Browsing by Author "Assumption University. Vincent Mary School of Science and Technology"
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ItemThe 2002 AU academic awards(Assumption University, 2003) Narong Chomchalow ; Assumption University. Vincent Mary School of Science and Technology
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ItemThe 2003 AU awards for excellence(Assumption University, 2004) Narong Chomchalow ; Assumption University. Vincent Mary School of Science and Technology
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ItemThe 2006 AU Academic Award presentations(Assumption University, 2007) Staff, Editorial ; Assumption University. Vincent Mary School of Science and Technology
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ItemAlternative health for holistic care(Assumption University, 2002) Yaowalak Jittakoat ; Assumption University. Vincent Mary School of Science and Technology
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ItemAnalysis of chemical and microbiological changes during over-fermentation of Naem by using biochemical and molecular biology methods(Assumption University, 2006) Trilert Chaicherdsakul ; Worrawalan Phoonsawat, jt. auth. ; Vethachai Plengvidh, jt. auth. ; Assumption University. Vincent Mary School of Science and Technology
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ItemAnti-HIV drugs from plant sources(Assumption University, 1999) Narong Chomchalow ; Assumption University. Vincent Mary School of Science and Technology
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ItemAntibacterial activity of chrysanthemum indicum, centella asiatica and andrographis paniculata against bacillus cereus and listeria monocytogenes under osmotic stress(Assumption University, 2012) Nateepat Pitinidhipat ; Patchanee Yasurin, jt. auth. ; Assumption University. Vincent Mary School of Science and Technology
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ItemAn approach for exploring combinatorial properties of R-path omega Interconnection networks(Assumption University, 2010) Veselovsky, Gennady ; Assumption University. Vincent Mary School of Science and TechnologyMultiple path multistage interconnection networks as compared to their parental one path cube-type networks provide better permutation capability and offer such important property as fault-tolerance. In this paper an approach for investigation permuting ability of R-path Omega networks is proposed. The analysis as concerned to arbitrary permutations is done with the help of number theory methods. As to BPC (bit-permute-complement) permutations admissibility check to the aforementioned type of networks, the modified window method is proposed. The aforementioned method reduces drastically the time complexity of admissibility check. The results of computational experiments with applying the technique to some permutations of BPC class are given.
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