CN103997535A - User behavior collecting system and method, mother devices and child devices - Google Patents

User behavior collecting system and method, mother devices and child devices Download PDF

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Publication number
CN103997535A
CN103997535A CN 201410239503 CN201410239503A CN103997535A CN 103997535 A CN103997535 A CN 103997535A CN 201410239503 CN201410239503 CN 201410239503 CN 201410239503 A CN201410239503 A CN 201410239503A CN 103997535 A CN103997535 A CN 103997535A
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device
user
sub
child
location information
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CN 201410239503
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CN103997535B (en )
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詹君
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百度在线网络技术(北京)有限公司
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L29/00Arrangements, apparatus, circuits or systems, not covered by a single one of groups H04L1/00 - H04L27/00 contains provisionally no documents
    • H04L29/02Communication control; Communication processing contains provisionally no documents
    • H04L29/06Communication control; Communication processing contains provisionally no documents characterised by a protocol
    • H04L29/08Transmission control procedure, e.g. data link level control procedure

Abstract

The invention provides a user behavior collecting system and method, mother devices and child devices. The user behavior collecting system comprises at least one mother device, at least one child device set and a server. The at least one mother device is used for positioning a user in a first wireless detection mode so as to acquire the first positioning information of the user. Each child device set comprises at least one child device, each child device set belongs to one mother device, the child devices in each child device set are all in communication with the corresponding mother device, and the child devices in each child device set are used for positioning the user in a second wireless detection mode so as to acquire the second positioning information of the user and sending the second positioning information of the user to the mother device which the information belongs to. The server is connected with the at least one mother device, and the server is used for collecting the first positioning information and the second positioning information of the user. The user behavior collecting system is wide in deployment range, high in collecting precision and low in deployment cost.

Description

用户行为采集系统、方法、母设备和子设备 User behavior acquisition system, the method, the parent and child devices

技术领域 FIELD

[0001] 本发明涉及位置探测技术领域,特别涉及一种用户行为采集系统、方法、母设备和子设备。 [0001] The present invention relates to the field of position detection technology, particularly to a user behavior acquisition system, the method, the parent and child devices.

背景技术 Background technique

[0002] 为了能够根据用于的行为为用户提供个性化的服务器,需要对用户的行为进行跟踪、分析,并根据分析结果与用户进行交互。 [0002] In order to be able to provide personalized according to the user's server behavior, the need for user behavior tracking, analysis, and interact with the user based on the analysis results. 当然,其中最关键的问题就是准确的采集用户的行为。 Of course, the most critical issue is the accurate collection of user behavior. 目前,采集用户行为的方法主要有蓝牙Beacon(—种低功耗蓝牙信号)技术以及WIFI (Wireless Fidelity,无线保真)静默探测技术。 Currently, the main method of collecting user behavior Bluetooth Beacon (- low-power Bluetooth signals) technology and WIFI (Wireless Fidelity, wireless fidelity) silence detection technology.

[0003] 但是,蓝牙Beacon技术的可探测范围较小,并且其实现需要依赖于支持蓝牙4.0的智能手机和操作系统。 [0003] However, the detection range can be smaller Beacon Bluetooth technology, and its implementation need to rely on smart phones and operating systems support Bluetooth 4.0. 但是目前大部分移动终端,特别是使用Android安卓系统的移动终端不具备BLE (Bluetooth Low Energy,低功耗蓝牙)功能,并且大多数用户会因蓝牙耗电、不安全等原因而不开启蓝牙功能,因此,蓝牙Beacon的用户覆盖度以及适用范围较小。 But now most of the mobile terminal, particularly the use of Android Android is the mobile terminal does not have the BLE (Bluetooth Low Energy, Low-power Bluetooth) function, and most users due to Bluetooth power consumption, insecurity and other reasons not to turn on Bluetooth Therefore, the smaller user Beacon Bluetooth coverage and scope. 此外,蓝牙Beacon的实现需要通过相应的应用或者SDK (Software Development Kit,软件开发工具包)来激活定位服务,推广部署成本高。 In addition, Bluetooth-enabled Beacon is required to activate location services by the appropriate application or SDK (Software Development Kit, Software Development Kit), to promote the deployment of high cost.

[0004] 而WIFI静默探测技术虽然不会收到终端设备硬件以及用户使用度的限制,且探测范围广,但是WIFI探测设备收到供电方式以及联网功能的限制,部署比较困难,并且WIFI静默探测技术的定位精度相对蓝牙Beacon较低,难以满足用户行为跟踪需求。 [0004] Although the WIFI silence detection techniques will not receive the terminal device hardware, and limit the use of the user, and a wide detection range, the detection device receives WIFI limiting power supply and networking functionality, deployment is difficult, silence detection and WIFI Bluetooth technology positioning accuracy is relatively low Beacon, difficult to meet the needs of user behavior tracking. 列举来说,医院和教育系统的客户,只需要对用户行为进行大范围的跟踪,但是在商场中,除了需要对用户进行大范围跟踪以外,还需要进行精确跟踪,这时候方WIFI静默探测技术定位精度不足,部署困难的毛病就暴露的更加厉害。 List, a customer hospitals and the education system, the user only needs to track a wide range of behavior, but in shopping malls, in addition to a wide range of tracking the user, it also needs to be accurately tracked, this time square WIFI silence detection technology lack of positioning accuracy, difficult to deploy problems exposed more powerful.

发明内容 SUMMARY

[0005] 本发明旨在至少在一定程度上解决上述技术问题。 [0005] The present invention is intended to solve the above problems at least to some extent.

[0006]为此,本发明的第一个目的在于提出一种用户行为采集系统,该系统,能够高精度的采集更广范围内的用户的行为。 [0006] For this purpose, a first object of the present invention is to provide a user behavior acquisition system, the user can be acquired with high accuracy within a wider range of behavior.

[0007] 本发明的第二个目的在于提出一种用户行为采集方法。 [0007] A second object of the present invention is to provide a method for collecting user behavior.

[0008] 本发明的第三个目的在于提出一种用户行为采集方法。 [0008] A third object of the present invention is to provide a method for collecting user behavior.

