233 research outputs found
Monodispersed MOF-808 Nanocrystals Synthesized via a Scalable Room-Temperature Approach for Efficient Heterogeneous Peptide Bond Hydrolysis
sponsorship: S.D. is grateful for the support from CSC grant (grant number 201706140196). S.D. appreciates the helpful discussion with Sujing Wang (USTC). C. Simms thanks Research Foundation Flanders (FWO) for the doctoral fellowship (11C9320N). T.N.P.V. thanks F.W.O. for funding (G095017N). DIM Respore is acknowledged for access to HRTEM. Joelle Vinh and Giovanni Chiappetta are acknowledged for MS. (CSC grant|201706140196, Research Foundation Flanders (FWO)|11C9320N, F.W.O.|G095017N)status: Publishe
Analysis of bilinear pairing-based accumulator for identity escrowing
An accumulator based on bilinear pairings was proposed at CT-RSA'05. Here, it is first demonstrated that the security model proposed by Lan Nguyen does lead to a cryptographic accumulator that is not collision resistant. Secondly, it is shown that collision-resistance can be provided by updating the adversary model appropriately. Finally, an improvement on Nguyen's identity escrow scheme, with membership revocation based on the accumulator, by removing the trusted third party is proposed
Investingation of communicative tasks in senior high school coursebooks in China
Thesis (M.A., Teaching English as an International Language)--Prince of Songkla University, 201
Dorylaimopsis jinyuei Fu & Leduc & Rao & Cai 2019, sp. n.
Dorylaimopsis jinyuei sp. n. (Figures 7–9, Table 3) Material examined. Type specimens. Holotype male, inventory slide no. ChukchiC0431. The habitat and locality. Sublittoral zone in the Chukchi Sea (Arctic Ocean). Collected in July 2014, 169°01′ W, 67°40′ N, water depth 50 m, salinity 32.77‰; 168°09′ W, 69°13′ N, water depth 50 m, salinity 32.75‰; 169°00′ W, 69°36′ N, water depth 52 m, salinity 32.63‰; 166°59′ W, 71°00′ N, water depth 45 m, salinity 30.64‰; surface sediment layer (0–10 cm), muddy sediment. Male inventory slide no. ChukchiC0431, ChukchiC01, ChukchiB14 and ChukchiR02. Female inventory slide no. ChukchiR04 and ChukchiC01. Etymology. This species was named after the second son of the first author Sujing Fu. Description. Male. Body cylindrical, widest at anterior intestine region, gradually tapering towards both extremities. Cuticle with transverse rows of fine punctuations, with lateral differentiation in the form of 4–7 longitudinal rows of coarse dots extending from posterior edge of amphid to anterior of intestine, and 5–7 longitudinal rows of coarse dots in the conical tail region, not as regular as in pharyngeal region; longitudinal rows of coarse dots absent in middle body. Cephalic region with a distinct constriction. Two circles of six inner labial and six outer labial papillae, four cephalic setae situated at level of constriction. Buccal cavity consists of two portions, a cup-shaped anterior portion and a cuticularized tubular posterior portion. Three triangular teeth present at the anterior end of tubular part of buccal cavity. Amphids spiral, 2.75 turns, anterior border of amphids at level of cephalic setae. Pharynx cylindrical, widening slightly towards posterior end. Nerve ring near middle of pharynx. The ventral gland situated posterior to the cardia level, the excretory pore opens near half of pharyngeal length. Cardia small. Reproductive system diorchic with two outstretched testes, anterior testis to the right and posterior testis to the left of the intestine. Spicules equal and curved, 1.9–2.5 cloacal body diameters long, with a strong developed capitulum, and proximally with a short central lamina. Gubernaculum with paired dorsocaudal apophyses. Fifteen to twenty fine tubular precloacal supplement present which are often difficult to distinguish. Tail conico-cylindrical, several short caudal setae and three terminal setae. Three caudal glands and distinct spinneret present. Female. Similar to males. Some female specimens like males in the pattern of lateral differentiation. But the other females with longitudinal rows of coarse dots beginning from posterior edge of amphid with 4–7 rows extending to anterior border of pharyngeal bulb, the longitudinal rows disappear in the middle body, then reappear with 5–7 rows in the tail region, longitudinal rows in the tail region are not as regular as in pharyngeal region. Reproductive system didelphic, opposed, outstretched, with anterior ovary situated on the left of intestine, posterior ovary on the right side of intestine. Vulva at pre-median of body length. Granular vaginal glands present. Spermatheca present, often with numerous spermatozoa. Three caudal glands and distinct spinneret present. Diagnosis and relationships. Dorylaimopsis jinyuei sp. n. is