Integrating the Climate Science Modelling Language with geospatial software and services

Much consideration is rightly given to the design of metadata models to describe data. At the other end of the data-delivery spectrum much thought has also been given to the design of geospatial delivery interfaces such as the Open Geospatial Consortium standards, Web Coverage Service (WCS), Web Map Server and Web Feature Service (WFS). Our recent experience with the Climate Science Modelling Language shows that an implementation gap exists where many challenges remain unsolved. To bridge this gap requires transposing information and data from one world view of geospatial climate data to another. Some of the issues include: the loss of information in mapping to a common information model, the need to create ‘views’ onto file-based storage, and the need to map onto an appropriate delivery interface (as with the choice between WFS and WCS for feature types with coverage-valued properties). Here we summarise the approaches we have taken in facing up to these problems.

Uma máquina de redução de grafos para serviços web

Web services are software accessible via the Internet that provide functionality to be used by applications. Today, it is natural to reuse third-party services to compose new services. This process of composition can occur in two styles, called orchestration and choreography. A choreography represents a collaboration between services which know their partners in the composition, to achieve the service s desired functionality. On the other hand, an orchestration have a central process (the orchestrator) that coordinates all application operations. Our work is placed in this latter context, by proposing an abstract model for running service orchestrations. For this purpose, a graph reduction machine will be defined for the implementation of service orchestrations specified in a variant of the PEWS composition language. Moreover, a prototype of this machine (in Java) is built as a proof of concept

Jolie - un linguaggio Service Oriented

Nella tesi vengono descritte le caratteristiche principali del linguaggio di programmazione service-oriented Jolie, analizzandone ampiamente la sintassi e proponendo esempi di utilizzo degli operatori e dei costrutti. Viene fatta una panoramica di SOC, SOA, Web Services, Cloud Computing, Orchestrazione, Coreografia, Deployment e Behaviour, gli ultimi due analizzati in diversi capitoli. La tesi si conclude con un esempio di conversione di servizi WSDL in Jolie, producendo un esempio di utilizzo del Web Service convertito. Nel documento vengono accennati i progressi storici del linguaggio ed i loro sviluppatori, nonché le API fornite dal linguaggio.

Gazetteer to maps of Chishima-rettō (Kuril Islands) map series AMS L753 (1:50,000) and part of map series AMS L561 (1:250,000)

Mode of access: Internet.

Russian map symbols.

Mode of access: Internet.

Polish map symbols.

Mode of access: Internet.

Map substitute products : presented at SHAPE Geographic Conference, Paris, France, 22-25 October 1963 /

Seal on cover: U.S. Army, Corps of Engineers, Army Map Service.

Gazetteer to maps of central Honshū, map series AMS L774, 1:50,000.

"Glossary of Japanese generic terms and designations": p. vi. "Notes on Japanese place names": p. vii-ix.

Gazetteer to maps of Kyūshū. Map series AMS L772. Scale 1:50,000. July 1945.

"The names are transcribed by the modified Hepburn (Romaji) system of romanization."--p. ii.

Gazetteer to maps of Northern Honshū, map series AMS L773, 1:50,000

"Glossary of Japanese generic terms and designations": p. v. vi. "Notes on Japanese place names": p. vii x.

Gazetteer to maps of Sumatra, map series AMS T511, Scale 1:250,000.

"Glossary": p. iv-vi.

Gazetteer to maps of Hokkaidō and Karafuto. Map series AMS L764, L761 and L762 (1st ed.) Scale 1:50,000. January 1945.

"Conversion tables of Romaji equivalents (Goju-on Order)" [katakana]: p. x-xv.

The Azores; special strategic map.

Mode of access: Internet.

Open-source mapping and services for Web-based land-cover validation

Monitoring land-cover changes on sites of conservation importance allows environmental problems to be detected, solutions to be developed and the effectiveness of actions to be assessed. However, the remoteness of many sites or a lack of resources means these data are frequently not available. Remote sensing may provide a solution, but large-scale mapping and change detection may not be appropriate, necessitating site-level assessments. These need to be easy to undertake, rapid and cheap. We present an example of a Web-based solution based on free and open-source software and standards (including PostGIS, OpenLayers, Web Map Services, Web Feature Services and GeoServer) to support assessments of land-cover change (and validation of global land-cover maps). Authorised users are provided with means to assess land-cover visually and may optionally provide uncertainty information at various levels: from a general rating of their confidence in an assessment to a quantification of the proportions of land-cover types within a reference area. Versions of this tool have been developed for the TREES-3 initiative (Simonetti, Beuchle and Eva, 2011). This monitors tropical land-cover change through ground-truthing at latitude / longitude degree confluence points, and for monitoring of change within and around Important Bird Areas (IBAs) by Birdlife International and the Royal Society for the Protection of Birds (RSPB). In this paper we present results from the second of these applications. We also present further details on the potential use of the land-cover change assessment tool on sites of recognised conservation importance, in combination with NDVI and other time series data from the eStation (a system for receiving, processing and disseminating environmental data). We show how the tool can be used to increase the usability of earth observation data by local stakeholders and experts, and assist in evaluating the impact of protection regimes on land-cover change.

Uncertainty propagation in the model web:a case study with e-Habitat

eHabitat is a Web Processing Service (WPS) designed to compute the likelihood of finding ecosystems with equal properties. Inputs to the WPS, typically thematic geospatial "layers", can be discovered using standardised catalogues, and the outputs tailored to specific end user needs. Because these layers can range from geophysical data captured through remote sensing to socio-economical indicators, eHabitat is exposed to a broad range of different types and levels of uncertainties. Potentially chained to other services to perform ecological forecasting, for example, eHabitat would be an additional component further propagating uncertainties from a potentially long chain of model services. This integration of complex resources increases the challenges in dealing with uncertainty. For such a system, as envisaged by initiatives such as the "Model Web" from the Group on Earth Observations, to be used for policy or decision making, users must be provided with information on the quality of the outputs since all system components will be subject to uncertainty. UncertWeb will create the Uncertainty-Enabled Model Web by promoting interoperability between data and models with quantified uncertainty, building on existing open, international standards. It is the objective of this paper to illustrate a few key ideas behind UncertWeb using eHabitat to discuss the main types of uncertainties the WPS has to deal with and to present the benefits of the use of the UncertWeb framework.