Lessons learned from INTAMAP, an interoperable web service for the real-time interpolation of environmental variables

Interpolated data are an important part of the environmental information exchange as many variables can only be measured at situate discrete sampling locations. Spatial interpolation is a complex operation that has traditionally required expert treatment, making automation a serious challenge. This paper presents a few lessons learnt from INTAMAP, a project that is developing an interoperable web processing service (WPS) for the automatic interpolation of environmental data using advanced geostatistics, adopting a Service Oriented Architecture (SOA). The “rainbow box” approach we followed provides access to the functionality at a whole range of different levels. We show here how the integration of open standards, open source and powerful statistical processing capabilities allows us to automate a complex process while offering users a level of access and control that best suits their requirements. This facilitates benchmarking exercises as well as the regular reporting of environmental information without requiring remote users to have specialized skills in geostatistics.

INTAMAP: the design and implementation of an interoperable automated interpolation web service

INTAMAP is a Web Processing Service for the automatic spatial interpolation of measured point data. Requirements were (i) using open standards for spatial data such as developed in the context of the Open Geospatial Consortium (OGC), (ii) using a suitable environment for statistical modelling and computation, and (iii) producing an integrated, open source solution. The system couples an open-source Web Processing Service (developed by 52°North), accepting data in the form of standardised XML documents (conforming to the OGC Observations and Measurements standard) with a computing back-end realised in the R statistical environment. The probability distribution of interpolation errors is encoded with UncertML, a markup language designed to encode uncertain data. Automatic interpolation needs to be useful for a wide range of applications and the algorithms have been designed to cope with anisotropy, extreme values, and data with known error distributions. Besides a fully automatic mode, the system can be used with different levels of user control over the interpolation process.

INFRAWEBS Semantic Web Service Development on the Base of Knowledge Management Layer

The paper gives an overview about the ongoing FP6-IST INFRAWEBS project and describes the main layers and software components embedded in an application oriented realisation framework. An important part of INFRAWEBS is a Semantic Web Unit (SWU) – a collaboration platform and interoperable middleware for ontology-based handling and maintaining of SWS. The framework provides knowledge about a specific domain and relies on ontologies to structure and exchange this knowledge to semantic service development modules. INFRAWEBS Designer and Composer are sub-modules of SWU responsible for creating Semantic Web Services using Case-Based Reasoning approach. The Service Access Middleware (SAM) is responsible for building up the communication channels between users and various other modules. It serves as a generic middleware for deployment of Semantic Web Services. This software toolset provides a development framework for creating and maintaining the full-life-cycle of Semantic Web Services with specific application support.

A utility model for volunteered service composition

Volunteered Service Composition (VSC) refers to the process of composing volunteered services and resources. These services are typically published to a pool of voluntary resources. The composition aims at satisfying some objectives (e.g. Utilizing storage and eliminating waste, sharing space and optimizing for energy, reducing computational cost etc.). In cases when a single volunteered service does not satisfy a request, VSC will be required. In this paper, we contribute to three approaches for composing volunteered services: these are exhaustive, naïve and utility-based search approach to VSC. The proposed new utility-based approach, for instance, is based on measuring the utility that each volunteered service can provide to each request and systematically selects the one with the highest utility. We found that the utility-based approach tend to be more effective and efficient when selecting services, while minimizing resource waste when compared to the other two approaches.

True real-time change data capture with web service database encapsulation

This research is investigating the claim that Change Data Capture (CDC) technologies capture data changes in real-time. Based on theory, our hypothesis states that real-time CDC is not achievable with traditional approaches (log scanning, triggers and timestamps). Traditional approaches to CDC require a resource to be polled, which prevents true real-time CDC. We propose an approach to CDC that encapsulates the data source with a set of web services. These web services will propagate the changes to the targets and eliminate the need for polling. Additionally we propose a framework for CDC technologies that allow changes to flow from source to target. This paper discusses current CDC technologies and presents the theory about why they are unable to deliver changes in real-time. Following, we discuss our web service approach to CDC and accompanying framework, explaining how they can produce real-time CDC. The paper concludes with a discussion on the research required to investigate the real-time capabilities of CDC technologies. © 2010 IEEE.

