CN103702351B - A network optimization method and apparatus - Google Patents

A network optimization method and apparatus Download PDF

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CN103702351B
CN103702351B CN201410003587.1A CN201410003587A CN103702351B CN 103702351 B CN103702351 B CN 103702351B CN 201410003587 A CN201410003587 A CN 201410003587A CN 103702351 B CN103702351 B CN 103702351B
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network
upgrade
user terminal
number
terminal
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CN103702351A (en
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陆钧
陈崴嵬
宋春涛
王可争
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中国联合网络通信集团有限公司
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Abstract

本发明实施例提供一种网络优化方法和设备,涉及通信领域,能够实现量化确定HSPA+技术升级和部署区域,减小技术升级和部署区域误差,提高了网络优化及规划的准确度。 Example embodiments provide a network optimization method and apparatus of the present invention relates to communication field, it is possible to determine the quantization HSPA + technology upgrade and deployment area, upgrades and deployment area reduction technique errors, improves the accuracy of network planning and optimization. 其方法为:通过获取用户终端的类型和用户终端在建立业务时的核心网域标识,根据用户终端的类型和核心网域标识对不同类型的用户终端所建立数据业务的次数进行统计,再根据用户终端的能力和统计结果对不同类型终端进行再分类,获取再分类后不同类型的用户终端的业务次数占比,以根据业务次数占比确定网络升级技术,进而根据支持网络升级技术的用户终端在不同区域下的业务次数占比,确定网络升级技术的部署区域。 The methods are: a user terminal type and user terminal by acquiring the core network domain identity established during service, data service established for different types of user terminals according to the type and the core network domain identity number of the user terminal statistics, then according to and user terminal capability statistics for different types of terminals reclassification, the number of acquired business accounted for different types of user terminals after the reclassification, according to the number of business accounting to determine the network upgrade our technology to help upgrade technology user support network terminal the number of businesses in different areas of accounting, to determine the deployment of LAN technology upgrades. 本发明实施例用于确定网络升级技术和部署区域。 Embodiment of the present invention and techniques for determining network upgrade deployment area.

Description

一种网络优化方法和设备 A network optimization method and apparatus

技术领域 FIELD

[0001] 本发明涉及通信领域,尤其涉及一种网络优化方法和设备。 [0001] The present invention relates to the field of communications, particularly to a method and apparatus for network optimization.

背景技术 Background technique

[0002] 移动互联网的快速发展对无线网络的容量要求越来越高,使得运营商必须通过技术升级和网络演进不断提升无线网的接入容量,目前国内运营商已经在基础3G网络上完成部署高速分组数据接入(High Speed Packet Access,HSPA)技术,并开始逐步部署其演进型HSPA+网络。 [0002] rapid development of mobile Internet wireless network capacity requirements higher and higher, so that operators must continue to improve the capacity of wireless network access through technology upgrades and network evolution, domestic operators have deployed on the basis of 3G network High Speed ​​packet data access (High Speed ​​packet access, HSPA) technology, which deploy and gradually evolved HSPA + network.

[0003] 对于HSPA+网络升级技术,现有技术中,多为通过HSPA+技术分析综合仿真或路测来获取HSPA+的性能优势,给出定性的升级技术和部署方案,但是这种通过仿真或路测的方式会产生误差,所确定的升级路线或部署方案也会存在偏差问题;还有一种实现方式是从品牌和终端型号角度来对终端分布和业务分布进行估计,进而确定升级技术和部署方案, 但是该方案忽略了用户行为对终端业务的影响程度,终端相同但是业务差距可能较大,所以这种实现方式也会存在升级技术和部署方案的偏差问题。 [0003] HSPA + network upgrade technology, art, mostly to get HSPA + performance advantage through HSPA + technology analysis integrated simulation or road test, gives a qualitative upgrading technologies and deployment scenarios, but this simulation or road test for the method results in an error, the determined route or upgrade deployment there will deviation; Another implementation is distributed to the terminal from the brand and model of the terminal and the service angular distribution is estimated, and to determine the technical upgrade and deployment, However, the program ignores the impact of user behavior on terminal services, terminal services the same but the gap may be larger, so this implementation will deviate escalation techniques and deployment scenarios.

[0004] 因此,目前对于HSPA+技术升级和部署区域大多都是以基于技术及简单业务分析的定性方式选择升级技术和部署区域,使得在技术选择和区域选择上存在误差问题。 [0004] Thus, for the current HSPA + technology upgrade and deployment area mostly qualitative manner based on the technical analysis of business options and simple technology upgrades and deployment area, so that there is an error in the problem area selection and selection techniques.

发明内容 SUMMARY

[0005] 本发明的实施例提供一种网络优化方法和设备,能够实现量化确定HSPA+技术升级和部署区域,减小技术升级和部署区域误差,提高了网络优化及规划的准确度。 [0005] Embodiments of the present invention provides a method and apparatus for network optimization, it is possible to determine the quantization HSPA + technology upgrade and deployment area, upgrades and deployment area reduction technique errors, improves the accuracy of network planning and optimization.

[0006] 为达到上述目的,本发明的实施例采用如下技术方案: [0006] To achieve the above object, embodiments of the present invention adopts the following technical solutions:

[0007] 第一方面,提供一种网络优化方法,包括: [0007] In a first aspect, there is provided a network optimization method, comprising:

[0008] 获取用户终端的类型和所述用户终端在建立业务时的核心网域标识; [0008] to obtain the user terminal type and the user terminal when establishing the service core network domain identifier;

[0009] 根据所述用户终端的类型和所述核心网域标识对不同类型的用户终端所建立数据业务的次数进行统计,并将统计结果存入数据库; [0009] The number of times the statistical type of the user terminal and the core network domain identity established for different types of data traffic of user terminals, and the statistics stored in the database;

[0010] 根据所述用户终端的能力和所述统计结果对所述不同类型终端进行再分类,获取再分类后不同类型的用户终端的业务次数占比,以根据再分类后不同类型的用户终端的业务次数占比确定网络升级技术; [0010] re-classifying the different types of terminals according to the capability of the user terminal and the statistical results, the proportion of the number of different types to obtain the service of the user terminal after reclassification, in accordance with the re-classification of different types of user terminals the business accounted for determining the number of network upgrade technology;

[0011] 根据支持所述网络升级技术的用户终端在不同区域下的业务次数占比,确定所述网络升级技术的部署区域。 [0011] The proportion of the number of terminals in service areas of different support to the user network technology upgrade, the upgrade of the network region is determined deployment techniques.

[0012] 结合第一方面,在第一种可能实现的方式中,所述用户终端的类型是所述用户终端在接入网络并向网络设备发送无线资源控制请求消息时,网络优化设备从所述网络设备下载得到的,所述无线资源控制请求消息包括所述用户终端的类型和能力; [0012] with the first aspect, the first possible implementation, the type of the user terminal when the user terminal is transmitting a radio resource control request message to the network in an access network device, a device from the network optimization said network device is downloaded, the radio resource control message comprises a request type and capabilities of the user terminal;

[0013] 所述核心网域标识是所述用户终端在建立数据业务并向所述网络设备发送的直传信令时,所述网络优化设备从所述网络设备下载得到的,所述直传信令包括所述核心网域标识。 [0013] The core network domain identity in the user terminal is establishing a data traffic to the network device sends a direct transfer of signaling when the network optimization apparatus obtained from the network device downloads the forward pass signaling comprising the core network domain identity.

[0014] 结合第一方面,在第二种可能实现的方式中,所述根据所述用户终端的能力和所述统计结果对所述不同类型终端进行再分类,获取再分类后不同类型的用户终端的业务次数占比,以根据再分类后不同类型的用户终端的业务次数占比确定网络升级技术包括: [0014] with the first aspect, in a second possible implementation manner, according to the capability of the user terminal and the statistical results of the re-classification of different types of terminals, different types of users acquired after reclassification proportion of the number of operations of the terminal, according to the technique to determine the network upgrade service frequency and the proportion of re-classification of different types of user terminals comprises:

[0015] 根据所述用户终端的能力和所述统计结果对所述不同类型终端进行再分类,获取预设时间段内再分类后不同类型的用户终端的业务次数占比; [0015] re-classifying the different types of terminals according to the capability of the user terminal and the statistical results, the proportion of the number of different types to obtain the service user's terminal after a preset period of time and then classification;

[0016] 将所述再分类后不同类型的用户终端的业务次数占比与第一预设升级门限进行比较; [0016] The proportion of the number of operations after the re-classification of different types of user terminals is compared with a first predetermined threshold upgrading;

[0017] 选取再分类后的业务次数占比大于或等于所述第一预设升级门限的用户终端类型作为所述网络升级技术。 [0017] The proportion of the number of operations to select the re-classification equal to or greater than the first preset threshold upgraded as the user terminal type network upgrade techniques.

[0018] 结合第一方面的第二种可能实现的方式,在第三种可能实现的方式中,所述根据支持所述网络升级技术的用户终端在不同区域下的业务次数占比,确定所述网络升级技术的部署区域包括: Embodiment [0018] with the first aspect of the second possible implementation, in the manner of a third possible implementation, the proportion of the number of terminals in service areas of different support to the user network upgrade techniques, determining said upgrade deployment area network technology include:

[0019] 利用本地网络优化场景划分和小区工参获取所述再分类后的用户终端所在的区域属性; [0019] The scene division and cell engineering optimization parameters attribute acquisition area after the re-classification of the user terminal is located using the local network;

[0020] 获取支持所述网络升级技术的用户终端在不同属性的区域下的业务次数占比; [0020] network supporting the acquired user terminal technology upgrades proportion of the number of service areas of different properties;

[0021] 将支持所述网络升级技术的用户终端在不同属性的区域下的业务次数占比与第二预设升级门限进行比较; User [0021] The technology supporting the network upgrade in the terminal areas of different service attributes and a second predetermined number of proportion compared upgrade threshold;

[0022] 选取支持所述网络升级技术的用户终端在不同属性的区域下的业务次数占比大于或等于所述第二预设升级门限的区域作为所述网络升级技术的部署区域。 [0022] network supporting the selected user terminal technology upgrades proportion of the number of service areas of different properties at greater than or equal to the second predetermined threshold upgrade deployment area of ​​the region as a network upgrade techniques.

