LCF notation
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In combinatorial mathematics, LCF notation or LCF code is a notation devised by Joshua Lederberg, and extended by Coxeter and Frucht, for the representation of cubic graphs that contain a Hamiltonian cycle.[2][3]
Contents
Description
In a Hamiltonian graph, the vertices can be arranged in a cycle, which accounts for two edges per vertex. The third edge from each vertex can then be described by how many positions clockwise (positive) or counter-clockwise (negative) it leads. The basic form of the LCF notation is just the sequence of these numbers of positions, starting from an arbitrarily chosen vertex and written in square brackets. The numbers between the brackets are interpreted modulo N, where N is the number of vertices. Entries congruent modulo N to 0, 1, or N − 1 do not appear in this sequence of numbers,[4] because they would correspond either to a loop or multiple adjacency, neither of which are permitted in simple graphs.
Often the pattern repeats, and the number of repetitions can be indicated by a superscript in the notation. For example, the Nauru graph,[1] shown on the right, has four repetitions of the same six offsets, and can be represented by the LCF notation [5, −9, 7, −7, 9, −5]4. A single graph may have multiple different LCF notations, depending on the choices of Hamiltonian cycle and starting vertex.
Applications
LCF notation is useful in publishing concise descriptions of Hamiltonian cubic graphs, such as the examples below. In addition, some software packages for manipulating graphs include utilities for creating a graph from its LCF notation.[5]
If a graph is represented by LCF notation, it is straightforward to test whether the graph is bipartite: this is true if and only if all of the offsets in the LCF notation are odd.[6]
Examples
| Name | Vertices | LCF notation |
| Tetrahedral graph | 4 | [2]4 |
| Utility graph | 6 | [3]6 |
| Cubical graph | 8 | [3,-3]4 |
| Wagner graph | 8 | [4]8 or [4,-3,3,4]2 |
| Bidiakis cube | 12 | [6,4,-4]4 or [6,-3,3,6,3,-3]2 or [-3,6,4,-4,6,3,-4,6,-3,3,6,4] |
| Franklin graph | 12 | [5,-5]6 or [-5,-3,3,5]3 |
| Frucht graph | 12 | [-5,-2,-4,2,5,-2,2,5,-2,-5,4,2] |
| Truncated tetrahedral graph | 12 | [2,6,-2]4 |
| Heawood graph | 14 | [5,-5]7 |
| Möbius–Kantor graph | 16 | [5,-5]8 |
| Pappus graph | 18 | [5,7,-7,7,-7,-5]3 |
| Smallest zero-symmetric graph[7] | 18 | [5,-5]9 |
| Desargues graph | 20 | [5,-5,9,-9]5 |
| Dodecahedral graph | 20 | [10,7,4,-4,-7,10,-4,7,-7,4]2 |
| McGee graph | 24 | [12,7,-7]8 |
| Truncated cubical graph | 24 | [2,9,-2,2,-9,-2]4 |
| Truncated octahedral graph | 24 | [3,-7,7,-3]6 |
| Nauru graph | 24 | [5,-9,7,-7,9,-5]4 |
| F26A graph | 26 | [-7, 7]13 |
| Tutte–Coxeter graph | 30 | [-13,-9,7,-7,9,13]5 |
| Dyck graph | 32 | [5,-5,13,-13]8 |
| Gray graph | 54 | [-25,7,-7,13,-13,25]9 |
| Truncated dodecahedral graph | 60 | [30, -2, 2, 21, -2, 2, 12, -2, 2, -12, -2, 2, -21, -2, 2, 30, -2, 2, -12, -2, 2, 21, -2, 2, -21, -2, 2, 12, -2, 2]2 |
| Harries graph | 70 | [-29,-19,-13,13,21,-27,27,33,-13,13,19,-21,-33,29]5 |
| Harries–Wong graph | 70 | [9, 25, 31, -17, 17, 33, 9, -29, -15, -9, 9, 25, -25, 29, 17, -9, 9, -27, 35, -9, 9, -17, 21, 27, -29, -9, -25, 13, 19, -9, -33, -17, 19, -31, 27, 11, -25, 29, -33, 13, -13, 21, -29, -21, 25, 9, -11, -19, 29, 9, -27, -19, -13, -35, -9, 9, 17, 25, -9, 9, 27, -27, -21, 15, -9, 29, -29, 33, -9, -25] |
