高级算法 (Fall 2023)/Problem Set 2: Difference between revisions
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== Problem 1 (Graph Laplacian) == | == Problem 1 (Graph Laplacian) == | ||
* ['''Spectrum of special graphs'''] Find eigenvalues of the Laplacian matrices of the following graphs: | * ['''Spectrum of special graphs'''] Find eigenvalues of the Laplacian matrices of the following graphs: | ||
* | *# The complete graph with <math>n</math> vertices. | ||
* | *# The star graph with <math>n</math> vertices. |
Revision as of 07:30, 24 November 2023
- 本次作业每个Problem分值10分,满分 分。
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Problem 1 (Adjacency matrix)
Let [math]\displaystyle{ A }[/math] be the adjacency matrix of an undirected connected graph [math]\displaystyle{ G }[/math], and [math]\displaystyle{ \alpha_1 }[/math] be its largest eigenvalue.
- [Lowerbounding [math]\displaystyle{ \alpha_1 }[/math]] We proved [math]\displaystyle{ \alpha_1 \le d_{\mathrm{max}} }[/math] in class. Show that [math]\displaystyle{ \alpha_1 \ge d_{\mathrm{avg}} }[/math] where [math]\displaystyle{ d_{\mathrm{avg}}:=\frac{2|E|}{|V|} }[/math] is the average degree of the graph.
- [Monotonicity of the spectrum] Let [math]\displaystyle{ A' }[/math] be the adjacency matrix of any subgraph of [math]\displaystyle{ A }[/math] produced by deleting vertices, and let [math]\displaystyle{ \alpha_1' }[/math] be the largest eigenvalue of [math]\displaystyle{ A' }[/math]. Show that [math]\displaystyle{ \alpha'_1\leq \alpha_1 }[/math].
- [Coloring number] The chromatic number [math]\displaystyle{ \chi(G) }[/math] of a graph is the smallest number of colors needed to color the vertices of [math]\displaystyle{ G }[/math] so that no two adjacent vertices share same color. Prove that [math]\displaystyle{ \chi(G) \le \lfloor \alpha_1 \rfloor +1 }[/math].
Problem 1 (Graph Laplacian)
- [Spectrum of special graphs] Find eigenvalues of the Laplacian matrices of the following graphs:
- The complete graph with [math]\displaystyle{ n }[/math] vertices.
- The star graph with [math]\displaystyle{ n }[/math] vertices.