![Page 1: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/1.jpg)
Young Won Lim5/11/18
Graph Overview (1A)
![Page 2: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/2.jpg)
Young Won Lim5/11/18
Copyright (c) 2015 – 2018 Young W. Lim.
Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.2 or any later version published by the Free Software Foundation; with no Invariant Sections, no Front-Cover Texts, and no Back-Cover Texts. A copy of the license is included in the section entitled "GNU Free Documentation License".
Please send corrections (or suggestions) to [email protected].
This document was produced by using LibreOffice and Octave.
![Page 3: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/3.jpg)
Graph Overview (1A) 25 Young Won Lim5/11/18
Simple Graph
https://en.wikipedia.org/wiki/Travelling_salesman_problem
A simple graph is an undirected graph without multiple edges or loops.
the edges form a set (rather than a multiset)each edge is an unordered pair of distinct vertices.
can define a simple graph to be a set V of vertices together with a set E of edges,
E are 2-element subsets of V
with n vertices, the degree of every vertex is at most n − 1
K
J
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B
E
D
A
C I
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Graph Overview (1A) 26 Young Won Lim5/11/18
Multi-Graph
https://en.wikipedia.org/wiki/Travelling_salesman_problem
A multigraph, as opposed to a simple graph, is anundirected graph in which multiple edges (and sometimes loops) are allowed.
B
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C
B
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DA C
F
A B C
D
E FG
H
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Graph Overview (1A) 27 Young Won Lim5/11/18
Multiple Edges
https://en.wikipedia.org/wiki/Travelling_salesman_problem
● multiple edges● parallel edges● Multi-edges
are two or more edges that are incident to the same two vertices
A simple graph has no multiple edges.
![Page 6: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/6.jpg)
Graph Overview (1A) 28 Young Won Lim5/11/18
Loop
https://en.wikipedia.org/wiki/Travelling_salesman_problem
● a loop● a self-loop● a buckle
is an edge that connects a vertex to itself.
A simple graph contains no loops.
![Page 7: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/7.jpg)
Graph Overview (1A) 29 Young Won Lim5/11/18
Walks
http://mathonline.wikidot.com/walks-trails-paths-cycles-and-circuits
For a graph G= (V, E), a walk is defined as a sequence
of alternating vertices and edges such as
where each edge
The length of this walk is
Edges are allowed to be repeated
v0, e1, v1, e2, ⋯ , ek , vk
ei = {vi−1 , v i}
kv
0
e1
v1
e2
v2
e3
v3
ek
vk
⋯
B
E D
A
CABCDE
ABCDCBE
ei=e j for some i , j
![Page 8: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/8.jpg)
Graph Overview (1A) 31 Young Won Lim5/11/18
Open / Closed Walks
http://mathonline.wikidot.com/walks-trails-paths-cycles-and-circuits
A walk is considered to be closed if the starting vertex is the same as the ending vertex.
Otherwise open
v0
e1
v1
e2
v2
e3
v3
ek
vk = v0
⋯
B
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A
C
ABCDE
ABCDCBE
ABCDAclosed walk
open walk
open walk
![Page 9: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/9.jpg)
Graph Overview (1A) 32 Young Won Lim5/11/18
Trails
http://mathonline.wikidot.com/walks-trails-paths-cycles-and-circuits
A trail is defined as a walk with no repeated edges.
B
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A
C
ABCDE
ABCDCBE
ABCDAclosed walk
open walk
open walk
v0
e1
v1
e2
v2
e3
v3
ek
vk
⋯
ei ≠ e j for all i , j
closed trail
open trail
open trail
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Graph Overview (1A) 33 Young Won Lim5/11/18
Paths
http://mathonline.wikidot.com/walks-trails-paths-cycles-and-circuits
A path is defined as a open trail with no repeated vertices.
B
E D
A
C
ABCDE
ABCDCBE
ABCDAclosed walk
open walk
open walk
v0
e1
v1
e2
v2
e3
v3
ek
vk ≠ v0
⋯
ei ≠ e j for all i , j
closed trail
open trail
open trail
vi ≠ v j for all i , j
path
path
path
BEDABCopen walkopen trailpath
![Page 11: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/11.jpg)
Graph Overview (1A) 34 Young Won Lim5/11/18
Cycles
http://mathonline.wikidot.com/walks-trails-paths-cycles-and-circuits
A cycle is defined as a closed trail with no repeatedvertices except the start/end vertex
B
E D
A
C
ABCDAclosed walk
v0
e1
v1
e2
v2
e3
v3
ek
vk = v0
⋯
ei ≠ e j for all i , j
circuit
vi ≠ v j for all i , j
cycle
ABCDEBDAclosed walkcircuitcycle
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Graph Overview (1A) 35 Young Won Lim5/11/18
Circuits
http://mathonline.wikidot.com/walks-trails-paths-cycles-and-circuits
A circuit is defined as a closed trail with possibly repeatedvertices but with no repeated edges
v0
e1
v1
e2
v2
e3
v3
ek
vk = v0
⋯
ei ≠ e j for all i , j
vi = v j for some i , j
B
E D
A
C
ABCDAclosed walkcircuit
ABCDEBDAclosed walkcircuit
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Graph Overview (1A) 36 Young Won Lim5/11/18
Walk, Trail, Path, Circuit, Cycle
open walks closed walks
trails circuits
path cycle
ei ≠ e j ei ≠ e j
vi ≠ v j vi ≠ v j
v0≠ vk v
0= vk
![Page 14: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/14.jpg)
Graph Overview (1A) 37 Young Won Lim5/11/18
Walk, Trail, Path, Circuit, Cycle
Vertices Edges
Walk may may (Closed/Open) repeat repeat
Trail may cannot (Open) repeat repeat
Path cannot cannot (Open)repeat repeat
Circuit may cannot (Closed) repeat repeat
Cycle cannot cannot (Closed) repeat repeat
https://math.stackexchange.com/questions/655589/what-is-difference-between-cycle-path-and-circuit-in-graph-theory
![Page 15: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/15.jpg)
Young Won Lim5/11/18
References
[1] http://en.wikipedia.org/[2]
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Young Won Lim5/11/18
Eulerian Cycle (2A)
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Young Won Lim5/11/18
Copyright (c) 2015 – 2018 Young W. Lim.
Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.2 or any later version published by the Free Software Foundation; with no Invariant Sections, no Front-Cover Texts, and no Back-Cover Texts. A copy of the license is included in the section entitled "GNU Free Documentation License".
Please send corrections (or suggestions) to [email protected].
This document was produced by using LibreOffice and Octave.
![Page 19: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/19.jpg)
Eulerian Cycles (2A) 3 Young Won Lim5/11/18
Path and Trail
https://en.wikipedia.org/wiki/Eulerian_path
A path is a trail in which all vertices are distinct. (except possibly the first and last)
A trail is a walk in which all edges are distinct.
Vertices Edges
Walk may may (Closed/Open)
repeat repeat
Trail may cannot (Open)
repeat repeat
Path cannot cannot (Open)
repeat repeat
Circuit may cannot (Closed)
repeat repeat
Cycle cannot cannot (Closed)
repeat repeat
![Page 20: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/20.jpg)
Eulerian Cycles (2A) 4 Young Won Lim5/11/18
Simple Paths and Cycles
https://en.wikipedia.org/wiki/Eulerian_path
Most literatures require that all of the edges and vertices of a path be distinct from one another.
But, some do not require this and instead use the term simple path to refer to a path which contains no repeated vertices.
A simple cycle may be defined as a closed walk with no repetitions of vertices and edges allowed, other than the repetition of the starting and ending vertex
There is considerable variation of terminology!!!Make sure which set of definitions are used...