[0023]结合第一方面的第三种可能实现的方式,在第四种可能实现的方式中,所述方法还包括: [0023] The third embodiment may be implemented in conjunction with a first aspect, in a fourth possible embodiment implemented, the method further comprising:

[0024] 获取所述预设时间段内,支持所述网络升级技术的用户终端在所述部署区域中的各个小区建立数据业务的次数; [0024] Gets the preset period of time, support the network upgrade technology to establish the number of user terminals in each cell of the data service in the area of ​​deployment;

[0025] 将所述各个小区建立数据业务的次数与第三预设升级门限进行比较; [0025] The number of times to establish the respective cell data traffic with the third preset threshold comparing the upgrade;

[0026] 选取所述各个小区建立数据业务的次数大于或等于所述第三预设升级门限的小区作为在所述部署区域内部署所述网络升级技术的小区。 [0026] The respective cells to establish the number of selected data service is equal to or greater than the third predetermined threshold upgraded in the cell as a cell of the network technology upgrades Deploying the region.

[0027] 第二方面,提供一种网络优化设备,包括: [0027] a second aspect, there is provided a network optimization apparatus, comprising:

[0028] 获取单元,用于获取用户终端的类型和所述用户终端在建立业务时的核心网域标识; [0028] acquiring unit, for acquiring a core network domain when the user terminal identifier type and the user equipment establishing business;

[0029] 统计单元,用于根据所述用户终端的类型和所述核心网域标识对不同类型的用户终端所建立数据业务的次数进行统计,并将统计结果存入数据库; [0029] The counting unit configured to count the number of times for the type of the user terminal and the core network domain identity established for different types of data traffic of user terminals, and the statistics stored in the database;

[0030] 整理单元,用于根据所述用户终端的能力和所述统计结果对所述不同类型终端进行再分类,获取再分类后不同类型的用户终端的业务次数占比,以根据再分类后不同类型的用户终端的业务次数占比确定网络升级技术; [0030] The sorting unit according to the capability for the user terminal and the statistical results of the re-classification of different types of terminals, the number of different types of business accounted for obtaining user terminal after reclassification, in accordance with the reclassification proportion of the number of different types of services the user terminal determines network upgrade technology;

[0031] 确定单元,用于根据支持所述网络升级技术的用户终端在不同区域下的业务次数占比,确定所述网络升级技术的部署区域。 [0031] determination means for accounting for the number of terminals in service areas of different support to the user network upgrade technology, to determine the deployment area of ​​the network upgrade techniques.

[0032] 结合第二方面,在第一种可能实现的方式中,所述用户终端的类型和能力是所述用户终端在接入网络并向网络设备发送无线资源控制请求消息时,网络优化设备从所述网络设备下载得到的,所述无线资源控制请求消息包括所述用户终端的类型和能力; When the [0032] combination with the second aspect, in a first possible implementation of the embodiment, the type and capabilities of the user terminal is a user terminal and the network devices in the access network transmits RRC request message, the network equipment optimization obtained from the network device to download, the radio resource control message comprises a request type and capabilities of the user terminal;

[0033] 所述核心网域标识是所述用户终端在建立数据业务并向所述网络设备发送的直传信令时,所述网络优化设备从所述网络设备下载得到的,所述直传信令包括所述核心网域标识。 [0033] The core network domain identity in the user terminal is establishing a data traffic to the network device sends a direct transfer of signaling when the network optimization apparatus obtained from the network device downloads the forward pass signaling comprising the core network domain identity.

[0034]结合第二方面,在第二种可能实现的方式中,所述整理单元具体用于: [0034] combination with the second aspect, in a second possible realization of the embodiment, the finishing unit is configured to:

[0035] 根据所述用户终端的能力和所述统计结果对所述不同类型终端进行再分类,获取预设时间段内再分类后不同类型的用户终端的业务次数占比; [0035] The re-classification of the different types of terminals according to the capability of the user terminal and the statistical results, the proportion of the number of different types to obtain the service user's terminal after a preset period of time and then classification;

[0036] 将所述再分类后不同类型的用户终端的业务次数占比与第一预设升级门限进行比较; [0036] The proportion of the number of operations after the re-classification of different types of user terminals is compared with a first predetermined threshold upgrading;

[0037] 选取再分类后的业务次数占比大于或等于所述第一预设升级门限的用户终端类型作为所述网络升级技术。 [0037] The proportion of the number of operations to select the re-classification equal to or greater than the first preset threshold upgraded as the user terminal type network upgrade techniques.

[0038]结合第二方面的第二种可能实现的方式,在第三种可能实现的方式中,所述确定单元具体用于: [0038] may be implemented in conjunction with a second embodiment of the second aspect, in a third possible implementation manner, the determining unit is configured to:

[0039] 利用本地网络优化场景划分和小区工参获取所述再分类后的用户终端所在的区域属性; [0039] The scene division and cell engineering optimization parameters attribute acquisition area after the re-classification of the user terminal is located using the local network;

[0040] 获取支持所述网络升级技术的用户终端在不同属性的区域下的业务次数占比; [0040] network supporting the acquired user terminal technology upgrades proportion of the number of service areas of different properties;

[0041] 将支持所述网络升级技术的用户终端在不同属性的区域下的业务次数占比与第二预设升级门限进行比较; User [0041] The technology supporting the network upgrade in the terminal areas of different service attributes and a second predetermined number of proportion compared upgrade threshold;

[0042] 选取支持所述网络升级技术的用户终端在不同属性的区域下的业务次数占比大于或等于所述第二预设升级门限的区域作为所述网络升级技术的部署区域。 [0042] network supporting the selected user terminal technology upgrades proportion of the number of service areas of different properties at greater than or equal to the second predetermined threshold upgrade deployment area of ​​the region as a network upgrade techniques.

[0043]结合第二方面的第三种可能实现的方式,在第四种可能实现的方式中,所述获取单元,还用于获取所述预设时间段内,支持所述网络升级技术的用户终端在所述部署区域中的各个小区建立数据业务的次数; [0043] reference to the third embodiment of the second aspect may be implemented, in a fourth possible implementation manner, the obtaining unit is further configured to obtain the preset period of time, support the network technology upgrade number of times the user terminal establishes a data service in each cell area of ​​the deployment;

[0044] 所述确定单元,还用于将所述各个小区建立数据业务的次数与第三预设升级门限进行比较; [0044] The determination unit is further configured to establish the number of the respective cell data traffic with the third preset threshold comparing the upgrade;

[0045] 选取所述各个小区建立数据业务的次数大于或等于所述第三预设升级门限的小区作为在所述部署区域内部署所述网络升级技术的小区。 [0045] The number of each selected cell to establish the data service is equal to or greater than the third predetermined threshold upgraded in the cell as a cell of the network technology upgrades Deploying the region.

[0046] 本发明实施例提供一种网络优化方法和设备,通过获取用户终端的类型和所述用户终端在建立业务时的核心网域标识,根据用户终端的类型和核心网域标识对不同类型的用户终端所建立数据业务的次数进行统计,并将统计结果存入数据库,再根据用户终端的能力和统计结果对不同类型终端进行再分类,获取再分类后不同类型的用户终端的业务次数占比,以根据再分类后不同类型的用户终端的业务次数占比确定网络升级技术,进而根据支持网络升级技术的用户终端在不同区域下的业务次数占比,确定网络升级技术的部署区域,能够实现量化确定HSPA+技术升级和部署区域,减小技术升级和部署区域误差,提高了网络优化及规划的准确度。 [0046] An embodiment provides a network optimization method and apparatus of the present invention, the establishment of a core network domain identity in the terminal when the service type and the user acquired by the user terminal, according to the type of core network domain identity and a user terminal for different types the number of times a user terminal to establish data traffic statistics, and statistics into a database, and then re-classified according to different types of terminal capabilities and user terminal's statistics, the number of business after obtaining re-classification of different types of user terminals accounted for ratio, the number of operations in accordance with the proportion of different types of user terminal determines the network upgrade reclassification technology, and thus the number of operations in different regions of the proportion of the terminal user to upgrade network technologies support, to determine the deployment of LAN technology upgrades can be determining a quantization achieve HSPA + technology upgrade and deployment area, upgrades and deployment area reduction technique errors, improves the accuracy of network planning and optimization.

附图说明 BRIEF DESCRIPTION

[0047] 为了更清楚地说明本发明实施例或现有技术中的技术方案,下面将对实施例或现有技术描述中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本发明的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图。 [0047] In order to more clearly illustrate the technical solutions in the embodiments or the prior art embodiment of the present invention, briefly introduced hereinafter, embodiments are described below in the accompanying drawings or described in the prior art needed to be used in describing the embodiments the drawings are only some embodiments of the present invention, those of ordinary skill in the art is concerned, without creative efforts, can derive from these drawings other drawings.

[0048] 图1为本发明实施例提供的一种网络优化方法流程示意图; [0048] Figure 1 provides a schematic for network optimization process embodiment of the present invention;

[0049] 图2为本发明实施例提供的一种网络优化方法流程示意图; [0049] FIG. 2 is a schematic flow for network optimization method according to an embodiment of the present invention;

[0050] 图3为本发明实施例提供的一种分属性区域进行划分统计后的业务占比图; [0050] FIG. 3 for business accounting view of one kind of sub-divided statistical attribute area according to an embodiment of the present invention;

[0051] 图4为本发明实施例提供的一种网络优化设备结构示意图。 [0051] FIG 4 provides a schematic for network structure optimization apparatus embodiment of the present invention.

