Expanding graceful trees
Abstract
Two methods for expanding graceful trees are introduced. In constructing a larger graceful trees, these methods are based on a collection of certain graceful trees and one graceful tree as the core of the produced graceful tree.
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PDFDOI: http://dx.doi.org/10.5614/ejgta.2020.8.2.2
References
U.N. Deshmukh, Applications of graceful graphs, International Journal of Engineering Sciences and Research Technology 4 (2015), 129--131.
J.A. Gallian, A dynamic survey of graph labeling, Electron. J. Combin. (2019), DS6.
K.M. Koh, D.G. Rogers and T. Tan, Two theorems on graceful trees, Discrete Math. 25 (1979), 141--148.
K.M. Koh, D.G. Rogers and T. Tan, Interlaced trees: a class of graceful trees, in: Combinatorial mathematics VI: Proc. Sixth Australian Conference, Armidale, Lecture Notes in Math. (Springer-Verlag, Berlin, 1979).
K.M. Koh, D.G. Rogers and T. Tan, Products of graceful trees, {it Discrete Math. 31 (1980), 279--292.
K.M. Koh, D.G. Rogers and T. Tan, Another class of graceful trees, J. Austral. Math. Soc. Series A 31 (1981), 226--235.
D. Mishra, S.K. Rout, and P.C. Nayak, Some new graceful generalized classes of diameter six trees, Electron. J. Graph Theory Appl. 5 (2017), 94--111.
R.G. Stanton and C.R. Zarnke, Labeling of balanced trees, in: Proc. Fourth South Eastern Conference, Boca Raton, Congr. Numer. 8 (Utilitas Math., Winnipeg, 1973).
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