PS #3

Transcription

PS #3
EECS 336 Problem Set 3
Due date: Feb 10, 2015
Lecturer: Shi Li
Your Name:
Your University ID:
Problems
Max. Score
Your Score
1
20
2
30
3
20
4
20
Total Score
80
The sum of the maximum scores of the 4 problems is 90. Your final score for this problem
set will be 80 if you get more than 80 points. This score will be scaled by 0.1 and added to
your final score for the course.
Problem 1 (20 points). Let G = (V, E) be a directed graph and w : E → R be a weight
function. Let a : V → R be a function on V . Then we define wa : E → R to be a new weight
function such that wa (u, v) := w(u, v) + a(u) − a(v) for every edge (u, v) ∈ E.
1. (10 points) Prove that for any u, v ∈ V , any shortest path from u to v in the weighted
graph (G, w) is also a shortest path from u to v in the weighted graph (G, w0 ).
2. (10 points) Show that if (G, w) does not contain a negative cycle, then there is a
function a such that wa (u, v) ≥ 0 for every (u, v) ∈ E.
Problem 2 (30 points).
(a) (20 points) Problem 15-2 on Page 405 of the textbook (longest palindrome subsequence).
(b) (10 points) Suppose the goal of the problem is to compute the length of the longest
palindrome (you do not need to give a longest palindrome). Give a O(n2 )-time O(n)space algorithm that computes the length of the longest palindrome. (n is the length
of the input string.)
Problem 3 (20 points).
Let G = (V, E) be a directed acyclic graph. Assume V =
{1, 2, 3, · · · , n} and all edges (i, j) ∈ E has i < j. Let w : E → R be a weight function.
We say a path is an even path if it contains an even number of edges. Give a O(E) time
algorithm that computes the shortest even path from 1 to n.
Problem 4 (20 points). Let T = (V, E) be a tree rooted at r and w : V → R>0 be a weight
function on vertices of T . Your goal is to compute the maximum-weight sub-graph T 0 of T ,
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such that T 0 is a tree rooted at r of degree at most 2. Give a dynamic programming algorithm
that computes the weight of T 0 . For example, for the following tree T , the maximum-weight
sub-graph T 0 satisfying the requirement has weight 227, as indicated by the yellow vertices
and red edges.
15
20
13
20
40
60
18
25
50
30
17
32
20
For simplicity, you may assume V = {1, 2, 3, · · · , n} and a child i of a vertex j has i < j.
(Thus, the root is n).
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