80 |
origins of the Xanalogical model? |
origins of the Xanalogical model? |
81 |
|
|
82 |
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|
83 |
We believe that the properties of Peer-to-Peer technology, such as the ad hoc connectivity and |
|
84 |
the lack of central authority, are prerequisites while mobilizing |
We study Peer-to-Peer technologies as a foundation to build a location transparent, |
85 |
the Fenfire system. |
hyperstructured desktop environment. We believe that the properties of Peer-to-Peer |
86 |
|
technology, such as the ad hoc connectivity and the lack of central authority, |
87 |
|
are prerequisites while mobilizing the Fenfire system. |
88 |
|
|
89 |
|
We focus on finding effiecient methods for locating xanalogical media from the Peer-to-Peer |
90 |
|
network. Currently we use distributed hash tables for searching data, but the use of |
91 |
|
other methods are also studied. In addition, we plan to use globally unique, semantic-free |
92 |
|
references for locating data in Peer-to-Peer environment. |
93 |
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|
94 |
|
We have developed a software library, Storm (STORage Module), for storing and |
95 |
|
retrieving data as immutable byte sequences, which are identified by cryptographic |
96 |
|
content hashes. This allows for studying two important issues |
97 |
|
*of data mobility*: dangling links and version management. |
98 |
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|
99 |
|
|
100 |
Earlier research of the group |
Earlier research of the group |
101 |
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