文档详细内容(约30页)
△-free→El≤n2/4 Second Proof. ∑(d+d)=d uw∈E u∈V △-free→du+d,≤n→∑(du+du)≤nlEl uv∈E Cauchy-Schwarz ( 2 4E2 (handshaking) m w∈V mE≥∑d+d)=∑≥②ev4)°- 4E2 m uv∈E v∈V m
-free 㱺 |E| ≤ n2/4 Second Proof. uvE (du + dv) = vV d2 v u v (du + dv) Cauchy-Schwarz ⇤ vV d2 v 1 n ⇤ vV dv ⇥2 = 4|E| 2 n -free ⇥ du + dv n ⇥ uvE (du + dv) n|E| n|E| ⌅ uvE (du + dv) = ⌅ vV d2 v ⇤ vV dv ⇥2 n = 4|E| 2 n (handshaking)
△-free→lEl≤n2/4 Second Proof. 为8 >(d+d)=d uw∈E u∈V △-free→du+dv≤n→(du+d)≤nlEl uu∈E Cauchy-Schwarz 呢(a) 4E2 (handshaking) w∈V V m nE≥ 4E2 > E≤ 2 m 4
-free 㱺 |E| ≤ n2/4 Second Proof. uvE (du + dv) = vV d2 v Cauchy-Schwarz ⇤ vV d2 v 1 n ⇤ vV dv ⇥2 = 4|E| 2 n -free ⇥ du + dv n ⇥ uvE (du + dv) n|E| n|E| 4|E| 2 n (handshaking) |E| n2 4 u v (du + dv)
△-free→lEl≤n2/4 Third Proof. A:maximum independent set a lAl independent v∈V,d≤a dv B=V\A B incident to all edges B=B ⊙和 Inequality of the arithmetic and geometric mean B 因≤sa时s(2)f- 4 u∈B
-free 㱺 |E| ≤ n2/4 Third Proof. A: maximum independent set B = V \ A α = |A| β = |B| v ⇤ ⇥ ⌅ dv independent ⇤v ⇥ V, dv B B incident to all edges ⇥ + ⇥ 2 ⇥2 |E| vB dv = n2 4 Inequality of the arithmetic and geometric mean
Turan's Theorem "Suppose G is a K-free graph What is the largest number of edges that G can have?" Paul Turan (1910-1976)
Turán's Theorem Paul Turán (1910-1976) “Suppose G is a Kr -free graph. What is the largest number of edges that G can have?
Turan's Theorem Theorem (Turan 1941) If G(V,E)has Iv=n and is K,-free,then E卧≤ r-2n2 (r-1)
Turán's Theorem Theorem (Turán 1941) If G(V,E) has |V|=n and is Kr-free, then |E| ⇥ r 2 2(r 1)n2