[0009] 本发明的第四个目的在于提出一种母设备。 [0009] A fourth object of the present invention is to propose a master device.

[0010] 本发明的第五个目的在于提出一种子设备。 [0010] A fifth object of the present invention is to provide a child device.

[0011] 为达上述目的,根据本发明第一方面实施例提出了一种用户行为采集系统,包括:至少一个母设备,所述至少一个母设备用于以第一无线探测方式对用户进行定位,以获取所述用户的第一定位信息;至少一个子设备组,所述每个子设备组包括至少一个子设备,且所述每个子设备组属于一个母设备,所述每个子设备组中的子设备均与所述母设备进行通信,且每个所述子设备组中的子设备用于以第二无线探测方式对用户进行定位以获取所述用户的第二定位信息,并将所述用户的第二定位信息发送至所属的母设备;以及服务器,所述服务器与所述至少一个母设备相连,所述服务器用于采集所述用户的第一定位信息和第 [0011] To achieve the above object, according to a first aspect of the embodiments of the present invention provides a user behavior acquisition system, comprising: at least one master device, said at least one master device for detecting a first embodiment of a wireless user positioning to obtain first location information of the user; at least one sub-device group, the device group each comprises at least one sub-sub-devices, each of the sub-device group and a master device belonging to said each sub-group device child device are in communication with the master device, and each of the sub-child device in the device group to a second embodiment of a wireless probe user positioning to obtain location information of the second user, and the positioning a second user information to the master device belongs; and a server connected to the at least one master device, the location information server for the first user and the second collection

二定位信息。 Two positioning information.

[0012] 本发明实施例的用户行为采集系统,可分别通过母设备和子设备通过两种不同的无线探测方式对用户进行定位,以获取用户的定位信息,并通过母设备将用户的定位信息发送至服务器,具有以下的优点: [0012] User Behavior embodiment of the present invention, the acquisition system can be separately positioned on the user by the parent and child devices via two different radio detection methods, to obtain positioning information of the user, and by the master device the user location information transmitting to the server, it has the following advantages:

[0013] 1、通过不同探测方式获取用户的定位信息,可结合两种不同无线探测方式的优点,能够更加准确的采集用户的行为,并且可探测到配备不同无线传输设备的终端同时满足了覆盖范围广、探测精确度高的需求,因此大部分终端用户的行为都可被准确的采集到; [0013] 1, to obtain the user's location information by different detection methods, may bind to two different wireless advantages detection methods can be more accurately capture user behavior, and can detect a terminal apparatus equipped with different radio transmission coverage while meeting wide range, high accuracy detection requirements, and therefore most of the end-user behavior can be accurately collected;

[0014] 2、通过子母设备相结合的系统,可通过在大范围内部署少量具有高灵敏度天线的母设备,从而提供较大范围的用户行为采集服务器,并通过在每个母设备的覆盖范围内部署大量低成本的子设备,除了可部署到更广阔的范围,精确采集用户行为之外,大大节约了部署成本; [0014] 2, by a system combining picture device, the parent device may be deployed by over a wide range with a small amount of a high sensitivity of the antenna, thus providing a wide range of user behavior collection server, and by covering each parent device sub-devices within the scope of the deployment of a large number of low cost, can be deployed in addition to a wider range than the precise capture user behavior, significant savings in deployment costs;

[0015] 3、通过母设备对多个子设备进行统一管理,子设备也可随时升级系统,有效防止子设备的协议被破解的可能。 [0015] 3, for the unified management of the parent device via a plurality of sub-devices, the device can be upgraded at any time sub-system to prevent the sub-protocol apparatus may be cracked.

[0016] 本发明第二方面实施例提供了一种用户行为采集方法,包括:母设备以第一无线探测方式对用户进行定位,以获取所述用户的第一定位信息;所述母设备接收属于所述母设备的子设备组发送的所述用户的第二定位信息;所述母设备将所述用户的第一定位信息和第二定位信息发送至服务器。 Embodiment [0016] The second aspect of the present invention provides a method for collecting user behavior, comprising: a master device to a first embodiment of a wireless probe user positioning, to obtain first location information of the user; receiving the master device the second user transmits location information sub-device group belonging to the parent apparatus; the master device, the user of the first location information and second location information to the server.

[0017] 本发明实施例的用户行为采集方法,可分别通过母设备自身以及子设备的两种不同的无线探测方式对用户进行定位,以获取用户的定位信息,并通过母设备将用户的定位信息发送至服务器,可结合两种不同无线探测方式的优点,能够更加准确的采集用户的行为,并且可探测到配备不同无线传输设备的终端同时满足了覆盖范围广、探测精确度高的需求,因此大部分终端用户的行为都可被准确的采集到,且通过母设备对多个子设备进行统一管理,有效防止子设备的协议被破解的可能。 [0017] The method of collecting user behavior embodiment of the present invention, respectively in two sub master apparatus itself and a radio device different detection methods to locate a user to obtain location information of users, and the parent device by the user positioning information to the server, may bind to two different wireless advantages detection methods can be more accurately capture user behavior, and can detect a terminal equipped with different radio transmission apparatus simultaneously satisfy the wide coverage, high detection accuracy requirements, Thus most of the end-user behavior can be accurately captured, and the unified management of the parent device via a plurality of sub-devices to effectively prevent the sub-protocol apparatus may be cracked.

[0018] 本发明第三方面实施例提供了一种用于本发明第一方面实施例的用户行为采集系统的用户行为采集方法,包括:子设备以第二无线探测方式对用户进行定位以获取所述用户的第二定位信息;所述子设备将所述用户的第二定位信息发送至所属的母设备,以使所述母设备将所述第二定位信息发送至服务器。 Embodiment [0018] The third aspect of the present invention provides a user behavior User Behavior embodiment of the first aspect of the present invention is a method for collecting acquisition system, comprising: a second radio sub-detecting device to be positioned in a manner to obtain the user a second location information of the user; the child device, the second user transmits location information to the master device belongs, to the master device transmits the location information to the second server.

