331 research outputs found
Content Distribution in P2P Systems
The report provides a literature review of the state-of-the-art for content distribution. The report's contributions are of threefold. First, it gives more insight into traditional Content Distribution Networks (CDN), their requirements and open issues. Second, it discusses Peer-to-Peer (P2P) systems as a cheap and scalable alternative for CDN and extracts their design challenges. Finally, it evaluates the existing P2P systems dedicated for content distribution according to the identied requirements and challenges
Analysis of current middleware used in peer-to-peer and grid implementations for enhancement by catallactic mechanisms
This deliverable describes the work done in task 3.1, Middleware analysis: Analysis of current middleware used in peer-to-peer and grid implementations for enhancement by catallactic mechanisms from work package 3, Middleware Implementation. The document is divided in four parts: The introduction with application scenarios and middleware requirements, Catnets middleware architecture, evaluation of existing middleware toolkits, and conclusions. -- Die Arbeit definiert Anforderungen an Grid und Peer-to-Peer Middleware Architekturen und analysiert diese auf ihre Eignung für die prototypische Umsetzung der Katallaxie. Eine Middleware-Architektur für die Umsetzung der Katallaxie in Application Layer Netzwerken wird vorgestellt.Grid Computing
Development of a system compliant with the Application-Layer Traffic Optimization Protocol
Dissertação de mestrado integrado em Engenharia InformáticaWith the ever-increasing Internet usage that is following the start of the new decade,
the need to optimize this world-scale network of computers becomes a big priority
in the technological sphere that has the number of users rising, as are the Quality of
Service (QoS) demands by applications in domains such as media streaming or virtual
reality.
In the face of rising traffic and stricter application demands, a better understand ing of how Internet Service Providers (ISPs) should manage their assets is needed. An
important concern regards to how applications utilize the underlying network infras tructure over which they reside. Most of these applications act with little regard for
ISP preferences, as exemplified by their lack of care in achieving traffic locality during
their operation, which would be a preferable feature for network administrators, and
that could also improve application performance. However, even a best-effort attempt
by applications to cooperate will hardly succeed if ISP policies aren’t clearly commu nicated to them. Therefore, a system to bridge layer interests has much potential in
helping achieve a mutually beneficial scenario.
The main focus of this thesis is the Application-Layer Traffic Optimization (ALTO) work ing group, which was formed by the Internet Engineering Task Force (IETF) to explore
standardizations for network information retrieval. This group specified a request response protocol where authoritative entities provide resources containing network
status information and administrative preferences. Sharing of infrastructural insight
is done with the intent of enabling a cooperative environment, between the network
overlay and underlay, during application operations, to obtain better infrastructural re sourcefulness and the consequential minimization of the associated operational costs.
This work gives an overview of the historical network tussle between applications
and service providers, presents the ALTO working group’s project as a solution, im plements an extended system built upon their ideas, and finally verifies the developed
system’s efficiency, in a simulation, when compared to classical alternatives.Com o acrescido uso da Internet que acompanha o início da nova década, a necessidade de otimizar esta rede global de computadores passa a ser uma grande prioridade
na esfera tecnológica que vê o seu número de utilizadores a aumentar, assim como a
exigência, por parte das aplicações, de novos padrões de Qualidade de Serviço (QoS),
como visto em domínios de transmissão de conteúdo multimédia em tempo real e em
experiências de realidade virtual.
Face ao aumento de tráfego e aos padrões de exigência aplicacional mais restritos, é
necessário melhor compreender como os fornecedores de serviços Internet (ISPs) devem
gerir os seus recursos. Um ponto fulcral é como aplicações utilizam os seus recursos
da rede, onde muitas destas não têm consideração pelas preferências dos ISPs, como
exemplificado pela sua falta de esforço em localizar tráfego, onde o contrário seria
preferível por administradores de rede e teria potencial para melhorar o desempenho
aplicacional. Uma tentativa de melhor esforço, por parte das aplicações, em resolver
este problema, não será bem-sucedida se as preferências administrativas não forem
claramente comunicadas. Portanto, um sistema que sirva de ponte de comunicação
entre camadas pode potenciar um cenário mutuamente benéfico.
O foco principal desta tese é o grupo de trabalho Application-Layer Traffic Optimization (ALTO), que foi formado pelo Internet Engineering Task Force (IETF) para explorar
estandardizações para recolha de informação da rede. Este grupo especificou um protocolo onde entidades autoritárias disponibilizam recursos com informação de estado
de rede, e preferências administrativas. A partilha de conhecimento infraestrutural
é feita para possibilitar um ambiente cooperativo entre redes overlay e underlay, para
uma mais eficiente utilização de recursos e a consequente minimização de custos operacionais.
É pretendido dar uma visão da histórica disputa entre aplicações e ISPs, assim como
apresentar o projeto do grupo de trabalho ALTO como solução, implementar e melhorar sobre as suas ideias, e finalmente verificar a eficiência do sistema numa simulação,
quando comparado com alternativas clássicas
IoT Smart Device for e-Learning Content Sharing on Hybrid Cloud Environment
Centralized e-Learning technology has dominated the learning ecosystem that brings a lot of potential usage on media rich learning materials. However, the centralized architecture has their own constraint to support large number of users for accessing large size of learning contents. On the other hand, Content Delivery Network (CDN) solution which relies on distributed architecture provides an alternative solution to eliminate bottleneck access. Although CDN is an effective solution, the implementation of technology is expensive and has less impact for student who lives in limited or non-existence internet access in geographical area. In this paper, we introduce an IoT smart device to provide e-Learning access for content sharing on hybrid cloud environment with distributed peer-to- peer communication solution for data synchronization and updates. The IoT smart device acts as an intermediate device between user and cloud services, and provides content sharing solution without fully depending on the cloud server
PEER TO PEER DIGITAL RIGHTS MANAGEMENT USING BLOCKCHAIN
Content distribution networks deliver content like videos, apps, and music to users through servers deployed in multiple datacenters to increase availability and delivery speed of content. The motivation of this work is to create a content distribution network that maintains a consumer’s rights and access to works they have purchased indefinitely. If a user purchases content from a traditional content distribution network, they lose access to the content when the service is no longer available. The system uses a peer to peer network for content distribution along with a blockchain for digital rights management. This combination may give users indefinite access to purchased works. The system benefits content rights owners because they can sell their content in a lower cost manner by distributing costs among the community of peers
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