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Method for discovering small stations based on graph coloring in ultra-dense wireless network

A wireless network and discovery method technology, applied in the field of cell search, can solve problems such as the inapplicability of ultra-dense wireless networks and the complex interference relationship of small stations, and achieve the effects of increasing the probability of small stations, increasing the number of small stations, and reducing interference

Inactive Publication Date: 2015-03-25
SOUTHEAST UNIV
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Problems solved by technology

However, since the small stations in the ultra-dense wireless network are very dense, the interference relationship between the small stations is very complicated, and the simple rotation transmission is not suitable for the ultra-dense wireless network

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  • Method for discovering small stations based on graph coloring in ultra-dense wireless network
  • Method for discovering small stations based on graph coloring in ultra-dense wireless network
  • Method for discovering small stations based on graph coloring in ultra-dense wireless network

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Embodiment Construction

[0045] Below in conjunction with accompanying drawing, the embodiment of the present invention in LTE ultra-dense wireless network is further introduced:

[0046] 1 Construction of Interference Relationship Diagram

[0047] The interference relation graph is an undirected graph C=(V,E). Among them, V is the set of all vertices in the graph, and each vertex represents a small station; E is the set of all edges in the graph, and each edge represents the interference between two small stations.

[0048] Since the UE does not have information such as SINR (Signal to Interference and Noise Ratio) and RSRP of the small cell in the initial search phase, it uses the geographic location information of the small cell, that is, the location of the small cell, to construct an interference relationship graph. The closer the distance between the small stations, the stronger the interference between the small stations is considered.

[0049] Assume that the distance between small stations is...

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Abstract

The invention discloses a method for discovering small stations based on graph coloring in an ultra-dense wireless network. The method comprises the steps that the number of small station groups, namely the available color number Ncolors, is determined by an operator; a multiplex distance dreuse which is as big as possible is found under the premise that the used color number is not larger than the Ncolors; an interference relation graph is established according to the dreuse, and a Brelaz algorithm is used for coloring; the small stations are grouped according to coloring results, and all groups of small stations are made to send synchronous signals in turn; when network topology changes, the interference relation graph is reestablished, coloring is conducted again, the small stations are regrouped, and the small stations are made to send synchronous signals in turn according to the new groups. According to the method, the small stations are grouped, the interference of the synchronous signals of different small stations is reduced; the interference relations between the small stations are reflected through the interference relation graph, so that the small stations which interfere with each other seriously are prevented from being distributed in the same group, and the interference between the small stations is further reduced; the probability that UE discovers weak small stations is improved, and the number of the small stations discovered by the UE is increased.

Description

technical field [0001] The invention belongs to the technical field of cell search in wireless communication, and in particular relates to a small station discovery method in Hyper-Dense Wireless Networks. Background technique [0002] With the popularity of smart terminals, mobile data services have grown rapidly. Under the circumstances that it is difficult to further improve the spectrum efficiency and increasing the bandwidth is expensive, increasing the cell density becomes an important method to cope with this trend. [0003] LTE-A (Long Term Evolution-Advanced) deploys small cells, such as Femtocells, Picocells, and Relays, on the basis of macrocells in the cellular network topology to achieve indoor and hotspot Optimization of regions and cell boundaries. These small cells are covered by low power nodes (LPN, Low Power Node, also known as small cells). Since the small cell is under the coverage of the macro cell (Macrocell), another layer of topology is formed on ...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H04W48/16
CPCH04W48/16
Inventor 潘志文彭帅刘楠尤肖虎
Owner SOUTHEAST UNIV
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