embedding spanning subgraphs of small bandwidth · embedding spanning subgraphs of small bandwidth...
TRANSCRIPT
![Page 1: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/1.jpg)
Embedding spanning subgraphs of small bandwidth
Embedding spanning subgraphs of small bandwidth
Julia Bottcher
Technische Universitat Munchen
EUROCOMB, September 11–15, 2007, Sevilla
(joint work with Mathias Schacht & Anusch Taraz)
Julia Bottcher TU Munchen Sevilla ’07
![Page 2: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/2.jpg)
Embedding spanning subgraphs of small bandwidth
Sufficient degree conditions for H ⊆ G
Theorem (Turan 1941)
If d(G) > r−2r−1n ⇒ Kr ⊆ G.
Julia Bottcher TU Munchen Sevilla ’07
![Page 3: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/3.jpg)
Embedding spanning subgraphs of small bandwidth
Sufficient degree conditions for H ⊆ G
Theorem (Turan 1941)
If d(G) > r−2r−1n ⇒ Kr ⊆ G.
Theorem (Erdos, Stone 1946)
If d(G) ≥(
χ(H)−2χ(H)−1 + o(1)
)
n ⇒ H ⊆ G.
Julia Bottcher TU Munchen Sevilla ’07
![Page 4: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/4.jpg)
Embedding spanning subgraphs of small bandwidth
Sufficient degree conditions for H ⊆ G
Theorem (Turan 1941)
If d(G) > r−2r−1n ⇒ Kr ⊆ G.
Theorem (Erdos, Stone 1946)
If d(G) ≥(
χ(H)−2χ(H)−1 + o(1)
)
n ⇒ H ⊆ G.
Question: What about spanning subgraphs?
Which minimum degree δ(G) ensures that every graph G contains a givenspanning graph H?
Julia Bottcher TU Munchen Sevilla ’07
![Page 5: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/5.jpg)
Embedding spanning subgraphs of small bandwidth
Sufficient degree conditions for H ⊆ G
Theorem (Dirac 1952)
δ(G) ≥ 12n ⇒ Ham ⊆ G
Question: What about spanning subgraphs?
Which minimum degree δ(G) ensures that every graph G contains a givenspanning graph H?
Julia Bottcher TU Munchen Sevilla ’07
![Page 6: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/6.jpg)
Embedding spanning subgraphs of small bandwidth
Sufficient degree conditions for H ⊆ G
Theorem (Dirac 1952)
δ(G) ≥ 12n ⇒ Ham ⊆ G
Theorem (Hajnal,Szemeredi 1969)
δ(G) ≥ r−1r n ⇒ ⌊n
r ⌋ disj. copies of Kr ⊆ G.
Question: What about spanning subgraphs?
Which minimum degree δ(G) ensures that every graph G contains a givenspanning graph H?
Julia Bottcher TU Munchen Sevilla ’07
![Page 7: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/7.jpg)
Embedding spanning subgraphs of small bandwidth
Sufficient degree conditions for H ⊆ G
Theorem (Dirac 1952)
δ(G) ≥ 12n ⇒ Ham ⊆ G
Theorem (Hajnal,Szemeredi 1969)
δ(G) ≥ 23n ⇒ ⊆ G
Question: What about spanning subgraphs?
Which minimum degree δ(G) ensures that every graph G contains a givenspanning graph H?
Julia Bottcher TU Munchen Sevilla ’07
![Page 8: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/8.jpg)
Embedding spanning subgraphs of small bandwidth
Conjecture of Bollobas and Komlos
Theorem
H
χ(H) = k
G
δ(G) ≥ ( k−1k + γ)n
=⇒ G contains H.
Julia Bottcher TU Munchen Sevilla ’07
![Page 9: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/9.jpg)
Embedding spanning subgraphs of small bandwidth
Conjecture of Bollobas and Komlos
Theorem
H
χ(H) = k
∆(H) ≤ ∆
G
δ(G) ≥ ( k−1k + γ)n
=⇒ G contains H.
Julia Bottcher TU Munchen Sevilla ’07
![Page 10: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/10.jpg)
Embedding spanning subgraphs of small bandwidth
Conjecture of Bollobas and Komlos
Theorem
H
χ(H) = k
∆(H) ≤ ∆
bw(H) ≤ βn
G
δ(G) ≥ ( k−1k + γ)n
=⇒ G contains H.
Julia Bottcher TU Munchen Sevilla ’07
![Page 11: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/11.jpg)
Embedding spanning subgraphs of small bandwidth
Conjecture of Bollobas and Komlos
Theorem
For all k , ∆ ≥ 1, and γ > 0 exists n0 and β > 0 s.t.