characterized by cuticle with lateral differentiation in the form of longitudinal rows of larger dots in two separate regions, not along entire body. One region is from posterior edge of amphid with 4–7 rows extending to anterior of intestine, the other is tail region with 5–7 rows. But in some females longitudinal rows of larger dots are distributed from posterior edge of amphid to anterior border of pharyngeal bulb (4–7 longitudinal rows), then reappear in the tail region with 5–7 rows. Amphideal fovea with 2.75 turns and spicules 127–151 μm long with a strongly developed capitulum, and proximally with a short central lamina. Fifteen to twenty fine tubular precloacal supplements present. Dorylaimopsis jinyuei sp. n. resembles D. coomansi Muthumbi et al., 1997 and D. turneri Zhang, 1992 in the cuticle with lateral longitudinal rows of coarse dots not along entire body, and in the spicules with cephalated proximal end. Dorylaimopsis jinyuei sp. n. differs from the latter species by the different distribution of longtitudinal rows of coarse dots; D. jinyuei sp. n. has lateral longitudinal rows of coarse dots in two regions, one is from posterior edge of amphid to anterior of intestine region or to the anterior border of pharyngeal bulb in some females, the other is the tail region, but in D. coomansi and D. turneri the lateral longitudinal rows of coarse dots begin posteriorly to the pharyngeal region and end at the cloaca/anus. Dorylaimopsis jinyuei sp. n. also differs from D. coomansi by the shape of the gubernacular apophyses, which are distinctly swollen distally in D. coomansi, and not swollen in D. jinyuei sp. n. Dorylaimopsis jinyuei sp. n. differs from D. turneri by its much longer spicules (127–151 μm vs 57–67 μm in D. turneri) and spicules with small central lamina in the new species. Dorylaimopsis jinyuei sp. n. resembles D. papilla Guo et al., 2018 in the spicules with cephalated proximal end and with small central lamina. However, D. jinyuei sp. n. differs from the latter in the ratio of the conical portion of the tail to total tail length (2/ 3 in D. jinyuei sp. n. vs 1/ 2 in D. papilla), and D. papilla has lateral differentiation of two longitudinal rows in the middle region of body which is different from D. jinyuei sp. n.Published as part of Fu, Sujing, Leduc, Daniel, Rao, Yiyong & Cai, Lizhe, 2019, Three new free-living marine nematode species of Dorylaimopsis (Nematoda Araeolaimida: Comesomatidae) from the South China Sea and the Chukchi Sea, pp. 433-450 in Zootaxa 4608 (3) on pages 443-446, DOI: 10.11646/zootaxa.4608.3.2, http://zenodo.org/record/306669
Toward Green Production of Water-Stable Metal–Organic Frameworks Based on High-Valence Metals with Low Toxicities
International audienc
Spatial and Spatio-Temporal Clustering
Due to the advances in technology, such as smart phones, general mobile devices, remote sensors, and sensor networks, different types of spatial data become increasingly available. These data can also integrate multiple other types of information, such as temporal information, social information, and scientific measurements, which provide a tremendous potential for discovering new useful knowledge, as well as new research challenges. In this research, we focus on clustering and analyzing spatial and spatio-temporal data. We have addressed several important sub-problems in polygon-based spatial and spatio-temporal clustering and post-processing analysis techniques. We have developed (1) two distance functions that measure the distances between polygons, especially overlapping polygons; (2) a density-based spatial clustering algorithm for polygons; (3) two post-processing analysis techniques to extract interesting patterns and useful knowledge from spatial clusters; (4) two density-based spatio-temporal clustering algorithms for polygons; (5) a box plot based post-processing analysis technique to identify interesting spatio-temporal clusters of polygons; (6) a change-pattern-discovery algorithm to detect and analyze patterns of dynamic changes within spatio-temporal clusters of polygons; and (7) a formal definition of the task of finding uniform regions in spatial data and an algorithm to identify such uniform regions. Our algorithms and techniques are demonstrated and evaluated in challenging real-world case studies involving ozone pollution events in the Houston-Galveston-Brazoria area and the building data of Strasbourg, France. The results show that our algorithms are effective in finding compact clusters in spatial and spatio-temporal domains and in extracting interesting patterns and useful information from spatial and spatio-temporal data.Computer Science, Department o
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