![Page 21: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/21.jpg)
Eulerian Cycles (2A) 5 Young Won Lim5/11/18
Simple Paths and Cycles
path cycle
simplepath
simplecycle
trail circuit
path cycle
![Page 22: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/22.jpg)
Eulerian Cycles (2A) 6 Young Won Lim5/11/18
Paths and Cycles
v0, e1, v1, e2, ⋯ , ek , vk
v0
e1
v1
e2
v2
e3
v3
ek
vk
⋯
v0, e1, v1, e2, ⋯ , ek , vk (v0 = vk)
path
cycle
v0, e1, v1, e2, ⋯ , ek , vk
v0, e1, v1, e2, ⋯ , ek , vk (v0 = vk)
path
cycle
(v0 ≠ vk)
path
cycle
cyclepath
![Page 23: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/23.jpg)
Eulerian Cycles (2A) 7 Young Won Lim5/11/18
Euler Cycle
https://en.wikipedia.org/wiki/Eulerian_path
Some people reserve the terms path and cycle to mean non-self-intersecting path and cycle.
A (potentially) self-intersecting path is known as a trail or an open walk;
and a (potentially) self-intersecting cycle, a circuit or a closed walk.
This ambiguity can be avoided by using the terms Eulerian trail and Eulerian circuit when self-intersection is allowed
no repeating vertices
repeating vertices
repeating vertices
repeating vertices
![Page 24: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/24.jpg)
Eulerian Cycles (2A) 8 Young Won Lim5/11/18
Euler Cycle
https://en.wikipedia.org/wiki/Eulerian_path
visits every edge exactly once
the existence of Eulerian cycles
all vertices in the graph have an even degree
connected graphs with all vertices of even degree have an Eulerian cycles
![Page 25: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/25.jpg)
Eulerian Cycles (2A) 9 Young Won Lim5/11/18
Euler Path
https://en.wikipedia.org/wiki/Eulerian_path
visits every edge exactly once
the existence of Eulerian paths
all the vertices in the graph have an even degree
except only two vertices with an odd degree
An Eulerian path starts and ends at different verticesAn Eulerian cycle starts and ends at the same vertex.
![Page 26: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/26.jpg)
Eulerian Cycles (2A) 10 Young Won Lim5/11/18
Conditions for Eulerian Cycles and Paths
http://people.ku.edu/~jlmartin/courses/math105-F11/Lectures/chapter5-part2.pdf
An odd vertex = a vertex with an odd degree
An even vertex = a vertex with an even degree
# of odd vertices Eulerian Path Eulerian Cycle
0 No Yes
2 Yes No
4,6,8, … No No
1,3,5,7, … No such graph No such graph
If the graph is connected
![Page 27: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/27.jpg)
Eulerian Cycles (2A) 11 Young Won Lim5/11/18
The number of odd vertices
# of odd vertices Eulerian Path Eulerian Cycle
0 No Yes
2 Yes No
No Eulerian Path No Eulerian Cycle
Eulerian Cycle Eulerian Path
# of odd vertices = 0
# of odd vertices = 2
![Page 28: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/28.jpg)
Eulerian Cycles (2A) 12 Young Won Lim5/11/18
Eulerian Graph
Eulerian graph :a graph with an Eulerian cyclea graph with every vertex of even degree(the number of odd vertices is 0)
These definitions coincide for connected graphs.
4 4
4
2
4
4
B
E D
A
C
B
E D
A
C
2 6
4
42
2 4
42
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Eulerian Cycles (2A) 13 Young Won Lim5/11/18
Odd Degree and Even Degree
https://en.wikipedia.org/wiki/Eulerian_path
3
3
3
5
4 4
4
2
4
4
All odd degree vertices
All even degree vertices
![Page 30: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/30.jpg)
Eulerian Cycles (2A) 14 Young Won Lim5/11/18
Euler Cycle Example
en.wikipedia.org
ABCDEFGHIJK
K
J
G
H
F
B
E
D
A
C I
a path denoted by the edge names
All even degree vertices
Eulerian Cycles
K
J
G
H
F
B
E
D
A
C I
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Eulerian Cycles (2A) 15 Young Won Lim5/11/18
Euler Cycle Example
en.wikipedia.org
ABCDEFGHIJK
K
J
G
H
F
B
E
D
A
C I
K
J
G
H
F
B
E
D
A
C I
K
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G
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F
B
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D
A
C I
K
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G
H
F
B
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D
A
C I
K
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G
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F
B
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A
C I
K
J
G
H
F
B
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A
C I
K
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B
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A
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K
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F
B
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A
C I
K
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F
B
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A
C I
K
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G
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F
B
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A
C I
K
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K
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B
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![Page 32: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/32.jpg)
Eulerian Cycles (2A) 16 Young Won Lim5/11/18
Euler Path and Cycle Examples
http://people.ku.edu/~jlmartin/courses/math105-F11/Lectures/chapter5-part2.pdf
B
E D
A
C
Eulerian Path1. BBADCDEBC2. CDCBBADEB
B
E D
A
C
Euerian Cycle1. CDCBBADEBC
B
E D
A
C
Euerian Cycle2. CDEBBADC
a path denoted by the vertex names
2 5
3
42
2 6
4
42
2 4
1
42
![Page 33: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/33.jpg)
Eulerian Cycles (2A) 17 Young Won Lim5/11/18
Eulerian Cycles of Undirected Graphs
https://en.wikipedia.org/wiki/Eulerian_path
An undirected graph has an Eulerian cycle if and only if every vertex has even degree, and all of its vertices with nonzero degree belong to a single connected component.
An undirected graph can be decomposed into edge-disjoint cycles if and only if all of its vertices have even degree.
So, a graph has an Eulerian cycle if and only if it can be decomposed into edge-disjoint cyclesand its nonzero-degree verticesbelong to a single connected component.
4 4
4
2
4
4
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Eulerian Cycles (2A) 18 Young Won Lim5/11/18
Edge Disjoint Cycle Decomposition
K
J
G
H
F
B
E
D
A
C I
All evenvertices
EuerianCycle
Edge DisjointCycles
![Page 35: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/35.jpg)
Eulerian Cycles (2A) 19 Young Won Lim5/11/18
Eulerian Paths of Undirected Graphs
https://en.wikipedia.org/wiki/Eulerian_path
An undirected graph has an Eulerian trail if and only if exactly zero or two vertices have odd degree, and all of its vertices with nonzero degree belong to a single connected component.
![Page 36: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/36.jpg)
Eulerian Cycles (2A) 20 Young Won Lim5/11/18
Eulerian Cycles of DiGraphs
https://en.wikipedia.org/wiki/Eulerian_path
A directed graph has an Eulerian cycle if and only if every vertex has equal in degree and out degree, and all of its vertices with nonzero degree belong to a single strongly connected component.
Equivalently, a directed graph has an Eulerian cycle if and only if it can be decomposed into edge-disjoint directed cycles and all of its vertices with nonzero degree belong to a single strongly connected component.
![Page 37: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/37.jpg)
Eulerian Cycles (2A) 21 Young Won Lim5/11/18
Eulerian Paths of DiGraphs
https://en.wikipedia.org/wiki/Eulerian_path
A directed graph has an Eulerian path if and only if at most one vertex has (out-degree) − (in-degree) = 1, at most one vertex has (in-degree) − (out-degree) = 1, every other vertex has equal in-degree and out-degree, and all of its vertices with nonzero degree belong to a single connected component of the underlying undirected graph.
![Page 38: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/38.jpg)
Eulerian Cycles (2A) 22 Young Won Lim5/11/18
Seven Bridges of Königsberg
https://en.wikipedia.org/wiki/Seven_Bridges_of_K%C3%B6nigsberg
The problem was to devise a walk through the city that would cross each of those bridges once and only once.
