黑板图的独立性和支配性

Recreational Mathematics Magazine Pub Date : 2017-12-20 DOI:10.1515/rmm-2017-0018

D. Chatham

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引用次数: 5

摘要

摘要:给定一个(对称移动的)棋子，如棋棋，和一个n×n棋盘，如果棋子可以从一个顶点移动到另一个顶点，我们可以形成一个图形，每个正方形有一个顶点，两个顶点之间有一条边。我们以棋棋中的两个棋子为例:龙王，其移动方式类似于国际象棋中的车和国王;龙马，其移动方式类似于国际象棋中的主教和车。我们证明了龙王图的独立数等于皇后图的独立数。我们证明了当4≤n≤6时，龙王图的(独立)支配数为n−2，当n≥7时，龙王图的(独立)支配数为n−3。对于龙马图，我们证明了当n≥5时，独立数为2n−3，当n≥4时，控制数最多为n−1，当n≥5时，独立控制数最多为n。

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Independence and domination on shogiboard graphs

Abstract Given a (symmetrically-moving) piece from a chesslike game, such as shogi, and an n×n board, we can form a graph with a vertex for each square and an edge between two vertices if the piece can move from one vertex to the other. We consider two pieces from shogi: the dragon king, which moves like a rook and king from chess, and the dragon horse, which moves like a bishop and rook from chess. We show that the independence number for the dragon kings graph equals the independence number for the queens graph. We show that the (independent) domination number of the dragon kings graph is n − 2 for 4 ≤ n ≤ 6 and n − 3 for n ≥ 7. For the dragon horses graph, we show that the independence number is 2n − 3 for n ≥ 5, the domination number is at most n−1 for n ≥ 4, and the independent domination number is at most n for n ≥ 5.

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