具体实施方式 Detailed ways

[0052]下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本发明一部分实施例,而不是全部的实施例。 [0052] below in conjunction with the present invention in the accompanying drawings, technical solutions of embodiments of the present invention are clearly and completely described, obviously, the described embodiments are merely part of embodiments of the present invention, but not all embodiments example. 基于本发明中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例,都属于本发明保护的范围。 Based on the embodiments of the present invention, all other embodiments of ordinary skill in the art without any creative effort shall fall within the scope of the present invention.

[0053] 本发明实施例提供一种网络优化方法,如图1所示,包括: [0053] The embodiments of the present invention provides a method for optimizing the network shown in Figure 1, comprising:

[0054] 101、网络优化设备获取用户终端的类型和用户终端在建立业务时的核心网域标识。 [0054] 101, network optimization terminal apparatus acquires a user type of core network domain identity and the user terminal when establishing services.

[0055] 其中,这里的网络优化设备可以是包括实现本发明的可视化软件程序所在的计算机等等,也可以是其它用于实现的设备,这里不做限定,用户终端为具有演进型高速分组数据接入技术HSPA+的能力的终端。 [0055] wherein, where the network device may be a computer optimization visualization software program implementing the present invention resides, etc., may be implemented for other devices, here is not limited, the user terminal evolved high-speed packet data having terminal access technology capability of HSPA + in.

[0056] 在无线网络容量越来越高的网络环境中,HSPA+网络为在3G网络上完成部署可以提升无线网络接入容量而形成的网络升级技术。 [0056] increasing the capacity of a wireless network in a network environment, HSPA + network deployed on a 3G network may enhance the capacity to form a wireless network access technology network upgrade. 这里的用户终端的类型和能力可以是用户终端在接入网络时向网络设备发送的无线资源控制(Radio Resource Control,RRC)请求消息后,网络优化设备从网络设备下载得到的,RRC请求消息包括用户终端的类型和能力, 核心网域标识可以是用户终端在建立数据业务时向网络设备发送的直传信令后,网络优化设备从网络设备下载得到的,该网络设备可以根据RRC提供者平台的不同而不同,例如可以为运营支撑系统(Operation Support System,0SS)中的网络设备。 Type and capabilities of the user terminal herein may be a RRC (Radio Resource Control, RRC) request message, the network optimization user terminal transmits to the network device when the network access device obtained from the network device to download, the RRC request message comprises type and capabilities of the user's terminal, the core network domain identity may be a direct transfer sent from the user terminal signaling to a network device when establishing the data traffic, network optimization device obtained from the network device to download, the network device may be provided by the RRC platform vary, for example, may be a network operational support system apparatus (operation support system, 0SS) of. 直传信令包括核心网域标识,核心网域标识若标识为"ps-domain",则为数据业务,若标识为"cs-domain",则为语音业务。 Direct signaling comprises a core network domain identity, core network domain identity is identified if the "ps-domain", compared with the data traffic, if identified as "cs-domain", compared to voice traffic. 本发明对终端类型和核心网域标识的采集方法不限定于此,也可以为其它采集方法,这里不做限定。 The present invention is a method of collecting a terminal type and the core network domain identity is not limited thereto, but may be other collection methods, is not defined here. 这里可以按照小区级获取各个小区的终端的类型和用户终端在建立业务时的核心网域标识,也可以按照其它方式进行采集。 Here the terminal may acquire the individual cell level according to the cell type and the core network domain identity in the user terminal when establishing the service, the acquisition may be performed in other ways.

[0057]其中,3GPP对于宽带码分多址(Wideband Code Division Multiple Access, WCDMA)终端进行了分类定义,主要依据终端的能力包括支持的最大码字、传输时间间隔(Transmission Time Interval,传输时间间隔)、调制方式、多输入多输出(Multiple Input Multiple Output,ΜΜ0)、载波聚合级扩频因子等,目前3GPP25306.VII .7.0针对频分双工(Frequency Division Duplex,FDD)-共享信道(High-Speed Downlink Shared Channel,HS-DSCH)将终端分类为38类,也就是使用n)DH-DSCH下行信道的终端共38类,针对H)D专用信道(Enhanced Dedicated Channel,E-DCH)将终端分类为12类,也就是使用H)D E-DCH上行信道的终端可以分为12类。 [0057] wherein, 3GPP for wideband code division multiple access (Wideband Code Division Multiple Access, WCDMA) terminal performs a classification definitions, mainly based on the terminal capability comprises the maximum supported codeword transmission time interval (Transmission Time Interval, TTI ), modulation, MIMO (multiple input multiple output, ΜΜ0), carrier aggregation level spreading factor, the current 3GPP25306.VII .7.0 for frequency division duplex (frequency division duplex, FDD) - shared channel (High- Speed ​​downlink Shared channel, HS-DSCH) to the terminal are classified into 38 classes, i.e. using n) DH-DSCH downlink channel terminal of 38 classes, for H) D dedicated channel (Enhanced dedicated channel, E-DCH) terminal classification 12 is based, i.e. the use of H) D E-DCH uplink channel terminal can be divided into 12 categories. 如表1所示,为3GPP规划的使用n)DH-DSCH下行信道的终端分类情况,如表2所示,为3GPP规划的使用FDD E-DCH上行信道的终端分类情况。 As shown in Table 1, for the planned use 3GPP n) terminal classification DH-DSCH downlink channel, as shown in Table 2, for the planning of the use of 3GPP FDD E-DCH uplink channel terminal classification.

[0058] 表13GPP规划的使用roD-H-DSCH下行信道的终端分类情况 [0058] Table 13GPP planning roD-H-DSCH downlink channel terminal classification

Figure CN103702351BD00081

Figure CN103702351BD00091

Figure CN103702351BD00101

[0062] 表23GPP规划的使用H)D E-DCH上行信道的终端分类情况 [0062] H terminal using the classification table 23GPP Programming) D E-DCH uplink channel

Figure CN103702351BD00102

Figure CN103702351BD00111

[0065] 102、网络优化设备根据用户终端的类型和核心网域标识对不同类型的用户终端所建立数据业务的次数进行统计,并将统计结果存入数据库。 [0065] 102, network optimization device statistics based on the number and type of core network domain identity established by the user terminal for different types of data traffic of user terminals, and the statistics stored in the database.

[0066] 具体的,网络优化设备在得到用户终端类型和业务类型后,可以对每一种类型的终端发起的数据业务次数进行统计,然后将统计的结果导入数据库,可以方便后续进行相应的查询,也就是说当直传信令中的核心网域标识为"ps-domain"时,则进行统计。 [0066] Specifically, the network optimization obtained after the user terminal device type and service type, the number of data for each service can be initiated by the terminal type of statistics, the statistics and results into a database, can facilitate subsequent query corresponding , that is to say when the forward pass signaling in the core network domain identity as "ps-domain", then the statistics. 其中,这里进行统计时的时间范围可以为一周时间,也可以为其它时间范围,这里不做限定。 Wherein, when the time range where statistics can be one week, may be a different time range, which is not limited herein.

[0067] 103、网络优化设备根据用户终端的能力和统计结果对不同类型终端进行再分类, 获取再分类后不同类型的用户终端的业务次数占比,以根据再分类后不同类型的用户终端的业务次数占比确定网络升级技术。 [0067] 103, optimization of network capacity and device according to statistical results of user terminal re-classification of different types of terminals, the number of different types of business accounted for obtaining user terminal after the re-classification, different types of user terminals based on the reclassification business accounting to determine the number of network upgrade technology.

[0068] 具体的,对于统计后导入数据库中的数据,可以根据3GPP中终端能力列表对数据中的分类进行赋值和修整,也就是说按照终端所具有的能力将数据库中的终端进行再分类,将具有某一项相同能力的终端都归为一类,并为这一类终端赋值,以进行区别,并获取预设时间段内再分类后不同类型的用户终端的业务次数占比,而后,将再分类后不同类型的用户终端的业务次数占比与第一预设升级门限进行比较,选取再分类后的业务次数占比大于或等于第一预设升级门限的用户终端类型作为网络升级技术。 [0068] Specifically, the statistics for the data into the database, the data can be a list of assignments and classification according to the 3GPP terminal trimming capability, that is to say in accordance with the terminal capabilities database the terminal reclassification, the terminal has a particular property of the same capacity as a class, the class assigned to the terminal and to distinguish, and acquires the preset number of different types of business accounted user terminal after reclassification period, and then, after accounting for the number of traffic classification Jiangzai different types of user terminals and a first preset threshold is compared to upgrade, after accounting for the number of selected business classification is greater than or equal to a further preset user terminal a first type of network upgrade threshold as technology upgrades .

[0069] 其中,预设时间段可以为一周时间,也可以为其它时间段。 [0069] The preset time period may be one week, it may also be other time period. 再分类后的不同类型的用户终端的业务次数占比为预设时间段内,不同类型的用户终端建立数据业务的次数占目标本地网总数据业务次数的百分比。 The proportion of the number of different types of business after the reclassification of the user terminal as a preset period of time, different types of user data service terminal establishes a percentage of the target number of local network total number of data services.

[0070] 104、网络优化设备根据支持网络升级技术的用户终端在不同区域下的业务次数占比,确定网络升级技术的部署区域。 [0070] 104, the proportion of the number of network optimization terminal device service in different regions according to a user upgrades support network technology, to determine the deployment of LAN technology upgrades.

