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- Diploma Thesis (2)
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Functions, which can be summarized to the keyword Internet Protocol Television (IPTV) describe the transmission of video services to users via Internet Protocol (IP). Accompanying to this new television transmission path Home Theatre PCs (HTPC) running a so called Media Center platform are more and more entering the living rooms as a companion for the popular LCD and Plasma displays. Perfect ease of use and the visual integration on the screen and also into the living room is raising their acceptance. These HTPCs are a central node for multimedia services such as TV, radio and email within the networked household. Thus, there are good preconditions for the use of a HTPC as end device for Telco operator driven IPTV and telecommunication services. In the context of this diploma thesis possibilities for the provisioning of IPTV and Next Generation Network (NGN) services on a converged multimedia home entertainment platform for the living room will be investigated, especially Vista Media Center platforms. For this reason, standardization activities will be investigated, which deal with the integration of IPTV and telecommunication services into NGN. The validation of the results will be achieved by the design and implementation of a Vista Media Center Add-In, which can be integrated as an IP Multimedia Subsystem (IMS) based User Agent (UA) in ETSI TISPAN Release 2 IPTV infrastructures. Additionally, a Cross Domain messaging service for IMS based UA is created, which enables a cross-network communication between users.
Target of this Diploma Thesis is the development of a thermal simulation card to analyze the thermal behavior of a LTE PCIe Mini data card for GSM/UMTS based wireless networks in different environments. The power consumption of modern wireless communication systems has increased dramatically during the last years. Especially for the next generation of wireless modem cards the thermal dissipations will be slightly on or even beyond the official guidelines of the components and the whole card. To gain knowledge about the behavior of the data card, it shall be simulated with software as well as real hardware. As the ASIC components are not available yet, a hardware emulation shall be developed. The thesis covers the whole development process from the idea, the conception, the layout to the assembly and the measurements. It starts with finding a way of emulating the mounted components, measuring and powering. Afterwards a card, incorporating the principles found before, will be developed. An additional software simulation gives comparative values against the measurements. After assembling the emulation cards and running reference measurements, trials for temperature improvements will be ran and compared with the simulations.