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Tracking region planning method based on spectral clustering

A tracking area and spectral clustering technology, applied in the planning of tracking areas, can solve the problems of not being able to better optimize the network system signaling cost, dividing small cells into a TA separately, and complex algorithm steps.

Active Publication Date: 2019-04-23
BEIJING UNIV OF TECH
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Problems solved by technology

In 2013, Toril et al. calculated the mobile characteristics of mobile users in the TA planning area, modeled the TA planning problem as a graph segmentation problem, and used the evolutionary search algorithm to give a TA planning solution. This algorithm belongs to the latest heuristic TA planning algorithm, but , the algorithm steps are complex, and the speed of searching for the global optimal solution of the TA planning problem is slow. In the face of the ultra-dense network of small cell deployment environment, it is necessary to study a more efficient TA planning algorithm
In 2017, Ning et al. proposed a TA planning algorithm based on community detection, which modeled the TA planning problem as a community detection problem in a complex network, and applied a cooperative game-based community detection algorithm to give a TA planning solution. When there are many small cells, it will lead to an unreasonable phenomenon that more and more small cells are divided into one TA
In addition, most of the current research on dynamic location management methods is based on regular cellular topology models with the same size, shape, and distribution of cells, which cannot cope with the ultra-dense networking of cellular deployment environments in hotspot areas.
In addition, with changes in user mobility trends and cellular base station deployments, the initial TA planning method cannot better optimize the signaling cost overhead of the network system

Method used

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  • Tracking region planning method based on spectral clustering
  • Tracking region planning method based on spectral clustering
  • Tracking region planning method based on spectral clustering

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Embodiment Construction

[0080] The invention will be further described below in conjunction with the accompanying drawings and examples.

[0081] Step 1, build a system model that generates a cellular network diagram

[0082] (1) In order to better simulate the randomness of small cell deployment in hotspot areas and the change of user movement trends, the present invention builds a system model based on the small cell deployment obeying the Poisson point process model. The main module structures involved in the system model are as follows: figure 1 shown.

[0083] (2) According to the cellular deployment model, user distribution model, user mobility model and system call model, generate a network diagram reflecting user mobility and paging characteristics. Such as figure 2 As shown, where the distribution density of small cell base stations λ=100, the variance σ of the two-dimensional Gaussian distribution of users 2 =500, a schematic diagram of trajectories of 288 users moving 500 steps around ...

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Abstract

The invention provides a tracking region planning method based on spectral clustering. The method mainly is a user tracking region planning method under a small cellular network environment in a hotspot region. The entire though of the method provided by the invention is as follows: firstly constructing a system model based on small cellular deployment in the Poisson point process to produce a cellular network graph for displaying user mobility and paging characteristic; and then modeling a TA planning problem as a segmentation problem of a graph correlation coefficient; and then performing TAplanning on the produced network diaphragm by applying a spectral algorithm based on the graph theory

Description

technical field [0001] The present invention relates to the technical field of user location management in the communication field, and mainly relates to a planning method for a tracking area (Tracking Area, TA). Background technique [0002] In recent years, the rapid increase in the number of mobile users has led to a rapid increase in mobile communication network traffic, which greatly increases the capacity requirements of the network. Large hot spots, such as shopping malls, have a large number of connected devices. The dense deployment of small cell base stations is imminent, and ultra-dense networking has emerged as the times require. The future small cell network will deploy dense self-organizing, low-cost, low-power small cells in hot spots within the range of macro cells. Although the small cell network has many advantages, due to the characteristics of dynamic random deployment, ultra-dense, strong self-organization and liberalization capabilities of small cells...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H04W16/18H04W16/22
CPCH04W16/18H04W16/22
Inventor 涂山山林强强肖创柏
Owner BEIJING UNIV OF TECH
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