H
χ(H) = k
∆(H) ≤ ∆
bw(H) ≤ βn
G
δ(G) ≥ ( k−1k + γ)n
=⇒ G contains H.
Julia Bottcher TU Munchen Sevilla ’07
![Page 12: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/12.jpg)
Embedding spanning subgraphs of small bandwidth
Conjecture of Bollobas and Komlos
Theorem
For all k , ∆ ≥ 1, and γ > 0 exists n0 and β > 0 s.t.
H
χ(H) = k
∆(H) ≤ ∆
bw(H) ≤ βn
G
δ(G) ≥ ( k−1k + γ)n
=⇒ G contains H.
Bandwidth:
bw(H) ≤ b if there is a labelling of V (H) by 1, . . . , ns.t. for all {i, j} ∈ E(H) we have |i − j | ≤ b.
i jJulia Bottcher TU Munchen Sevilla ’07
![Page 13: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/13.jpg)
Embedding spanning subgraphs of small bandwidth
Conjecture of Bollobas and Komlos
Theorem
For all k , ∆ ≥ 1, and γ > 0 exists n0 and β > 0 s.t.
H
χ(H) = k
∆(H) ≤ ∆
bw(H) ≤ βn
G
δ(G) ≥ ( k−1k + γ)n
=⇒ G contains H.
Examples for H:
Hamiltonian cycles (bandwidth 2)
bounded degree planar graphs (bandwidth O(n/ log∆ n))
bounded degree graphs of sublinear tree width
Julia Bottcher TU Munchen Sevilla ’07
![Page 14: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/14.jpg)
Embedding spanning subgraphs of small bandwidth
The bandwidth condition is necessary
χ(H) =k , ∆(H) ≤ ∆ ,bw(H) ≤ βn
δ(G) ≥ ( k−1k + γ)n =⇒ G contains H
Julia Bottcher TU Munchen Sevilla ’07
![Page 15: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/15.jpg)
Embedding spanning subgraphs of small bandwidth
The bandwidth condition is necessary
χ(H) =2, ∆(H) ≤ ∆
δ(G) ≥ (2−12 + γ)n =⇒ G contains H
Julia Bottcher TU Munchen Sevilla ’07
![Page 16: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/16.jpg)
Embedding spanning subgraphs of small bandwidth
The bandwidth condition is necessary
χ(H) =2, ∆(H) ≤ ∆
δ(G) ≥ (3−13 + γ)n =⇒ G contains H
Counterexample:
H ′ : random bipartite graph on n4 + n
4 vertices with ∆(H) ≤ ∆3 .
H
H ′H ′H ′
n4
n4
n4
n4
G
n3
n3
n3
Julia Bottcher TU Munchen Sevilla ’07
![Page 17: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/17.jpg)
Embedding spanning subgraphs of small bandwidth
The bandwidth condition is necessary
χ(H) =2, ∆(H) ≤ ∆
δ(G) ≥ (3−13 + γ)n =⇒ G contains H
Counterexample:
H ′ : random bipartite graph on n4 + n
4 vertices with ∆(H) ≤ ∆3 .
H
H ′H ′H ′
n4
n4
n4
n4
G
n3
n3
n3
Julia Bottcher TU Munchen Sevilla ’07
![Page 18: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/18.jpg)
Embedding spanning subgraphs of small bandwidth
The bandwidth condition is necessary
χ(H) =2, ∆(H) ≤ ∆
δ(G) ≥ (3−13 + γ)n =⇒ G contains H
Counterexample:
H ′ : random bipartite graph on n4 + n
4 vertices with ∆(H) ≤ ∆3 .
H
H ′H ′H ′
n4
n4
n4
n4
G
n3
n3
n3
Reason: G has big subsets A and B with e(A, B) empty.
Julia Bottcher TU Munchen Sevilla ’07
![Page 19: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/19.jpg)
Embedding spanning subgraphs of small bandwidth
Thw role of the chromatic number
Theorem (Hajnal,Szemeredi 1969)
If δ(G) ≥ r−1r n ⇒ ⌊n
r ⌋ disj. copies of Kr ⊆ G.
Julia Bottcher TU Munchen Sevilla ’07
![Page 20: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/20.jpg)
Embedding spanning subgraphs of small bandwidth
Thw role of the chromatic number
Theorem (Komlos, Sarkozy, and Szemeredi 2001)
If δ(G) ≥ χ(H)−1χ(H)
n ⇒ ⌊ n|H|
⌋ disj. copies of H ⊆ G .
Julia Bottcher TU Munchen Sevilla ’07
![Page 21: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/21.jpg)
Embedding spanning subgraphs of small bandwidth
Thw role of the chromatic number
Theorem (Komlos, Sarkozy, and Szemeredi 2001)
If δ(G) ≥ χ(H)−1χ(H)
n ⇒ ⌊ n|H|
⌋ disj. copies of H ⊆ G .