Secure Web Service Clients on Mobile Devices

Enterprise apps on mobile devices typically need to communicate with other system components by consuming web services. Since most of the current mobile device platforms (such as Android) do not provide built-in features for consuming SOAP services, extensions have to be designed. Additionally in order to accommodate the typical enhanced security requirements of enterprise apps, it is important to be able to deal with SOAP web service security extensions on client side. In this article we show that neither the built-in SOAP capabilities for Android web service clients are sufficient for enterprise apps nor are the necessary security features supported by the platform as is. After discussing different existing extensions making Android devices SOAP capable we explain why none of them is really satisfactory in an enterprise context. Then we present our own solution which accommodates not only SOAP but also the WS-Security features on top of SOAP. Our solution heavily relies on code generation in order to keep the flexibility benefits of SOAP on one hand while still keeping the development effort manageable for software development. Our approach provides a good foundation for the implementation of other SOAP extensions apart from security on the Android platform as well. In addition our solution based on the gSOAP framework may be used for other mobile platforms in a similar manner.

Automatische Dienstvermittlung in dienstorientierten Architekturen

Die Technologie dienstorientierter Architekturen (Service-oriented Architectures, kurz SOA) weckt große Visionen auf Seiten der Industrie wie auch der Forschung. Sie hat sich als derzeit ideale Lösung für Umgebungen, in denen sich die Anforderungen an die IT-Bedürfnisse rapide ändern, erwiesen. Heutige IT-Systeme müssen Managementaufgaben wie Softwareinstallation, -anpassung oder -austausch erlauben, ohne dabei den laufenden Betrieb wesentlich zu stören. Die dafür nötige Flexibilität bieten dienstorientierte Architekturen, in denen Softwarekomponenten in Form von Diensten zur Verfügung stehen. Ein Dienst bietet über seine Schnittstelle lokalen wie entfernten Applikationen einen Zugang zu seiner Funktionalität. Wir betrachten im Folgenden nur solche dienstorientierte Architekturen, in denen Dienste zur Laufzeit dynamisch entdeckt, gebunden, komponiert, verhandelt und adaptiert werden können. Eine Applikation kann mit unterschiedlichen Diensten arbeiten, wenn beispielsweise Dienste ausfallen oder ein neuer Dienst die Anforderungen der Applikation besser erfüllt. Eine unserer Grundvoraussetzungen lautet somit, dass sowohl das Dienstangebot als auch die Nachfrageseite variabel sind. Dienstorientierte Architekturen haben besonderes Gewicht in der Implementierung von Geschäftsprozessen. Im Rahmen des Paradigmas Enterprise Integration Architecture werden einzelne Arbeitsschritte als Dienste implementiert und ein Geschäftsprozess als Workflow von Diensten ausgeführt. Eine solche Dienstkomposition wird auch Orchestration genannt. Insbesondere für die so genannte B2B-Integration (Business-to-Business) sind Dienste das probate Mittel, um die Kommunikation über die Unternehmensgrenzen hinaus zu unterstützen. Dienste werden hier in der Regel als Web Services realisiert, welche vermöge BPEL4WS orchestriert werden. Der XML-basierte Nachrichtenverkehr und das http-Protokoll sorgen für eine Verträglichkeit zwischen heterogenen Systemen und eine Transparenz des Nachrichtenverkehrs. Anbieter dieser Dienste versprechen sich einen hohen Nutzen durch ihre öffentlichen Dienste. Zum einen hofft man auf eine vermehrte Einbindung ihrer Dienste in Softwareprozesse. Zum anderen setzt man auf das Entwickeln neuer Software auf Basis ihrer Dienste. In der Zukunft werden hunderte solcher Dienste verfügbar sein und es wird schwer für den Entwickler passende Dienstangebote zu finden. Das Projekt ADDO hat in diesem Umfeld wichtige Ergebnisse erzielt. Im Laufe des Projektes wurde erreicht, dass der Einsatz semantischer Spezifikationen es ermöglicht, Dienste sowohl im Hinblick auf ihre funktionalen als auch ihre nicht-funktionalen Eigenschaften, insbesondere die Dienstgüte, automatisch zu sichten und an Dienstaggregate zu binden [15]. Dazu wurden Ontologie-Schemata [10, 16], Abgleichalgorithmen [16, 9] und Werkzeuge entwickelt und als Framework implementiert [16]. Der in diesem Rahmen entwickelte Abgleichalgorithmus für Dienstgüte beherrscht die automatische Aushandlung von Verträgen für die Dienstnutzung, um etwa kostenpflichtige Dienste zur Dienstnutzung einzubinden. ADDO liefert einen Ansatz, Schablonen für Dienstaggregate in BPEL4WS zu erstellen, die zur Laufzeit automatisch verwaltet werden. Das Vorgehen konnte seine Effektivität beim internationalen Wettbewerb Web Service Challenge 2006 in San Francisco unter Beweis stellen: Der für ADDO entwickelte Algorithmus zur semantischen Dienstkomposition erreichte den ersten Platz. Der Algorithmus erlaubt es, unter einer sehr großenMenge angebotener Dienste eine geeignete Auswahl zu treffen, diese Dienste zu Dienstaggregaten zusammenzufassen und damit die Funktionalität eines vorgegebenen gesuchten Dienstes zu leisten. Weitere Ergebnisse des Projektes ADDO wurden auf internationalen Workshops und Konferenzen veröffentlicht. [12, 11]

