2014
DOI: 10.1007/978-3-319-11017-2_2
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Towards Intelligent Distributed Computing: Cell-Oriented Computing

Abstract: Distributed computing systems are of huge importance in a number of recently established and future functions in computer science. For example, they are vital to banking applications, communication of electronic systems, air traffic control, manufacturing automation, biomedical operation works, space monitoring systems and robotics information systems. As the nature of computing comes to be increasingly directed towards intelligence and autonomy, intelligent computations will be the key for all future applicat… Show more

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Cited by 1 publication
(2 citation statements)
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References 22 publications
(17 reference statements)
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“…Deoxyribonucleic acid (DNA) is considered as a promising material for molecular computing, which involves logical calculations , and solving complex mathematical problems based on the chemical reactions between molecules. Owing to Watson–Crick pairing, DNA information binding with paired sequences is widely used in traditional biotechnologies such as polymer chain reaction (PCR), gene editing and synthesis, , and molecule sensing, as well as for bionanotechnologies such as superlattices, DNA origami, and DNA computing. , The chemical reaction network (CRN), which is conducted through parallel and cascading reactions in the DNA solution enables solving problems via DNA biocomputing, which includes logic gate calculations, neural networks, , cell computing, and virus detection using neural networks. , However, several sequential CRN steps are required for implementing simple DNA-based logic gates; these steps are typically demonstrated in a single, small PCR tube or a plate reader by adding molecules using a pipet. , For example, Qian et al . designed CRNs for basic logic gates such as the AND, OR, and NOT gates by using four or five sequential steps .…”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…Deoxyribonucleic acid (DNA) is considered as a promising material for molecular computing, which involves logical calculations , and solving complex mathematical problems based on the chemical reactions between molecules. Owing to Watson–Crick pairing, DNA information binding with paired sequences is widely used in traditional biotechnologies such as polymer chain reaction (PCR), gene editing and synthesis, , and molecule sensing, as well as for bionanotechnologies such as superlattices, DNA origami, and DNA computing. , The chemical reaction network (CRN), which is conducted through parallel and cascading reactions in the DNA solution enables solving problems via DNA biocomputing, which includes logic gate calculations, neural networks, , cell computing, and virus detection using neural networks. , However, several sequential CRN steps are required for implementing simple DNA-based logic gates; these steps are typically demonstrated in a single, small PCR tube or a plate reader by adding molecules using a pipet. , For example, Qian et al . designed CRNs for basic logic gates such as the AND, OR, and NOT gates by using four or five sequential steps .…”
Section: Introductionmentioning
confidence: 99%
“…Owing to Watson−Crick pairing, DNA information binding with paired sequences is widely used in traditional biotechnologies such as polymer chain reaction (PCR), 6 gene editing and synthesis, 7,8 and molecule sensing, 9−11 as well as for bionanotechnologies such as superlattices, 12 DNA origami, 13 and DNA computing. 14,15 The chemical reaction network (CRN), which is conducted through parallel and cascading reactions in the DNA solution enables solving problems via DNA biocomputing, which includes logic gate calculations, 16 neural networks, 17,18 cell computing, 19 and virus detection using neural networks. 20,21 these steps are typically demonstrated in a single, small PCR tube or a plate reader by adding molecules using a pipet.…”
Section: Introductionmentioning
confidence: 99%