Search for dissertations about: "distributed objects"
Showing result 1 - 5 of 70 swedish dissertations containing the words distributed objects.
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1. Distributed Immersive Participation : Realising Multi-Criteria Context-Centric Relationships on an Internet of Things
Abstract : Advances in Internet-of-Things integrate sensors and actuators in everyday items or even people transforming our society at an accelerated pace. This occurs in areas such as agriculture, logistics, transport, healthcare, and smart cities and has created new ways to interact with and experience entertainment, (serious) games, education, etc. READ MORE
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2. Parallel and Distributed Processing in the Context of Fog Computing: High Throughput Pattern Matching and Distributed Monitoring
Abstract : With the introduction of the Internet of Things (IoT), physical objects now have cyber counterparts that create and communicate data. Extracting valuable information from that data requires timely and accurate processing, which calls for more efficient, distributed approaches. READ MORE
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3. Embedded real-time software using TinyTimber : reactive objects in C
Abstract : Embedded systems are often operating under hard real-time constraints. Such systems are naturally described as time-bound reactions to external events, a point of view made manifest in the high-level programming and systems modeling language Timber. READ MORE
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4. Reactive Shared Objects for Interprocess Synchronization
Abstract : In parallel processing environments such as multiprocessor systems, processes are synchronized using concurrent objects, which allow many concurrent processes to access them at the same time. The performance of these concurrent objects heavily relies on the load conditions of the surrounding environment (e.g. READ MORE
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5. Virtual Full Replication for Scalable Distributed Real-Time Databases
Abstract : A fully replicated distributed real-time database provides high availability and predictable access times, independent of user location, since all the data is available at each node. However, full replication requires that all updates are replicated to every node, resulting in exponential growth of bandwidth and processing demands with the number of nodes and objects added. READ MORE