[0019] 本发明实施例的用户行为采集方法,子设备可将自身通过第二探测方式获取的第二定位信息通过母设备发送至服务器,从而使服务器可采集到通过子设备和母设备两种不同无线探测方式获取的用户的定位信息,可结合两种不同无线探测方式的优点,能够更加准确的采集用户的行为,并且可探测到配备不同无线传输设备的终端同时满足了覆盖范围广、探测精确度高的需求,因此大部分终端用户的行为都可被准确的采集到,并且子设备的制作和部署低成本很低,大大节约了部署成本。 [0019] Example embodiment of the user behavior acquisition method of the present invention, the child apparatus itself can be obtained by detecting the second embodiment of the second location information transmitted by the master device to the server so that the server can be acquired through the two kinds of child devices and parent devices different wireless detection mode acquired location information of the user, may be combined advantages of the two different wireless detection methods can be more accurately capture user behavior, and can detect a terminal equipped with different radio transmission apparatus simultaneously satisfy the wide coverage, the probe high accuracy requirements, so most end-user behavior can be accurately captured, and the sub-devices and deployment cost is low, significant savings in deployment costs.

[0020] 本发明第四方面实施例提供了一种母设备,包括:第一探测模块,用于以第一无线探测方式对用户进行定位,以获取所述用户的第一定位信息;通信模块,用于接收子设备组发送的所述用户的第二定位信息;发送模块,用于将所述用户的第一定位信息和第二定位信息发送至服务器。 Embodiment [0020] The fourth aspect of the present invention provides a master apparatus, comprising: a first detecting means for detecting a first embodiment of a wireless user positioned, to obtain a first position the user information; a communication module , the sub-user receiving apparatus for transmitting a second set of location information; and a sending module, configured to send the first user and the second location information to the location information server. [0021] 本发明实施例的母设备,可分别通过母设备自身以及子设备的两种不同的无线探测方式对用户进行定位,以获取用户的定位信息,并通过母设备将用户的定位信息发送至服务器,可结合两种不同无线探测方式的优点,能够更加准确的采集用户的行为,并且可探测到配备不同无线传输设备的终端同时满足了覆盖范围广、探测精确度高的需求,因此大部分终端用户的行为都可被准确的采集到,且通过母设备对多个子设备进行统一管理,有效防止子设备的协议被破解的可能。 [0021] The master apparatus of the embodiment of the present invention, respectively in two sub master apparatus itself and a radio device different detection methods to locate a user to obtain location information of the user, and the user will be sent via the parent device's location information to the server, may bind to two different wireless advantages detection methods can be more accurately capture user behavior, and can detect a terminal equipped with different radio transmission apparatus simultaneously satisfy the wide coverage, high accuracy detection requirements, and therefore a large part of end-user behavior can be accurately captured, and the unified management of the parent device via a plurality of sub-devices to effectively prevent the sub-protocol apparatus may be cracked.

[0022] 本发明第五方面实施例提供了一种子设备,包括:蓝牙低功耗BLE芯片,所述BLE芯片用于通过第二无线探测方式对用户进行定位,并与所属的母设备进行通信;为所述BLE芯片供电的电池。 Example embodiments provide a sub-device [0022] The fifth aspect of the present invention, comprising: BLE Bluetooth low energy chip, a chip for positioning BLE second wireless user detection methods, and communicates with the master device belongs ; BLE said battery to power the chip.

[0023] 本发明实施例的子设备,可通过BLE芯片以第二无线探测方式对用户进行定位,并与母设备通信,功耗低,成本低。 [0023] The sub-apparatus of the embodiment of the present invention, a user may be performed by a second wireless detection BLE chip positioned, and communicate with the master device, low power consumption, and low cost.

[0024] 本发明的附加方面和优点将在下面的描述中部分给出,部分将从下面的描述中变得明显,或通过本发明的实践了解到。 [0024] Additional aspects and advantages of the invention will be set forth in part in the description which follows, from the following description in part be apparent from, or learned by practice of the present invention.

附图说明 BRIEF DESCRIPTION

[0025] 本发明的上述和/或附加的方面和优点从结合下面附图对实施例的描述中将变得明显和容易理解,其中: [0025] The foregoing and / or other aspects and advantages of the invention will be described with reference to embodiments in conjunction with the embodiments become apparent and more readily appreciated below, wherein:

[0026]图1为根据本发明一个实施例的用户行为采集系统的结构示意图; [0026] FIG. 1 is a block diagram of a system based on user behavior collected to an embodiment of the present invention;

[0027] 图2a为根据本发明一个实施例的母设备的产品示意图; [0027] FIG product is a schematic diagram of an embodiment of the parent device 2a according to the embodiment of the present invention;

[0028] 图2b为根据本发明另一个实施例的母设备的产品示意图; [0028] Figure 2b is a parent apparatus according to another embodiment of the present invention, a schematic view of the product;

[0029] 图3为根据本发明一个实施例的用户行为采集方法的流程图; [0029] FIG. 3 is a flowchart of a method of collecting user behavior according to an embodiment of the present invention;

[0030] 图4为根据本发明一个具体实施例的用户行为采集方法的流程图; [0030] FIG 4 is a flowchart of a method of collecting user behavior according to a particular embodiment of the present invention;

[0031] 图5为根据本发明另一个实施例的用户行为采集方法的流程图; [0031] FIG. 5 is a user behavior according to another embodiment of the present invention, a flowchart of a method of acquisition;

[0032] 图6为根据本发明一个实施例的母设备的结构示意图; [0032] FIG. 6 is a schematic diagram of the structure of a parent device of the present embodiment of the invention;

[0033] 图7为根据本发明另一个实施例的母设备的结构示意图; [0033] FIG. 7 is a schematic view of the structure of the parent device according to another embodiment of the present invention;

[0034] 图8为根据本发明又一个实施例的母设备的结构示意图; [0034] FIG. 8 is a schematic diagram of the structure of the parent device a further embodiment of the present invention;

[0035] 图9为根据本发明一个实施例的子设备的结构示意图。 [0035] FIG. 9 is a schematic view of the structure of a child apparatus according to an embodiment of the present invention.

