1-Normal form for static Watson-Crick regular and linear grammars
In DNA computing, there are various formal language theoretical approaches that involves the recombinant behavior of DNA sequences. A Watson-Crick automaton is a mathematical model that represents the biological properties of DNA based on the Watson-Crick complementarity of DNA molecules. Meanw...
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Akademi Sains Malaysia
2020
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my.utm.938012021-12-31T08:51:10Z http://eprints.utm.my/id/eprint/93801/ 1-Normal form for static Watson-Crick regular and linear grammars Abdul Rahman, Aqilahfarhana Wan, Heng Fong Sarmin, Nor Haniza Turaev, Sherzod QA Mathematics In DNA computing, there are various formal language theoretical approaches that involves the recombinant behavior of DNA sequences. A Watson-Crick automaton is a mathematical model that represents the biological properties of DNA based on the Watson-Crick complementarity of DNA molecules. Meanwhile, a sticker system is another DNA computing models which uses the sticker operation to form complete double-stranded sequences. Previously, Watson-Crick grammars have been introduced as the grammar counterparts of Watson-Crick automata which generate double-stranded strings using the Watson-Crick complementarity rules. Following that, static Watson-Crick grammars are introduced, where both stranded strings are generated dependently by checking for the Watson-Crick complementarity of each complete substring. In formal language theory, normal forms, such as Chomsky Normal Form (CNF) are defined by imposing the restrictions on the rules contained in context-free grammars. However, in previous research, 1-normal form for a Watson-Crick linear grammar was defined. In this research, 1-normal forms are introduced for both static Watson-Crick regular and linear grammars. Moreover, the implementation of 1-normal form is also presented by investigating the computational properties between the static Watson-Crick regular and linear grammars. The results from this research, hence, simplify the length of the rules in the grammars, which are useful for studying computational properties of Watson-Crick grammars. Akademi Sains Malaysia 2020-11 Article PeerReviewed Abdul Rahman, Aqilahfarhana and Wan, Heng Fong and Sarmin, Nor Haniza and Turaev, Sherzod (2020) 1-Normal form for static Watson-Crick regular and linear grammars. ASM Science Journal, 13 . pp. 1-7. ISSN 2682-8901 http://dx.doi.org/10.32802/asmscj.2020.sm26(5.1) DOI:10.32802/asmscj.2020.sm26(5.1) |
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QA Mathematics Abdul Rahman, Aqilahfarhana Wan, Heng Fong Sarmin, Nor Haniza Turaev, Sherzod 1-Normal form for static Watson-Crick regular and linear grammars |
| description |
In DNA computing, there are various formal language theoretical approaches that involves the recombinant behavior of DNA sequences. A Watson-Crick automaton is a mathematical model that represents the biological properties of DNA based on the Watson-Crick complementarity of DNA
molecules. Meanwhile, a sticker system is another DNA computing models which uses the sticker operation to form complete double-stranded sequences. Previously, Watson-Crick grammars have been introduced as the grammar counterparts of Watson-Crick automata which generate double-stranded
strings using the Watson-Crick complementarity rules. Following that, static Watson-Crick grammars are introduced, where both stranded strings are generated dependently by checking for the Watson-Crick complementarity of each complete substring. In formal language theory, normal forms, such as Chomsky Normal Form (CNF) are defined by imposing the restrictions on the rules contained in context-free grammars. However, in previous research, 1-normal form for a Watson-Crick linear grammar was defined. In this research, 1-normal forms are introduced for both static Watson-Crick
regular and linear grammars. Moreover, the implementation of 1-normal form is also presented by investigating the computational properties between the static Watson-Crick regular and linear grammars. The results from this research, hence, simplify the length of the rules in the grammars,
which are useful for studying computational properties of Watson-Crick grammars. |
| format |
Article |
| author |
Abdul Rahman, Aqilahfarhana Wan, Heng Fong Sarmin, Nor Haniza Turaev, Sherzod |
| author_facet |
Abdul Rahman, Aqilahfarhana Wan, Heng Fong Sarmin, Nor Haniza Turaev, Sherzod |
| author_sort |
Abdul Rahman, Aqilahfarhana |
| title |
1-Normal form for static Watson-Crick regular and linear grammars |
| title_short |
1-Normal form for static Watson-Crick regular and linear grammars |
| title_full |
1-Normal form for static Watson-Crick regular and linear grammars |
| title_fullStr |
1-Normal form for static Watson-Crick regular and linear grammars |
| title_full_unstemmed |
1-Normal form for static Watson-Crick regular and linear grammars |
| title_sort |
1-normal form for static watson-crick regular and linear grammars |
| publisher |
Akademi Sains Malaysia |
| publishDate |
2020 |
| url |
http://eprints.utm.my/id/eprint/93801/ http://dx.doi.org/10.32802/asmscj.2020.sm26(5.1) |
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1720980126938693632 |