Apostolos Malatras, George Pavlou, Petros Belsis, Stefanos Gritzalis, Christos Skourlas and Ioannis Chalaris
Pervasive environments are mostly based on the ad hoc networking paradigm and are characterized by ubiquity in both users and devices and artifacts. In these inherently unstable…
Abstract
Pervasive environments are mostly based on the ad hoc networking paradigm and are characterized by ubiquity in both users and devices and artifacts. In these inherently unstable conditions and bearing in mind the resource’s limitations that are attributed to participating devices, the deployment of Knowledge Management techniques is considered complicated due to the particular requirements. Security considerations are also very important since the distribution of knowledge information to multiple locations over a network, poses inherent problems and calls for advanced methods in order to mitigate node misbehaviour and in order to enforce authorized and authenticated access to this information. This paper addresses the issue of secure and distributed knowledge management applications in pervasive environments. We present a prototype implementation after having discussed detailed design principles as far as the communications and the application itself is regarded. Robustness and lightweight implementation are the cornerstones of the proposed solution. The approach we have undertaken makes use of overlay networks to achieve efficiency and performance optimization, exploiting ontologies. The work presented in this paper extends our initial work to tackle this problem, as this was described in (28).
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Apostolos Malatras, Abolghasem (Hamid) Asgari, Timothy Baugé and Mark Irons
Traditional administration of building services regards them as having confined scope, operating in isolation or tightly coupled and providing minimal support for overall…
Abstract
Purpose
Traditional administration of building services regards them as having confined scope, operating in isolation or tightly coupled and providing minimal support for overall coordination and holistic management hindering the provisioning of advanced services. This approach inherently bears weaknesses related to complex services management, results in increased costs, and formulates rigid architectural design that restricts flexibility and extensibility. Taking into consideration this set of drawbacks, the purpose of this paper is to propose exploiting a service‐oriented architecture that will allow for dynamic, coordinated and distributed building services management.
Design/methodology/approach
The paper presents the design of an enterprise‐based networking architecture for building services and systems and specifies its functional components.
Findings
The proposed architecture is compliant with established practices in the building automation field and focuses on catering for a wide spectrum of building and enterprise level services. A specific deployment use‐case scenario and its related implementation issues is considered, so as to promote interoperability and adoption of open standards and principles for the system level performance evaluation of the proposed architecture is also examined.
Research limitations/implications
Literature review is not exhaustive and evaluation of the proposed architecture should be performed in a more systematic manner.
Practical implications
Adoption of a service‐oriented view as far as facilities management is concerned.
Originality/value
This paper identifies through a thorough literature review the research problems in the area of building services integration and proposes an approach to enable successful integration. The novelty of this work is based on the application of the state‐of‐the‐art in enterprise networking for integration of building management and IT‐based services.