John Scourias and
Thomas Kunz.
A Dynamic Individualized Location Management Algorithm.
To appear in Proceedings of the 8th IEEE International Symposium on
Personal, Indoor, and Mobile Radio Communications. Helsinki,
Finland. September 1997.
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Abstract
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The challenge of supporting rapidly growing numbers of mobile subscribers,
while constrained by limited radio spectrum, is being met through
increasingly smaller radio cells. This, however, results in increased
signaling for location management procedures, which reduces the bandwidth
available for user traffic. Location areas in current systems, such as
GSM, consist of static and arbitrarily-defined collections of cells, which
do not take into account individual subscriber mobility patterns, either
in space or time. A location management algorithm is proposed which uses
the mobility history of individual subscribers to dynamically create
individualized location areas, based on previous movements from cell to cell.
The average duration spent in each visited cell is also maintained and is
used to define paging areas, or subsets of the location area which are
most likely to contain the subscriber. An activity-based mobility model
was developed to test the proposed algorithm. Overall, the dynamic
algorithm generated significantly lower location management costs, in
terms of signaling messages generated, for all parameters examined.
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