Proceedings ArticleDOI
Unified and non-parameterized statistical modeling of temporal and spatial traffic heterogeneity in wireless cellular networks
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TLDR
Unified and non-parameterized metrics for characterizing the heterogeneity of traffic in the time domain and the space domain are proposed and their equivalence to the inter-arrival time, a well accepted metric in thetime domain, is demonstrated.Abstract:
Understanding and solving performance-related issues of current and future (5G+) networks requires the availability of realistic, yet simple and manageable, traffic models which capture and regenerate various properties of real traffic with sufficient accuracy and minimum number of parameters. Traffic in wireless cellular networks must be modeled in the space domain as well as the time domain. Modeling traffic in the time domain has been investigated well. However, for modeling the User Equipment (UE) distribution in the space domain, either the unrealistic uniform Poisson model, or some non-adjustable model, or specifc data from operators, is commonly used. In this paper, stochastic geometry is used to explain the similarities of traffic modeling in the time domain and the space domain. It is shown that traffic modeling in the time domain is a special one-dimensional case of traffic modeling in the space domain. Unified and non-parameterized metrics for characterizing the heterogeneity of traffic in the time domain and the space domain are proposed and their equivalence to the inter-arrival time, a well accepted metric in the time domain, is demonstrated. Coefficient of Variation (CoV), the normalized second-order statistic, is suggested as an appropriate statistical property of traffic to be measured. Simulation results show that the proposed metrics capture the properties of traffic more accurately than the existing metrics. Finally, the performance of LTE networks under modeled traffic using the new metrics is illustrated.read more
Citations
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Journal ArticleDOI
HetHetNets: Heterogeneous Traffic Distribution in Heterogeneous Wireless Cellular Networks
TL;DR: A novel heterogeneous spatial traffic modeling that allows statistical adjustment is presented and is used in heterogeneous wireless cellular networks (HetNets) to demonstrate the impact of heterogeneous and BS-correlated traffic on the network performance.
Journal ArticleDOI
Green cell planning and deployment for small cell networks in smart cities
TL;DR: This paper model various traffic patterns using stochastic geometry approach and propose an energy-efficient scheme to deploy and plan small cells according to the prevailing traffic pattern that can meet dynamic traffic demands with optimized deployment of small cells and enhance the energy efficiency of the system without compromising on quality of service (QoS) requirements.
Proceedings ArticleDOI
Measuring the spatial heterogeneity of outdoor users in wireless cellular networks based on open urban maps
TL;DR: This paper studies the spatial traffic heterogeneity of outdoor users in the denser areas of the city center of Paris, France and measures the heterogeneity via a second-order statistic: the Coefficient of Variation (CoV) of two spatial metrics of the resulting point process: the Voronoi cell areas and the Delaunay cell edge lengths.
Proceedings ArticleDOI
The impact of user spatial heterogeneity in heterogeneous cellular networks
TL;DR: By deploying small-cells in the centers of the user hot-spots found by cluster analysis on non-uniform user points, it is shown that HCNs can benefit from a certain degree of user spatial heterogeneity.
Proceedings ArticleDOI
Statistical modeling of spatial traffic distribution with adjustable heterogeneity and B S-correlation in wireless cellular networks
TL;DR: This paper introduces a methodology for the generation and analysis of spatial traffic which allows statistical adjustments and only two parameters, namely, Coefficient of Variation and Correlation Coefficient, are adjusted to control the UE distribution heterogeneity and correlation with Base Stations.
References
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