LTE-Advanced中新型非相邻分量载波的仿真

2012 IEEE International Conference on Electronics Design, Systems and Applications (ICEDSA) Pub Date : 2012-11-01 DOI:10.1109/ICEDSA.2012.6507809

A. Z. Yonis, M. Abdullah

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引用次数: 1

摘要

lte (Long Term Evolution-Advanced)技术以其高吞吐量和低时延的优势，正成为运营商构建新型网络基础设施的首选。虽然宽带应用可以提供高速数据业务，但大带宽也带来了巨大的控制信令成本。此外，在许多国家，lte频段可能不够大，无法实现连续频谱使用。正是由于这个原因，非连续的LTE载波聚合工作正在进行中。使用非连续频谱的LTE-Advanced载波聚合虽然可能，但在实现方面具有挑战性。本文提出了一种新的非连续分量载波(CC)设计，以达到120 MHz，使CC的范围达到100 MHz，而不是普通LTE-Advanced的最大80 MHz。系统的设计和实现主要分为两种情况;第一种情况是在100 MHz上广播四个CCs，第二种情况是系统在120 MHz上广播五个CCs。通过对这两种情况的分析，揭示了在增加非连续载波的带宽后，LTE-A的主要性能。

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Simulation of novel non-adjacent component carriers in LTE-Advanced

Long Term Evolution-Advanced (LTE-A) is becoming the first choice of operators when constructing the new network infrastructure, because of its high throughput and low latency. Although the L TE-A can offer high speed data service as a benefit of wideband application, the large bandwidth also results in huge control signaling cost. Additionally the L TE bands may not be large enough in many countries to enable contiguous spectrum use. It is for this reason that non-contiguous LTE carrier aggregation work is on-going. LTE-Advanced carrier aggregation using non-contiguous spectrum, while possible is challenging in terms of its implementation. This paper presents a novel design of non-contiguous component carriers (CCs) in order to reach 120 MHz to have range of CC up to 100 MHz instead of maximum 80 MHz in the normal LTE-Advanced. The system is designed and implemented in two main cases; the first when it has four CCs broadcasted on the 100 MHz and the second case when the system has five CCs broadcasted on the 120 MHz. These two cases are analyzed to show the main performance of LTE-A after increasing the bandwidth of non-contiguous CCs.

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2012 IEEE International Conference on Electronics Design, Systems and Applications (ICEDSA)

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