Post on 17-Aug-2015
transcript
Kruskal’s Algorithm
Work with edges, rather than nodesTwo steps:
– Sort edges by increasing edge weight– Select the first |V| – 1 edges that do not
generate a cycle
Kruskal's Algorithm
Initialization:
MST=NULL;
Select an edge of min weight and add it to MST
Iteration:
repeat till n-1 edges are added to MST
1.select a minimum edge
2.add it to MST if it does not form a cycle with existing selections else discard
Kruskals Algorithm
Input:
A connected weighted graph G = {V, E}
Initialization:
VMST = EMST = null
Iteration:
for i = 1 to |V|
select an edge v1,v2 with minimum weight such that it does not form a cycle with existing selected edges.
Add (v1,v2) to EMST
return EMST
Sort the edges by increasing edge weight
edge dv
(D,E) 1
(D,G) 2
(E,G) 3
(C,D) 3
(G,H) 3
(C,F) 3
(B,C) 4
5
1
A
HB
F
E
D
C
G 3
2
4
6
34
3
48
4
3
10 edge dv
(B,E) 4
(B,F) 4
(B,H) 4
(A,H) 5
(D,F) 6
(A,B) 8
(A,F) 10
Select first |V|–1 edges which do not generate a cycle
edge dv
(D,E) 1
(D,G) 2
(E,G) 3
(C,D) 3
(G,H) 3
(C,F) 3
(B,C) 4
5
1
A
HB
F
E
D
C
G 3
2
4
6
34
3
48
4
3
10 edge dv
(B,E) 4
(B,F) 4
(B,H) 4
(A,H) 5
(D,F) 6
(A,B) 8
(A,F) 10
Select first |V|–1 edges which do not generate a cycle
edge dv
(D,E) 1
(D,G) 2
(E,G) 3
(C,D) 3
(G,H) 3
(C,F) 3
(B,C) 4
5
1
A
HB
F
E
D
C
G 3
2
4
6
34
3
48
4
3
10 edge dv
(B,E) 4
(B,F) 4
(B,H) 4
(A,H) 5
(D,F) 6
(A,B) 8
(A,F) 10
Select first |V|–1 edges which do not generate a cycle
edge dv
(D,E) 1
(D,G) 2
(E,G) 3
(C,D) 3
(G,H) 3
(C,F) 3
(B,C) 4
5
1
A
HB
F
E
D
C
G 3
2
4
6
34
3
48
4
3
10 edge dv
(B,E) 4
(B,F) 4
(B,H) 4
(A,H) 5
(D,F) 6
(A,B) 8
(A,F) 10
Accepting edge (E,G) would create a cycle
Select first |V|–1 edges which do not generate a cycle
edge dv
(D,E) 1
(D,G) 2
(E,G) 3
(C,D) 3
(G,H) 3
(C,F) 3
(B,C) 4
5
1
A
HB
F
E
D
C
G 3
2
4
6
34
3
48
4
3
10 edge dv
(B,E) 4
(B,F) 4
(B,H) 4
(A,H) 5
(D,F) 6
(A,B) 8
(A,F) 10
Select first |V|–1 edges which do not generate a cycle
edge dv
(D,E) 1
(D,G) 2
(E,G) 3
(C,D) 3
(G,H) 3
(C,F) 3
(B,C) 4
5
1
A
HB
F
E
D
C
G 3
2
4
6
34
3
48
4
3
10 edge dv
(B,E) 4
(B,F) 4
(B,H) 4
(A,H) 5
(D,F) 6
(A,B) 8
(A,F) 10
Select first |V|–1 edges which do not generate a cycle
edge dv
(D,E) 1
(D,G) 2
(E,G) 3
(C,D) 3
(G,H) 3
(C,F) 3
(B,C) 4
5
1
A
HB
F
E
D
C
G 3
2
4
6
34
3
48
4
3
10 edge dv
(B,E) 4
(B,F) 4
(B,H) 4
(A,H) 5
(D,F) 6
(A,B) 8
(A,F) 10
Select first |V|–1 edges which do not generate a cycle
edge dv
(D,E) 1
(D,G) 2
(E,G) 3
(C,D) 3
(G,H) 3
(C,F) 3
(B,C) 4
5
1
A
HB
F
E
D
C
G 3
2
4
6
34
3
48
4
3
10 edge dv
(B,E) 4
(B,F) 4
(B,H) 4
(A,H) 5
(D,F) 6
(A,B) 8
(A,F) 10
Select first |V|–1 edges which do not generate a cycle
edge dv
(D,E) 1
(D,G) 2
(E,G) 3
(C,D) 3
(G,H) 3
(C,F) 3
(B,C) 4
5
1
A
HB
F
E
D
C
G 3
2
4
6
34
3
48
4
3
10 edge dv
(B,E) 4
(B,F) 4
(B,H) 4
(A,H) 5
(D,F) 6
(A,B) 8
(A,F) 10
Select first |V|–1 edges which do not generate a cycle
edge dv
(D,E) 1
(D,G) 2
(E,G) 3
(C,D) 3
(G,H) 3
(C,F) 3
(B,C) 4
5
1
A
HB
F
E
D
C
G 3
2
4
6
34
3
48
4
3
10 edge dv
(B,E) 4
(B,F) 4
(B,H) 4
(A,H) 5
(D,F) 6
(A,B) 8
(A,F) 10
Select first |V|–1 edges which do not generate a cycle
edge dv
(D,E) 1
(D,G) 2
(E,G) 3
(C,D) 3
(G,H) 3
(C,F) 3
(B,C) 4
5
1
A
HB
F
E
D
C
G 3
2
4
6
34
3
48
4
3
10 edge dv
(B,E) 4
(B,F) 4
(B,H) 4
(A,H) 5
(D,F) 6
(A,B) 8
(A,F) 10
Select first |V|–1 edges which do not generate a cycle
edge dv
(D,E) 1
(D,G) 2
(E,G) 3
(C,D) 3
(G,H) 3
(C,F) 3
(B,C) 4
5
1
A
HB
F
E
D
C
G 3
2
4
6
34
3
48
4
3
10 edge dv
(B,E) 4
(B,F) 4
(B,H) 4
(A,H) 5
(D,F) 6
(A,B) 8
(A,F) 10
Select first |V|–1 edges which do not generate a cycle
edge dv
(D,E) 1
(D,G) 2
(E,G) 3
(C,D) 3
(G,H) 3
(C,F) 3
(B,C) 4
5
1
A
HB
F
E
D
C
G2
3
3
3
edge dv
(B,E) 4
(B,F) 4
(B,H) 4
(A,H) 5
(D,F) 6
(A,B) 8
(A,F) 10
Done
Total Cost = dv = 21
4
}not considered
How many squares can you create in this figure by connecting any 4 dots (the corners of a square must lie upon a grid dot?
TRIANGLES:
How many triangles are located in the image below?
There are 11 squares total; 5 small, 4 medium, and 2 large.
27 triangles. There are 16 one-cell triangles, 7 four-cell triangles, 3 nine-cell triangles, and 1 sixteen-cell triangle.