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--- uf:totam [2010/10/20 17:44] – elisag
+++ uf:totam [2010/10/20 17:52] – elisag
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 TOTAM provides the programmer with means to scope the tuples themselves, i.e the tuples can dynamically adjust their scope as they hop from location to location. By means of tuple space descriptors, programmers can scope their tuples preventing them to be propagated to unwanted locations. This scope is determined before the tuple is transmitted, thus allowing the programmer to prevent the physical transportation of tuples to devices which are not targeted.
-{{:research:totamspace.png?480x250|:research:totamspace.png}}
+{{:research:totamspace.jpg?480x130|:research:totamspace.jpg}}
 Figure above illustrates how a scoped tuple is propagated through the TOTAM network. It depicts two types of locations, the blue and red locations corresponding to two teams of a multi-player game scenario where users (blue team) can use their PDA’s to chase dangerous (virtual) gangsters (red team) in the outdoors. The scope of the propagated tuple has been limited to blue locations. Figure (a) illustrates that a tuple is injected from the location with a star. This location is connected to four blue locations and one red location. As the scope of the tuple is limited to blue locations the tuple is only sent to the four blue locations. From those four locations the tuple is transitively propagated obeying the scope of the tuple until all connected blue locations are reached without being transmitted to a red location. Note that one blue location is not transitively connected to the sending device and thus does not receive the tuple. Figure (b) illustrates that a blue location moved into the range of the isolated blue location and thus, transmits the tuple to it. Again the tuple is not transmitted to nearby red locations. It is important to note from this operational sketch that the first isolated location receives a tuple without being connected at any time with the start location in which the tuple was originally inserted.
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-In order to notify the removal of a tuple, TOTAM sends an antituple for the removed tuple. For every tuple there is (conceptually) a unique antituple with the same format and content, but with a different sign. All tuples injected by an application have positive sign while their antituples have a negative sign. Whenever a tuple and its antituple are stored in the same tuple space, they immediately annihilate one another, i.e. they both get removed from the tuple space. By means of antituples, CAT systems can “unsend” tuples injected to the network.
+In order to notify the removal of a tuple, TOTAM sends an antituple for the removed tuple. For every tuple there is (conceptually) a unique antituple with the same format and content, but with a different sign. All tuples injected by an application have positive sign while their antituples have a negative sign. Whenever a tuple and its antituple are stored in the same tuple space, they immediately annihilate one another, i.e. they both get removed from the tuple space. By means of antituples, TOTAM can “unsend” tuples injected to the network.