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Hui Shi,Xi Chen,Qing Tuo,Le Wu 한국전산응용수학회 2023 Journal of Applied and Pure Mathematics Vol.5 No.5
Generalized strictly diagonally dominant matrices have a wide range of applications in matrix theory and practical applications, so it is of great theoretical and practical value to study their numerical determination methods. In this paper, we study the numerical determination of generalized strictly diagonally dominant matrices by using the properties of generalized strictly diagonally dominant matrices. We obtain a new criterion for subdivision iteration determination of the generalized strictly diagonally dominant matrices by subdividing the set of non-prevailing row indices and constructing new iteration factors for the set of predominant row indices, new elements of the positive diagonal factors are derived. Advantages are illustrated by numerical examples.
HUI SHI,XI CHEN,QING TUO,LE WU The Korean Society for Computational and Applied M 2023 Journal of applied and pure mathematics Vol.5 No.5
Generalized strictly diagonally dominant matrices have a wide range of applications in matrix theory and practical applications, so it is of great theoretical and practical value to study their numerical determination methods. In this paper, we study the numerical determination of generalized strictly diagonally dominant matrices by using the properties of generalized strictly diagonally dominant matrices. We obtain a new criterion for subdivision iteration determination of the generalized strictly diagonally dominant matrices by subdividing the set of non-prevailing row indices and constructing new iteration factors for the set of predominant row indices, new elements of the positive diagonal factors are derived. Advantages are illustrated by numerical examples.
Zheng Honglong,Tuo Xianguo,Wang Zhou,Gou Rui,Liu Qi,Li Qiang,Shi Rui,Yang Guang 한국물리학회 2024 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.84 No.4
For measuring radioactive waste drum, the segmented gamma scanning (SGS) is a quick and efective procedure. The accuracy of reconstructed radioactivity in the drum is directly impacted by SGS efciency matrix. To overcome the challenges of restricted experimental source and excessive workload in existing SGS efciency calibration methods, a new SGS efciency calibration method is presented. The point source efciency function calculates the non-attenuation efciency of each voxel in the calibrated segment. The voxel attenuation efciency is corrected by the linear attenuation coefcient for segments’ absorption. The attenuation efciency for the segment is calculated as the weighted average of all voxel attenuation efciencies in a segment. The waste drum sample is flled with a random mixture of 0.33 g·cm−3 aluminium silicate fbre, 0.64 g·cm−3 wood fbre, 1.84 g·cm−3 polyvinyl chloride plastic and a point source 60Co of 1.244× 105 Bq. The SGS system and the waste drum sample are used to complete SGS experimental measurement, efciency calibration and activity reconstruction. Result shows that the relative deviations of reconstructed activity are − 15.39–30.98% for the extreme case where just a point source 60Co is placed at 16 positions in the drum with diferent heights and eccentric distances. This relative deviation rang of reconstructed activity meets the needs of most users. Compared with other methods which have complicated computational processes, the main beneft of this work is to present a low-performance and easy-to-implement additional alternative to commercial software or existing approaches.
Research on Fitness Function of Two Evolution Algorithms Used for Neutron Spectrum Unfolding
Li Rui,Yang Jianbo,Tuo Xianguo,Shi Rui 한국물리학회 2021 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.78 No.2
When evolution algorithms are used to unfold the neutron energy spectrum, fitness function design is an important fundamental work for evaluating the quality of the solution, but it has not attracted much attention. In this work, we investigated the performance of eight fitness functions attached to the genetic algorithm (GA) and the differential evolution algorithm (DEA) used for unfolding four neutron spectra selected from the IAEA 403 report. Experiments show that the fitness functions with a maximum in the GA can limit the ability of the population to percept the fitness change, but the ability can be made up in the DEA. The fitness function with a feature penalty term helps to improve the performance of solutions, and the fitness function using the standard deviation and the Chi-squared result shows the balance between the algorithm and the spectra. The results also show that the DEA has good potential for neutron energy spectrum unfolding. The purposes of this work are to provide evidence for structuring and modifying the fitness functions and to suggest some genetic operations that should receive attention when using the fitness function to unfold neutron spectra.
BanBan Li,Jia Lin Li,Na Li,Shi-Zhou Qi,이현선,Le Zhang,Shan-Shan Xing,Zhen Dong Tuo,Long Cui 대한약학회 2017 Archives of Pharmacal Research Vol.40 No.11
Two new furofuran lignans were isolated fromthe stems of Acanthopanax senticosus, along with sevenknown compounds. Their structures were all determined byspectroscopic analyses and chemical methods. All theisolates were evaluated for in vitro inhibitory activityagainst DGAT1 and DGAT2. Compounds 1 and 2 werefound to exhibit selective inhibitory activity on DGAT1with IC50 values 89.5 ± 1.5 and 57.5 ± 1.3 lM,respectively.
Gamma-Ray Source Positioning Using Array NaI(Tl) Detectors in the Radiation Portal Monitors
Qibiao Wang,Chao Deng,Jian-Bo Yang,Rui Shi,Songbai Zhang,Xianguo Tuo 한국물리학회 2019 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.75 No.3
Radiation portal monitors (RPMs) are globally employed in ports to decrease the illicit trafficking of nuclear materials. Most RPMs are generally considered as threshold devices because they utilize large plastic scintillators, which have limited energy resolution and no position sensitivity, to count the gamma-rays and neutrons emitted by nuclear materials. Hence, we designed an RPM detector system with NaI(Tl) detectors inserted into the plastic scintillators to realize gamma-ray source identification and positioning. In this work, a 2D gamma-ray source positioning algorithm based on the attenuation law and solidangle variation was studied with the simulation results, and the variation of the positioning deviations with the real positions was spline interpolated to calibrate the calculated position. The testing experiment showed a small root mean square error (RMSE) for both x (0.86 cm) and y (1.52 cm) after calibration.
( Yuechao Ma ),( Qixin Chen ),( Yi Cui ),( Lihong Du ),( Tuo Shi ),( Qingyang Xu ),( Qian Ma ),( Xixian Xie ),( Ning Chen ) 한국미생물생명공학회(구 한국산업미생물학회) 2018 Journal of microbiology and biotechnology Vol.28 No.11
Corynebacterium glutamicum is an excellent platform for the production of amino acids, and is widely used in the fermentation industry. Most industrial strains are traditionally obtained by repeated processes of random mutation and selection, but the genotype of these strains is often unclear owing to the absence of genomic information. As such, it is difficult to improve the growth and amino acid production of these strains via metabolic engineering. In this study, we generated a complete genome map of an industrial L-valine-producing strain, C. glutamicum XV. In order to establish the relationship between genotypes and physiological characteristics, a comparative genomic analysis was performed to explore the core genome, structural variations, and gene mutations referring to an industrial L-leucine-producing strain, C. glutamicum CP, and the widely used C. glutamicum ATCC 13032. The results indicate that a 36,349 bp repeat sequence in the CP genome contained an additional copy each of lrp and brnFE genes, which benefited the export of L-leucine. However, in XV, the kgd and panB genes were disrupted by nucleotide insertion, which increase the availability of precursors to synthesize L-valine. Moreover, the specific amino acid substitutions in key enzymes increased their activities. Additionally, a novel strategy is proposed to remodel central carbon metabolism and reduce pyruvate consumption without having a negative impact on cell growth by introducing the CP-derived mutant H+/citrate symporter. These results further our understanding regarding the metabolic networks in these strains and help to elucidate the influence of different genotypes on these processes.