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Graph-based redundancy removal approach for multiple cross-layer interactions

Research has shown that the availability of cross-layer information from different protocol layers enable adaptivity advantages of applications and protocols which significantly enhance the system performance. However, the development of such cross-layer interactions typically residing in the OS is...

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Main Authors:	Aktas, Ismet, Henze, Martin, Alizai, Muhammad Hamad, Mollering, Kevin, Wehrle, Klaus
Format:	Conference Proceeding
Language:	English
Subjects:	Frequency modulation Lead Switches
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creator	Aktas, Ismet Henze, Martin Alizai, Muhammad Hamad Mollering, Kevin Wehrle, Klaus
description	Research has shown that the availability of cross-layer information from different protocol layers enable adaptivity advantages of applications and protocols which significantly enhance the system performance. However, the development of such cross-layer interactions typically residing in the OS is very difficult mainly due to limited interfaces. The development gets even more complex for multiple running cross-layer interactions which may be added by independent developers without coordination causing (i) redundancy in cross-layer interactions leading to a waste of memory and CPU time and (ii) conflicting cross-layer interactions. In this paper, we focus on the former problem and propose a graph-based redundancy removal algorithm that automatically detects and resolves such redundancies without any feedback from the developer. We demonstrate the applicability of our approach for the cross-layer architecture CRAWLER that utilizes module compositions to realize cross-layer interactions. Our evaluation shows that our approach effectively resolves redundancies at runtime.
doi_str_mv	10.1109/COMSNETS.2014.6734899
format	conference_proceeding
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source	IEEE Xplore All Conference Series
subjects	Frequency modulation Lead Switches
title	Graph-based redundancy removal approach for multiple cross-layer interactions
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