[0071] 具体的,在获取了不同属性区域的再分类后的用户终端的业务占比从而确定了网络升级技术后,可以利用本地网络优化场景划分和小区工参获取再分类后的用户终端所在的区域属性,获取支持网络升级技术的用户终端在不同属性的区域下的业务次数占比,将支持网络升级技术的用户终端在不同属性的区域下的业务次数占比与第二预设升级门限进行比较,选取支持网络升级技术的用户终端在不同属性的区域下的业务次数占比大于或等于第二预设升级门限的区域作为网络升级技术的部署区域。 After [0071] Specifically, the proportion of the user terminal acquires the service after reclassification of areas to determine different properties of the network upgrade technology, the local network may be utilized to optimize the scene and cell division reference station acquires the user terminal is located after reclassification user attribute area, obtain customer support service network technology upgrades proportion of the number of terminals in the regions of different properties, to support the network upgrade technology at the terminal areas of different service attributes and a second predetermined proportion of the number of threshold upgrade comparing, selecting user terminals support network technology upgrade service frequency and the proportion of regions in different attributes than or equal to a second predetermined threshold as a region upgrade deployment area network technology upgrades. 其中,网络升级技术在不同属性的区域下的业务占比,为预设时间段内,支持网络升级技术的用户终端在不同属性的区域下建立数据业务的次数占网络升级技术在目标本地网的总数据业务次数的百分比。 Among them, the number of network upgrade technology business area accounted for under the different attributes of a preset period of time, user support network upgrade technology terminal establishes data services in the area of ​​accounting for different attributes in the target network technology upgrade local network percentage of the total number of data services. [0072] 进一步的,可以获取预设时间段内,支持网络升级技术的用户终端在部署区域中的各个小区建立数据业务的次数,而后,将各个小区建立数据业务的次数与第三预设升级门限进行比较,选取各个小区建立数据业务的次数大于或等于第三预设升级门限的小区作为在部署区域内部署网络升级技术的小区,这样,可以将确定的属性对应的部署区域进行小区级地理化映射,可以更精确的确定出需要进行网络升级的小区级部署区域,能够实现量化确定HSPA+技术升级和部署区域,减小技术升级和部署区域误差,提高了网络优化及规划的准确度。 Number [0072] Further, the preset time period may be acquired, the user terminal supports network upgrade technology to establish the number of traffic data in each cell area of ​​deployment, and then, the respective cells to establish the third preset data service upgrade threshold comparing the number of select each cell to establish data traffic is greater than or equal to a third predetermined upgrade threshold cell as a cell network deployment technology upgrades in the deployment area, this may be deployed region corresponding to the attribute determined is a cell-level geographical mapping, can more accurately determine the deployment level cell area network upgrade is required, it is possible to determine the quantization HSPA + technology upgrade and deployment area, upgrades and deployment area reduction technique errors, improves the accuracy of network planning and optimization.

[0073] 本发明实施例提供一种网络优化方法,通过获取用户终端的类型和所述用户终端在建立业务时的核心网域标识,根据用户终端的类型和核心网域标识对不同类型的用户终端所建立数据业务的次数进行统计,并将统计结果存入数据库,再根据用户终端的能力和统计结果对不同类型终端进行再分类,获取再分类后不同类型的用户终端的业务次数占比,以根据再分类后不同类型的用户终端的业务次数占比确定网络升级技术,进而根据支持网络升级技术的用户终端在不同区域下的业务次数占比,确定网络升级技术的部署区域,能够实现量化确定HSPA+技术升级和部署区域,减小技术升级和部署区域误差,提高了网络优化及规划的准确度。 [0073] An embodiment provides a network optimization method of the present invention, the establishment of a core network domain identity in the terminal when the service type and the user acquired by the user terminal, according to the type of core network domain identity and the user terminal of the user to different types of the number of established data terminal business statistics, and statistics into a database, and then re-classified according to different types of terminal capabilities and user terminal statistics, access business accounted for the number of different types of user terminals after reclassification, after further determined according to the classification of different types of service frequency and the proportion of the user terminal network upgrade technology, and thus the number of operations in different regions of the proportion of the terminal user to upgrade network technologies support, to determine the deployment of LAN technology upgrades can be achieved quantization determining HSPA + technology upgrades and deployment area, upgrades and deployment area reduction technique error and improve network planning and optimization of accuracy.

[0074] 本发明实施例提供一种网络优化方法,如图2所示,包括: [0074] The embodiments of the present invention provides a method for optimizing the network shown in Figure 2, comprising:

[0075] 201、网络优化设备获取用户终端的类型和用户终端在建立业务时的核心网域标识。 [0075] 201, network optimization terminal apparatus acquires a user type of core network domain identity and the user terminal when establishing services.

[0076] 其中,这里的用户终端为具有HSPA+能力的终端,3GPP对WCDMA终端进行了分类定义,主要依据终端支持的最大码字、TTI、调制方式、Μ頂0、载波聚合及扩频因子等,针对截止到目前的3GPP25306 · VI1 · 7 · 0,共定义H)D HS-DSCH38类,FDD E-DCH12类,也就是针对下行来说,可以将终端类型(UE Category)分为38类Category 1~Category38,针对上行来说,可以将终端类型分为12类Categoryl~Categoryl2。 [0076] wherein the user where the terminal having HSPA + terminal capabilities, 3GPP for the WCDMA terminal classification definitions, mainly based on the terminal supports the maximum code word, the TTI, a modulation scheme, [mu] Top 0, carrier aggregation and spreading factor , up to now for the 3GPP25306 · VI1 · 7 · 0, are defined for H) D HS-DSCH38 based, FDD E-DCH12 class, i.e. for the downlink, the terminal type may be (the UE category) is divided into 38 categories category 1 ~ Category38, for the uplink, the terminal type can be classified into 12 categories Categoryl ~ Categoryl2.

[0077] 本发明实现方式对于终端的类型和核心网域标识的采集不限定其采集方法,其中,对于终端类型,是终端在接入网络时,向网络侧设备发送建立连接的RRC请求消息,该RRC请求消息就包括了终端类型,不同的终端类型就对应了不同的终端能力,核心网域标识是终端在建立业务时,会发送直传信令至网络侧设备,该直传信令中包括有业务的核心网域标识,若标识为"ps-domain",则业务类型为数据业务,若标识为"cs-domain",则业务类型为语音业务,而后,网络优化设备可以从网络侧设备下载得到终端类型和核心网域标识。 [0077] For implementation of the present invention the core network domain identity and the type of acquisition is not limited to a terminal which acquires method, wherein, for the terminal type, the terminal is in the access network, transmitting an RRC connection establishment request message to the network device, the RRC request message including the terminal types, corresponding to different terminal types to different terminals, core network domain identity is established when the terminal service, the network sends a direct transfer to the side of the signaling device, the signaling Direct includes service identifier of a core network domain, if identified as a "ps-domain", then the service type is a data service, if identified as "cs-domain", then the service type is the voice service, then the network optimization from the network side device may type terminal apparatus downloaded and the core network domain identity. 本发明的实现方式以数据业务发生情况为例进行说明。 Implementations of the present invention in case of occurrence of data traffic as an example.

[0078] 其中,在获取终端类型和核心网域标识时,可以按照小区级获取各个小区的终端类型和核心网域标识。 [0078] wherein, in acquiring the terminal type and the core network domain identifier, the terminal can obtain each cell type and the core network domain identity in a cell level.

[0079] 202、网络优化设备根据用户终端的类型和核心网域标识对不同类型的用户终端所建立数据业务的次数进行统计,并将统计结果存入数据库。 [0079] 202, network optimization device statistics based on the number and type of core network domain identity established by the user terminal for different types of data traffic of user terminals, and the statistics stored in the database.

[0080] 具体的,网络优化设备在获取了各个小区的终端类型和核心网域标识后,以业务类型为数据业务来说,按照终端类型的不同,对不同终端类型的数据业务数量进行统计,获取不同类型终端申请数据业务数量,然后再将统计结果导入数据库,以方便后续进行相应的查询。 [0080] Specifically, the optimization of the network device after acquiring the terminal type and the core network domain identity of each cell in order for the service type is a data service, according to the different types of terminals, the number of data terminals of different types of traffic statistics, acquiring the terminal number of applications of different types of data traffic, then the statistics into a database in order to facilitate subsequent query accordingly.

[0081] 其中,这里的不同类型终端建立数据业务的数量的时间范围可以为一周时间,也可以为其它时间范围,这里不做限定。 [0081] wherein, where the number of time to establish different types of terminals may be data traffic week, or may be a different time range, which is not limited herein.

[0082] 203、网络优化设备根据用户终端的能力和统计结果对不同类型终端进行再分类。 [0082] 203, the device re-classified network optimization different types of terminals according to the capability of the user terminal and statistics.

[0083] 示例性的,在对一周时间内不同类型终端发起数据业务的次数进行统计后,可以依据3GPP25306. VI1.7.0中的终端能力列表也就是表1和表2中的信息和数据库中的统计结果对不同类型的终端进行再分类,也就是进行进一步的修整,将具有某些相同能力的终端进行归类,并为归类后的用户终端进行赋值。 [0083] Exemplary, after the count number of different types of terminals within a week initiated data services can be based on the terminal capability 3GPP25306. VI1.7.0 i.e. in Tables 1 and 2 list information and database tables statistical results of the different types of terminals re-classification, which is further trimming, the terminal will have some of the same capabilities are classified, and assigned to the user terminal after the classification. 举例来说,将具有HSPA+能力的终端,下行按照支持调制方式为64QAM的终端、支持双载波①ual-Cell,DC)的终端、支持多输入多输出ΜΜ0 能力的终端、根据分类终端的支持能力计算网速从而具有7.2M网速的终端、非下行HSDPA的终端和具有基本HSDPA能力的终端,支持上行增强型上行链路EUL的终端、支持EUL并支持2ms传输时间间隔的终端和不支持EUL的终端。 For example, the terminal having HSPA + capability, the downlink according to support the modulation scheme is the terminal 64QAM support dual carrier ①ual-Cell, DC) terminals supporting multiple input terminals and multiple-output ΜΜ0 capacity is calculated according to ability to support the classification of the terminal 7.2M speed so as to have a terminal speed, non-HSDPA downlink terminal and a terminal having substantially HSDPA capability to support enhanced uplink terminal an uplink EUL support EUL support and a 2ms transmission time interval and the terminal does not support the EUL terminal. 具体的整理分类并为每一类终端赋值后可以如表3所示。 DETAILED after finishing each type of classification and the terminal may be assigned as shown in Table 3.

