9 |
a location transparent, hyperstructured desktop |
a location transparent, hyperstructured desktop |
10 |
environment. |
environment. |
11 |
In Fenfire there are several technological innovations |
In Fenfire there are several technological innovations |
12 |
whose theoretical backgrounds have not been studied previously. |
which raise promising theoretical questions that have not been studied sufficiently, |
13 |
Also, there are some |
as the theoretical side is outside the scope of the more practically |
14 |
|
oriented project. |
15 |
|
Additionally, there are some deep theoretical questions, the answers |
16 |
|
to which would benefit the practical project greatly, but which require |
17 |
|
more thorough study than the timetable of the Fenfire project allows. |
18 |
|
The purpose of this project is to allow some researchers to take the time |
19 |
|
to properly research these issues. |
20 |
|
|
21 |
We perform research on the theoretical and user-interface issues arising in the |
The innovations that have not been studied sufficiently currently include ... |
22 |
Fenfire project and on the new possibilities that a more hyperstructural approach to |
|
23 |
information opens to user interfaces. Additional research include complex data structures, |
The questions whose answers would benefit the project currently include ... |
|
different kind of data storage models and custom controllers. |
|
24 |
|
|
|
Fenfire uses xanalogical storage model as a basis for hyperstructured media. Each data |
|
|
item in the Fenfire system has a globally unique identifier. We use RDF semantic web technologies to |
|
|
present information and relationships of information in our system. For location transparency |
|
|
in the Fenfire system, we study Peer-to-Peer technologies to implemenent networking infrastructure. |
|
25 |
|
|
26 |
|
|
27 |
**Project name** |
**Project name** |