![Page 39: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/39.jpg)
Eulerian Cycles (2A) 23 Young Won Lim5/11/18
Seven and Eight Bridges Problems
https://en.wikipedia.org/wiki/Seven_Bridges_of_K%C3%B6nigsberg
3
5 3
3
5
4
4
Eulerian Path
A B CA
D
E FE G
H
AEHGFDCB
7 bridges problem 8 bridges problem
A B CA
D
E FE
![Page 40: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/40.jpg)
Eulerian Cycles (2A) 24 Young Won Lim5/11/18
Nine and Ten Bridges Problems
https://en.wikipedia.org/wiki/Seven_Bridges_of_K%C3%B6nigsberg
4
5
5
4
4
6
6
4
Eulerian CycleEulerian Path
A B CA
D
E FE G
A B CA
D
E FE G
HH
II
J
EHGFDCBAI AEHGFDCBJI
9 bridges problem 10 bridges problem
![Page 41: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/41.jpg)
Eulerian Cycles (2A) 25 Young Won Lim5/11/18
8 bridges – Eulerian Path
https://en.wikipedia.org/wiki/Seven_Bridges_of_K%C3%B6nigsberg
Eulerian Path
AEHGFDCB
A B C
D
E FG
H
A B C
D
E FG
H
A B C
D
E FG
H
A B C
D
E FG
H
A B C
D
E FG
H
A B C
D
E FG
H
A B C
D
E FG
H
A B C
D
E FG
H
A B C
D
E FG
H
![Page 42: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/42.jpg)
Eulerian Cycles (2A) 26 Young Won Lim5/11/18
9 bridges – Eulerian Path
https://en.wikipedia.org/wiki/Seven_Bridges_of_K%C3%B6nigsberg
A B C
D
E FG
H
Eulerian Path
EHGFDCBAI
I
A B C
D
E FG
H
I
A B C
D
E FG
H
I
A B C
D
E FG
H
I
A B C
D
E FG
H
I
A B C
D
E FG
H
I
A B C
D
E FG
H
I
A B C
D
E FG
H
I
A B C
D
E FG
H
I
A B C
D
E FG
H
I
![Page 43: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/43.jpg)
Eulerian Cycles (2A) 27 Young Won Lim5/11/18
10 bridges – Eulerian Cycle
https://en.wikipedia.org/wiki/Seven_Bridges_of_K%C3%B6nigsberg
A B C
D
E FG
H
I
J
Eulerian Cycle
AEHGFDCBJI
A B C
D
E FG
H
I
J
A B C
D
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H
I
J
A B C
D
E FG
H
I
J
A B C
D
E FG
H
I
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A B C
D
E FG
H
I
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A B C
D
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I
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A B C
D
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H
I
J
A B C
D
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I
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A B C
D
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A B C
D
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I
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![Page 44: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/44.jpg)
Eulerian Cycles (2A) 28 Young Won Lim5/11/18
Fleury’s Algorithm
To find an Eulerian path or an Eulerian cycle:
1. make sure the graph has either 0 or 2 odd vertices
2. if there are 0 odd vertex, start anywhere. If there are 2 odd vertices, start at one of the two vertices
3. follow edges one at a time. If you have a choice between a bridge and a non-bridge,Always choose the non-bridge
4. stop when you run out of edge
http://people.ku.edu/~jlmartin/courses/math105-F11/Lectures/chapter5-part2.pdf
![Page 45: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/45.jpg)
Eulerian Cycles (2A) 29 Young Won Lim5/11/18
Bridges
A bridge edge
Removing a single edge from a connected graph
can make it disconnected
Non-bridge edges
Loops cannot be bridges
Multiple edges cannot be bridges
http://people.ku.edu/~jlmartin/courses/math105-F11/Lectures/chapter5-part2.pdf
![Page 46: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/46.jpg)
Eulerian Cycles (2A) 30 Young Won Lim5/11/18
Bridge examples in a graph
http://people.ku.edu/~jlmartin/courses/math105-F11/Lectures/chapter5-part2.pdf
![Page 47: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/47.jpg)
Eulerian Cycles (2A) 31 Young Won Lim5/11/18
Bridges must be avoided, if possible
http://people.ku.edu/~jlmartin/courses/math105-F11/Lectures/chapter5-part2.pdf
B
E
DA C
F
FEACB
B
DA C
F
bridge
B
DA C
F
If there exists other choice other than a bridge
The bridge must not be chosen.
B
DA C
F
bridge
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Eulerian Cycles (2A) 32 Young Won Lim5/11/18
Fleury’s Algorithm (1)
http://people.ku.edu/~jlmartin/courses/math105-F11/Lectures/chapter5-part2.pdf
B
E
DA C
F
B
E
DA C
F
B
E
DA C
F
B
E
DA C
F
FE FEA FEAC
B
E
DA C
F
FEACB
![Page 49: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/49.jpg)
Eulerian Cycles (2A) 33 Young Won Lim5/11/18
Fleury’s Algorithm (2)
http://people.ku.edu/~jlmartin/courses/math105-F11/Lectures/chapter5-part2.pdf
B
E
DA C
F
FEACB
B
E
DA C
F
FEACBD
BA :bridge DB : bridge
B
E
DA C
F
FEACBDC
CF :bridge
BD : chosen DC : chosen CF :chosen
no other choice
B
E
DA C
F
FEACBDCF
FD : bridge
FD : chosen
no other choice
![Page 50: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/50.jpg)
Eulerian Cycles (2A) 34 Young Won Lim5/11/18
Fleury’s Algorithm (3)
http://people.ku.edu/~jlmartin/courses/math105-F11/Lectures/chapter5-part2.pdf
B
E
DA C
F
FEACBDCFD
DB : bridge
DB : chosen
no other choice
B
E
DA C
F
FEACBDCFDB
BA : bridge
BA : chosen
no other choice
B
E
DA C
F
![Page 51: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/51.jpg)
Young Won Lim5/11/18
References
[1] http://en.wikipedia.org/[2]
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Young Won Lim5/11/18
Hamiltonian Cycle (3A)
![Page 53: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/53.jpg)
Young Won Lim5/11/18
Copyright (c) 2015 – 2018 Young W. Lim.
Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.2 or any later version published by the Free Software Foundation; with no Invariant Sections, no Front-Cover Texts, and no Back-Cover Texts. A copy of the license is included in the section entitled "GNU Free Documentation License".
Please send corrections (or suggestions) to [email protected].
This document was produced by using LibreOffice and Octave.
![Page 54: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/54.jpg)
Hamiltonian Cycles (3A) 3 Young Won Lim5/11/18
Hamiltonian Cycles
https://en.wikipedia.org/wiki/Hamiltonian_path
A Hamiltonian path is a path in an undirected or directed graph that visits each vertex exactly once.
A Hamiltonian cycle is a Hamiltonian path that is a cycle.
the Hamiltonian path problem is NP-complete.
![Page 55: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/55.jpg)
Hamiltonian Cycles (3A) 4 Young Won Lim5/11/18
Hamiltonian Cycles
https://en.wikipedia.org/wiki/Hamiltonian_path
![Page 56: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/56.jpg)
Hamiltonian Cycles (3A) 5 Young Won Lim5/11/18
Hamiltonian Cycles
https://en.wikipedia.org/wiki/Hamiltonian_path
![Page 57: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/57.jpg)
Hamiltonian Cycles (3A) 6 Young Won Lim5/11/18
Hamiltonian Cycles
https://en.wikipedia.org/wiki/Hamiltonian_path
● a complete graph with more than two vertices is Hamiltonian● every cycle graph is Hamiltonian● every tournament has an odd number of Hamiltonian paths ● every platonic solid, considered as a graph, is Hamiltonian● the Cayley graph of a finite Coxeter group is Hamiltonian
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Hamiltonian Cycles (3A) 7 Young Won Lim5/11/18
Complete Graphs and Cycle Graphs
https://en.wikipedia.org/wiki/Complete_graphhttps://en.wikipedia.org/wiki/Cycle_graph
![Page 59: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/59.jpg)
Hamiltonian Cycles (3A) 8 Young Won Lim5/11/18
Complete Graphs
https://en.wikipedia.org/wiki/Complete_graph
![Page 60: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/60.jpg)
Hamiltonian Cycles (3A) 9 Young Won Lim5/11/18
Tournament Graphs
https://en.wikipedia.org/wiki/Tournament_(graph_theory
![Page 61: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/61.jpg)
Hamiltonian Cycles (3A) 10 Young Won Lim5/11/18
Platonic Solid Graphs
https://en.wikipedia.org/wiki/Platonic_solid
![Page 62: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/62.jpg)
Hamiltonian Cycles (3A) 11 Young Won Lim5/11/18
Hamiltonian Cycles – Properties (1)
https://en.wikipedia.org/wiki/Hamiltonian_path
Any Hamiltonian cycle can be converted to a Hamiltonian path by removing one of its edges,
but a Hamiltonian path can be extended to Hamiltonian cycle only if its endpoints are adjacent.
