Une approche d'ontologie pour la modélisation des connaissances et l’interrogation des capteurs de réseaux sans fil

International audienceWireless sensor networks (WSNs) generate large volumes of raw data which increases the difficulty for applications to manage and query sensor data. WSNs are normally application specific with no sharing or reusability of sensor data among applications. In order for applications to be developed independently of particular WSNs, sensor data need to be enriched with semantic information. Ontologies are widely used as a means for solving the information heterogeneity problems because of their capability to provide explicit meaning to the information. This paper presents our work towards the development of a wireless sensor network ontology. Based on the proposed ontology we use the SPARQL query language to enable querying of sensor data. We present the description of the development of the proposed ontology, partial evaluation of the early prototype ontology, a discussion of design and implementation issues, and directions for future research works.Les réseaux de capteurs sans fil (WSN) génèrent de gros volumes de données brutes, ce qui complique la gestion et l'interrogation des données des capteurs par les applications. Les WSN sont normalement spécifiques à une application, sans partage ni possibilité de réutilisation des données de capteur entre les applications. Pour que les applications puissent être développées indépendamment de certains WSN, les données des capteurs doivent être enrichies d'informations sémantiques. Les ontologies sont largement utilisées pour résoudre les problèmes d'hétérogénéité de l'information en raison de leur capacité à donner un sens explicite à l'information. Cet article présente nos travaux en vue du développement d’une ontologie de réseau de capteurs sans fil. Sur la base de l'ontologie proposée, nous utilisons le langage de requête SPARQL pour permettre l'interrogation des données du capteur. Nous présentons la description du développement de l'ontologie proposée, une évaluation partielle de l'ontologie du prototype initial, une discussion des problèmes de conception et de mise en œuvre et des orientations pour les travaux de recherche futurs

The Regulation of Ion Homeostasis, Growth, and Biomass Allocation in Date Palm Ex Vitro Plants Depends on the Level of Water Salinity

The date palm, a central plant in the fragile oasis ecosystem, is considered one of the fruit species most tolerant to salt stress. However, the tolerance mechanisms involved are yet to be addressed and their evaluation until now was mainly based on heterogenous plant material such as seedlings or limited to in vitro experiment conditions. For these reasons, we propose to deepen our knowledge of the morphological and physiological responses to salt stress using acclimated ex vitro plants resulting from the propagation of a single genotype. The plants were irrigated with 0, 150, 300, or 450 mM NaCl solutions for four months. Our results showed that the influence of water salinity on growth and ion-homeostasis regulation was very dependent on stress levels. The 150 mM NaCl concentration was found to improve dry biomass by about 35%, but at higher salt concentrations (300 and 450 mM) it decreased by 40–65%. The shoot:root dry mass ratio decreased significantly at the 150 mM NaCl water concentration and then increased with increasing water salt concentration. The leaf:root ratio for Na+ and Cl− decreased significantly with increasing water salinity up to a concentration of 300 mM NaCl, and then stabilized with similar values for 300 mM and 450 mM NaCl. In contrast to Na+ and Cl−, leaf K+ content was significantly higher in the leaf than in the root for all salt treatments. Unlike Na+ and K+, Cl− was expelled to the surface of leaves in response to increased water salinity. Overall, date palm plants appear to be more capable of excluding Cl− than Na+ and of changing biomass allocation according to salt-stress level, and their leaves and roots both appear to play an important role in this tolerance strategy.All authors are funded through the Small Research group project from the Deanship of Scientific Research at King Khalid University under research grant number (R.G.P.1/295/43).Peer reviewe

Painful bruising syndrome: A case report

Painful bruising syndrome or Gardner-Diamond syndrome is characterized by an auto erythrocyte sensitization syndrome. We report, here a new case of painful bruising syndrome in a woman with no psychiatric disorders. A 29-year-old female patient presented with complaints of painful bruising over the lower extremities of three years duration. She had a personal history of a severe rheumatoid arthritis. Dermatological examination revealed multiple erythematous, nonedematous and ecchymotic macules over the legs. A psychiatric examination was normal. Complete blood count, prothrombin time and liver function tests were normal. Intracutaneous sensitivity test confirmed Painful bruising syndrome

Effect of the exposure period to different water salt levels on the morphological behavior of olive plants

International audienceThe increasing salinity of water and soil is one of the environmental factors that most threatens the sustainability of olive cultivation systems in the Mediterranean basin. The identification of plant material with high tolerance to this stress would be one of the ways to solve this challenge, but it is generally a slow and expensive process. The selection of the most reliably parameters involved in the response of the plant to salinity and that are easy to evaluate, could help to speed up the identification of the most tolerant genotypes. The objective of this study is to determine the most interesting morphological characters which could be used in future as early criteria in the selection process of olive tolerant genotypes. For that, young plants, three-month-old, were exposed to salinity (0, 4 and 8 g/L NaCl) during different periods of time (30, 50 and 70 days), and several morphological parameters were assessed. The obtained results showed that most of the parameters were affected by the concentration 8 g/L of NaCl after a treatment period of 50 days. The most affected parameters by this level of salinity were the plant height, the leaf number and the number of lateral shoots. The PCA analysis showed that the number of lateral shoots was poorly correlated with the other parameters, but the height and the leaf number were highly correlated with each other