Uma máquina de redução de grafos extensível para a implementação de fluxos de trabalho

Graph Reduction Machines, are a traditional technique for implementing functional programming languages. They allow to run programs by transforming graphs by the successive application of reduction rules. Web service composition enables the creation of new web services from existing ones. BPEL is a workflow-based language for creating web service compositions. It is also the industrial and academic standard for this kind of languages. As it is designed to compose web services, the use of BPEL in a scenario where multiple technologies need to be used is problematic: when operations other than web services need to be performed to implement the business logic of a company, part of the work is done on an ad hoc basis. To allow heterogeneous operations to be part of the same workflow, may help to improve the implementation of business processes in a principled way. This work uses a simple variation of the BPEL language for creating compositions containing not only web service operations but also big data tasks or user-defined operations. We define an extensible graph reduction machine that allows the evaluation of BPEL programs and implement this machine as proof of concept. We present some experimental results.

UncertWeb processing service:making models easer to access on the web

Models are central tools for modern scientists and decision makers, and there are many existing frameworks to support their creation, execution and composition. Many frameworks are based on proprietary interfaces, and do not lend themselves to the integration of models from diverse disciplines. Web based systems, or systems based on web services, such as Taverna and Kepler, allow composition of models based on standard web service technologies. At the same time the Open Geospatial Consortium has been developing their own service stack, which includes the Web Processing Service, designed to facilitate the executing of geospatial processing - including complex environmental models. The current Open Geospatial Consortium service stack employs Extensible Markup Language as a default data exchange standard, and widely-used encodings such as JavaScript Object Notation can often only be used when incorporated with Extensible Markup Language. Similarly, no successful engagement of the Web Processing Service standard with the well-supported technologies of Simple Object Access Protocol and Web Services Description Language has been seen. In this paper we propose a pure Simple Object Access Protocol/Web Services Description Language processing service which addresses some of the issues with the Web Processing Service specication and brings us closer to achieving a degree of interoperability between geospatial models, and thus realising the vision of a useful 'model web'.

Composing Web Services

Web-palvelut muodostavat keskeisen osan semanttista web:iä. Ne mahdollistavat nykyaikaisen ja tehokkaan välineistön hajautettuun laskentaan ja luovat perustan palveluperustaisille arkkitehtuureille. Verkottunut automatisoitu liiketoiminta edellyttää jatkuvaa aktiivisuutta kaikilta osapuolilta. Lisäksi sitä tukevan järjestelmäntulee olla joustava ja sen tulee tukea monipuolista toiminnallisuutta. Nämä tavoitteet voidaan saavuttamaan yhdistämällä web-palveluita. Yhdistämisprosessi muodostuu joukosta tehtäviä kuten esim. palveluiden mallintaminen, palveluiden koostaminen, palveluiden suorittaminen ja tarkistaminen. Työssä on toteutettu yksinkertainen liiketoimintaprosessi. Toteutuksen osalta tarkasteltiin vaihtoehtoisia standardeja ja toteutustekniikoita. Myös suorituksen optimointiin liittyvät näkökulmat pyrittiin ottamaan huomioon.

