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MULTIVARIATE EFFECTIVENESS OF ECOLANE AND ECOHMI BASED COOPERATIVE VEHICLE-INFRASTRUCTURE SYSTEM
Qiang Fu,Yiping Wu,Xiaohua Zhao,Yang Bian,Li HaijianLi 한국자동차공학회 2023 International journal of automotive technology Vol.24 No.1
The cooperative vehicle-infrastructure system (CVIS) offers opportunities to further enhance the potential of energy saving and emission reduction for eco-driving. However, it is still not clear about the effectiveness of CVIS on promoting eco-driving nor the multivariate effectiveness of CVIS designed for eco-driving on traffic flow and safety characteristics. A dedicated ecological lane (Ecolane) and ecological human-machine-interaction (EcoHMI) based CVIS (Ecolane-HMI-CVIS) were developed based on driving simulator technology. An experiment of 35 participants was conducted to study eco-driving behavior and final utility to identify the influence of Ecolane-HMI-CVIS. The results indicated that the Ecolane-HMI-CVIS enhanced eco-driving behavior and reduced emission, with CO and NOX significantly reduced by 10.72 % and 9.83 % respectively. The Ecolane-HMI-CVIS reduced the headway and promoted vehicle operation stability, ordering, and improved traffic capacity about 10 %. No negative impact of Ecolane-HMI-CVIS was observed on traffic safety. This study developed a test platform based on driving simulator to explore the multivariate influence of Ecolane-HMI-CVIS. In addition to analyzing the overall effect of Ecolane-HMI-CVIS during the whole experimental section, its detailed influence at each key zone and in spatial change process were also analyzed. This research contributed to better understanding of the working mechanism and effectiveness of Ecolane-HMI-CVIS, and provide technical and policy references of CVIS based eco-driving for traffic management departments.
( Dan Li ),( Dongwei Fu ),( Yue Zhang ),( Xueling Ma ),( Liguo Gao ),( Xiaohua Wang ),( Dongpo Zhou ),( Kai Zhao ) 한국미생물생명공학회(구 한국산업미생물학회) 2017 Journal of microbiology and biotechnology Vol.27 No.8
The content of taxol in the bark of yews is very low, and this is not affordable from the environmental point of view. Thus, it is a necessity to look for alternative sources of taxol production to solve its supply. Currently, a large portion of the taxol in the market comes from chemical semi-synthesis, but the semi-synthetic precursors such as baccatin III and 10- deacetyl-baccatin III are extracted from needles and twigs of yew trees. Taxol-producing fungi as a renewable resource is a very promising way to increase the scale of taxol production. Our group has obtained a taxol-producing endophytic fungus, Aspergillus niger subsp. taxi HD86-9, to examine if A. niger can produce the taxanes. Six compounds from the fermentation broth of strain HD86-9 were isolated and identified by <sup>1</sup>H NMR, <sup>13</sup>C NMR, and ESI-MS. The results showed that the six compounds included four taxane diterpenoids (taxol, cephalomannine, baccatin III, and 10-deacetyl-baccatin III) and two non-taxane compounds (β-sitosterol and flavonoid isovitexin). The study verified that the taxanes can be produced by the A. niger, which is very important to taxol production via chemical semi-synthesis. Additionally, the finding is potentially very significant to solve the taxol semi-synthetic precursors extracted from needles and twigs of yew trees, and the precursor production can be easily increased through the culture condition optimization, genetic breeding, and metabolic engineering of the A. niger.
HDRE: Coverage Hole Detection with Residual Energy in Wireless Sensor Networks
Yun-zhou Zhang,Xiaohua Zhang,Wenyan Fu,Zeyu Wang,Honglei Liu 한국통신학회 2014 Journal of communications and networks Vol.16 No.5
Coverage completeness is an important indicator forquality of service in wireless sensor networks (WSN). Due to limitedenergy and diverse working conditions, the sensor nodes havedifferent lifetimes which often cause network holes. Most of the existingmethods expose large limitation and one-sidedness becausethey generally consider only one aspect, either coverage rate or energyissue. This paper presents a novel method for coverage holedetection with residual energy in randomly deployed wireless sensornetworks. By calculating the life expectancy of working nodesthrough residual energy, we make a trade-off between network repaircost and energy waste. The working nodes with short lifetimeare screened out according to a proper ratio. After that, the locationsof coverage holes can be determined by calculating the jointcoverage probability and the evaluation criteria. Simulation resultshows that compared to those traditional algorithms without considerationof energy problem, our method can effectively maintainthe coverage quality of repairedWSN while enhancing the life spanof WSN at the same time.
( Gangping Li ),( Min Yang ),( Kan Zhou ),( Lei Zhang ),( Lugao Tian ),( Shangze Lv ),( Yu Jin ),( Wei Qian ),( Hanhua Xiong ),( Rong Lin ),( Yu Fu ),( Xiaohua Hou ) 한국미생물 · 생명공학회 2015 Journal of microbiology and biotechnology Vol.25 No.7
The diverse microbial communities that colonize distinct segments of the gastrointestinal tract are intimately related to aspects of physiology and the pathology of human health. However, most recent studies have focused on the rectal or fecal microbiota, and the microbial signature of the duodenum is poorly studied. In this study, we compared the microbiota in duodenal and rectal samples to illustrate the characteristic microbial signatures of the duodenum in healthy adults. Nine healthy volunteers donated biopsies and luminal contents from the duodenum and rectum. To determine the composition and diversity of the microbiota, 454- pyrosequencing of bacterial 16S rRNA was performed and multiple bioinformatics analyses were applied. The α-diversity and phylogenetic diversity of the microbiota in the duodenal samples were higher than those of the rectal samples. There was higher biodiversity among the microbiota isolated from rectal biopsies than feces. Proteobacteria were more highly represented in the duodenum than in the rectum, both in the biopsies and in the luminal contents from the healthy volunteers (38.7% versus 12.5%, 33.2% versus 5.0%, respectively). Acinetobacter and Prevotella were dominant in the duodenum, whereas Bacteroides and Prevotella were dominant in the rectum. Additionally, the percentage of OTUs shared in biopsy groups was far higher than in the luminal group (43.0% versus 26.8%) and a greater number of genera was shared among the biopsies than the luminal contents. Duodenal samples demonstrated greater biological diversity and possessed a unique microbial signature compared with the rectum. The mucosa-associated microbiota was more relatively conserved than luminal samples.