All Hamiltonian graphs are biconnected, but a biconnected graph need not be Hamiltonian
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Hamiltonian Cycles (3A) 12 Young Won Lim5/11/18
Biconnected Graph
https://en.wikipedia.org/wiki/Biconnected_graph
a biconnected graph is a connected and "nonseparable" graph, meaning that if any one vertex were to be removed, the graph will remain connected.
a biconnected graph has no articulation vertices.
The property of being 2-connected is equivalent to biconnectivity, with the caveat that the complete graph of two vertices is sometimes regarded as biconnectedbut not 2-connected.
![Page 64: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/64.jpg)
Hamiltonian Cycles (3A) 13 Young Won Lim5/11/18
Biconnected Graph Examples
https://en.wikipedia.org/wiki/Biconnected_graph
![Page 65: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/65.jpg)
Hamiltonian Cycles (3A) 14 Young Won Lim5/11/18
Eulerian Graph
An Eulerian graph G :a connected graph in which every vertex has even degree
An Eulerian graph G necessarily has an Euler cycle, a closed walk passing through each edge of G exactly once.
4 4
4
2
4
4
B
ED
A
C
B
ED
A
C
2 6
4
42
2 4
42
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Hamiltonian Cycles (3A) 15 Young Won Lim5/11/18
Eulerian Graph (1)
B
D E
A
C
Eulerian CycleABCDECA
4
2
3
1
6
5
B
D E
A
C
4
2
3
1
6
5 3
6 2
5
4
1
G L(G)
Hamiltonian Cycle1-2-3-4-5-6-1
The Eulerian cycle corresponds to a Hamiltonian cycle in the line graph L(G), so the line graph of every Euleriangraph is Hamiltonian graph.
![Page 67: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/67.jpg)
Hamiltonian Cycles (3A) 16 Young Won Lim5/11/18
Eulerian Graph (2)
B
D E
A
C
Eulerian CycleABCEDCA
4
2
3
1
6
5
B
D E
A
C
4
2
3
1
6
5 3
6 2
5
4
1
G L(G)
Hamiltonian Cycle1-2-5-4-3-6-1
The Eulerian cycle corresponds to a Hamiltonian cycle in the line graph L(G), so the line graph of every Euleriangraph is Hamiltonian graph.
![Page 68: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/68.jpg)
Hamiltonian Cycles (3A) 17 Young Won Lim5/11/18
Eulerian Path (1)
G L(G)
1
5
24 3
1
5
24 3
Eulerian PathABCADC
Hamiltonian Path1-2-3-4-5
B
D C
A1
234
5
The Eulerian path corresponds to a Hamiltonian path in the line graph L(G)
![Page 69: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/69.jpg)
Hamiltonian Cycles (3A) 18 Young Won Lim5/11/18
Eulerian Path (2)
Eulerian PathFEACBDCFDBA
G L(G)
Hamiltonian Path1-2-3-4-5-6-7-8-9-10
Line graphs may have other Hamiltonian cycles that do not correspond to Euler cycles.
B
E
DA C
F
1
2
3
4 5
6
7 8
9
10
1
2
3
5
6
4
7
8
910
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Hamiltonian Cycles (3A) 19 Young Won Lim5/11/18
Eulerian Path (3)
Eulerian Cycle XEulerian Path X
G L(G)
Hamiltonian Cycle1-7-3-6-8-5-4-9-10-2-1
Line graphs may have other Hamiltonian cycles that do not correspond to Euler cycles.
B
E
DA C
F
1
2
3
4 5
6
7 8
9
10
1
2
3
5
6
4
7
8
910
not always
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Hamiltonian Cycles (3A) 20 Young Won Lim5/11/18
Hamiltonian Cycles – Properties (2)
https://en.wikipedia.org/wiki/Hamiltonian_path
This Eulerian cycle corresponds to a Hamiltonian cycle in the line graph L(G), so the line graph of every Eulerian graph is Hamiltonian graph.
Line graphs may have other Hamiltonian cycles that do not correspond to Euler paths.
The line graph L(G) of every Hamiltonian graph G is itself Hamiltonian, regardless of whether the graph G is Eulerian.
![Page 72: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/72.jpg)
Hamiltonian Cycles (3A) 21 Young Won Lim5/11/18
Line Graphs
https://en.wikipedia.org/wiki/Line_graph
In the mathematical discipline of graph theory, the line graph of an undirected graph G is another graph L(G) that represents the adjacencies between edges of G.
Given a graph G, its line graph L(G) is a graph such that
● each vertex of L(G) represents an edge of G; and● two vertices of L(G) are adjacent if and only if their
corresponding edges share a common endpoint ("are incident") in G.
That is, it is the intersection graph of the edges of G, representing each edge by the set of its two endpoints.
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Hamiltonian Cycles (3A) 22 Young Won Lim5/11/18
Line Graphs Examples
https://en.wikipedia.org/wiki/Line_graph
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Hamiltonian Cycles (3A) 23 Young Won Lim5/11/18
Hamiltonian Cycles – Properties (3)
https://en.wikipedia.org/wiki/Hamiltonian_path
A tournament (with more than two vertices) is Hamiltonian if and only if it is strongly connected.
The number of different Hamiltonian cycles in a complete undirected graph on n vertices is (n − 1)! / 2 in a complete directed graph on n vertices is (n − 1)!.
These counts assume that cycles that are the same apart from their starting point are not counted separately.
![Page 75: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/75.jpg)
Hamiltonian Cycles (3A) 24 Young Won Lim5/11/18
Strongly Connected Component
https://en.wikipedia.org/wiki/Hamiltonian_path
a directed graph is said to be strongly connected or diconnected if every vertex is reachable from every other vertex.
The strongly connected components or diconnected components of an arbitrary directed graph form a partition into subgraphs that are themselves strongly connected.
![Page 76: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/76.jpg)
Hamiltonian Cycles (3A) 25 Young Won Lim5/11/18
Dual Graph
https://en.wikipedia.org/wiki/Hamiltonian_path
the dual graph of a plane graph G is a graph that has a vertex for each face of G.
The dual graph has an edge whenever two faces of G are separated from each other by an edge,
and a self-loop when the same face appears on both sides of an edge.
each edge e of G has a corresponding dual edge, whose endpoints are the dual verticescorresponding to the faces on either side of e.
![Page 77: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/77.jpg)
Hamiltonian Cycles (3A) 26 Young Won Lim5/11/18
Dual Graph
https://en.wikipedia.org/wiki/Hamiltonian_path
A
B
C
C
A B
~C (A + B)X
X
X
y
z
y
GND
z
Vdd
C
BA
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Young Won Lim5/11/18
References
[1] http://en.wikipedia.org/[2]
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Young Won Lim5/11/18
Shortest Path Problem (4A)
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Young Won Lim5/11/18
Copyright (c) 2015 – 2018 Young W. Lim.
Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.2 or any later version published by the Free Software Foundation; with no Invariant Sections, no Front-Cover Texts, and no Back-Cover Texts. A copy of the license is included in the section entitled "GNU Free Documentation License".
Please send corrections (or suggestions) to [email protected].
This document was produced by using LibreOffice and Octave.
![Page 81: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/81.jpg)
Shortest Path Problem (4A) 3 Young Won Lim5/11/18
Shortest Path Problem
https://en.wikipedia.org/wiki/Shortest_path_problem
the shortest path problem is the problem of finding a path between two vertices (or nodes) in a graph such that the sum of the weights of its constituent edges is minimized.
![Page 82: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/82.jpg)
Shortest Path Problem (4A) 4 Young Won Lim5/11/18
Types of Shortest Path Problems
https://en.wikipedia.org/wiki/Shortest_path_problem
The single-pair shortest path problem:to find shortest paths from a source vertex v to a destination vertex w in a graph
The single-source shortest path problem:to find shortest paths from a source vertex v to all other vertices in the graph.
The single-destination shortest path problem:to find shortest paths from all vertices in the directed graph to a single destination vertex v. This can be reduced to the single-source shortest path problem by reversing the arcs in the directed graph.
The all-pairs shortest path problem:to find shortest paths between every pair of vertices v, v' in the graph.