Theorem (Komlos 2000)
If χ(H) is replaced by the chritical chromatic number χcr (H)
⇒ ⌊n−εn|H|
⌋ disj. copies of H ⊆ G.
Julia Bottcher TU Munchen Sevilla ’07
![Page 22: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/22.jpg)
Embedding spanning subgraphs of small bandwidth
Thw role of the chromatic number
Theorem (Komlos, Sarkozy, and Szemeredi 2001)
If δ(G) ≥ χ(H)−1χ(H)
n ⇒ ⌊ n|H|
⌋ disj. copies of H ⊆ G .
Theorem (Komlos 2000)
If χ(H) is replaced by the chritical chromatic number χcr (H)
⇒ ⌊n−εn|H|
⌋ disj. copies of H ⊆ G.
Chritical chromatic number:
σ := mincol. of H |smallest colour class|
χcr (H) := (χ(H) − 1)|H|
|H|−σ
it follows that χ(H) − 1 ≤ χcr (H) ≤ χ(H)
Julia Bottcher TU Munchen Sevilla ’07
![Page 23: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/23.jpg)
Embedding spanning subgraphs of small bandwidth
Thw role of the chromatic number
Theorem
For all k , ∆ ≥ 1, and γ > 0 exists n0 and β > 0 s.t.
H has a (k + 1)-colouring that colours ≤ βn vertices with 0 and is(8kβn, 4kβn)-zero free, ∆(H) ≤ ∆, bw(H) ≤ βn
δ(G) ≥ ( k−1k + γ)n
=⇒ G contains H
Julia Bottcher TU Munchen Sevilla ’07
![Page 24: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/24.jpg)
Embedding spanning subgraphs of small bandwidth
Thw role of the chromatic number
Theorem
For all k , ∆ ≥ 1, and γ > 0 exists n0 and β > 0 s.t.
H has a (k + 1)-colouring that colours ≤ βn vertices with 0 and is(8kβn, 4kβn)-zero free, ∆(H) ≤ ∆, bw(H) ≤ βn
δ(G) ≥ ( k−1k + γ)n
=⇒ G contains H
Assume V (G) is labelled with [n].
A (k + 1)-colouring is (x , y)-zero free if for all t ∈ [n] there is t ′ ∈ [t , t + x ]
s.t. no vertex in [t ′, t ′ + y ] is coloured 0. (colours {0, . . . , k })
Julia Bottcher TU Munchen Sevilla ’07
![Page 25: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/25.jpg)
Embedding spanning subgraphs of small bandwidth
Concluding remarks
Theorem
χ(H) = k, ∆(H) ≤ ∆, bw(H) ≤ βn
δ(G) ≥ ( k−1k + γ)n =⇒ G contains H
Julia Bottcher TU Munchen Sevilla ’07
![Page 26: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/26.jpg)
Embedding spanning subgraphs of small bandwidth
Concluding remarks
Theorem
χ(H) = k, ∆(H) ≤ ∆, bw(H) ≤ βn
δ(G) ≥ ( k−1k + γ)n =⇒ G contains H
When can the chromatic number be replaced by the chriticalchromatic number? SEE KUHN, OSTHUS 2007+
Julia Bottcher TU Munchen Sevilla ’07
![Page 27: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/27.jpg)
Embedding spanning subgraphs of small bandwidth
Concluding remarks
Theorem
χ(H) = k, ∆(H) ≤ ∆, bw(H) ≤ βn
δ(G) ≥ ( k−1k + γ)n =⇒ G contains H
When can the chromatic number be replaced by the chriticalchromatic number? SEE KUHN, OSTHUS 2007+
What about spanning graphs H of non-constant max. degree?
Julia Bottcher TU Munchen Sevilla ’07
![Page 28: Embedding spanning subgraphs of small bandwidth · Embedding spanning subgraphs of small bandwidth Sufficient degree conditions for H ⊆ G Theorem (Turan 1941)´ If d(G) > r−2](https://reader036.vdocuments.mx/reader036/viewer/2022081404/5f04a3ae7e708231d40ef833/html5/thumbnails/28.jpg)
Embedding spanning subgraphs of small bandwidth
Concluding remarks
Theorem
χ(H) = k, ∆(H) ≤ ∆, bw(H) ≤ βn
δ(G) ≥ ( k−1k + γ)n =⇒ G contains H
When can the chromatic number be replaced by the chriticalchromatic number? SEE KUHN, OSTHUS 2007+
What about spanning graphs H of non-constant max. degree?
Which further restrictions on G allow us to ommit the bandwidthrestriction on H?
Julia Bottcher TU Munchen Sevilla ’07