).
Theorem (Bona and Homberger)
Let C (t) :=∑
n≥0 Cntn be the generating function of Catalan
numbers. Then
F12(t) =t2C 3(t)
(1− 2tC (t))2,
G12(t) =tC 2(t)
1− 2tC (t).
![Page 60: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/60.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
40/45
Applications in Pattern Popularity
Our results implies the following.
Theorem
Let m > 2 be an integer. Then
F12···m(t) =tC (t)F12···(m−1)(t)
1− 2tC (t), and
G1m···2(t) =tC (t)G1(m−1)···2(t)
1− 2tC (t).
![Page 61: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/61.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
40/45
Outline
1 Motivation
2 Introduction
3 Counting Patterns in Sn(132)
4 Counting Patterns in Sn(123)
5 Applications in Pattern Popularity
6 Applications in Circular Permutations
![Page 62: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/62.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
41/45
Circular Permutation Pattern Distribution
Circular permutations: permutations with one cycle. CSn:the set of size n circular permutations.
σ = (σ1 · · ·σn) ∈ CSn can also be expressed as(σi · · ·σnσ1 · · ·σi−1) for any i = 1, . . . , n.
coccrγ(σ): total occurrence of γ in all expressionsσi · · ·σnσ1 · · ·σi−1 for any i = 1, . . . , n.
CSn(λ) when |λ| = 1, 2 or 3 are trivial.
By symmetry, we only need to study circular patterndistribution in CSn(1234), CSn(1243) and CSn(1324)when |λ| = 4.
![Page 63: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/63.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
41/45
Circular Permutation Pattern Distribution
Circular permutations: permutations with one cycle. CSn:the set of size n circular permutations.
σ = (σ1 · · ·σn) ∈ CSn can also be expressed as(σi · · ·σnσ1 · · ·σi−1) for any i = 1, . . . , n.
coccrγ(σ): total occurrence of γ in all expressionsσi · · ·σnσ1 · · ·σi−1 for any i = 1, . . . , n.
CSn(λ) when |λ| = 1, 2 or 3 are trivial.
By symmetry, we only need to study circular patterndistribution in CSn(1234), CSn(1243) and CSn(1324)when |λ| = 4.
![Page 64: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/64.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
41/45
Circular Permutation Pattern Distribution
Circular permutations: permutations with one cycle. CSn:the set of size n circular permutations.
σ = (σ1 · · ·σn) ∈ CSn can also be expressed as(σi · · ·σnσ1 · · ·σi−1) for any i = 1, . . . , n.
coccrγ(σ): total occurrence of γ in all expressionsσi · · ·σnσ1 · · ·σi−1 for any i = 1, . . . , n.
CSn(λ) when |λ| = 1, 2 or 3 are trivial.
By symmetry, we only need to study circular patterndistribution in CSn(1234), CSn(1243) and CSn(1324)when |λ| = 4.
![Page 65: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/65.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
41/45
Circular Permutation Pattern Distribution
Circular permutations: permutations with one cycle. CSn:the set of size n circular permutations.
σ = (σ1 · · ·σn) ∈ CSn can also be expressed as(σi · · ·σnσ1 · · ·σi−1) for any i = 1, . . . , n.
coccrγ(σ): total occurrence of γ in all expressionsσi · · ·σnσ1 · · ·σi−1 for any i = 1, . . . , n.
CSn(λ) when |λ| = 1, 2 or 3 are trivial.
By symmetry, we only need to study circular patterndistribution in CSn(1234), CSn(1243) and CSn(1324)when |λ| = 4.
![Page 66: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/66.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
42/45
Circular Pattern Distribution in CSn(1243)
Let Pn,1243(y123, y132, y1234, y1324, y1342, y1423, y1432) :=∑σ∈CSn(1243)
ycoccr123(σ)123 y
coccr132(σ)132 y
coccr1234(σ)1234 y
coccr1324(σ)1324
· y coccr1342(σ)1342 y
coccr1423(σ)1423 y
coccr1432(σ)1432 .
Theorem
For any n ≥ 1,
Pn,1243(y132, y1234, y1324, y1342, y1423, y1432)
= QΓ2∪Γ3∪Γ4n−1,132 (y123, y132, y123 y1234, y132 y1324, y123 y1342,
y123 y1423, y132 y1432, y1234, y1342, y1423, y1234, 0, y1432,
y1324, y1234, y1342, y1234, y1342, y1423, 0, y1432).
![Page 67: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/67.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
42/45
Circular Pattern Distribution in CSn(1243)
Let Pn,1243(y123, y132, y1234, y1324, y1342, y1423, y1432) :=∑σ∈CSn(1243)
ycoccr123(σ)123 y
coccr132(σ)132 y
coccr1234(σ)1234 y
coccr1324(σ)1324
· y coccr1342(σ)1342 y
coccr1423(σ)1423 y
coccr1432(σ)1432 .
