We have demonstrated semantic interoperability of clinical information using CEN/ISO 13606 extracts. The present work demonstrates that it is possible to build a native CEN/ISO 13606 repository for the storage of clinical data. With this approach, relational technology can be used for storage, maintaining extensibility capabilities. Our approach, based on the use of ontologies, maintains data storage independent of content specification. Using a CEN/ISO 13606 based system, an indefinite number of archetypes can be merged (and reused) to build new applications. This approach has demonstrated a complete evaluation cycle involving the creation of the meta-model in OWL format, the creation of a simple test application, and the communication of standardized extracts to another organization.
#Songkong rename mask iso
The meta-model of OntoCRF has been extended by incorporating an OWL model integrating CEN/ISO 13606, ISO 21090 and SNOMED CT structure. The approach followed is to extend OntoCRF, a framework for the development of clinical repositories based on ontologies. To design a new semantically interoperable clinical repository, based on ontologies, conforming to CEN/ISO 13606 standard. Lozano-RubÃ, Raimundo Muñoz Carrero, Adolfo Serrano Balazote, Pablo Pastor, Xavier OntoCR: A CEN/ISO-13606 clinical repository based on ontologies. The contribution of the various l-states in the total spectra and the importance of cross sections are also analyzed in detail. Our computed spectra in such a coupled scheme explain the experimental data remarkably well, establishing the validity of our theoretical model in analyzing the electronic structure of CeN. Following the spirit of Gunnarsson–Schonhammer model, we have coupled the SPTF and HIA 4f spectral functions to explain the various spectroscopic manifestations of CeN. The calculated l-projected atomic partial densities of states and the converged potential were used to obtain the X-ray-photoemission-spectra (XPS) and Bremstrahlung Isochromat spectra (BIS). The effective impurity problem has been solved through the spin-polarized T-matrix fluctuation-exchange (SPTF) solver and the Hubbard I approximation (HIA). Abstract: We have studied in detail the electronic structure of CeN including spin orbit coupling (SOC) and electron–electron interaction, within the dynamical mean-field theory combined with density-functional theory in generalized gradient approximation (GGA+DMFT). • The contribution of the various l-states and the importance of cross-sections for the photoemission process are analyzed. • The calculated XPS and BIS spectra show good agreement with the corresponding experimental spectra. • 4f spectral functions from SPTF and Hubbard I are coupled to explain the various spectroscopic manifestations of CeN. Highlights: • The electronic structure of CeN is studied within the GGA+DMFT approach using SPTF and Hubbard I approximation. Box 516, SE-751 20 Uppsala (Sweden) KTH Royal Institute of Technology, School of Information and Communication Technology, Department of Materials and Nano Physics, Electrum 229, SE-164 40 Kista (Sweden) KTH Royal Institute of Technology, Swedish e-Science Research Center (SeRC), SE-100 44 Stockholm (Sweden) Eriksson, O., E-mail: [Department of Physics and Astronomy, Uppsala University, P.O. [Department of Physics and Astronomy, Uppsala University, P.O. Box 516, SE-751 20 Uppsala (Sweden) Delin, A.
Box 516, SE-751 20 Uppsala (Sweden) Di Marco, I. Panda, S.K., E-mail: [Department of Physics and Astronomy, Uppsala University, P.O. This study isolates two novel centromeric loci ( CEN1 and CEN2.Įnergy Technology Data Exchange (ETDEWEB)
Its different strains' chromosomes greatly vary in number (karyotype). The wine and beer yeast Dekkera bruxellensis thrives in environments that are harsh and limiting, especially in concentrations with low oxygen and high ethanol. Vojvoda Zeljko, Tanja Schifferdecker, Anna J. Novel Centromeric Loci of the Wine and Beer Yeast Dekkera bruxellensis CEN1 and CEN2