[0084] 表3 HSPA+终端再分类整理结果 [0084] Table 3 HSPA + terminal and then sorting the results

Figure CN103702351BD00131

[0086] 其中,针对下行来说,NonHS表示非下行HSDPA的终端,HSDPA basic表示具有基本HSDPA能力的终端,HSDPA7 · 2M表示根据分类终端的支持能力计算网速从而具有7 · 2M网速的HSDPA终端,HSDPA+64QAM表示下支持调制方式为64QAM的HSDPA终端,HSDPA+64QAM+MM0表示支持多输入多输出Μ頂0能力的HSDPA终端,HSDPA+64QAM+DC表示支持双载波DC的HSDPA终端,针对上行来说,NonEul表示不支持EUL的终端,EUL表示支持上行增强型上行链路EUL的终端,EUL+2ms表示支持EUL并支持2ms传输时间间隔的终端。 [0086] wherein, for the downlink it, NonHS downlink HSDPA represents Non-terminal, the terminal having a substantially HSDPA HSDPA Basic represents capability, HSDPA7 · 2M indicating the calculated speed of the terminal according to the classification ability to support HSDPA 7 · 2M so as to have the speed terminal, HSDPA + support the modulation scheme under 64QAM expressed as HSDPA terminal of 64QAM, HSDPA + 64QAM + MM0 support multiple input multiple output Μ top 0 capability HSDPA terminal, HSDPA + 64QAM + DC support dual carrier of DC HSDPA terminal, for for the uplink, NonEul EUL did not support the terminal, the terminal support EUL enhanced uplink uplink the EUL, EUL + 2ms 2ms supported EUL support and the transmission terminal time interval.

[0087] 204、网络优化设备获取再分类后不同类型的用户终端的业务次数占比,以根据再分类后不同类型的用户终端的业务次数占比确定网络升级技术。 [0087] 204, the proportion of the number of network optimization equipment service different types of user terminals acquires the re-classification, the proportion of the number of different types of services to a user terminal determining network re-classified according to the technology upgrades.

[0088]具体的,在将数据库中的终端分类进行了压缩整理后,由于数据库中的记载了每一类终端的在预设时间段内的进行数据业务的数量,这样按照再次分类后的终端类型就可以获取到再分类后的每一类终端的业务数量,从而得到再分类后每一类终端发生数据业务的业务次数占比。 After [0088] Specifically, the terminal in the database classification of the compression order, since the database describes a type for each terminal in a preset period of time the number of data traffic, so that in accordance with the classification again after the terminal type of service can obtain the number of each type of the re-classification of the terminal, whereby the proportion of the number of each type of business terminal occurs after reclassification data services. 而后,可以将再分类后不同类型的用户终端的业务次数占比与第一预设升级门限进行比较,选取再分类后的业务次数占比大于或等于第一预设升级门限的用户终端类型作为网络升级技术。 Then, the number of services can be classified Jiangzai the proportion of different types of user terminals and a first preset threshold is compared to upgrade, after accounting for the number of selected business classification is greater than or equal to a further preset first threshold upgrade type as a user terminal network upgrade technology.

[0089] 其中,对于业务类型为数据业务来说,再分类后不同类型的用户终端的业务次数占比为预设时间段内,不同类型的用户终端建立数据业务的次数占目标本地网总数据业务次数的百分比。 [0089] wherein, for the service type is a data service, the proportion of the number of the re-classification of different types of services the user terminal is a preset period of time, a different type of data service user terminal establishes a target home network account number of total data the percentage of the number of operations. 这里的第一预设升级门限可以根据HSPA+部署原则和指导意见进行确定,这里不做限定。 Here's the first upgrade preset threshold may be determined based on HSPA + deployment principles and guidance, which is not limited here.

[0090] 举例来说,选取华南某省中等规模WCDMA网络的信令数据进行采集和解析,获取具有HSPA+终端类型、能力和业务类型,通过对本地网连续一周PS域534958804次PS业务相关数据的采集入库,经过统计分析得到本地网数据业务发起终端对上述再分类后的9种HSPA 增强功能支持的占比统计结果为:支持HSDPA+64QAM的用户终端发起的数据业务占总数据业务的占比为12.90%;支持HSDPA+64QAM+DC的用户终端发起的数据业务占总数据业务的占比为3.83%;支持HSDPA+64QAM+MIM0的用户终端发起的数据业务占总数据业务的占比为〇. 06%;支持EUL+2msTTI的用户终端发起的数据业务占总数据业务的占比为79.86%。 [0090] For example, a medium-sized province CHINA select WCDMA network signaling data collection and parsing acquired with HSPA + terminal type, capacity, and service type, the PS domain of the home network 534,958,804 times a week PS service related data collection storage, statistical analysis to get the local network data traffic originating terminal for nine after the re-classification HSPA enhancements to support the accounting statistics: support for HSDPA + 64QAM user terminal initiates the data business accounted for the total data traffic ratio of 12.90%; proportion support HSDPA + 64QAM + DC terminal of the user data service initiated by the total data traffic is 3.83%; proportion support HSDPA + 64QAM + MIM0 user terminal initiates a data service is the total data traffic . 〇 06%; + 2msTTI support EUL proportion of user data service initiated by the terminal data services accounted for 79.86%.

[0091] 由此可知,支持HSDPA+64QAM的终端支持能力一般,HSDPA+64QAM+DC的终端支持占比只有3.83%,发起数据业务的终端中只有0.06%支持ΜΜ0技术,因此,可以得到初步结论: HSDPA+64QAM技术的部署难以对数据业务总体容量有明显的提升效果;HSDPA+64QAM+DC并不具备规模部署的终端支持条件,而MMO则在没有专门终端升级策略的前提下几乎没有考虑的必要,上行2msTTI终端较多,可以考虑响相应的技术升级。 [0091] This indicates that the terminal supports the capability to support the HSDPA + 64QAM general, HSDPA + 64QAM + DC terminal support accounted for only 3.83%, the data service initiated by the terminal only 0.06% ΜΜ0 technical support, thus, it can be preliminary conclusions : HSDPA + 64QAM technology deployment difficult overall capacity significantly enhance the effect of data services; HSDPA + 64QAM + DC terminal does not have the scale to support the deployment of conditions, under the premise of MMO is no specific terminal upgrade strategy almost no consideration necessary, the upstream end 2msTTI more may be considered appropriate response technology upgrades.

[0092] 在初步确定了HSPA+需要升级的技术后,为了支持分阶段HSPA+技术升级及部署区域策略的制定,需要进一步分析需要部署的技术所在的场景及地理分布情况,具体实现方式如下: [0092] After initially identified the need to upgrade HSPA + technology, in order to support the phased deployment of HSPA + technology upgrades and the development of regional strategies, the need for further analysis of scenarios and geographical distribution technologies need to be deployed where the specific implementation as follows:

[0093] 205、网络优化设备利用本地网络优化场景划分和小区工参获取再分类后的用户终端所在的区域属性。 [0093] 205, the network device using the local network optimization optimization scenarios and cell division reference station acquires the area attribute of the user terminal is located after the re-classification.

[0094]具体的,可以预先对目标本地网的全部区域根据属性不同进行划分,具体可以利用本地网络优化(或规划、运营等)的场景划分及小区工参对再分类后,也就是修整后的数据进行属性上的区分,例如可以将目标本地网的属性划分为密集市区、一般市区、郊区、农村以及室内分布等。 After [0094] Specifically, can advance the entire area of ​​the target home network are divided according to different attributes, specifically using the local network optimization (or planning, operations, etc.) scene division and cell engineering parameters of the re-classification, i.e. trimmed the distinction between data attributes, such attributes can be divided into target local network for dense urban areas, generally urban, suburban, rural and indoor distribution. 也可以按照其它属性进行划分,这里不做限定。 It may also be divided according to other properties, which is not limited here. 这是由于不同属性区域小区内部署的基站天线的方向、高度及方位角等天线属性不同,因此,在确定了不同区域的属性后,以便于各类场景维度统计来观察HSPA+终端及业务的分布情况。 This is due to the different direction of base station antennas deployed in different cell attribute area, height and azimuth of the antenna properties, therefore, in determining the properties of different regions, so that all kinds of dimensions of the scene observed statistical HSPA + and traffic distribution of the terminal Happening.

[0095] 206、网络优化设备获取支持网络升级技术的用户终端在不同属性的区域下的业务次数占比。 [0095] 206, acquires the user equipment supports network optimization technology service network upgrade in the terminal area proportion of the number of different attributes.

[0096] 其中,支持网络升级技术的用户终端在不同属性的区域下的业务次数占比,为预设时间段内,支持网络升级技术所在的用户终端在不同属性的区域下的建立数据业务的次数占支持网络升级技术的用户终端在目标本地网的总数据业务次数的百分比。 [0096] wherein, the user terminal support network technology upgrades in service area times the proportion of different attributes for a preset period of time, where the network technology upgrades to support user terminals in different areas of the establishment of property data traffic accounting for the number of user support network upgrade technology in the percentage of the total data terminal business objectives of the local network number.