Theorem
For any n ≥ 1,
Pn,1243(y132, y1234, y1324, y1342, y1423, y1432)
= QΓ2∪Γ3∪Γ4n−1,132 (y123, y132, y123 y1234, y132 y1324, y123 y1342,
y123 y1423, y132 y1432, y1234, y1342, y1423, y1234, 0, y1432,
y1324, y1234, y1342, y1234, y1342, y1423, 0, y1432).
![Page 68: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/68.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
43/45
Circular Pattern Distribution in CSn(1324)
Let Pn,1324(y123, y132, y1234, y1243, y1342, y1423, y1432) :=∑σ∈CSn(1324)
ycoccr123(σ)123 y
coccr132(σ)132 y
coccr1234(σ)1234 y
coccr1243(σ)1243
· y coccr1342(σ)1342 y
coccr1423(σ)1423 y
coccr1432(σ)1432 ,
Theorem
For any n ≥ 1,
Pn,1324(y132, y1234, y1243, y1342, y1423, y1432)
= QΓ2∪Γ3∪Γ4n−1,132 (y123, y132, y123 y1234, y132 y1342, y123 y1423,
y123 y1243, y132 y1432, y1234, y1342, y1423, y1234, y1243, y1432, 0,
y1234, y1342, y1234, y1342, y1423, y1243, y1432).
![Page 69: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/69.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
43/45
Circular Pattern Distribution in CSn(1324)
Let Pn,1324(y123, y132, y1234, y1243, y1342, y1423, y1432) :=∑σ∈CSn(1324)
ycoccr123(σ)123 y
coccr132(σ)132 y
coccr1234(σ)1234 y
coccr1243(σ)1243
· y coccr1342(σ)1342 y
coccr1423(σ)1423 y
coccr1432(σ)1432 ,
Theorem
For any n ≥ 1,
Pn,1324(y132, y1234, y1243, y1342, y1423, y1432)
= QΓ2∪Γ3∪Γ4n−1,132 (y123, y132, y123 y1234, y132 y1342, y123 y1423,
y123 y1243, y132 y1432, y1234, y1342, y1423, y1234, y1243, y1432, 0,
y1234, y1342, y1234, y1342, y1423, y1243, y1432).
![Page 70: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/70.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
44/45
Open Problems
Pattern 321 distribution in Sn(123)? Longer patterns inSn(123)?
Pattern distribution in CSn(1234)?
There are some equalities of coefficients of generatingfunctions Qγ
132 and Qγ123.
Other applications in pattern popularities?
Sn(λ) when |λ| ≥ 4?
![Page 71: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/71.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
44/45
Open Problems
Pattern 321 distribution in Sn(123)? Longer patterns inSn(123)?
Pattern distribution in CSn(1234)?
There are some equalities of coefficients of generatingfunctions Qγ
132 and Qγ123.
Other applications in pattern popularities?
Sn(λ) when |λ| ≥ 4?
![Page 72: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/72.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
44/45
Open Problems
Pattern 321 distribution in Sn(123)? Longer patterns inSn(123)?
Pattern distribution in CSn(1234)?
There are some equalities of coefficients of generatingfunctions Qγ
132 and Qγ123.
Other applications in pattern popularities?
Sn(λ) when |λ| ≥ 4?
![Page 73: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/73.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
44/45
Open Problems
Pattern 321 distribution in Sn(123)? Longer patterns inSn(123)?
Pattern distribution in CSn(1234)?
There are some equalities of coefficients of generatingfunctions Qγ
132 and Qγ123.
Other applications in pattern popularities?
Sn(λ) when |λ| ≥ 4?
![Page 74: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/74.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
44/45
Open Problems
Pattern 321 distribution in Sn(123)? Longer patterns inSn(123)?
Pattern distribution in CSn(1234)?
There are some equalities of coefficients of generatingfunctions Qγ
132 and Qγ123.
Other applications in pattern popularities?
Sn(λ) when |λ| ≥ 4?
![Page 75: Counting classical patterns in Sn(132) and Sn(123)duqiu/files/UCLA19.pdfPattern distribution in Sn(132) and Sn(123) Dun Qiu Motivation Introduction Counting Patterns in Sn(132) Counting](https://reader036.vdocuments.us/reader036/viewer/2022081623/6146a9e0f4263007b13552e8/html5/thumbnails/75.jpg)
Patterndistribution inSn(132) andSn(123)
Dun Qiu
Motivation
Introduction
CountingPatterns inSn(132)
CountingPatterns inSn(123)
Applications inPatternPopularity
Applications inCircularPermutations
45/45
Thank You!