Bimolecular computing models in vivo are an emerging computing model inspired from the biological phenomena that the biochemical molecular in living perform computation, communications, and signal processing collaboratively. This paper reviews some recent DNA computing models which are proposed to work at the cellular level for NP complete problem models, gene logic circuits and biomolecular automata. The future research directions on in vivo calculations are also pointed out.EI0122103-21083
Adleman's [Adl94] successful solution of a seven-vertex instance of the NP-complete Hamiltonian...
In DNA computer research, the quality of a model that is set up in DNA computing has a direct effect...
DNA computing appeared in the literature in 1994 when Leonard Adleman suggested to solve an NP-compl...
DNA computing is a bio-computing paradigm based on the specific hybridization of DNA strands. Most o...
DNA computing is a bio-computing paradigm based on the specific hybridization of DNA strands. Most o...
Molecular computing is a discipline that aims at harnessing individual molecules at nanoscales for c...
Molecular computing is a discipline that aims at harnessing individual molecules at nanoscales for c...
Part 3: MHDWInternational audienceBiomolecular computation is the scientific field focusing on the t...
Abstract: We present the review of main ideas and results of DNA computing - the new inte...
We show how DNA molecules and standard lab techniques may be used to create a nondeterministic Turin...
Generally, the computer systems are made up of silicon-based computer technologies. In DNA computing...
Biocomputing (also known as molecular or cell computing) is a new interdisciplinary area of science ...
Molecular computing is a discipline that aims at harnessing individual molecules at nanoscales for c...
Because of their information storing and processing capabilities, nucleic acids are interesting buil...
Adleman's [Adl94] successful solution of a seven-vertex instance of the NP-complete Hamiltonian...
Adleman's [Adl94] successful solution of a seven-vertex instance of the NP-complete Hamiltonian...
In DNA computer research, the quality of a model that is set up in DNA computing has a direct effect...
DNA computing appeared in the literature in 1994 when Leonard Adleman suggested to solve an NP-compl...
DNA computing is a bio-computing paradigm based on the specific hybridization of DNA strands. Most o...
DNA computing is a bio-computing paradigm based on the specific hybridization of DNA strands. Most o...
Molecular computing is a discipline that aims at harnessing individual molecules at nanoscales for c...
Molecular computing is a discipline that aims at harnessing individual molecules at nanoscales for c...
Part 3: MHDWInternational audienceBiomolecular computation is the scientific field focusing on the t...
Abstract: We present the review of main ideas and results of DNA computing - the new inte...
We show how DNA molecules and standard lab techniques may be used to create a nondeterministic Turin...
Generally, the computer systems are made up of silicon-based computer technologies. In DNA computing...
Biocomputing (also known as molecular or cell computing) is a new interdisciplinary area of science ...
Molecular computing is a discipline that aims at harnessing individual molecules at nanoscales for c...
Because of their information storing and processing capabilities, nucleic acids are interesting buil...
Adleman's [Adl94] successful solution of a seven-vertex instance of the NP-complete Hamiltonian...
Adleman's [Adl94] successful solution of a seven-vertex instance of the NP-complete Hamiltonian...
In DNA computer research, the quality of a model that is set up in DNA computing has a direct effect...
DNA computing appeared in the literature in 1994 when Leonard Adleman suggested to solve an NP-compl...
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