![Page 83: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/83.jpg)
Shortest Path Problem (4A) 5 Young Won Lim5/11/18
Dijkstra’s Algorithm Example Summary
https://en.wikipedia.org/wiki/Dijkstra%27s_algorithm#/media/File:Dijkstra_Animation.gif
the current node
the initial node
the visited nodes
![Page 84: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/84.jpg)
Shortest Path Problem (4A) 6 Young Won Lim5/11/18
Dijkstra’s Algorithm Example (1)
https://en.wikipedia.org/wiki/Dijkstra%27s_algorithm#/media/File:Dijkstra_Animation.gif
![Page 85: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/85.jpg)
Shortest Path Problem (4A) 7 Young Won Lim5/11/18
Dijkstra’s Algorithm Example (2)
https://en.wikipedia.org/wiki/Dijkstra%27s_algorithm#/media/File:Dijkstra_Animation.gif
![Page 86: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/86.jpg)
Shortest Path Problem (4A) 8 Young Won Lim5/11/18
Dijkstra’s Algorithm Example (3)
https://en.wikipedia.org/wiki/Dijkstra%27s_algorithm#/media/File:Dijkstra_Animation.gif
![Page 87: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/87.jpg)
Shortest Path Problem (4A) 9 Young Won Lim5/11/18
Dijkstra’s Algorithm Example (4)
https://en.wikipedia.org/wiki/Dijkstra%27s_algorithm#/media/File:Dijkstra_Animation.gif
![Page 88: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/88.jpg)
Shortest Path Problem (4A) 10 Young Won Lim5/11/18
Dijkstra’s Algorithm Example (5)
https://en.wikipedia.org/wiki/Dijkstra%27s_algorithm#/media/File:Dijkstra_Animation.gif
![Page 89: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/89.jpg)
Shortest Path Problem (4A) 11 Young Won Lim5/11/18
Hamiltonian Cycles
https://en.wikipedia.org/wiki/Dijkstra%27s_algorithm#/media/File:Dijkstra_Animation.gif
![Page 90: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/90.jpg)
Shortest Path Problem (4A) 12 Young Won Lim5/11/18
Dijkstra’s Algorithm (1)
https://en.wikipedia.org/wiki/Dijkstra%27s_algorithm#/media/File:Dijkstra_Animation.gif
Let the node at which we are starting be called the initial node. Let the distance of node Y be the distance from the initial node to Y. Dijkstra's algorithm will assign some initial distance values and will try to improve them step by step.
1. Mark all nodes unvisited. Create a set of all the unvisited nodes called the unvisited set.
2. Assign to every node a tentative distance value: set it to zero for our initial node and to infinity for all other nodes. Set the initial node as current.
![Page 91: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/91.jpg)
Shortest Path Problem (4A) 13 Young Won Lim5/11/18
Dijkstra’s Algorithm (2)
https://en.wikipedia.org/wiki/Dijkstra%27s_algorithm#/media/File:Dijkstra_Animation.gif
3. Remove the current node from the unvisited set
For all the unvisited neighbors of the current node, calculate their tentative distances through the current node.
Compare the newly calculated tentative distance to the current assigned value and assign the smaller one.
For example, if the current node A is marked with a distance of 6, and the edge connecting it with a neighbor B has length 2, then the distance to B through A will be 6 + 2 = 8. If B was previously marked with a distance greater than 8 then change it to 8. Otherwise, keep the current value.
A
6 B2
8
I
Initial node
current node
an unvisited neighbor
Newly calculated tentative distance through the current node
![Page 92: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/92.jpg)
Shortest Path Problem (4A) 14 Young Won Lim5/11/18
Dijkstra’s Algorithm (3)
https://en.wikipedia.org/wiki/Dijkstra%27s_algorithm#/media/File:Dijkstra_Animation.gif
4. After considering all of the neighbors of the current node, mark the current node as visited and remove itfrom the unvisited set. A visited node will never be checked again.
A
6 B2
8
I
Initial node
current node
C
D
3
4
9
10
current node : chosen node with the smallest tentative distance from the unvisited set
current node : move to the visited set, after calculating the tentative distances of all the neighbors of the current node
consider all the neighbors of the current node
![Page 93: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/93.jpg)
Shortest Path Problem (4A) 15 Young Won Lim5/11/18
Dijkstra’s Algorithm (4)
https://en.wikipedia.org/wiki/Dijkstra%27s_algorithm#/media/File:Dijkstra_Animation.gif
5. Move to the next unvisited node with the smallest tentative distances and repeat the above steps which check neighbors and mark visited.
A
6 B2
8
I
Initial node
current node
C
D
3
4
9
10
E
7
E
8
![Page 94: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/94.jpg)
Shortest Path Problem (4A) 16 Young Won Lim5/11/18
Dijkstra’s Algorithm (5)
https://en.wikipedia.org/wiki/Dijkstra%27s_algorithm#/media/File:Dijkstra_Animation.gif
5-a. If the destination node has been marked visited (when planning a route between two specific nodes)
or if the smallest tentative distance among the nodes in the unvisited set is infinity (when planning a complete traversal; occurs when there is no connection between the initial node and remaining unvisited nodes),
then stop. The algorithm has finished.
5-b. Otherwise, select the unvisited node that is marked with the smallest tentative distance, set it as the new current node, and go back to step 3.
![Page 95: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/95.jpg)
Shortest Path Problem (4A) 17 Young Won Lim5/11/18
Dijkstra’s Algorithm – Pseudocode 1
https://en.wikipedia.org/wiki/Dijkstra%27s_algorithm#/media/File:Dijkstra_Animation.gif
1 function Dijkstra(Graph, source): 2 3 create vertex set Q 4 5 for each vertex v in Graph: // Initialization 6 dist[v] ← INFINITY // Unknown distance from source to v 7 prev[v] ← UNDEFINED // Previous node in optimal path from source 8 add v to Q // All nodes initially in Q (unvisited nodes) 910 dist[source] ← 0 // Distance from source to source11 12 while Q is not empty:13 u ← vertex in Q with min dist[u] // Node with the least distance14 // will be selected first15 remove u from Q 16 17 for each neighbor v of u: // where v is still in Q. for each v in Q:18 alt ← dist[u] + length(u, v)19 if alt < dist[v]: // A shorter path to v has been found20 dist[v] ← alt 21 prev[v] ← u 2223 return dist[], prev[]
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Shortest Path Problem (4A) 18 Young Won Lim5/11/18
Dijkstra’s Algorithm – Pseudocode 2
Discrete Mathematics and It’s Applications, K. H. Rosen
Procedure Dijkstra(G: weighted connected simple graph, with all positive weights)
{G has vertices a = v0, v
1, …, v
n = z and length w(v
i, v
j)
where w(vi, v
j) = ∞ if {v
i, v
j} is not an edge in G}
for i := 1 to n
L(vi) := ∞
L(a) := 0
S := { }
{the labels are now initialized so that the label of a is 0 and
All other labels are ∞, and S is the empty set}
while z S∉u := a vertex not in S with L(u) minimal
S := S {∪ u}
for all vertices v not in S
if L(u) +w(u,v) < L(u) then L(v) := L(u) + w(u,v)
{this adds a vertex to S with minimal label and
updates the labels of vertices not in S}
return L(z) {L(z) = length of a shortest path from a to z}
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Shortest Path Problem (4A) 19 Young Won Lim5/11/18
Dijkstra Algorithm Pseudocode 2 Example (0)
Discrete Mathematics and It’s Applications, K. H. Rosen
4
e
d
za
c
b
2
1
5