GIS in the cloud: implementing a web map service on Google App Engine

Many producers of geographic information are now disseminating their data using open web service protocols, notably those published by the Open Geospatial Consortium. There are many challenges inherent in running robust and reliable services at reasonable cost. Cloud computing provides a new kind of scalable infrastructure that could address many of these challenges. In this study we implement a Web Map Service for raster imagery within the Google App Engine environment. We discuss the challenges of developing GIS applications within this framework and the performance characteristics of the implementation. Results show that the application scales well to multiple simultaneous users and performance will be adequate for many applications, although concerns remain over issues such as latency spikes. We discuss the feasibility of implementing services within the free usage quotas of Google App Engine and the possibility of extending the approaches in this paper to other GIS applications.

TOWARD SEMANTIC WEB SERVICES AS MVC APPLICATIONS: FROM OWL-S VIA UML

OWL-S is an application of OWL, the Web Ontology Language, that describes the semantics of Web Services so that their discovery, selection, invocation and composition can be automated. The research literature reports the use of UML diagrams for the automatic generation of Semantic Web Service descriptions in OWL-S. This paper demonstrates a higher level of automation by generating complete complete Web applications from OWL-S descriptions that have themselves been generated from UML. Previously, we proposed an approach for processing OWL-S descriptions in order to produce MVC-based skeletons for Web applications. The OWL-S ontology undergoes a series of transformations in order to generate a Model-View-Controller application implemented by a combination of Java Beans, JSP, and Servlets code, respectively. In this paper, we show in detail the documents produced at each processing step. We highlight the connections between OWL-S specifications and executable code in the various Java dialects and show the Web interfaces that result from this process.

A Methodology for Building Service-Oriented Applications in the Presence of Non-Functional Properties

This thesis presents ⇡SOD-M (Policy-based Service Oriented Development Methodology), a methodology for modeling reliable service-based applications using policies. It proposes a model driven method with: (i) a set of meta-models for representing non-functional constraints associated to service-based applications, starting from an use case model until a service composition model; (ii) a platform providing guidelines for expressing the composition and the policies; (iii) model-to-model and model-to-text transformation rules for semi-automatizing the implementation of reliable service-based applications; and (iv) an environment that implements these meta-models and rules, and enables the application of ⇡SOD-M. This thesis also presents a classification and nomenclature for non-functional requirements for developing service-oriented applications. Our approach is intended to add value to the development of service-oriented applications that have quality requirements needs. This work uses concepts from the service-oriented development, non-functional requirements design and model-driven delevopment areas to propose a solution that minimizes the problem of reliable service modeling. Some examples are developed as proof of concepts

Um ambiente para especificação e execução AD-HOC de processos de negócio baseados em serviços Web

Recently the focus given to Web Services and Semantic Web technologies has provided the development of several research projects in different ways to addressing the Web services composition issue. Meanwhile, the challenge of creating an environment that provides the specification of an abstract business process and that it is automatically implemented by a composite service in a dynamic way is considered a currently open problem. WSDL and BPEL provided by industry support only manual service composition because they lack needed semantics so that Web services are discovered, selected and combined by software agents. Services ontology provided by Semantic Web enriches the syntactic descriptions of Web services to facilitate the automation of tasks, such as discovery and composition. This work presents an environment for specifying and ad-hoc executing Web services-based business processes, named WebFlowAH. The WebFlowAH employs common domain ontology to describe both Web services and business processes. It allows processes specification in terms of users goals or desires that are expressed based on the concepts of such common domain ontology. This approach allows processes to be specified in an abstract high level way, unburdening the user from the underline details needed to effectively run the process workflow