具体实施方式 detailed description

[0036] 下面详细描述本发明的实施例,所述实施例的示例在附图中示出,其中自始至终相同或类似的标号表示相同或类似的元件或具有相同或类似功能的元件。 [0036] Example embodiments of the present invention is described in detail below, exemplary embodiments of the embodiment shown in the accompanying drawings, wherein same or similar reference numerals designate the same or similar elements or elements having the same or similar functions. 下面通过参考附图描述的实施例是示例性的,仅用于解释本发明,而不能理解为对本发明的限制。 By following with reference to the embodiments described are exemplary only for explaining the present invention and should not be construed as limiting the present invention.

[0037] 在本发明的描述中,需要理解的是,术语“至少一个”指一个或多个;术语“多个”指两个或两个以上;术语“第一”、“第二”仅用于描述目的,而不能理解为指示或暗示相对重要性。 [0037] In the description of the present invention, it is to be understood that the term "at least one" means one or more; the term "plurality" means two or more; the terms "first", "second" are for descriptive purposes, and not intended to indicate or imply relative importance.

[0038] 下面参考附图描述根据本发明实施例的用户行为采集系统、方法和设备。 [0038] The following description with reference to the accompanying drawings collection system, a method and apparatus according to the embodiment of the user behavior embodiment of the present invention.

[0039] 为了能够同时提高用户行为采集跟踪技术中的定位精度以及探测范围,本发明提出了一种用户行为采集系统,包括:至少一个母设备,至少一个母设备用于以第一无线探测方式对用户进行定位,以获取用户的第一定位信息;至少一个子设备组,每个子设备组包括至少一个子设备,且每个子设备组属于一个母设备,每个子设备组中的子设备均与母设备进行通信,且每个子设备组中的子设备用于以第二无线探测方式对用户进行定位以获取用户的第二定位信息,并将用户的第二定位信息发送至所属的母设备;以及服务器,服务器与至少一个母设备相连,服务器用于采集用户的第一定位信息和第二定位信息。 [0039] In order to capture user behavior while improving positioning accuracy range of the tracking and detection techniques, the present invention provides a user behavior acquisition system, comprising: at least one master device, the master device for at least one wireless probe to a first embodiment positioning the user, a first user to obtain location information; at least one sub-group of devices, each device including at least one sub-child device, and each device group belonging to a sub master apparatus, each sub-child device in the device group and are the master communication apparatus, and each sub-child device in the device group to a second embodiment of a wireless probe user positioning a second user to obtain location information, and the second user transmits location information to the master device belongs; and a server, the server is connected to at least one parent device, a first server for collecting the user's location information and second location information.

[0040] 图1为根据本发明一个实施例的用户行为采集系统的结构示意图。 [0040] FIG. 1 is a schematic structure of the system based on user behavior collected to an embodiment of the present invention. 如图1所示,根据本发明实施例的用户行为采集系统,包括:至少一个母设备100、至少一个子设备组200和服务器300。 1, the acquisition system based on user behavior embodiment of the present invention, comprising: at least one parent apparatus 100, at least a sub-device group 200 and the server 300.

[0041] 具体地,至少一个母设备100用于以第一无线探测方式对用户进行定位,以获取用户的第一定位信息。 [0041] In particular, at least for a master device 100 to a first embodiment of a wireless probe user positioning, a first user to obtain location information. 其中,第一定位信息为通过第一无线探测方式获取的用户的位置信息。 Wherein the first location information of the user acquired by the first wireless mode detecting position information. 在本发明的一个实施例中,第一无线探测方式可为WIFI探测方式。 In one embodiment of the invention, the first embodiment may be a WIFI wireless probe detection methods. WIFI探测方式为一家名为EuclidAnalytics的实境分析公司提出的通过探测支持WIFI功能移动终端发出无线探测请求信号对用户行为进行分析,以获取持有该移动终端的用户的行动轨迹、访问时长、以及访问时间间隔等信息。 WIFI signal detection methods for the request sent to user behavior analysis detected by probing support WIFI wireless function of the mobile terminal to acquire a user holds the mobile terminal operations company called EuclidAnalytics track analysis of reality offered to him, length of visit, and access time interval information. 因此,母设备100在采集到用户持有的移动终端的无线请求信号时,即可获取用户的定位信息。 Thus, the master device 100 when the mobile terminal held by the user to capture a wireless request signal, the user can obtain location information. 其中,母设备100可支持b/g/n/a/ac等各种标准的WIFI探测设备。 Wherein the parent device 100 may support b / g / n / a / ac detection equipment and the like WIFI various standards.

[0042] 在本发明的另一个实施例中,母设备100还可用于以第二无线探测方式对用户进行定位以获取用户的第二定位信息。 [0042] embodiment, the master device 100 may also be used to detect a second embodiment of the wireless user to obtain the user positioning a second location information in another embodiment of the present invention. 其中,第二定位信息为通过第二无线探测方式获取的用户的位置范围。 Wherein the second location information to the user via a second wireless detection mode acquired range of positions. 在本发明的一个实施例中,第二无线探测方式可为iBeacon蓝牙方式。 In one embodiment of the present invention, the second detection mode may be a wireless Bluetooth iBeacon mode. iBeacon蓝牙方式是苹果公司2013年9月发布的移动设备用0S(i0S7)上配备的新功能。 iBeacon Bluetooth mode is a new feature Apple's September 2013 release of the mobile device with the 0S (i0S7) equipped. 其工作方式是,配备有BLE通信功能的设备使用BLE技术向周围发送自己特有的标识信息,以确定接收到该标识信息的移动终端的位置信息。 The way it works is equipped with a communication function BLE device sends its identification information unique to the surrounding BLE using techniques to determine the mobile terminal receiving the location information of the identification information. 更具体地,母设备100上可配有BLE设备,从而可向周围发送自己的标识信息,当移动终端接收到该标识信息时,即可获取持有该移动终端的用户的定位信息。 More specifically, the parent device 100 may be equipped with BLE devices, thereby transmitting its own identification information to the surroundings when the mobile terminal receives the identification information, to obtain location information of the mobile terminal held by the user.

