Mathematics – Numerical Analysis
Scientific paper
2012-03-20
Mathematics
Numerical Analysis
Scientific paper
Higher order nets were introduced by Dick as a generalisation of classical $(t,m,s)$-nets, which are point sets frequently used in quasi-Monte Carlo integration algorithms. Essential tools in finding such point sets of high quality are propagation rules, which make it possible to generate new higher order nets from existing higher order nets and even classical $(t,m,s)$-nets. Such propagation rules for higher order nets were first considered by the authors in [J. Dick, P. Kritzer. Duality theory and propagation rules for generalized digital nets. Math. Comp. 79, 993--1017, 2010] and further developed in [J. Baldeaux, J. Dick, F. Pillichshammer. Duality theory and propagation rules for higher order nets. Discrete Math. 311, 362--386, 2011]. In [E.L. Blokh, V.V. Zyablov. Coding of generalized concatenated codes. Problems of Information Transmission, 10, 218--222, 1974] Blokh and Zyablov established a very general propagation rule for linear codes. This propagation rule has been extended to $(t,m,s)$-nets by Sch\"urer and Schmid in [R. Sch\"{u}rer, W.Ch. Schmid. \textit{MinT---the database of optimal net, code, OA, and OOA parameters}. Available at: \texttt{http://mint.sbg.ac.at}]. In this paper we show that this propagation rule can also be extended to higher order nets. Examples indicate that this propagation rule yields new higher order nets with significantly higher quality.
Dick Josef
Kritzer Peter
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