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Title:
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OPTIMISING THE PERFORMANCE
OF TELECOMMUNICATION BULK EXPORT USING
A MACHINE LEARNING CLOSED LOOP SYSTEM BASED
ON HISTORIC PERFORMANCE |
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Author(s):
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Barbara Conway, John Francis and Enda Fallon |
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ISBN:
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978-989-8704-34-4 |
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Editors:
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Pedro IsaĆas and Hans Weghorn |
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Year:
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2021 |
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Edition:
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Single |
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Type:
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Full |
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First Page:
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211 |
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Last Page:
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215 |
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Language:
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English |
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Cover:
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Full Contents:
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click to dowload 
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Paper Abstract:
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Failures in telecommunication systems are typically resolved by the application of software patches or updates. These
solutions tend to be specific to the failure type. Such bespoke system alterations are time consuming and financially
expensive to implement. This paper proposes and evaluates a machine learning closed loop system to optimize the
performance of the bulk configuration management data export. An evaluation file export service is developed and
managed based on the industry standard JSR352 specification. The service produces failures reducing its overall
performance. Rather than providing a specific solution for individual system failures, an adaptive and extensible machine
learning closed loop system is introduced. The framework enables the file export service to learn from historic
performance and to predict imminent failures. This type of closed loop system is optimized by providing the capability to
re-learn based on new training data. This capability brings a dynamic approach to providing solutions. Solutions are
reactive rather than static. Failures in software behavior can depend on environmental conditions like high load on a
persistence layer, high volumes of traffic, insufficient hardware dimensioning. When failures occur due to factors like
these, a dynamic redirection of the software to another flow stabilizes and improves the systems overall performance. |
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