305 research outputs found
Design and implementation of the land surface model NaturalEnvironment within the generic framework OpenDanubia for integrative, distributed environmental modelling
The project GLOWA-Danube (http://www.glowa-danube.de) aimed at
investigating the manifold consequences of Global Change on regional water
resources in the Upper Danube Basin. In order to achieve this task, an
interdisciplinary, university-based network of experts developed the integrative
Decision Support System OpenDanubia (OD). The common base for implementing
and coupling the various scientific model components is a generic framework,
which provides the coordination of the coupled models that run in parallel
exchanging iteratively data via their interfaces. The OD framework takes care of
technical aspects, such as ordered data exchange between sub-models, data
aggregation, data output, model parallelization and data distribution over the
network, which means that model developers do not have to be concerned about
complexities evolving from coupling their models.
Within this framework the sub-model NaturalEnvironment, representing a land
surface model, was developed and implemented. The object-oriented design of this
sub-model facilitates a plain, logical representation of the actual physical processes
simulated by the sub-model. Physical processes to be modelled are organized in
naturally ordered, exchangeable lists that are executed on each spatial
computation unit for each modelling time step, depending on their land cover. The
type of land cover to be simulated on each freely defined spatial unit is
distinguished by one of the three types aquatic, terrestrial and glacier. Additionally,
the type terrestrial is influenced by dynamic land use changes which can be
triggered e.g. by the socio-economic OD sub-model Farming.
This paper presents the basic design of the open source (GPL'ed) OD framework
and highlights the implementation of the sub-model NaturalEnvironment within this
framework, as well as its interactions with other components included in OD
Applying OGC sensor web enablement to ocean observing systems
The complexity of marine installations
for ocean observing systems has grown significantly in
recent years. In a network consisting of tens, hundreds
or thousands of marine instruments, manual
configuration and integration becomes very
challenging. Simplifying the integration process in
existing or newly established observing systems would
benefit system operators and is important for the
broader application of different sensors. This article
presents an approach for the automatic configuration
and integration of sensors into an interoperable
Sensor Web infrastructure. First, the sensor
communication model, based on OGC's SensorML
standard, is utilized. It serves as a generic driver
mechanism since it enables the declarative and
detailed description of a sensor's protocol. Finally, we
present a data acquisition architecture based on the
OGC PUCK protocol that enables storage and
retrieval of the SensorML document from the sensor
itself, and automatic integration of sensors into an
interoperable Sensor Web infrastructure. Our
approach adopts Efficient XML Interchange (EXI) as
alternative serialization form of XML or JSON. It
solves the bandwidth problem of XML and JSON.Peer ReviewedPostprint (author's final draft
A Lambda-Free Higher-Order Recursive Path Order
International audienceWe generalize the recursive path order (RPO) to higher-order terms without λ-abstraction. This new order fully coincides with the standard RPO on first-order terms also in the presence of currying, distinguishing it from previous work. It has many useful properties, including well-foundedness, transitivity, stability under substitution, and the subterm property. It appears promising as the basis of a higher-order superposition calculus
Entwicklung und Validierung eines EIT-Gurtes sowie klinischer Parameter für die Elektrische Impedanztomografie
Die entwickelten EIT-Gurte sind spezifisch auf die Anatomie der jeweiligen Patientenpopulation abgestimmt, sind hautverträglich und ermöglichen es, stabile und reproduzierbare EIT-Daten zu erfassen. Sie erfüllen somit die technischen Grundvoraussetzungen für den möglichen klinischen Einsatz der EIT. Der neu entwickelte EIT-Parameter, SilentSpaces, ermöglicht eine Darstellung von potenziell überdehnten sowie kollabierten Lungenbereichen. Basierend auf den SilentSpaces kann der Kliniker jetzt patientenspezifisch die Beatmungseinstellungen optimieren
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