[0097] 示例性的,假设确定出的网络升级技术为对HSDPA+64QAM进行升级,以属性为密集市区的区域来说,在预设时间段内,密集市区的业务占比就为,HSDPA+64QAM终端在密集市区建立数据业务的次数占HSDPA+64QAM终端在目标本地网内的所有区域内建立的数据业务的总次数的百分比。 [0097] Exemplary, the determined network upgrade is assumed for the HSDPA + 64QAM technology upgrade to attribute a dense urban area, in a preset period of time, the proportion of dense urban traffic is on, HSDPA + 64QAM terminal establishes the number of data services in dense urban areas as a percentage of the total number of HSDPA + build in all areas within the local network of the target terminal 64QAM data services.

[0098] 207、网络优化设备将支持网络升级技术的用户终端在不同属性的区域下的业务次数占比与第二预设升级门限进行比较。 [0098] 207, the user equipment supports network optimization technology network upgrade in the terminal areas of different service attributes and a second predetermined proportion of the number of upgrade threshold comparison.

[0099] 208、网络优化设备选取支持网络升级技术的用户终端在不同属性的区域下的业务次数占比大于或等于第二预设升级门限的区域作为网络升级技术的部署区域。 [0099] 208, the network device selected to optimize support for the user terminal accounting network technology upgrade service areas of different frequency and at greater than or equal properties second predetermined threshold as a region to upgrade network technology upgrade deployment area.

[0100] 示例性的,假设确定后的网络升级技术为对支持HSDPA+64QAM类的终端进行升级, 分属性区域进行划分统计后的业务占比如图3所示,可以知道,HSDPA+64QAM终端发起的数据业务占比相对较高,达到17.56%,一般市区、郊区以及农村则明显低于密集市区,呈逐级下降的趋势,室内分布数据业务发起终端对HSDPA+64QAM的支持率最高,达到19.97%。 [0100] Exemplary, after determining the network upgrade is assumed for the technical support HSDPA + 64QAM terminal class upgrades, after accounting for the sub-service areas divided statistical properties of 3, can know, HSDPA + 64QAM terminal initiates the relatively high proportion of data services, reaching 17.56 percent, generally urban, suburban and rural areas is significantly lower than dense urban areas, showing the trend of gradual decline, indoor distribution data services end-to-launch support for HSDPA + 64QAM highest, It reached 19.97%.

[0101] 根据以上统计结果并结合密集市区数据业务集中、无线信号较强的特点,HSDPA+ 64QAM技术升级的部署硬采取室内分布和密集市区倾向的策略。 [0101] Based on the above statistics and data services combined with dense urban concentration, wireless signal is stronger features, HSDPA + 64QAM technology upgrade deployment to take a hard and dense urban indoor distribution tendency strategy. 假设部署区域门限设置为HSDPA+64QAM占比达到15%才考虑进行技术升级,也就是说第二预设升级门限为15%时,确定出的网络升级技术的部署区域为密集市区和室内分布,可以考虑对支持HSDPA+64QAM的终端进行技术升级,这样,就确定了HSDPA+64QAM升级技术的升级场景。 Assumptions deployment area threshold setting HSDPA + 64QAM accounting for 15% before considering the technological upgrading is, that the second preset threshold is 15% of the upgrade, to determine the network upgrade technology deployment area is dense urban and indoor distribution can be considered support for HSDPA + 64QAM technology to upgrade the terminal, so, to determine the HSDPA + 64QAM technology upgrades upgrade scenario.

[0102] 在确定了网络升级技术的升级场景后,由于升级场景区域大,不能更精确的确定出升级的区域,这样,还需要对目标本地网数据业务发起终端对HSDPA+64QAM支持能力进行小区级的地理化映射,以便于更精确地确定后出网络升级部署区域,具体实现方式如下: [0102] After determining the upgrade scenario network upgrade technology, due to the large update area of ​​the scene can not be more accurate determination of the region to upgrade, so that also need to target home network data traffic originating terminal cell for HSDPA + 64QAM support capacity geographical mapping stage, in order to upgrade the network after deployment area determined more accurately, specific implementation is as follows:

[0103] 209、网络优化设备获取预设时间段内,支持网络升级技术的用户终端在部署区域中的各个小区建立数据业务的次数。 [0103] 209, network optimization device acquires a preset period of time, the user upgrades to support network technology to establish the number of terminal data service deployment area in each cell.

[0104] 具体的,假设确定出的网络升级技术的部署区域为密集市区和室内分布,网络升级技术为对支持HSDPA+64QAM的终端进行升级,可以对密集市区和室内分布区域的各个小区内HSDPA+64QAM终端在预设时间段内,发起数据业务的次数进行统计,以便于根据统计结果确定更精确的网络升级小区。 [0104] Specifically, the deployment area is assumed that the determined network upgrade technology for dense urban and indoor distribution network technology upgrades to support HSDPA + 64QAM terminal upgrade, for each cell can be dense urban and indoor distribution area the HSDPA + 64QAM terminal count the number of times preset period of time, initiates a data service to more accurate determination of the network upgrade cell according to statistics.

[0105] 210、网络优化设备将各个小区建立数据业务的次数与第三预设升级门限进行比较。 [0105] 210, the number of times each network optimization device to establish a data cell service upgrades and the third preset threshold is compared.

[0106] 211、网络优化设备选取各个小区建立数据业务的次数大于或等于第三预设升级门限的小区作为在部署区域内部署网络升级技术的小区。 [0106] 211, the number of network optimization selecting each device to establish a data cell traffic greater than or equal to a third preset threshold upgraded as cell-cell deployment within a network technology upgrade deployment area.

[0107] 示例性的,假设第三预设升级门限为2000次,将密集市区和室内分布区域内各个小区的HSDPA+64QAM终端发起数据业务数量大于或等于2000次的小区统计出来,从而可以使得网络优化人员更精确的得到网络升级技术的部署区域。 [0107] Exemplary, assuming upgrade third preset threshold is 2000 times, the respective dense urban areas and indoor cell distribution area HSDPA + 64QAM data service terminal initiates the cell number greater than or equal figured out 2000 times, thereby optimizers such networks to be deployed more accurately LAN technology upgrades.

[0108] 也就是说,结合确定出的场景属性和小区级地理双重维度可以更精确的确定出网络升级技术的部署区域。 [0108] That is, the binding properties and the determined scene cell level dual geographic dimension may be more accurate determination of the deployment area network technology upgrades. 若投资允许,可以直接对确定出的网络部署场景进行技术升级,也可以仅依据小区级的业务次数进行技术升级,即以场景和小区级地理维度独立或结合的方式确定技术和部署区域,这样,能够实现量化确定HSPA+技术升级和部署区域,减小技术升级和部署区域误差,提高了网络优化及规划的准确度。 If the investment allowed, can be deployed directly on the determined network scenario technology upgrades, may be based on only the cell level times of service upgrade technology, i.e. to the scene and cell level geographic dimension independently or in a combination of determination techniques and deployment area, so that , it is possible to determine the quantization HSPA + technology upgrade and deployment area, upgrades and deployment area reduction technique errors, improves the accuracy of network planning and optimization.

[0109] 本发明实施例提供一种网络优化方法,通过获取用户终端的类型和所述用户终端在建立业务时的核心网域标识,根据用户终端的类型和核心网域标识对不同类型的用户终端所建立数据业务的次数进行统计,并将统计结果存入数据库,再根据用户终端的能力和统计结果对不同类型终端进行再分类,获取再分类后不同类型的用户终端的业务次数占比,以根据再分类后不同类型的用户终端的业务次数占比确定网络升级技术,进而根据支持网络升级技术的用户终端在不同区域下的业务次数占比,确定网络升级技术的部署区域,能够实现量化确定HSPA+技术升级和部署区域,减小技术升级和部署区域误差,提高了网络优化及规划的准确度。 [0109] An embodiment provides a network optimization method of the present invention, the establishment of a core network domain identity in the terminal when the service type and the user acquired by the user terminal, according to the type of core network domain identity and the user terminal of the user to different types of the number of established data terminal business statistics, and statistics into a database, and then re-classified according to different types of terminal capabilities and user terminal statistics, access business accounted for the number of different types of user terminals after reclassification, after further determined according to the classification of different types of service frequency and the proportion of the user terminal network upgrade technology, and thus the number of operations in different regions of the proportion of the terminal user to upgrade network technologies support, to determine the deployment of LAN technology upgrades can be achieved quantization determining HSPA + technology upgrades and deployment area, upgrades and deployment area reduction technique error and improve network planning and optimization of accuracy.

[0110] 本发明实施例提供一种网络优化设备〇1,如图4所示,包括: [0110] The present invention provides a device 〇1 network optimization, shown in Figure 4, comprising:

[0111] 获取单元011,用于获取用户终端的类型和用户终端在建立业务时的核心网域标识。 [0111] acquiring unit 011, a core network domain identifier acquired when the user terminal type and user terminal to establish business.

[0112] 统计单元012,用于根据用户终端的类型和核心网域标识对不同类型的用户终端所建立数据业务的次数进行统计,并将统计结果存入数据库。 [0112] counting unit 012, according to the statistics for the type of core network domain identity and the user's terminal number established for different types of data traffic of user terminals, and the statistics stored in the database.

[0113] 整理单元013,用于根据用户终端的能力和统计结果对不同类型终端进行再分类, 获取再分类后不同类型的用户终端的业务次数占比,以根据再分类后不同类型的用户终端的业务次数占比确定网络升级技术。 [0113] arranging unit 013 configured to classify different types of re terminal according to the terminal capabilities and user statistics, the number of different types of business accounted for obtaining user terminal after reclassification, in accordance with the re-classification of different types of user terminals the business accounted for determining the number of network upgrade technology.

