LTE-Pro网络设计

2020 6th International Conference on Engineering, Applied Sciences and Technology (ICEAST) Pub Date : 2020-07-01 DOI:10.1109/iceast50382.2020.9165529

Chanita Phangphan, Narongchon A-mapat, P. Moungnoul

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引用次数: 0

摘要

本文介绍了LTE-LAA和LTE-LWA相结合的LTE-Pro网络的设计。通过在3种技术之间设计合适的距离、密度和带宽分配，以找到合适的小区位置，实现高吞吐量。从LWA (Wi-Fi接入点)或LAA (eNB)与基站(BS)之间的变化，通过信噪比(SINR)从附近的基站找到小区间干扰坐标(ICIC)。假设LAA节点和LTE节点半径不同，LWA分别随机分布在距离D1和距离D2之间。然后在3种技术之间按比例分配节点数量和频率带宽。通过使用MATHLAB来模拟LTE-Pro网络的运行。结果表明，设计的微型LTE-pro网络D1为LAA半径的3:4,D2为LTE半径的4:5。LTE: LAA: LWA的节点比例和带宽分配分别为2:2:10和2:4:4，这是影响LTE- pro性能的因素，会提高LTE- pro网络的性能。

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Network Design for LTE-Pro

This paper presents the design of the LTE-Pro network in the combination of LTE-LAA and LTE-LWA. By designing appropriate distance, density as a ratio and bandwidth allocation between 3 technologies in order to find the suitable cell location that enables the high throughput. From the variation between LWA (Wi-Fi Access point) or LAA (eNB) and Base Station (BS) to find Inter-Cell Interference Coordinate (ICIC) from the nearby BS via signal to interference plus Noise Ratio (SINR). The assumption that LAA node and LTE node had different radius, while LWA was randomly distributed between the distance D1 and D2, respectively. Then the ratio number of nodes and allocate frequencies bandwidth between 3 technologies. By using MATHLAB to simulate the operation of the LTE-Pro network. The results show that the design of the pico LTE-pro network with the range D1 is 3 : 4 of the LAA radius, and D2 is 4 : 5 of the LTE radius. The node ratio and the bandwidth allocation of LTE : LAA : LWA is 2 : 2 : 10 and 2 : 4 : 4 respectively are factors that affects the performance of LTE-Pro and will improve LTE-Pro network performance.

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2020 6th International Conference on Engineering, Applied Sciences and Technology (ICEAST)

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