A SMART groundwater portal: An OGC web services orchestration framework for hydrology to improve data access and visualisation in New Zealand

IoT scenarios involve both smart devices hosting web services and very simple devices with external web services. Without unified access to these types of devices, the construction of IoT service systems would be cumbersome. The basic principle of this chapter is the integration of distributed events into SOA. The data access capability of physical entities is first separated from their actuation capability, which acts as a foundation for ultra-scale and elastic IoT applications. Then, a distributed event-based IoT service platform is established to support the creation of IoT services and allow the hiding of service access complexity, where the IoT services are event-driven; the design goals are impedance matching between service computation and event communication. The coordination logic of an IoT service system is extracted as an event composition that supports the distributed execution of the system and offers scalability. Finally, an application is implemented on the platform to demonstrate its effectiveness and applicability.

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Privacy Aware Access Control

International Journal of Information Technologies and Systems Approach ◽

10.4018/ijitsa.2017070102 ◽

2017 ◽

Vol 10 (2) ◽

pp. 17-30

Author(s):

Rekha Bhatia ◽

Manpreet Singh Gujral

Keyword(s):

Web Services ◽

Access Control ◽

Research Work ◽

Data Access ◽

The Internet ◽

Sensitive Information ◽

Human Right ◽

Ready Availability ◽

Control Technologies ◽

Technical Solutions

Due to the ever increasing number of web services available through the Internet, the privacy as a fundamental human right is endangered. Informed consent and collection of information are two important aspects while interacting on the Internet through web services. The ease of data access and the ready availability of it through Internet, made it easier for interested parties to intrude into the individual's privacy in unprecedented ways. The regulatory and technical solutions adopted to curb this have achieved only a limited success. The main culprits in this regard are the incompatibilities in the regulatory measures and standards. This research work focuses on privacy preserving access control for sharing sensitive information in the arena of web services, provides some recent outlooks towards the critical need of privacy aware access control technologies and a comprehensive review of the existing work in this arena. Besides, a novel framework for privacy aware access to web services is also provided.

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A Lightweight Collaborative GIS Data Editing Approach to Support Urban Planning

Sustainability ◽

10.3390/su11164437 ◽

2019 ◽

Vol 11 (16) ◽

pp. 4437

Author(s):

Changfeng Jing ◽

Yanli Zhu ◽

Jiayun Fu ◽

Meng Dong

Keyword(s):

Urban Planning ◽

Web Services ◽

Data Access ◽

Geospatial Data ◽

Replication Mechanism ◽

Collaborative Editing ◽

Practical Project ◽

Data Editing ◽

Gis Data ◽

Collaborative Gis

Collaborative geospatial data editing is different from other collaborative editing systems, such as textual editing, owing to its geospatial nature. This paper presents a version-based lightweight collaborative geospatial editing method for urban planning. This method extracts editing data and generates a version for collaborative editing, which reduces the data size and thus allows for a high feedback speed. A replication mechanism is engaged to replicate a version for the client to freely edit, which ensures constraint-free editing in collaboration. Based on this method, realizing the fact that heterogeneous geospatial data and non-professional users are involved, a lightweight architecture, integrating web services, and component technologies, was proposed. This architecture provides a unified data access interface and powerful editing ability and ensures a high feedback speed and constraint-free editing. The result of the application of the proposed approach in a practical project demonstrates the usability of collaborative geospatial editing in urban planning. While this approach has been designed for urban planning, it can be modified for use in other domains.

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Capability-Based Authorization for HEP

EPJ Web of Conferences ◽

10.1051/epjconf/201921404014 ◽

2019 ◽

Vol 214 ◽

pp. 04014

Author(s):

Derek Weitzel ◽

Brian Bockelman ◽

Jim Basney ◽

Todd Tannenbaum ◽

Zach Miller ◽

...

Keyword(s):

Web Services ◽

Recent Work ◽

Data Access ◽

Software Packages ◽

Central Service ◽

Federated Identity ◽

The Web ◽

Distributed Authorization

Outside the HEP computing ecosystem, it is vanishingly rare to encounter user X509 certificate authentication (and proxy certificates are even more rare). The web never widely adopted the user certificate model, but increasingly sees the need for federated identity services and distributed authorization. For example, Dropbox, Google and Box instead use bearer tokens issued via the OAuth2 protocol to authorize actions on their services. Thus, the HEP ecosystem has the opportunity to reuse recent work in industry that now covers our needs. We present a token-based ecosystem for authorization tailored for use by CMS. We base the tokens on the SciTokens profile for the standardized JSON Web Token (JWT) format. The token embeds a signed description of what capabilities the VO grants the bearer; the site-level service can verify the VO’s signature without contacting a central service. In this paper, we describe the modifications done to enable token-based authorization in various software packages used by CMS, including XRootD, CVMFS, and HTCondor. We describe the token-issuing workflows that would be used to get tokens to running jobs in order to authorize data access and file stageout, and explain the advantages for hosted web services. Finally, we outline what the transition would look like for an experiment like CMS.

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A Web Based Data Processing Concept for Building Diagnostics and Performance Evaluation

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.887.641 ◽

2019 ◽

Vol 887 ◽

pp. 641-649

Author(s):

Matthias Schuss ◽

Farhang Tahmasebi ◽

Ardeshir Mahdavi

Keyword(s):

Performance Evaluation ◽

Web Services ◽

Data Processing ◽

Web Service ◽

Data Access ◽

Data Logging ◽

Time Data ◽

Web Based ◽

Related Service ◽

The Impact

Buildings are responsible for a major amount of the annual energy consumption. A detailed recording and evaluation of building data could provide a deeper understanding of building operation schemes and the corresponding performance. This could help building owners and operators to evaluate and better understand the actual situation. Based on this (real-time) data an optimized operation scheme can be designed and implemented for future time steps. Additionally, a more detailed understanding of the impact of previous building systems interactions will be possible. The building automation industry and the related service provider sector are actually providing proprietary solutions for data logging, visualization and energy optimization. Such solutions are regularly integrated into their own specific software of the used proprietary building management solutions. As an alternative, we suggest an Internet of Things (IoT) and web services inspired concept for the implementation of a generic web service for building diagnostics. Our suggestion encompasses a holistic performance evaluation that considers both the energy consumptions and delivered building service. In this contribution, a general design of a web service based solution is presented and the future possibilities for data access from various sources are discussed. Furthermore, details of actually developed and demonstratively implemented software components for data preprocessing are presented. Data processing examples for different types of data are included and highlight the potential of such web-based approaches. Moreover, possibilities for improved building control by the use of web services for operation schedule generation or model predictive control are illustrated and critically debated.

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