[0114] 确定单元014,用于根据支持网络升级技术的用户终端在不同区域下的业务次数占比,确定网络升级技术的部署区域。 [0114] determination unit 014, accounting for the number of terminal operations at different regions according to a user upgrades support network technology, to determine the deployment of LAN technology upgrades.

[0115] 可选的,用户终端的类型是用户终端在接入网络并向网络设备发送无线资源控制请求消息时,网络优化设备从网络设备下载得到的,无线资源控制请求消息包括用户终端的类型和能力; [0115] Alternatively, the user terminal type is the type of the user terminal and transmits the RRC request message the access network network devices, network optimization device obtained from the network device to download, RRC request message includes a user terminal and capacity;

[0116] 核心网域标识是用户终端在建立数据业务并向网络设备发送直传信令时,网络优化设备从网络设备下载得到的,直传信令包括核心网域标识。 [0116] The core network domain identity is a user terminal when establishing a data traffic to the network device sends a direct transfer signaling network optimization network device obtained from the download device, comprising a core network domain identity signaling forward pass.

[0117] 可选的,整理单元013可以具体用于: [0117] Alternatively, the arranging unit 013 may be specifically configured to:

[0118] 根据用户终端的能力和统计结果对不同类型终端进行再分类,获取预设时间段内再分类后不同类型的用户终端的业务次数占比; [0118] re-classify different types of terminals according to the capability of the user terminal and statistics, the number of different types of business accounted for obtaining user terminal after a preset period of time and then classification;

[0119] 将再分类后不同类型的用户终端的业务次数占比与第一预设升级门限进行比较; [0119] After classification service number Jiangzai proportion of different types of user terminals is compared with a first predetermined threshold upgrading;

[0120] 选取再分类后的业务次数占比大于或等于第一预设升级门限的用户终端类型作为网络升级技术。 [0120] After selecting the proportion of the number of service classification is greater than or equal to the first re-user terminal type preset threshold as a network upgrade technology upgrades.

[0121] 可选的,确定单元014可以具体用于: [0121] Alternatively, the determination unit 014 may be specifically configured to:

[0122] 利用本地网络优化场景划分和小区工参获取再分类后的用户终端所在的区域属性; [0122] Scene division and cell engineering optimization parameter acquisition area attribute after the user terminal is located and then classified using the local network;

[0123] 获取支持网络升级技术的用户终端在不同属性的区域下的业务次数占比; [0123] Gets the user's terminal support network technology upgrades in service when the number of regions of different accounting attributes;

[0124] 将支持网络升级技术的用户终端在不同属性的区域下的业务次数占比与第二预设升级门限进行比较; [0124] The user terminal support network technology upgrades in service areas of different attributes and the second preset number proportion compared upgrade threshold;

[0125] 选取支持网络升级技术的用户终端在不同属性的区域下的业务次数占比大于或等于第二预设升级门限的区域作为网络升级技术的部署区域。 [0125] user to select a terminal support network technology upgrade service frequency and the proportion of regions in different attributes than or equal to a second predetermined threshold as a region to upgrade network technology upgrade deployment area.

[0126] 可选的,获取单元011,还可以用于获取预设时间段内,支持网络升级技术的用户终端在部署区域中的各个小区建立数据业务的次数; [0126] Alternatively, the acquisition unit 011 may also be configured to obtain a preset time period, the user upgrades to support network technology to establish the number of terminal data service deployment area in each cell;

[0127] 确定单元014,还可以用于将各个小区建立数据业务的次数与第三预设升级门限进行比较; [0127] determination unit 014, may also be used to establish the number of times each data cell service upgrades and third preset threshold is compared;

[0128] 选取各个小区建立数据业务的次数大于或等于第三预设升级门限的小区作为在部署区域内部署网络升级技术的小区。 [0128] each selected cell to establish the number of data traffic greater than or equal to a third preset threshold upgraded as cell-cell deployment within a network technology upgrade deployment area.

[0129] 其中,再分类后不同类型的用户终端的业务次数占比为预设时间段内,不同类型的用户终端建立数据业务的次数占目标本地网总数据业务次数的百分比;支持网络升级技术在不同属性的区域下的业务占比为预设时间段内,支持网络升级技术的用户终端在不同属性的区域下的建立数据业务的次数占支持网络升级技术的用户终端在目标本地网的总数据业务次数的百分比。 [0129] in which, after accounting for the number of business re-classification of different types of user terminals for a preset period of time, different types of user data service terminal establishes a percentage of the target number of local network total number of data services; technical support for network upgrade in the area of ​​business accounted for the different attributes of a preset period of time, the user terminal support network upgrade technology to establish the number of data services in the area of ​​accounting for the different attributes of the target terminal in the local network users to upgrade technology support network total the percentage of data traffic times.

[0130] 本发明实施例提供一种网络优化设备,通过获取用户终端的类型和所述用户终端在建立业务时的核心网域标识,根据用户终端的类型和核心网域标识对不同类型的用户终端所建立数据业务的次数进行统计,并将统计结果存入数据库,再根据用户终端的能力和统计结果对不同类型终端进行再分类,获取再分类后不同类型的用户终端的业务次数占比,以根据再分类后不同类型的用户终端的业务次数占比确定网络升级技术,进而根据支持网络升级技术的用户终端在不同区域下的业务次数占比,确定网络升级技术的部署区域,能够实现量化确定HSPA+技术升级和部署区域,减小技术升级和部署区域误差,提高了网络优化及规划的准确度。 [0130] An embodiment provides a network optimization apparatus of the present invention, the terminal when establishing the core network domain identity and service type of the user by obtaining a user terminal, according to the type of core network domain identity and the user terminal of the user to different types of the number of established data terminal business statistics, and statistics into a database, and then re-classified according to different types of terminal capabilities and user terminal statistics, access business accounted for the number of different types of user terminals after reclassification, after further determined according to the classification of different types of service frequency and the proportion of the user terminal network upgrade technology, and thus the number of operations in different regions of the proportion of the terminal user to upgrade network technologies support, to determine the deployment of LAN technology upgrades can be achieved quantization determining HSPA + technology upgrades and deployment area, upgrades and deployment area reduction technique error and improve network planning and optimization of accuracy.

[0131] 在本申请所提供的几个实施例中,应该理解到,所揭露的设备和方法,可以通过其它的方式实现。 [0131] In several embodiments provided herein present embodiment, it should be understood that the apparatus and methods disclosed may be implemented in other manners. 例如,以上所描述的设备实施例仅仅是示意性的,例如,所述单元的划分,仅仅为一种逻辑功能划分,实际实现时可以有另外的划分方式,例如多个单元或组件可以结合或者可以集成到另一个系统,或一些特征可以忽略,或不执行。 For example, the device described in the above embodiments are merely illustrative of, for example, the unit division is merely logical function division, there may be other division in actual implementation, for example, a plurality of units or components may be combined or It can be integrated into another system, or some features may be ignored or not performed. 另一点,所显示或讨论的相互之间的耦合或直接耦合或通信连接可以是通过一些接口,装置或单元的间接耦合或通信连接,可以是电性,机械或其它的形式。 Another point, displayed or coupling or direct coupling or communication between interconnected in question may be through some interface, device, or indirect coupling or communication connection unit, may be electrical, mechanical, or other forms.

[0132] 另外,在本发明各个实施例中的设备和系统中,各功能单元可以集成在一个处理单元中,也可以是各个单元单独物理包括,也可以两个或两个以上单元集成在一个单元中。 [0132] Further, in the embodiment of the apparatus and system according to various embodiments of the present invention, the functional units may be integrated into a processing unit, separate units may be physically, or two or more units are integrated in a unit. 且上述的各单元既可以采用硬件的形式实现,也可以采用硬件加软件功能单元的形式实现。 And said each unit may be implemented in hardware, the hardware may be used in the form of software functional units realized.

[0133] 实现上述方法实施例的全部或部分步骤可以通过程序指令相关的硬件来完成,前述的程序可以存储于一计算机可读取存储介质中,该程序在执行时,执行包括上述方法实施例的步骤;而前述的存储介质包括:U盘、移动硬盘、只读存储器(Read Only Memory,简称ROM)、随机存取存储器(Random Access Memory,简称RAM)、磁碟或者光盘等各种可以存储程序代码的介质。 [0133] all or part of the steps of the above process embodiments may be implemented by a program instructing relevant hardware to complete, the program may be stored in a computer readable storage medium, the program, when executed, perform a method comprising the above-described embodiment step; and the storage medium includes: U disk, mobile hard disk, a read-only memory (Read Only memory, referred to as ROM), a random access memory (random access memory, referred to as RAM), various magnetic disk or an optical storage medium program codes.

[0134]以上所述,仅为本发明的具体实施方式,但本发明的保护范围并不局限于此,任何熟悉本技术领域的技术人员在本发明揭露的技术范围内,可轻易想到变化或替换,都应涵盖在本发明的保护范围之内。 [0134] The above are only specific embodiments of the present invention, but the scope of the present invention is not limited thereto, any skilled in the art in the art within the technical scope of the present invention is disclosed, variations may readily occur or Alternatively, it shall fall within the protection scope of the present invention. 因此,本发明的保护范围应以所述权利要求的保护范围为准。 Accordingly, the scope of the present invention should be defined by the scope of the claims.