[0043] 在本发明的实施例中,母设备100可通过电池以及交流电源等方式进行供电,如图2a和图2b所示,为根据本发明一个实施例的母设备的产品示意图。 [0043] In an embodiment of the present invention, the master device 100 may be performed by a battery and the AC power supply, etc., as shown in Figures 2a and 2b, the product is a schematic diagram of a master device embodiment of the present invention. 其中,图2a为根据本发明一个实施例的母设备的产品示意图,A为母设备100用于探测用户行为以及与子设备210、服务器300进行通信的天线,B为母设备100的功能芯片。 Wherein Figure 2a is a parent device 100 for detecting a schematic view of the product according to the user behavior of a parent device of the embodiment of the present invention, A and in communication with the sub-antenna device 210, server 300, B is a function of the master device chip 100. 图2b为根据本发明另一个实施例的母设备的产品示意图,其内部具有为母设备100进行供电的电池,并可通过固定板C将母设备100固定在墙体或其他物体上进行部署。 Product schematic embodiment of FIG. 2b parent device according to another embodiment of the present invention, having therein a battery supplying power to the parent device 100, and may be deployed parent device 100 is fixed to the wall or other objects by the fixing plate C.

[0044] 至少一个子设备组200包括至少一个子设备210,且每个子设备组200属于一个母设备100,每个子设备组200中的子设备210均与母设备100进行通信,且每个子设备组200中的子设备210用于以第二无线探测方式对用户进行定位以获取用户的第二定位信息,并将用户的第二定位信息发送至所属的母设备100。 [0044] at least one sub-device group 200 includes at least one sub-device 210, and each sub-device group 200 belongs to a parent device 100, the sub-devices of each sub-device group 200 210 are in communication with the master device 100, and each child device the sub-group 200 of the apparatus 210 is used to detect a second embodiment of the wireless user to obtain the user positioning a second location information, second location information and the user sends a parent apparatus 100 belongs to. 其中,每个子设备组200中的子设备210通过蓝牙或WIFI与所属的母设备进行通信。 Wherein each of the sub-child device in the device group 200 or 210 communicate via Bluetooth and WIFI parent device belongs.

[0045] 对于通过WIFI方式进行通信的方法很多,本领域技术人员可参照根据相关技术,本发明实施例中不再说明。 [0045] A method for communicating through a WIFI many ways, those skilled in the art can refer to the related art according to, for example, in the embodiment of the present invention will not be described.

[0046] 下面为对于通过蓝牙方式进行通信的实施例: [0046] The following Example is for communication via Bluetooth manner:

[0047] 其中,母设备100具有蓝牙主动装置,子设备210具有蓝牙从动装置,子设备210通过蓝牙从动装置广播具有UID (User Identification,用户身份证明)的信号,母设备100检测到广播的UID之后,即可建立与发送该信号的子设备210的连接。 [0047] wherein a Bluetooth master device 100 having an active device, the sub-slave device 210 having Bluetooth, the sub-device 210 having a signal UID (User Identification, UID) broadcast by a Bluetooth slave device, the master device 100 detects the broadcast after the UID, to create the sub-signal transmission apparatus 210 is connected. 具体地,当子设备210第一次开机或者进入配置流程时,会自动广播具有其自身的WD的信号,母设备100可定期扫描检测具有WD的信号,当只母设备100检测子设备210广播的信号时,即可与该子设备210建立连接。 Specifically, when the sub-device 210 is first turned on or enter the configuration process, the broadcast will automatically have its own signal WD, the detector 100 may periodically scan signal WD having a master device, when the parent apparatus 210 broadcasts only the sub-device 100 detects when a signal, to establish a connection with the child device 210. 如果多个母设备100同时检测到子设备210的信号,则母设备100可从服务器300接受配置信息,其中,配置信息包括属于每个母设备100的子设备210的WD,从而,母设备100仅接受属于该母设备100的子设备210的WD,与具有配置信息中的WD的子设备210建立连接,忽略检测到的其他WD。 If the plurality of female signal device 100 is detected while the sub-device 210, the master device 100 may be configured to accept information from the server 300, wherein the configuration information comprises a master device belonging to each child device WD 100 210, whereby the master device 100 WD received only the master device belonging to the sub-device 100, 210, establishing a connection with the device having the sub-configuration information 210 WD, WD ignore other detected.

[0048] 在本发明的一个实施例中,在母设备100在定期检测广播信号时如果发现有新的子设备210,且该子设备不属于其他母设备,则可建立与该子设备210的连接,并对子设备210进行配置,同时修改母设备210对应的配置信息(在配置信息中增加该子设备210的UID记录)ο [0048] In one embodiment of the present invention, the parent device 100 upon detecting the broadcast signal periodically if there are new sub-device 210, and the sub master device does not belong to other devices, may be established and the child device 210 connection, and to configure the sub-device 210, and modify configuration information corresponding to the master device 210 (UID increase the child recording apparatus 210 in the configuration information) o

[0049] 对于每个母设备100,可定期获取其对应的子设备组200中的子设备210的电量及信号强度信息,从而可根据子设备210的信号强度信息获取子设备210的位置信息,并生成子设备的地图,同时可以根据子设备的电量和信号强度信息判断子设备210的工作状态是否正常。 [0049] Each master device 100, the child device may regularly obtain its corresponding sub-power device group 200 and the signal strength information 210, thereby obtaining the position information of the child apparatus 210 according to the signal strength of the sub-device 210 for information, and generating sub-device map, while the sub-information Analyzing apparatus 210 is normal operation state according to the sub-power devices and signal strength.