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10
6
3
2
0
∞ ∞
∞ ∞
∞ [∞ 4 2 ∞ ∞ ∞4 ∞ 1 5 ∞ ∞2 1 ∞ 8 10 ∞∞ 5 8 ∞ 2 6
∞ ∞ 10 8 ∞ 3
∞ ∞ ∞ 6 3 ∞]
a
b
c
d
e
z
a b c d e z
w (ui ,u j)
![Page 98: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/98.jpg)
Shortest Path Problem (4A) 20 Young Won Lim5/11/18
Dijkstra Algorithm Pseudocode 2 Example (1)
Discrete Mathematics and It’s Applications, K. H. Rosen
4
e
d
za
c
b
2
1
5
8
10
6
3
2
0
∞ ∞
∞ ∞
∞4
e
d
za
c
b
2
1
5
8
10
6
3
2
0
∞ ∞
∞ ∞
∞4
e
d
za
c
b
2
1
5
8
10
6
3
2
0
4 ∞
2 ∞
∞
S={a}
L(a)+w (a ,b)=0+4 < L(b)=∞
L(a)+w (a ,c )=0+2 < L(c )=∞
L(a)+w (a ,d)=0+∞ = L(d )=∞
L(a)+w (a ,e)=0+∞ = L(e )=∞
L(a)+w (a , z)=0+∞ = L(z)=∞
![Page 99: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/99.jpg)
Shortest Path Problem (4A) 21 Young Won Lim5/11/18
Dijkstra Algorithm Pseudocode 2 Example (2)
Discrete Mathematics and It’s Applications, K. H. Rosen
4
e
d
za
c
b
2
1
5
8
10
6
3
2
0
4 ∞
2 ∞
∞
S={a, c}
L(c)+w (c ,b)=2+1 < L(b)=4
L(c)+w (c ,d)=2+8 < L(d)=∞
L(c)+w (c ,e )=2+10 < L(e )=∞
L(c)+w (c , z)=2+∞ = L(z)=∞
4
e
d
za
c
b
2
1
5
8
10
6
3
2
0
4 ∞
2 ∞
∞4
e
d
za
c
b
2
1
5
8
10
6
3
2
0
3 10
2 12
∞
P(a ,c , b) < P(a ,b)
![Page 100: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/100.jpg)
Shortest Path Problem (4A) 22 Young Won Lim5/11/18
Dijkstra Algorithm Pseudocode 2 Example (3)
Discrete Mathematics and It’s Applications, K. H. Rosen
S={a, c ,b}
L(b)+w (b ,d)=3+5 < L(d)=10
L(b)+w (b ,e)=3+∞ > L(e)=12
L(b)+w (b , z)=3+∞ = L(z)=∞
4
e
d
za
c
b
2
1
5
8
10
6
3
2
0
3 10
2 12
∞4
e
d
za
c
b
2
1
5
8
10
6
3
2
0
3 10
2 12
∞4
e
d
za
c
b
2
1
5
8
10
6
3
2
0
3 8
2 12
∞
P(a ,c , b , d) < P(a ,c , d)
![Page 101: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/101.jpg)
Shortest Path Problem (4A) 23 Young Won Lim5/11/18
Dijkstra Algorithm Pseudocode 2 Example (4)
Discrete Mathematics and It’s Applications, K. H. Rosen
S={a, c ,b ,d }
L(d)+w (d , e)=8+2 < L(e )=12
L(d)+w (d , z)=8+6 < L(z )=∞
4
e
d
za
c
b
2
1
5
8
10
6
3
2
0
3 8
2 12
∞4
e
d
za
c
b
2
1
5
8
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3
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0
3 8
2 12
∞4
e
d
za
c
b
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P(a ,c , b , d , e) < P(a ,c , e)
![Page 102: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/102.jpg)
Shortest Path Problem (4A) 24 Young Won Lim5/11/18
Dijkstra Algorithm Pseudocode 2 Example (5)
Discrete Mathematics and It’s Applications, K. H. Rosen
S={a, c ,b ,d ,e}
L(e)+w(e , z )=10+3 < L(z)=14
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![Page 103: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/103.jpg)
Shortest Path Problem (4A) 25 Young Won Lim5/11/18
Dijkstra Algorithm Pseudocode 2 Example (6)
Discrete Mathematics and It’s Applications, K. H. Rosen
S={a, c ,b ,d ,e , z}
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![Page 104: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/104.jpg)
Young Won Lim5/11/18
References
[1] http://en.wikipedia.org/[2]
![Page 105: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/105.jpg)
Young Won Lim5/11/18
Minimum Spanning Tree (5A)
![Page 106: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/106.jpg)
Young Won Lim5/11/18
Copyright (c) 2015 – 2018 Young W. Lim.
Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.2 or any later version published by the Free Software Foundation; with no Invariant Sections, no Front-Cover Texts, and no Back-Cover Texts. A copy of the license is included in the section entitled "GNU Free Documentation License".
Please send corrections (or suggestions) to [email protected].
This document was produced by using LibreOffice and Octave.
![Page 107: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/107.jpg)
Minimum Spanning Tree (5A) 3 Young Won Lim5/11/18
Minimum Spanning Tree
https://en.wikipedia.org/wiki/Minimum_spanning_tree
a subset of the edges of a connected, edge-weighted (un)directed graph that connects all the vertices together, without any cycles and with the minimum possible total edge weight.
a spanning tree whose sum of edge weights is as small as possible.
More generally, any edge-weighted undirected graph (not necessarily connected) has a minimum spanning forest, which is a union of the minimum spanning trees for its connected components.
![Page 108: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/108.jpg)
Minimum Spanning Tree (5A) 4 Young Won Lim5/11/18
Types of Shortest Path Problems
https://en.wikipedia.org/wiki/Minimum_spanning_tree
![Page 109: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/109.jpg)
Minimum Spanning Tree (5A) 5 Young Won Lim5/11/18
Properties (1)
https://en.wikipedia.org/wiki/Minimum_spanning_tree
Possible multiplicityIf there are n vertices in the graph, then each spanning tree has n−1 edges.
UniquenssIf each edge has a distinct weight then there will be only one, unique minimum spanning tree. this is true in many realistic situations
Minimum-cost subgraphIf the weights are positive, then a minimum spanning tree is in fact a minimum-cost subgraph connecting all vertices, since subgraphs containing cycles necessarily have more total weight.
![Page 110: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/110.jpg)
Minimum Spanning Tree (5A) 6 Young Won Lim5/11/18
Properties (2)
https://en.wikipedia.org/wiki/Minimum_spanning_tree
Cycle PropertyFor any cycle C in the graph, if the weight of an edge e of C is larger than the individual weights of all other edges of C, then this edge cannot belong to a MST.
Cut propertyFor any cut C of the graph, if the weight of an edge e in the cut-set of C is strictly smaller than the weights of all other edges of the cut-set of C, then this edge belongs to allMSTs of the graph.
![Page 111: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/111.jpg)
Minimum Spanning Tree (5A) 7 Young Won Lim5/11/18
Properties (3)
https://en.wikipedia.org/wiki/Minimum_spanning_tree
Minimum-cost edgeIf the minimum cost edge e of a graph is unique, then this edge is included in any MST.
ContractionIf T is a tree of MST edges, then we can contract T into a single vertex while maintaining the invariant that the MST of the contracted graph plus T gives the MST for the graph before contraction.
![Page 112: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/112.jpg)
Minimum Spanning Tree (5A) 8 Young Won Lim5/11/18
Cut property examples
https://en.wikipedia.org/wiki/Minimum_spanning_tree
![Page 113: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/113.jpg)
Minimum Spanning Tree (5A) 9 Young Won Lim5/11/18
Borůvka's algorithm
https://en.wikipedia.org/wiki/Bor%C5%AFvka%27s_algorithm
Input: A graph G whose edges have distinct weightsInitialize a forest F to be a set of one-vertex trees, one for each vertex of the graph.While F has more than one component: Find the connected components of F and label each vertex of G by its component Initialize the cheapest edge for each component to "None" For each edge uv of G: If u and v have different component labels: If uv is cheaper than the cheapest edge
for the component of u: Set uv as the cheapest edge for the component of u If uv is cheaper than the cheapest edge for the component of v: Set uv as the cheapest edge for the component of v For each component whose cheapest edge is not "None": Add its cheapest edge to F Output: F is the minimum spanning forest of G.
