GPP Long Term Evolution (LTE) is considered as the de-facto standard for wireless broadband data networks of the future, and a pathway for eventual evolution into 5G networks [1]. The ambitious goals for such wireless networks through design and deployment of LTE networks require accurate simulation tools that provide standards-compliant implementation. This is the first step towards cost-effective methodical validation and evaluation of ideas that span across the network protocol stack. As shown in previous studies [6] and [8], true PHY layer-compliant operation has tremendous impact in practical deployment on upper layer protocols. Additionally, interference management is a crucial aspect of network deployment given the anticipated densification in 5G networks, for which a simulation environment that captures the details of PHY operation, and a scalable MAC and network-layer is of utmost relevance and importance
Accurate physical to Network LTE simulation framework
KENNOUCHE, TAKAI-EDDINE;FAVALLI, LORENZO;
2016-01-01
Abstract
GPP Long Term Evolution (LTE) is considered as the de-facto standard for wireless broadband data networks of the future, and a pathway for eventual evolution into 5G networks [1]. The ambitious goals for such wireless networks through design and deployment of LTE networks require accurate simulation tools that provide standards-compliant implementation. This is the first step towards cost-effective methodical validation and evaluation of ideas that span across the network protocol stack. As shown in previous studies [6] and [8], true PHY layer-compliant operation has tremendous impact in practical deployment on upper layer protocols. Additionally, interference management is a crucial aspect of network deployment given the anticipated densification in 5G networks, for which a simulation environment that captures the details of PHY operation, and a scalable MAC and network-layer is of utmost relevance and importanceI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.