| Balaban 10-cage | 70 | [-9, -25, -19, 29, 13, 35, -13, -29, 19, 25, 9, -29, 29, 17, 33, 21, 9,-13, -31, -9, 25, 17, 9, -31, 27, -9, 17, -19, -29, 27, -17, -9, -29, 33, -25,25, -21, 17, -17, 29, 35, -29, 17, -17, 21, -25, 25, -33, 29, 9, 17, -27, 29, 19, -17, 9, -27, 31, -9, -17, -25, 9, 31, 13, -9, -21, -33, -17, -29, 29] |
| Foster graph | 90 | [17,-9,37,-37,9,-17]15 |
| Biggs-Smith graph | 102 | [16, 24, -38, 17, 34, 48, -19, 41, -35, 47, -20, 34, -36, 21, 14, 48, -16, -36, -43, 28, -17, 21, 29, -43, 46, -24, 28, -38, -14, -50, -45, 21, 8, 27, -21, 20, -37, 39, -34, -44, -8, 38, -21, 25, 15, -34, 18, -28, -41, 36, 8, -29, -21, -48, -28, -20, -47, 14, -8, -15, -27, 38, 24, -48, -18, 25, 38, 31, -25, 24, -46, -14, 28, 11, 21, 35, -39, 43, 36, -38, 14, 50, 43, 36, -11, -36, -24, 45, 8, 19, -25, 38, 20, -24, -14, -21, -8, 44, -31, -38, -28, 37] |
| Balaban 11-cage | 112 | [44, 26, -47, -15, 35, -39, 11, -27, 38, -37, 43, 14, 28, 51, -29, -16, 41, -11, -26, 15, 22, -51, -35, 36, 52, -14, -33, -26, -46, 52, 26, 16, 43, 33, -15, 17, -53, 23, -42, -35, -28, 30, -22, 45, -44, 16, -38, -16, 50, -55, 20, 28, -17, -43, 47, 34, -26, -41, 11, -36, -23, -16, 41, 17, -51, 26, -33, 47, 17, -11, -20, -30, 21, 29, 36, -43, -52, 10, 39, -28, -17, -52, 51, 26, 37, -17, 10, -10, -45, -34, 17, -26, 27, -21, 46, 53, -10, 29, -50, 35, 15, -47, -29, -41, 26, 33, 55, -17, 42, -26, -36, 16] |
| Ljubljana graph | 112 | [47, -23, -31, 39, 25, -21, -31, -41, 25, 15, 29, -41, -19, 15, -49, 33, 39, -35, -21, 17, -33, 49, 41, 31, -15, -29, 41, 31, -15, -25, 21, 31, -51, -25, 23, 9, -17, 51, 35, -29, 21, -51, -39, 33, -9, -51, 51, -47, -33, 19, 51, -21, 29, 21, -31, -39]2 |
| Tutte 12-cage | 126 | [17, 27, -13, -59, -35, 35, -11, 13, -53, 53, -27, 21, 57, 11, -21, -57, 59, -17]7 |
Extended LCF notation
A more complex extended version of LCF notation was provided by Coxeter, Frucht, and Powers in later work.[8] In particular, they introduced an "anti-palindromic" notation: if the second half of the numbers between the square brackets was the reverse of the first half, but with all the signs changed, then it was replaced by a semicolon and a dash. The Nauru graph satisfies this condition with [5, −9, 7, −7, 9, −5]4, and so can be written [5, −9, 7; −]4 in the extended notation.[9]
References
- ↑ 1.0 1.1 Eppstein, D., The many faces of the Nauru graph on LiveJournal, 2007.
- ↑ Lua error in package.lua at line 80: module 'strict' not found..
- ↑ Lua error in package.lua at line 80: module 'strict' not found..
- ↑ Klavdija Kutnar and Dragan Marušič, "Hamiltonicity of vertex-transitive graphs of order 4p," European Journal of Combinatorics, Volume 29, Issue 2 (February 2008), pp. 423-438, section 2.
- ↑ e.g. Maple, NetworkX, R, and sage.
- ↑ Lua error in package.lua at line 80: module 'strict' not found..
- ↑ Coxeter, Frucht & Powers (1981), Fig. 1.1, p. 5.
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ Coxeter, Frucht & Powers (1981), p. 12.
External links
- Weisstein, Eric W., "LCF Notation", MathWorld.
- Lua error in package.lua at line 80: module 'strict' not found.
- "Cubic Hamiltonian Graphs from LCF Notation" - JavaScript interactive application, built with D3js library