![Page 114: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/114.jpg)
Minimum Spanning Tree (5A) 10 Young Won Lim5/11/18
Borůvka's algorithm examples (1)
https://en.wikipedia.org/wiki/Bor%C5%AFvka%27s_algorithm
![Page 115: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/115.jpg)
Minimum Spanning Tree (5A) 11 Young Won Lim5/11/18
Borůvka's algorithm examples (2)
https://en.wikipedia.org/wiki/Bor%C5%AFvka%27s_algorithm
![Page 116: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/116.jpg)
Minimum Spanning Tree (5A) 12 Young Won Lim5/11/18
Borůvka's algorithm examples (3)
https://en.wikipedia.org/wiki/Bor%C5%AFvka%27s_algorithm
![Page 117: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/117.jpg)
Minimum Spanning Tree (5A) 13 Young Won Lim5/11/18
Borůvka's algorithm examples (4)
http://jeffe.cs.illinois.edu/teaching/algorithms/notes/20-mst.pdf
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Minimum Spanning Tree (5A) 14 Young Won Lim5/11/18
Kruskal's algorithm
https://en.wikipedia.org/wiki/Kruskal%27s_algorithm
KRUSKAL(G):1 A = ∅2 foreach v G.V:∈3 MAKE-SET(v)4 foreach (u, v) in G.E ordered by weight(u, v), increasing:5 if FIND-SET(u) ≠ FIND-SET(v):6 A = A {(u, v)}∪7 UNION(u, v)8 return A
Scan all edges in increasing weight order; if an edge is safe, add it to A
![Page 119: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/119.jpg)
Minimum Spanning Tree (5A) 15 Young Won Lim5/11/18
Kruskal's algorithm examples (1)
https://en.wikipedia.org/wiki/Kruskal%27s_algorithm
{ 5, 5, 6, 7, 7, 8, 8, 9, 9, 11, 15}
{ 5, 5, 6, 7, 7, 8, 8, 9, 9, 11, 15}
![Page 120: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/120.jpg)
Minimum Spanning Tree (5A) 16 Young Won Lim5/11/18
Kruskal's algorithm examples (2)
https://en.wikipedia.org/wiki/Kruskal%27s_algorithm
{ 5, 5, 6, 7, 7, 8, 8, 9, 9, 11, 15}
{ 5, 5, 6, 7, 7, 8, 8, 9, 9, 11, 15}
![Page 121: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/121.jpg)
Minimum Spanning Tree (5A) 17 Young Won Lim5/11/18
Kruskal's algorithm examples (3)
https://en.wikipedia.org/wiki/Kruskal%27s_algorithm
{ 5, 5, 6, 7, 7, 8, 8, 9, 9, 11, 15}
{ 5, 5, 6, 7, 7, 8, 8, 9, 9, 11, 15}
![Page 122: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/122.jpg)
Minimum Spanning Tree (5A) 18 Young Won Lim5/11/18
Kruskal's algorithm examples (4)
http://jeffe.cs.illinois.edu/teaching/algorithms/notes/20-mst.pdf
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Minimum Spanning Tree (5A) 19 Young Won Lim5/11/18
Prim's algorithm
https://en.wikipedia.org/wiki/Prim%27s_algorithm
a greedy algorithm that finds a minimum spanning tree for a weighted undirected graph.
operates by building this tree one vertex at a time, from an arbitrary starting vertex, at each step adding the cheapest possible connection from the tree to another vertex.
Repeatedly add a safe edge to the tree
1. Initialize a tree with a single vertex, chosen arbitrarily from the graph.
2. Grow the tree by one edge: of the edges that connect the tree to vertices not yet in the tree, find the minimum-weight edge, and transfer it to the tree.
3. Repeat step 2 (until all vertices are in the tree).
![Page 124: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/124.jpg)
Minimum Spanning Tree (5A) 20 Young Won Lim5/11/18
Prim's algorithm
https://en.wikipedia.org/wiki/Prim%27s_algorithm
1. Associate with each vertex v of the graph a number C[v] (the cheapest cost of a connection to v)and an edge E[v] (the cheapest edge). Initial values: C[v] = +∞, E[v] = flag for no connection
2. Initialize an empty forest F and a set Q of vertices that have not yet been included in F
3. Repeat the following steps until Q is empty: a. Find and remove a vertex v from Q
having the minimum possible value of C[v] b. Add v to F and, if E[v] is not the special flag value,
also add E[v] to F c. Loop over the edges vw connecting v to other vertices w. For each such edge, if w still belongs to Q and vw has smaller weight than C[w],
perform the following steps: I) Set C[w] to the cost of edge vw II) Set E[w] to point to edge vw. Return F
![Page 125: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/125.jpg)
Minimum Spanning Tree (5A) 21 Young Won Lim5/11/18
Prim's algorithm
https://en.wikipedia.org/wiki/Kruskal%27s_algorithm
Prim's algorithm starting at vertex A. In the third step, edges BD and AB both have weight 2, so BD is chosen arbitrarily. After that step, AB is no longer a candidate for addition to the tree because it links two nodes that are already in the tree.
![Page 126: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/126.jpg)
Minimum Spanning Tree (5A) 22 Young Won Lim5/11/18
Prim's algorithm examples (1)
https://es.wikipedia.org/wiki/Algoritmo_de_Prim
{5,6, 9,15}
![Page 127: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/127.jpg)
Minimum Spanning Tree (5A) 23 Young Won Lim5/11/18
Prim's algorithm examples (2)
https://es.wikipedia.org/wiki/Algoritmo_de_Prim
![Page 128: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/128.jpg)
Minimum Spanning Tree (5A) 24 Young Won Lim5/11/18
Prim's algorithm examples (3)
https://es.wikipedia.org/wiki/Algoritmo_de_Prim
![Page 129: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/129.jpg)
Minimum Spanning Tree (5A) 25 Young Won Lim5/11/18
Prim's algorithm examples (4)
http://jeffe.cs.illinois.edu/teaching/algorithms/notes/20-mst.pdf
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{2,3,4,5,8,10, 12,14,16, 18,26, 30}
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Young Won Lim5/11/18
References
[1] http://en.wikipedia.org/[2]
![Page 131: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/131.jpg)
Young Won Lim5/11/18
Tree Traversal (1A)
![Page 132: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/132.jpg)
Young Won Lim5/11/18
Copyright (c) 2015 - 2018 Young W. Lim.
Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License,Version 1.2 or any later version published by the Free Software Foundation; with no Invariant Sections, no Front-Cover Texts, and no Back-Cover Texts. A copy of the license is included in the section entitled "GNU Free Documentation License".
Please send corrections (or suggestions) to [email protected].
This document was produced by using LibreOffice and Octave.
![Page 133: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/133.jpg)
Tree (10A) 4 Young Won Lim5/11/18
Infix, Prefix, Postfix Notations
https://www.tutorialspoint.com/data_structures_algorithms/expression_parsing.html
Infix Notation Prefix Notation Postfix Notation
A + B + A B A B +
(A + B) * C * + A B C A B + C *
A * (B + C) * A + B C A B C + *
A / B + C / D + / A B / C D A B / C D / +
((A + B) * C) – D – * + A B C D A B + C * D –
![Page 134: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/134.jpg)
Tree (10A) 5 Young Won Lim5/11/18
Infix, Prefix, Postfix Notations and Binary Trees
Infix Notation Prefix Notation Postfix Notation
A + B + A B A B +
(A + B) * C * + A B C A B + C *
A * (B + C) * A + B C A B C + *
A / B + C / D + / A B / C D A B / C D / +
((A + B) * C) – D – * + A B C D A B + C * D –
+
A B
+
A B
*
C +
B C
*
A /
C D
+
/
A B
D
A B
–
*
+ C
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Tree (10A) 6 Young Won Lim5/11/18
In-Order, Pre-Order, Post-Order Binary Tree Traversals
https://en.wikipedia.org/wiki/Morphism
Depth First SearchPre-OrderIn-orderPost-Order
Breadth First Search
pre-order post-order
in-order
+
*
–a
b c
(a*(b-c))+(d/e)
a * b – c + d / e Infix notation
+ * a – b c / d e Prefix notation
a b c – * d e / + Postfix notation
/
d ea
![Page 136: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/136.jpg)
Tree (10A) 7 Young Won Lim5/11/18
Pre-Order Binary Tree Traversals
https://en.wikipedia.org/wiki/Morphism
+
*
–a
b c
(a*(b-c))+(d/e)
a * b – c + d / e Infix notation
+ * a – b c / d e Prefix notation
a b c – * d e / + Postfix notation
/
d ea
![Page 137: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/137.jpg)
Tree (10A) 8 Young Won Lim5/11/18
In-Order Binary Tree Traversals
https://en.wikipedia.org/wiki/Morphism
+
*
–a
b c
(a*(b-c))+(d/e)
a * b – c + d / e Infix notation
+ * a – b c / d e Prefix notation
a b c – * d e / + Postfix notation
/
d ea
![Page 138: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/138.jpg)
Tree (10A) 9 Young Won Lim5/11/18
Post-Order Binary Tree Traversals
https://en.wikipedia.org/wiki/Morphism
+
*
–a
b c
(a*(b-c))+(d/e)
a * b – c + d / e Infix notation
+ * a – b c / d e Prefix notation
a b c – * d e / + Postfix notation
/
d ea
![Page 139: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/139.jpg)
Tree (10A) 10 Young Won Lim5/11/18
Tree Traversal
https://en.wikipedia.org/wiki/Morphism
Depth First SearchPre-OrderIn-orderPost-Order
Breadth First Search
pre-order post-order
in-order
![Page 140: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/140.jpg)
Tree (10A) 11 Young Won Lim5/11/18
Pre-Order
https://en.wikipedia.org/wiki/Morphism
pre-order function Check if the current node is empty / null. Display the data part of the root (or current node). Traverse the left subtree by recursively calling the pre-order function. Traverse the right subtree by recursively calling the pre-order function.
