Search for dissertations about: "device reliability performance"
Showing result 1 - 5 of 59 swedish dissertations containing the words device reliability performance.
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1. Energy Saving vs. Performance: Trade-offs in Optical Networks
Abstract : The energy consumption of communication networks is continuously growing. Many energy saving approaches have been proposed at the device, system, and network level. The most promising way to address this problem is to utilize photonic technologies as much as possible thanks to their low energy consumption per bit performance. READ MORE
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2. Device-to-Device Communications for Future Cellular Networks : Challenges, Trade-Offs, and Coexistence
Abstract : The steep growth in mobile data traffic has gained a lot of attention in recent years. With current infrastructure deployments and radio resources, operators will not be able to cope with the upcoming demands. READ MORE
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3. Performance Guarantees for Physical Layer Authentication in Mission-Critical Communications
Abstract : As the application areas for wireless communications are expanding, we also see new security vulnerabilities arise due to the open nature of the wire- less medium. One particularly challenging problem is how to guarantee the security of emerging mission-critical communications, e.g. READ MORE
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4. Flip-Chip Interconnect for Millimeter-Wave Packaging Applications
Abstract : In recent years, with the demands for wireless communication systems increas rapidly, the operating frequency for the portable wireless is moving toward millimeter-waves. Millimeter-wave wireless communication systems require not only suitable functional IC components but also competent package with low cost and good interconnect performance. READ MORE
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5. Ultra-Reliable and Resilient Communication Service for Cyber-Physical Systems
Abstract : Cyber-Physical Systems (CPSs) are becoming ubiquitous in modern society, enabling new applications that rely on the seamless interaction between computing, communication, and physical processes. In this context, ultra-reliable low-latency communications (URLLC) emerges as a crucial element, reliably allowing the real-time exchange of critical data. READ MORE