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Ouvrages de la bibliothèque en indexation Doct/206
Faire une suggestion Affiner la rechercheA Policy-Based Middleware for Context-Aware Pervasive Computing / Mehdia Ajana El Khaddar
Titre : A Policy-Based Middleware for Context-Aware Pervasive Computing Type de document : thèse Auteurs : Mehdia Ajana El Khaddar, Auteur AnnĂ©e de publication : 2014 Langues : Anglais (eng) CatĂ©gories : Informatique Mots-clĂ©s : RFID Middleware WSN Pervasive/Ubiquitous Computing FlexRFID Policy-Based Security Healthcare Performance Context-Aware Index. dĂ©cimale : Doct/206 RĂ©sumĂ© : Ubiquitous computing targets the provision of seamless services and applications by providing an environment that involves a variety of devices having different capabilities. These applications help transforming the physical spaces into computationally active and smart environments. The design of applications in these environments needs to consider the heterogeneous devices, applications’ preferences, and rapidly changing contexts. The applications need therefore to be context-aware so that they can adapt to different situations in real-time. Two adjacent automatic wireless identification technologies for ubiquitous computing have emerged; Radio Frequency Identification (RFID) and Wireless Sensor Networks (WSNs), and provided promising benefits in a number of application areas such as Supply Chain Management (SCM). Although these technologies have attracted a significant attention due to the convergence of lower cost and increased hardware capabilities, there still exist major hurdles for the practical realization of their benefits. To achieve the maximum benefits of ubiquitous computing technologies, a dedicated middleware solution is required for managing and monitoring the devices including RFID readers and sensors, as well as processing dynamically generated high volumes of noisy RFID and sensed data. Apart from these, such middleware should possess useful contextual characteristics such as implicit semantics, cater to the applications’ needs, and support rapid ubiquitous applications’ development.
In this thesis we argue that a policy-based middleware solution that facilitates the development of context-aware applications and the integration of the heterogeneous devices should be provided for ubiquitous computing environments. The middleware allows applications to track items and acquire contextual information about them easily, reason about this information captured using different logics, and then adapt to changing contexts. A key issue in these environments is to allow heterogeneous applications to express their business rules once, and get the preferred data once they are captured by the middleware without any intervention from the application side. Our middleware tackles this problem by using policies to define the different applications’ rules and preferences. These policies can specify rules about the middleware services to be used, type of data captured, devices used, user roles, context information, and any other type of conditions. They can even handle the security and privacy issues that inhibit the adoption of most automatic identification technologies such as RFID. In this thesis we propose the design of a flexible and performant ubiquitous computing, and context-aware middleware called FlexRFID along with its evaluation results. The thesis shows that FlexRFID is a highly scalable and easily deployable middleware in the heterogeneous sites based on different standards and consisting of different hardware. FlexRFID also incorporates the mechanisms for supervision, testing, and control of its components.
A Policy-Based Middleware for Context-Aware Pervasive Computing [thèse] / Mehdia Ajana El Khaddar, Auteur . - 2014.
Langues : Anglais (eng)
CatĂ©gories : Informatique Mots-clĂ©s : RFID Middleware WSN Pervasive/Ubiquitous Computing FlexRFID Policy-Based Security Healthcare Performance Context-Aware Index. dĂ©cimale : Doct/206 RĂ©sumĂ© : Ubiquitous computing targets the provision of seamless services and applications by providing an environment that involves a variety of devices having different capabilities. These applications help transforming the physical spaces into computationally active and smart environments. The design of applications in these environments needs to consider the heterogeneous devices, applications’ preferences, and rapidly changing contexts. The applications need therefore to be context-aware so that they can adapt to different situations in real-time. Two adjacent automatic wireless identification technologies for ubiquitous computing have emerged; Radio Frequency Identification (RFID) and Wireless Sensor Networks (WSNs), and provided promising benefits in a number of application areas such as Supply Chain Management (SCM). Although these technologies have attracted a significant attention due to the convergence of lower cost and increased hardware capabilities, there still exist major hurdles for the practical realization of their benefits. To achieve the maximum benefits of ubiquitous computing technologies, a dedicated middleware solution is required for managing and monitoring the devices including RFID readers and sensors, as well as processing dynamically generated high volumes of noisy RFID and sensed data. Apart from these, such middleware should possess useful contextual characteristics such as implicit semantics, cater to the applications’ needs, and support rapid ubiquitous applications’ development.
In this thesis we argue that a policy-based middleware solution that facilitates the development of context-aware applications and the integration of the heterogeneous devices should be provided for ubiquitous computing environments. The middleware allows applications to track items and acquire contextual information about them easily, reason about this information captured using different logics, and then adapt to changing contexts. A key issue in these environments is to allow heterogeneous applications to express their business rules once, and get the preferred data once they are captured by the middleware without any intervention from the application side. Our middleware tackles this problem by using policies to define the different applications’ rules and preferences. These policies can specify rules about the middleware services to be used, type of data captured, devices used, user roles, context information, and any other type of conditions. They can even handle the security and privacy issues that inhibit the adoption of most automatic identification technologies such as RFID. In this thesis we propose the design of a flexible and performant ubiquitous computing, and context-aware middleware called FlexRFID along with its evaluation results. The thesis shows that FlexRFID is a highly scalable and easily deployable middleware in the heterogeneous sites based on different standards and consisting of different hardware. FlexRFID also incorporates the mechanisms for supervision, testing, and control of its components.
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