FBADCEGIH
pre-order post-order
in-order
![Page 141: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/141.jpg)
Tree (10A) 12 Young Won Lim5/11/18
In-Order
https://en.wikipedia.org/wiki/Morphism
in-order function Check if the current node is empty / null. Traverse the left subtree by recursively calling the in-order function. Display the data part of the root (or current node). Traverse the right subtree by recursively calling the in-order function.
ABCDEFGHI
pre-order post-order
in-order
![Page 142: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/142.jpg)
Tree (10A) 13 Young Won Lim5/11/18
Post-Order
https://en.wikipedia.org/wiki/Morphism
post-order function Check if the current node is empty / null. Traverse the left subtree by recursively calling the post-order function. Traverse the right subtree by recursively calling the post-order function. Display the data part of the root (or current node).
ACEDBHIGH
pre-order post-order
in-order
![Page 143: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/143.jpg)
Tree (10A) 14 Young Won Lim5/11/18
Recursive Algorithms
https://en.wikipedia.org/wiki/Tree_traversal
inorder(node) if (node = null) return inorder(node.left) visit(node) inorder(node.right)
preorder(node) if (node = null) return
visit(node) preorder(node.left) preorder(node.right)
postorder(node) if (node = null) return postorder(node.left)
postorder(node.right) visit(node)
![Page 144: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/144.jpg)
Tree (10A) 15 Young Won Lim5/11/18
Iterative Algorithms
https://en.wikipedia.org/wiki/Tree_traversal
iterativeInorder(node) s ← empty stack
while (not s.isEmpty() or node ≠ null)
if (node ≠ null) s.push(node) node ← node.left else node ← s.pop() visit(node)
node ← node.right
iterativePreorder(node) if (node = null)
return s ← empty stack s.push(node)
while (not s.isEmpty()) node ← s.pop() visit(node) // right child is pushed first // so that left is processed first if (node.right ≠ null) s.push(node.right) if (node.left ≠ null) s.push(node.left)
iterativePostorder(node) s ← empty stack lastNodeVisited ← null
while (not s.isEmpty() or node ≠ null) if (node ≠ null) s.push(node) node ← node.left else peekNode ← s.peek() // if right child exists and traversing
// node from left child, then move right if (peekNode.right ≠ null and
lastNodeVisited ≠ peekNode.right) node ← peekNode.right else visit(peekNode) lastNodeVisited ← s.pop()
![Page 145: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/145.jpg)
Tree (10A) 16 Young Won Lim5/11/18
Stack
https://en.wikipedia.org/wiki/Stack_(abstract_data_type)
![Page 146: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/146.jpg)
Tree (10A) 17 Young Won Lim5/11/18
Queue
https://en.wikipedia.org/wiki/Queue_(abstract_data_type)#/media/File:Data_Queue.svg
![Page 147: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/147.jpg)
Tree (10A) 18 Young Won Lim5/11/18
Search Algorithms
https://en.wikipedia.org/wiki/Breadth-first_search, /Depth-first_search
DFS (Depth First Search) BFS (Breadth First Search)
![Page 148: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/148.jpg)
Tree (10A) 19 Young Won Lim5/11/18
DFS Algorithm
https://en.wikipedia.org/wiki/Breadth-first_search, /Depth-first_search
DFS (Depth First Search)A recursive implementation of DFS:
procedure DFS(G,v): label v as discovered
for all edges from v to w in G.adjacentEdges(v) do if vertex w is not labeled as discovered then recursively call DFS(G,w)
A non-recuUrsive implementation of DFS:
procedure DFS-iterative(G,v): let S be a stack S.push(v) while S is not empty v = S.pop() if v is not labeled as discovered: label v as discovered
for all edges from v to w in G.adjacentEdges(v) do S.push(w)
![Page 149: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/149.jpg)
Tree (10A) 20 Young Won Lim5/11/18
Search Algorithms
https://en.wikipedia.org/wiki/Breadth-first_search, /Depth-first_search
DFS (Depth First Search) BFS (Breadth First Search)
![Page 150: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/150.jpg)
Tree (10A) 21 Young Won Lim5/11/18
BFS Algorithm
https://en.wikipedia.org/wiki/Breadth-first_search, /Depth-first_search
BFS (Breadth First Search)
Breadth-First-Search(Graph, root): create empty set S create empty queue Q
add root to SQ.enqueue(root)
while Q is not empty: current = Q.dequeue() if current is the goal: return current for each node n that is adjacent to current:
if n is not in S: add n to S n.parent = current Q.enqueue(n)
![Page 151: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/151.jpg)
Tree (10A) 22 Young Won Lim5/11/18
In-Order
Rosen
n o p
j k
e f
b c d
a
g h i
l m
pre-order post-order
in-order
pre-order post-order
in-order
![Page 152: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/152.jpg)
Tree (10A) 23 Young Won Lim5/11/18
Ternary Tree
Rosen
n o p
j k
e f
b c d
a
g h i
l m
a-b-e-j-k-n-o-p-f-c-d-g-l-m-h-i
![Page 153: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/153.jpg)
Tree (10A) 24 Young Won Lim5/11/18
In-Order
Rosen
n o p
j k
e f
b c d
a
g h i
l m
j-e-n-k-o-p-b-f-a-c-l-g-m-d-h-i
![Page 154: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/154.jpg)
Tree (10A) 25 Young Won Lim5/11/18
Post-Order
Rosen
n o p
j k
e f
b c d
a
g h i
l m
j-n-o-p-k-e-f-b-c-l-m-g-h-i-d-a
![Page 155: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/155.jpg)
Tree (10A) 26 Young Won Lim5/11/18
Ternary
Ternary
EtymologyLate Latin ternarius (“consisting of three things”), from terni (“three each”).Adjective
ternary (not comparable) Made up of three things; treble, triadic, triple, triplex Arranged in groups of three (mathematics) To the base three [quotations ▼] (mathematics) Having three variables
https://en.wiktionary.org/wiki/ternary
The sequence continues with quaternary, quinary, senary, septenary, octonary,nonary, and denary, although most of these terms are rarely used. There's no word relating to the number eleven but there is one that relates to the number twelve: duodenary.
https://en.oxforddictionaries.com/explore/what-comes-after-primary-secondary-tertiary
![Page 156: Graph Overview (1A) - Wikimedia · 5/12/2018 · Graph Overview (1A) 37 Young Won Lim 5/11/18 Walk, Trail, Path, Circuit, Cycle Vertices Edges Walk may may (Closed/Open) repeat repeat](https://reader034.vdocuments.us/reader034/viewer/2022042613/5f89b1e9fdcddd1ef70dfe88/html5/thumbnails/156.jpg)
Young Won Lim5/11/18
References
[1] http://en.wikipedia.org/[2]