Claims (10)

1. 一种网络优化方法,其特征在于,包括: 获取用户终端的类型和所述用户终端在建立业务时的核心网域标识; 根据所述用户终端的类型和所述核心网域标识对不同类型的用户终端所建立数据业务的次数进行统计,并将统计结果存入数据库; 根据所述用户终端的能力和所述统计结果对所述不同类型终端进行再分类,获取再分类后不同类型的用户终端的业务次数占比,以将所述再分类后不同类型的用户终端的业务次数占比与第一预设升级门限进行比较;选取再分类后的业务次数占比大于或等于所述第一预设升级门限的用户终端类型作为网络升级技术; 根据支持所述网络升级技术的用户终端在不同区域下的业务次数占比,确定所述网络升级技术的部署区域。 A network optimization method, comprising: obtaining a user terminal type and the user terminal when establishing the service core network domain identity; Depending on the type of the user terminal and the identification of the core network domain the number of types of user terminals to establish data traffic statistics, and the statistics stored in the database; the different types of re-classified according to the terminal capability of the user terminal and the statistical results, and then obtain the classification of different types of the number of accounting service user terminal to the service frequency and the proportion of the re-classification of the different types of user terminals and a first preset threshold comparing upgrade; the proportion of the number of service selected reclassification of greater than or equal a user terminal type predetermined threshold as a network upgrade technology upgrades; proportion of terminal service times in different areas, determining the area of ​​deployment of the network upgrade technology supporting the user network upgrade techniques.
2. 根据权利要求1所述的方法,其特征在于,所述用户终端的类型是所述用户终端在接入网络并向网络设备发送无线资源控制请求消息时,网络优化设备从所述网络设备下载得到的,所述无线资源控制请求消息包括所述用户终端的类型和能力; 所述核心网域标识是所述用户终端在建立数据业务并向所述网络设备发送直传信令时,所述网络优化设备从所述网络设备下载得到的,所述直传信令包括所述核心网域标识。 2. The method according to claim 1, wherein the type of the user terminal is a user terminal and transmits the RRC request message the network devices in an access network, a network device from the network device to optimize the downloaded, the radio resource control message comprises a request type and capabilities of the user terminal; when the core network domain identity in the user terminal is establishing a data traffic to the network device sends a direct transfer signaling, the optimizing said network device obtained from the network device downloads the forward pass signaling comprising the core network domain identity.
3. 根据权利要求1所述的方法,其特征在于,所述根据所述用户终端的能力和所述统计结果对所述不同类型终端进行再分类,获取再分类后不同类型的用户终端的业务次数占比包括: 根据所述用户终端的能力和所述统计结果对所述不同类型终端进行再分类,获取预设时间段内再分类后不同类型的用户终端的业务次数占比。 3. The method according to claim 1, characterized in that the re-classification of the different types of terminals according to the capability of the user terminal and the statistical results to obtain the service again after the classification of different types of user terminals accounting times comprising: a re-classification of the different types of terminals according to the capability of the user terminal and the statistical results, the proportion of the number of different types to obtain the service of the user terminal preset period of time after the re-classification.
4. 根据权利要求3所述的方法,其特征在于,所述根据支持所述网络升级技术的用户终端在不同区域下的业务次数占比,确定所述网络升级技术的部署区域包括: 利用本地网络优化场景划分和小区工参获取所述再分类后的用户终端所在的区域属性; 获取支持所述网络升级技术的用户终端在不同属性的区域下的业务次数占比; 将支持所述网络升级技术的用户终端在不同属性的区域下的业务次数占比与第二预设升级门限进行比较; 选取支持所述网络升级技术的用户终端在不同属性的区域下的业务次数占比大于或等于所述第二预设升级门限的区域作为所述网络升级技术的部署区域。 4. The method according to claim 3, characterized in that said user support services of the network technology upgrade in the terminal share the number of different regions, determining the deployment area of ​​the network upgrade techniques include: the use of local network optimization scenarios and cell division reference work area acquired attribute of the user terminal is located after the re-classification; acquiring user support services of the network technology upgrades proportion of the number of terminals in the regions of different attributes; the network upgrades to support user terminal technology in areas of different service attributes and a second predetermined proportion of the number of upgrade threshold comparing; selecting a network upgrade technology supports user terminal in frequency and service area proportion of different attributes of greater than or equal said second predetermined threshold as a region to upgrade the network technology upgrade deployment area.
5. 根据权利要求4所述的方法,其特征在于,所述方法还包括: 获取所述预设时间段内,支持所述网络升级技术的用户终端在所述部署区域中的各个小区建立数据业务的次数; 将所述各个小区建立数据业务的次数与第三预设升级门限进行比较; 选取所述各个小区建立数据业务的次数大于或等于所述第三预设升级门限的小区作为在所述部署区域内部署所述网络升级技术的小区。 5. The method as claimed in claim 4, wherein said method further comprises: obtaining the preset period of time, upgrade the technology supporting the network user terminal to establish a data area in each cell in the deployment number of service; the number of times to establish the respective cell data traffic with the third preset threshold comparing upgrade; number of times selecting the respective data cell to establish traffic greater than or equal to the third preset threshold upgrade cell as the deploying the deployment region within said network upgrade cell technology.
6. -种网络优化设备,其特征在于,包括: 获取单元,用于获取用户终端的类型和所述用户终端在建立业务时的核心网域标识; 统计单元,用于根据所述用户终端的类型和所述核心网域标识对不同类型的用户终端所建立数据业务的次数进行统计,并将统计结果存入数据库; 整理单元,用于根据所述用户终端的能力和所述统计结果对所述不同类型终端进行再分类,获取再分类后不同类型的用户终端的业务次数占比,以将所述再分类后不同类型的用户终端的业务次数占比与第一预设升级门限进行比较;选取再分类后的业务次数占比大于或等于所述第一预设升级门限的用户终端类型作为网络升级技术; 确定单元,用于根据支持所述网络升级技术的用户终端在不同区域下的业务次数占比,确定所述网络升级技术的部署区域。 6. - Species network optimization apparatus comprising: an acquisition unit for acquiring a core network domain identity when a user terminal type and user terminal establishing said service; statistical unit according to said user terminal number and type of the core network domain identity established for different types of data traffic of user terminals statistics, and the statistics stored in the database; sorting unit, according to the statistics and the ability of the user of the terminal said re-classify different types of terminals, the number of different types of business accounted for obtaining user terminal after the re-classification, to classify traffic after the re-proportion the number of different types of user terminals and a first preset threshold comparing the upgrade; types of user terminals share the selected service number is greater than or equal to the re-classification of the first predetermined threshold as a network upgrade technology upgrades; determining unit, a terminal operates in a different area according to the user support network technology upgrade proportion of the number, determining the deployment area of ​​the network upgrade techniques.
7. 根据权利要求6所述的网络优化设备,其特征在于,所述用户终端的类型是所述用户终端在接入网络并向网络设备发送无线资源控制请求消息时,网络优化设备从所述网络设备下载得到的,所述无线资源控制请求消息包括所述用户终端的类型和能力; 所述核心网域标识是所述用户终端在建立数据业务并向所述网络设备发送直传信令时,所述网络优化设备从所述网络设备下载得到的,所述直传信令包括所述核心网域标识。 7. Network according to claim 6, said optimization apparatus, wherein the type of the user terminal is a user terminal and transmits the RRC request message the network devices in an access network, the network optimization device from when the core network domain identity is in the user terminal establishes a data traffic to the network device sends a direct transfer signaling; the downloaded network device, the radio resource control message comprises a request type and capabilities of the user terminal the optimized network device obtained from the network device downloads the forward pass signaling comprising the core network domain identity.
8. 根据权利要求6所述的网络优化设备,其特征在于,所述整理单元具体用于: 根据所述用户终端的能力和所述统计结果对所述不同类型终端进行再分类,获取预设时间段内再分类后不同类型的用户终端的业务次数占比。 8. The network optimization apparatus of claim 6, wherein the finishing unit is configured to: re-classifying the different types of terminals according to the capability of the user terminal and the statistical results, obtaining a preset the number of services of different types of user terminals share the reclassification period.
9. 根据权利要求8所述的网络优化设备,其特征在于,所述确定单元具体用于: 利用本地网络优化场景划分和小区工参获取所述再分类后的用户终端所在的区域属性; 获取支持所述网络升级技术的用户终端在不同属性的区域下的业务次数占比; 将支持所述网络升级技术的用户终端在不同属性的区域下的业务次数占比与第二预设升级门限进行比较; 选取支持所述网络升级技术的用户终端在不同属性的区域下的业务次数占比大于或等于所述第二预设升级门限的区域作为所述网络升级技术的部署区域。 9. The network device according to claim 8 optimization, wherein the determining unit is configured to: divide the scene using the local network optimization work and the reference cell region attribute of the user terminal acquired after the re-classification is located; Get supporting the network user terminal technology upgrades in service area proportion of the number of different attributes; the network technology upgrades to support a user terminal in a service area number of different attributes and the second preset proportion upgrade thresholds comparison; selecting a network upgrade technology supports user terminal accounting service area at different times of greater than or equal to the attributes of the upgraded second predetermined threshold as a region of said deployment area network technology upgrades.
10. 根据权利要求9所述的网络优化设备,其特征在于,所述获取单元,还用于获取所述预设时间段内,支持所述网络升级技术的用户终端在所述部署区域中的各个小区建立数据业务的次数; 所述确定单元,还用于将所述各个小区建立数据业务的次数与第三预设升级门限进行比较; 选取所述各个小区建立数据业务的次数大于或等于所述第三预设升级门限的小区作为在所述部署区域内部署所述网络升级技术的小区。 10. The user network of claim 9, wherein the optimization device, wherein, the obtaining unit is further configured to obtain the preset period of time, support the network upgrade the technology deployed in a terminal region establishing the number of data traffic of each cell; the determination unit is further configured to establish the respective cell data traffic and the number of times the third predetermined threshold comparing upgrade; number of times selecting the respective data cell to establish traffic greater than or equal upgrading said third predetermined threshold as cell-cell deployment of the network to upgrade the technology in the deployment area.
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