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COMP 3804代做、代写Python,c++程序语言
DATA STRUCTURES AND ALGORITHM ANALYSIS
COMP 3804
Assignment 3
Date Due: Friday, Nov 27, 2020
Time Due: 6pm
Your assignment should be typed and submitted online on CuLearn. You should upload a pdf file on CuLearn.
All questions are of equal value.
1. Suppose you want to place fast food restaurants at various locations along a highway. For simplicity, let
us model the highway as the X-axis. You have a list of potential locations for the fast food restaurants
x1, x2, . . . , xn. For simplicity, you may assume x1 < x2 < . . . < xn. For each location, you have an estimated
revenue r1, r2, . . . , rn. However, for environmental reasons, the distance between two fast food restaurants
must be at least 20 kilometers, that is for two consecutive fast food restaurants xi and xj , we must have
xj − xi ≥ 20. Design a placement algorithm that will optimize your estimated revenue. For example, if your
possible fast food restaurant locations are (2, 17, 24, 32, 48), and your estimated revenue is (9, 22, 11, 2,
12), then your optimal placement is one fast food restaurant at location 17 and one at 48 which gives you an
estimated revenue of 22+12=34. It is possible to place a fast food restaurant at locations 2, 24, 48 however,
that only gives you an estimated revenue of 9+11+12 = 32 which is less revenue. However, if your estimated
revenue is (9, 22, 14, 2, 12), that is the revenue of location 24 is 14 instead of 11, then the optimal solution
would be to place the fast food restaurants at 2, 24, 48.
(a) Design an algorithm to find a placement that maximizes revenue.
(b) Prove your algorithm is correct.
(c) Analyze the run Time of your algorithm. For full marks, your algorithm should run in O(n) time.
2. In class, we saw how given two strings x = x1x2 . . . xn and y = y1y2 . . . ym, we can find the longest common
substring. For example, if x = 9, 2, 8, 3, 7, 4, 1 and y = 2, 3, 9, 6, 8, 5, 7, 1, 4 then the longest common substring
is 9, 8, 7, 1. However, suppose we want to compute the longest one that is also increasing, which in this case
would be 2, 3, 4. Design an algorithm to Compute this. (Hint: We also saw in class how to compute the longest
increasing subsequence using Dynamic Programming. You need to figure out how to combine the ideas in both
algorithms to compute this).
(a) Design the algorithm.
(b) Prove your algorithm is correct.
(c) Analyze the run time of your algorithm. For full marks, your algorithm should run in polynomial time.
3. Let G = (V, E) be an undirected graph. Let s, t ∈ V be a pair of vertices such that the length of the shortest
path from s to t in G has length greater than |V |/2, i.e. the number of edges in this path is greater than |V |/2.
Prove or Disprove that there must exist a vertex v ∈ V − {s, t} such that the deletion of v disconnects G.
4. Let G = (V, E) be a simple connected graph. Let T be the tree that results when you run DFS on G from a
vertex v ∈ V . Let T be the same tree that results when you run BFS on G from vertex v. Prove or disprove that
G = T.
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COMP 3804 ASSIGNMENT 3 2
5. The chromatic number of a graph G is the smallest number of colors needed to color the vertices of G so that
no two adjacent vertices Get the same color, (i.e., the minimum number k such that the vertices of G can be
colored with k colors so that no two adjacent vertices get the same color). For example, a bipartite graph has
chromatic number 2. The length of a cycle in a graph is the number of edges (i.e. vertices) on that cycle. For
any cycle C, let its length be denoted by |C|.
(a) Let G be a graph. Suppose the following is true for G: for any two cycles C1 and C2 in G, if |C1| is odd
and |C2| is odd then C1 and C2 have a vertex in common. Prove that such a graph G can be colored with
at most five colors.
(b) Explain how you Can use DFS or BFS to find such a 5 coloring of the vertices. The runtime of your
algorithm should not exceed the runtime of DFS or BFS.
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