[0050] 更具体地,母设备可定期根据获取到的子设备组200中的子设备210的信号强度,并通过一定的算法确定子设备210之间以及每个子设备210与母设备100的相对位置(可精确到米),并进行汇总,生成子设备组200中各个子设备210的地图。 [0050] More specifically, the master device may periodically signal strength acquired in the sub-device sub-group 200 device 210, and a certain algorithm is determined by the relative between the sub-device 210 and each of the sub-device 210 of the parent apparatus 100 position (accurate to m), and aggregated, generating a map 210 of the respective sub-child device in the device group 200. 在本发明的一个实施例中,母设备100还可将生成的子设备的地图上传至服务器300,以在母设备更新时,从服务器300直接下载该地图,无需再次生成。 In one embodiment of the present invention, the master device 100 may also map the generated sub uploaded to the server apparatus 300, when the parent device to update the map downloaded directly from the server 300, without having to run again.

[0051] 如果母设备100不能与子设备210进行通信的时间超过预设阈值,且子设备210的电量充足,则可认为子设备的位置发生变化或者出现其他问题(如故障),此时可进行异常提示,以通过人工处理,并根据处理结果对子设备210重新进行配置或者将该子设备210标记为不可用,并对子设备地图进行更新。 [0051] If the master device 100 can communicate 210 with the sub-time device exceeds a preset threshold, and the sub-device 210 is fully charged, it can be considered other problems (e.g. malfunction) the position of the sub-device or a change occurs, at this time may be abnormal prompt, through manual processing, and 210 re-configured according to the processing results of sub-devices or sub-devices 210 is marked as unavailable, and the sub-device to update the map.

[0052] 在本发明的一个实施例中,子设备可包括蓝牙低功耗BLE芯片和为BLE芯片供电的电池,其中,BLE芯片用于通过第二无线探测方式对用户进行定位,并与所属的母设备进行通信(即可实现蓝牙从动装置的功能)。 [0052] In one embodiment of the present invention, the apparatus may comprise the sub-BLE Bluetooth low-power chip and a battery supplying power to BLE chip, wherein, for positioning a chip BLE second wireless user detection methods, and belongs master device communicates (to implement the functions of the slave Bluetooth). 由于BLE芯片的功耗非常低,因此仅通过电池为其供电,即可使其工作很长时间,非常方便,且便于部署。 Because BLE chip power consumption is very low, so it can only work for a long time, it is very convenient, easy to deploy through the battery and its power supply.

[0053] 服务器300与至少一个母设备100相连,服务器300用于采集用户的第一定位信息和第二定位信息。 [0053] Server 300 is connected with the at least one parent device 100, the user server 300 for collecting location information of a first and second location information. 更具体地,母设备100可将自身探测获取的用户的第一定位信息和/或第二定位信息以及子设备获取的第二定位信息发送至服务器300。 More specifically, the master device 100 itself may transmit the acquired user of the first probe location information and / or the second apparatus and the sub-positioning information acquired location information to the second server 300. 其中,母设备100可通过2G网络、3G网络以及WIFI等方式与服务器进行通信。 Wherein the parent device 100 may, 3G networks and WIFI communication with the server by way of the 2G network.

[0054] 在本发明的一个实施例中,服务器300还用于根据用户的第一定位信息和第二定位信息生成用户的位置信息,并根据用户的位置信息分析用户的行为信息。 [0054] In one embodiment of the present invention, the server 300 is further configured to generate location information according to the user of the first user location information and second location information, and analyzes the user information according to the location information of the user's behavior. 更具体地,服务器300可根据不同子设备210以及母设备100获取的用户的定位信息进行综合分析,以得到用户的准确的位置信息。 More specifically, server 300 may perform a comprehensive analysis of the different sub-device location information 210 and the user device 100 acquires the parent to obtain accurate position information of the user. 同时可对用户的位置信息随时间的变化进行分析,以得到用户的行为信息,如行动轨迹、在每个地点的停留时间、以及到每个地点的频率等。 While on the user's location information is analyzed over time to get the user's behavior information, such as track action, the residence time in each location, and frequency to each location. 并且可根据大量用户的行为,分析出热点区域,并对其他用户进行推荐。 And according to a large number of user behavior, analyze hot spots, and make recommendations to other users.

[0055] 另外,服务器300还可结合母设备100上传的子设备地图以及用户的定位信息,将用户的位置信息更加直观的展现在子设备地图上,且更加准确。 [0055] Further, the location information server 300 may map sub-device and the master device 100 in conjunction with the user's uploaded, the position information of the user is more intuitive map presented on the child device, and more accurate.

[0056] 在本发明的一个实施例中,服务器300还用于根据用户的行为信息对用户进行推送。 [0056] In one embodiment of the present invention, the server 300 is further configured to be pushed to the user based on the user's behavior information. 例如,如果根据用户的行为信息确定用户进入了一个商场,服务器可向用户的移动终端中发送该商场的店铺信息、每个店铺的折扣信息、经营类型等,随着用户在商场中位置的变化,如进入其中一家店铺,服务器可向该用户的终端发送该店铺和/或周边店铺的折扣卷以及进店积分等信息。 For example, if the user enters a mall is determined based on the user's behavior information, the server may send the mall store information to a user's mobile terminal in each store discount information, type of business, as the user changes position in the mall , wherein information such as access to a shop, the shop server may send and / or outside the store to the user's terminal into the store and the integral volume discounts and the like.

[0057] 本发明实施例的用户行为采集系统,可分别通过母设备和子设备通过两种不同的无线探测方式对用户进行定位,以获取用户的定位信息,并通过母设备将用户的定位信息发送至服务器,具有以下的优点: [0057] User Behavior embodiment of the present invention, the acquisition system can be separately positioned on the user by the parent and child devices via two different radio detection methods, to obtain positioning information of the user, and by the master device the user location information transmitting to the server, it has the following advantages:

[0058] 1、通过不同探测方式获取用户的定位信息,可结合两种不同无线探测方式的优点,能够更加准确的采集用户的行为,并且可探测到配备不同无线传输设备的终端同时满足了覆盖范围广、探测精确度高的需求,因此大部分终端用户的行为都可被准确的采集到; [0058] 1, to obtain the user's location information by different detection methods, may bind to two different wireless advantages detection methods can be more accurately capture user behavior, and can detect a terminal apparatus equipped with different radio transmission coverage while meeting wide range, high accuracy detection requirements, and therefore most of the end-user behavior can be accurately collected;

