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Runtime Precoding: Enabling Multipoint Transmission in LTE-Advanced System-Level Simulations
AuthorTaranetz, Martin ; Blazek, Thomas ; Kropfreiter, Thomas ; Müller, Martin Klaus ; Schwarz, Stefan ; Rupp, Markus
Published in
IEEE Access, 2015, Vol. 3, page 725-736
PublishedIEEE, 2015
Published version
Document typeJournal Article
Keywords (EN)Link abstraction / link quality model / runtime-precoding / 3GPP / LTE-A / Vienna LTE-A downlink system level simulator / MIESM / Vienna LTE-A downlink link level simulator / LTE transmission modes / coordinated multipoint / multimedia broadcast single frequency networks / high-user mobility
URNurn:nbn:at:at-ubtuw:3-1069 Persistent Identifier (URN)
 The work is publicly available
Runtime Precoding: Enabling Multipoint Transmission in LTE-Advanced System-Level Simulations [6.65 mb]
Abstract (English)

System-level simulations have become an indispensable tool for predicting the behavior of wireless cellular systems. As exact link-level modeling is unfeasible due to its huge complexity, mathematical abstraction is required to obtain equivalent results by less complexity. A particular problem in such approaches is the modeling of multiple coherent transmissions. Those arise in multiple-input-multiple-output transmissions at every base station but nowadays so-called coordinated multipoint (CoMP) techniques have become very popular, allowing to allocate two or more spatially separated transmission points. Also, multimedia broadcast single frequency networks (MBSFNs) have been introduced recently in long-term evolution (LTE), which enables efficient broadcasting transmission suitable for spreading information that has a high user demand as well as simultaneously sending updates to a large number of devices. This paper introduces the concept of runtime-precoding, which allows to accurately abstract many coherent transmission schemes while keeping additional complexity at a minimum. We explain its implementation and advantages. For validation, we incorporate the runtime-precoding functionality into the Vienna LTE-A downlink system-level simulator, which is an open source tool, freely available under an academic noncommercial use license. We measure simulation run times and compare them against the legacy approach as well as link-level simulations. Furthermore, we present multiple application examples in the context of intrasite and intersite CoMP for train communications and MBSFN.

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