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Next, we give an overview of our Fenfire system, which implements xanalogical storage model. We |
Next, we give an overview of our Fenfire system, which implements xanalogical storage model. We |
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also describe briefly Storm design and urn-5 concept, which are essential to Fenfire's |
also describe briefly Storm design and urn-5 concept, which are essential to Fenfire's |
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Peer-to-Peer functionality. We evaluate existing Peer-to-Peer approaches and |
Peer-to-Peer functionality. We evaluate existing Peer-to-Peer approaches and |
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choose the best alternative to our needs. Finally, we propose effective but yet simple |
choose the best alternative to our needs. We discover that Storm, xanalogical model and |
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tightly structured Peer-to-Peer approach all have similar method to deal with data, |
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i.e., globally unique identifiers. Finally, we propose effective but yet simple |
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algortihms to be used with our Fenfire system in Peer-to-Peer environment. |
algortihms to be used with our Fenfire system in Peer-to-Peer environment. |
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To our knowledge, this thesis is the most comprehensive work with regard to summarizing |
To our knowledge, this thesis is the most comprehensive work with regard to summarizing |
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existing Peer-to-Peer protocols and open problems in Peer-to-Peer domain. However, this |
existing Peer-to-Peer protocols and open problems in Peer-to-Peer domain. However, this |
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thesis is not meant to be detailed work. More information can be found from genuine |
thesis is not meant to be detailed work. More detailed information can be found from genuine |
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publications written by original authors. |
publications written by original authors. |
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\section{Research problems} |
\section{Research problems} |