[0059] 2、通过子母设备相结合的系统,可通过在大范围内部署少量具有高灵敏度天线的母设备,从而提供较大范围的用户行为采集服务器,并通过在每个母设备的覆盖范围内部署大量低成本的子设备,除了可部署到更广阔的范围,精确采集用户行为之外,大大节约了部署成本; [0059] 2, by a system combining picture device, the parent device may be deployed by over a wide range with a small amount of a high sensitivity of the antenna, thus providing a wide range of user behavior collection server, and by covering each parent device sub-devices within the scope of the deployment of a large number of low cost, can be deployed in addition to a wider range than the precise capture user behavior, significant savings in deployment costs;

[0060] 3、通过母设备对多个子设备进行统一管理,子设备也可随时升级系统,有效防止子设备的协议被破解的可能。 [0060] 3, for the unified management of the parent device via a plurality of sub-devices, the device can be upgraded at any time sub-system to prevent the sub-protocol apparatus may be cracked.

[0061] 为了实现上述实施例,本发明还提出一种用户行为采集方法。 [0061] In order to achieve the above-described embodiments, the present invention also provides a method for collecting user behavior.

[0062] 一种用户行为采集方法,包括:母设备以第一无线探测方式对用户进行定位,以获取用户的第一定位信息;母设备接收属于母设备的子设备组发送的用户的第二定位信息;母设备将用户的第一定位信息和第二定位信息发送至服务器。 [0062] A method for collecting user behavior, comprising: a first wireless device to the master mode detection target users, a first user to obtain location information; receiving the master device belonging to a user of the parent device transmits a sub-set of the second device location information; parent device sends the user of the first location information and second location information to the server.

[0063] 图3为根据本发明一个实施例的用户行为采集方法的流程图。 [0063] FIG. 3 is a flowchart of a method of collecting user behavior according to an embodiment of the present invention. 如图3所示,该用户行为采集方法,包括: As shown in FIG. 3, the user behavior acquisition method, comprising:

[0064] S301,母设备以第一无线探测方式对用户进行定位,以获取用户的第一定位信息。 [0064] S301, the master device to a first embodiment of a wireless probe user positioning, a first user to obtain location information.

[0065] 其中,第一定位信息为通过第一无线探测方式获取的用户的位置信息。 [0065] wherein the first location information of the user acquired by the first wireless mode detecting position information. 在本发明的一个实施例中,第一无线探测方式可为WIFI探测方式。 In one embodiment of the invention, the first embodiment may be a WIFI wireless probe detection methods. WIFI探测方式为一家名为EuclidAnalytics的实境分析公司提出的通过探测支持WIFI功能移动终端发出无线探测请求信号对用户行为进行分析,以获取持有该移动终端的用户的行动轨迹、访问时长、以及访问时间间隔等信息。 WIFI signal detection methods for the request sent to user behavior analysis detected by probing support WIFI wireless function of the mobile terminal to acquire a user holds the mobile terminal operations company called EuclidAnalytics track analysis of reality offered to him, length of visit, and access time interval information. 因此,母设备在采集到用户持有的移动终端的无线请求信号时,即可获取用户的定位信息。 Therefore, the parent device when the mobile terminal held by the user to capture a wireless request signal, the user can obtain location information. 其中,母设备可支持b/g/n/a/ac等各种标准的WIFI探测设备。 Wherein the device can support the mother b / g / n / a / ac detection equipment and the like WIFI various standards.

[0066] S302,母设备接收属于母设备的子设备组发送的用户的第二定位信息。 [0066] S302, the master device receives the user equipment sub-group belonging to the parent device transmits the second location information.

[0067] 在本发明的实施例中,子设备组中的子设备可通过蓝牙或WIFI与所属的母设备进行通信。 [0067] In an embodiment of the present invention, the sub-child device in the device group may communicate via Bluetooth or WIFI the parent device belongs. 对于通过WIFI方式进行通信的方法很多,本领域技术人员可参照根据相关技术,本发明实施例中不再说明。 A method for communicating through a WIFI many ways, those skilled in the art can refer to the related art according to, for example, in embodiments of the present invention will not be described.

[0068] 在本发明的一个实施例中,母设备具有蓝牙主动装置,子设备具有蓝牙从动装置,母设备通过蓝牙与子设备进行通信的过程如下:子设备通过蓝牙从动装置广播具有WD的信号,母设备检测到广播的UID之后,即可建立与发送该信号的子设备的连接。 [0068] In one embodiment of the present invention, active parent device with a Bluetooth device, a Bluetooth slave device having a slave device, the master device during communication with the child device via Bluetooth follows: child device having a Bluetooth slave device broadcasting by WD signal, after detecting the UID parent device broadcasts, to establish a connection with the child device transmits the signal. 具体地,当子设备第一次开机或者进入配置流程时,会自动广播具有其自身的WD的信号,母设备可定期扫描检测具有WD的信号,当只母设备检测子设备广播的信号时,即可与该子设备建立连接。 Specifically, when the child device is first turned on or enter the configuration process, the broadcast will automatically have its own signal WD, the parent device periodically scanning detector having a signal WD, only the parent device when the detector signal is broadcast equipment, to establish a connection with the child device. 如果多个母设备同时检测到子设备的信号,则还包括母设备可从服务器接受配置信息的步骤,其中,配置信息包括属于每个母设备的子设备的WD,从而,母设备仅接受属于该母设备的子设备的WD,与具有配置信息中的WD的子设备建立连接,忽略检测到的其他UID。 If multiple simultaneous detection signal to the parent device of the child device, the parent device may further comprise the step of receiving configuration information from the server, wherein the configuration information includes a device belonging to each sub-WD parent device, whereby, the female part of the device only accepts WD child device is the master device, establish a connection with the device having the sub-configuration information WD, and ignore the other UID detected.

