Jacob Hendricks
University of Arkansas
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Publication
Featured researches published by Jacob Hendricks.
Natural Computing | 2015
Tyler Fochtman; Jacob Hendricks; Jennifer E. Padilla; Matthew J. Patitz; Trent A. Rogers
The 2-handed assembly model (2HAM) is a tile-based self-assembly model in which, typically beginning from single tiles, arbitrarily large aggregations of static tiles combine in pairs to form structures. The signal-passing tile assembly model (STAM) is an extension of the 2HAM in which the tiles are dynamically changing components which are able to alter their binding domains as they bind together. In this paper, we examine the
machines, computations, and universality | 2013
Jacob Hendricks; Matthew J. Patitz
international conference on unconventional computation | 2014
Jacob Hendricks; Matthew J. Patitz; Trent A. Rogers
\hbox {STAM}^+
international conference on unconventional computation | 2015
Jacob Hendricks; Matthew J. Patitz; Trent A. Rogers
computing and combinatorics conference | 2014
Jacob Hendricks; Matthew J. Patitz; Trent A. Rogers; Scott M. Summers
STAM+, a restriction of the STAM that does not allow glues to be turned “off”, and prove that there exists a 3D tile set at temperature
Natural Computing | 2016
Jacob Hendricks; Matthew J. Patitz; Trent A. Rogers
international conference on dna computing | 2015
Jacob Hendricks; Matthew J. Patitz; Trent A. Rogers
\tau >1
machines computations and universality | 2015
Jacob Hendricks; Matthew J. Patitz; Trent A. Rogers
international conference on online communities and social computing | 2013
Hiep Phuc Luong; Dipesh Gautam; John M. Gauch; Susan Gauch; Jacob Hendricks
τ>1 in the 2HAM which is intrinsically universal for the class of all 2D
symposium on discrete algorithms | 2015
Sándor P. Fekete; Jacob Hendricks; Matthew J. Patitz; Trent A. Rogers; Robert T. Schweller
