Decentralizing IP mobility management in future networks

The massive adoption of sophisticated mobile devices and applications led to the increase of mobile data in the last decade, which it is expected to continue. This increase of mobile data negatively impacts the network planning and dimension, since core networks are heavy centralized. Mobile operators are investigating atten network architectures that distribute the responsibility of providing connectivity and mobility, in order to improve the network scalability and performance. Moreover, service providers are moving the content servers closer to the user, in order to ensure high availability and performance of content delivery. Besides the e orts to overcome the explosion of mobile data, current mobility management models are heavy centralized to ensure reachability and session continuity to the users connected to the network. Nowadays, deployed architectures have a small number of centralized mobility anchors managing the mobile data and the mobility context of millions of users, which introduces issues related to performance and scalability that require costly network mechanisms. The mobility management needs to be rethought out-of-the box to cope with atten network architectures and distributed content servers closer to the user, which is the purpose of the work developed in this Thesis. The Thesis starts with a characterization of mobility management into well-de ned functional blocks, their interaction and potential grouping. The decentralized mobility management is studied through analytical models and simulations, in which di erent mobility approaches distinctly distribute the mobility management functionalities through the network. The outcome of this study showed that decentralized mobility management brings advantages. Hence, it was proposed a novel distributed and dynamic mobility management approach, which is exhaustively evaluated through analytical models, simulations and testbed experiments. The proposed approach is also integrated with seamless horizontal handover mechanisms, as well as evaluated in vehicular environments. The mobility mechanisms are also speci ed for multihomed scenarios, in order to provide data o oading with IP mobility from cellular to other access networks. In the pursuing of the optimized mobile routing path, a novel network-based strategy for localized mobility is addressed, in which a replication binding system is deployed in the mobility anchors distributed through the access routers and gateways. Finally, we go further in the mobility anchoring subject, presenting a context-aware adaptive IP mobility anchoring model that dynamically assigns the mobility anchors that provide the optimized routing path to a session, based on the user and network context. The integration of dynamic and distributed concepts in the mobility management, such as context-aware adaptive mobility anchoring and dynamic mobility support, allow the optimization of network resources and the improvement of user experience. The overall outcome demonstrates that decentralized mobility management is a promising direction, hence, its ideas should be taken into account by mobile operators in the deployment of future networks.

Post-synthetic modification of metal–organic frameworks

Post-synthetic modification (PSM) of metal-organic frameworks encompassing the chemical transformation of the linker present is a promising new route for engineering optical centres and tuning the light emission properties of materials, both in the visible and in the near infrared (NIR) spectral regions. Here, PSM of isoreticular metal-organic framework-3 (IRMOF-3) with ethyl oxalyl monochloride, ethyl acetoacetate, pentane-2,4-dione, 3-(2- hydroxyphenyl)-3-oxopropanal, 2-chloroacetic acid, glyoxylic acid, methyl vinyl ketone and diethyl (ethoxymethylene)malonate followed by chelation of trivalent lanthanide ions afforded intriguing near infrared (Nd3+) and visible (Eu3+, Tb3+) light emitters. IRMOF-3 was used as a case in point due to both its highly porous crystalline structure and the presence of non-coordinating amino groups on the benzenedicarboxylate (bdc) linker amenable to modification. The materials were characterised by elemental analysis, powder X-ray diffraction, optical, scanning and transmission electron microscopy, Fourier transform infrared spectroscopy, and liquid and solid-state nuclear magnetic resonance. The solid-state luminescence properties of Ln-modified-IRMOF-3 were investigated at room temperature. The presence of the bdc aromatic ring, β– diketonate and oxalate enhanced the Ln3+ sensitization via ligand-to-metal energy transfer (anthena effect). As far as photocalysis is concerned, we have synthesized metal−organic frameworks (Cr-MIL-125-AC, Ag-MIL-125-AC) by a green method (solid–vapors reactions). The resulting functionalized materials show a photocatalytic activity for methylene blue degradation up to 6.52 times larger than that of the commercial photocatalyst hombikat UV-100. These findings open the door for further research for improving the photocatalytic performance of metal-organic frameworks.

A interface carboneto de silício-solução aquosa e o enchimento por barbotina

Neste trabalho estudaram-se as interfaces carboneto de silício-solução aquosa e carbono-solução aquosa, com vista a uma melhor compreensão dos processos de floculaçáo e desfloculaçáo de suspensões de cada um daqueles materiais e de suas misturas. Os pós foram caracterizados por recurso a técnicas de sedimentação, microscopia electrónica de varrimento, difracçáo de raios-X, análises térmicas, espectroscopia de infra-vermelhos e picnometria de hélio. As suspensões foram caracterizadas por técnicas de microelectroforese, sedimentação e reologia. Estudou-se a influência de algumas variáveis mais importantes do processo de enchimento por barbotina como, por exemplo, o mecanismo e o grau de estabilização das suspensões, a concentração de sólidos, a distribuição granulométrica das partículas, e o tempo de envelhecimento das suspensões, na estrutura das partículas em suspensão e nas características dos corpos conformados por enchimento por barbotina. A cinética deste processo foi estudada sob o efeito de pressão aplicada e relacionada com a estrutura das partículas em suspensão e com a microstrutura dos corpos em verde. Estudaram-se os mecanismos da segregação de tamanhos de partículas em suspensão que ocorre durante o processo de enchimento por barbotina devidos aos efeitos da gravidade e da obstrução do bolo pelas partículas finas. Discutiram-se os domínios das variáveis do processo em que cada um daqueles efeitos é dominante e propôs-se um novo modelo para o fenómeno da segregação por efeito de obstrução capaz de interpretar os resultados observados neste trabalho e os encontrados na literatura. Estabeleceram-se correlações estreitas entre as variáveis do processo de enchimento por barbotina, a microestrutura dos corpos conformados e o seu comportamento durante a etapa da secagem. Procurou ainda avaliar-se a capacidade do enchimento por barbotina para preparar materiais compósitos de carboneto de silício e carbono com características adequadas para a sinterizaçáo reactiva.