[0069] 在本发明的一个实施例中,在母设备在定期检测广播信号时如果发现有新的子设备,且该子设备不属于其他母设备,则可建立与该子设备的连接,并对子设备进行配置,同时修改母设备对应的配置信息(在配置信息中增加该子设备的UID记录)。 [0069] In one embodiment of the present invention, when the parent device periodically detects the broadcast signal if there are new child device and the child device does not belong to another master device, may establish a connection with the child device, and sub-device configuration, and modify configuration information corresponding to the parent device (UID increase the recording device in the sub-configuration information).

[0070] 如果母设备不能与子设备进行通信的时间超过预设阈值,且子设备的电量充足,则可认为子设备的位置发生变化或者出现其他问题(如故障),此时可进行异常提示,以通过人工处理,并根据处理结果对子设备重新进行配置或者将该子设备标记为不可用,并对子设备地图进行更新。 [0070] If the master device can not communicate with the sub-time device exceeds a preset threshold, and has a charge of the child device, the child device may be considered a position change or other problems (e.g. malfunction), may be an exception in this case , through manual processing, and re-configured according to the processing results of sub-devices or sub-devices marked as unavailable, and the sub-device to update the map.

[0071] S303,母设备将用户的第一定位信息和第二定位信息发送至服务器。 [0071] S303, the master device transmits the user information and the first positioning location information to the second server.

[0072] 具体地,母设备可将自身探测获取的用户的第一定位信息和/或第二定位信息以及子设备获取的第二定位信息发送至服务器。 [0072] Specifically, the master device may itself detect a first user to obtain location information and / or the second location information and the sub-positioning apparatus acquires the second information to the server. 其中,母设备可通过2G网络、3G网络以及WIFI等方式与服务器进行通信。 Wherein the parent device via the 2G network, 3G network and WIFI manner communicate with the server.

[0073] 本发明实施例的用户行为采集方法,可分别通过母设备自身以及子设备的两种不同的无线探测方式对用户进行定位,以获取用户的定位信息,并通过母设备将用户的定位信息发送至服务器,可结合两种不同无线探测方式的优点,能够更加准确的采集用户的行为,并且可探测到配备不同无线传输设备的终端同时满足了覆盖范围广、探测精确度高的需求,因此大部分终端用户的行为都可被准确的采集到,且通过母设备对多个子设备进行统一管理,有效防止子设备的协议被破解的可能。 [0073] The method of collecting user behavior embodiment of the present invention, respectively in two sub master apparatus itself and a radio device different detection methods to locate a user to obtain location information of users, and the parent device by the user positioning information to the server, may bind to two different wireless advantages detection methods can be more accurately capture user behavior, and can detect a terminal equipped with different radio transmission apparatus simultaneously satisfy the wide coverage, high detection accuracy requirements, Thus most of the end-user behavior can be accurately captured, and the unified management of the parent device via a plurality of sub-devices to effectively prevent the sub-protocol apparatus may be cracked.

[0074] 在本发明的另一个实施例中,还可包括母设备以第二无线探测方式对用户进行定位以获取用户的第二定位信息的步骤,从而可通过更多种方式对用户进行定位,得到的用户的定位信息更加准确。 [0074] embodiment, the parent device may further comprise a second detection mode wireless users to obtain the step of positioning the second user location information in another embodiment of the present invention, which can be positioned by the user more ways to give users more accurate positioning information. 其中,第二定位信息为通过第二无线探测方式获取的用户的位置范围。 Wherein the second location information to the user via a second wireless detection mode acquired range of positions. 在本发明的一个实施例中,第二无线探测方式可为iBeacon蓝牙方式。 In one embodiment of the present invention, the second detection mode may be a wireless Bluetooth iBeacon mode. iBeacon蓝牙方式是苹果公司2013年9月发布的移动设备用OS(i0S7)上配备的新功能。 iBeacon Bluetooth mode is a new feature Apple's September 2013 release of mobile devices with the OS (i0S7) equipped. 其工作方式是,配备有BLE通信功能的设备使用BLE技术向周围发送自己特有的标识信息,以确定接收到该标识信息的移动终端的位置信息。 The way it works is equipped with a communication function BLE device sends its identification information unique to the surrounding BLE using techniques to determine the mobile terminal receiving the location information of the identification information. 更具体地,母设备上可配有BLE设备,从而可向周围发送自己的标识信息,当移动终端接收到该标识信息时,即可获取持有该移动终端的用户的定位信息。 More specifically, the parent device may be equipped with BLE devices, thereby transmitting its own identification information to the surroundings when the mobile terminal receives the identification information, to obtain location information of the mobile terminal held by the user.

[0075] 图4为根据本发明一个具体实施例的用户行为采集方法的流程图。 [0075] FIG 4 is a flowchart of a method of collecting user behavior according to a particular embodiment of the present invention. 在本发明的实施例中,母设备具有蓝牙主动装置,子设备具有蓝牙从动装置,其中,子设备可通过蓝牙从动装置广播具有WD的信号,如图4所示,该用户行为采集方法,包括: In an embodiment of the present invention, active parent device with a Bluetooth device, a Bluetooth slave device having a slave device, wherein the sub device having the WD signal broadcast by a Bluetooth slave device, shown in Figure 4, the method of collecting user behavior ,include:

[0076] S401,母设备以第一无线探测方式对用户进行定位,以获取用户的第一定位信息。 [0076] S401, the master device to a first embodiment of a wireless probe user positioning, a first user to obtain location information.

[0077] 其中,第一定位信息为通过第一无线探测方式获取的用户的位置信息。 [0077] wherein the first location information of the user acquired by the first wireless mode detecting position information. 在本发明的一个实施例中,第一无线探测方式可为WIFI探测方式。 In one embodiment of the invention, the first embodiment may be a WIFI wireless probe detection methods. WIFI探测方式为一家名为EuclidAnalytics的实境分析公司提出的通过探测支持WIFI功能移动终端发出无线探测请求信号对用户行为进行分析,以获取持有该移动终端的用户的行动轨迹、访问时长、以及访问时间间隔等信息。 WIFI signal detection methods for the request sent to user behavior analysis detected by probing support WIFI wireless function of the mobile terminal to acquire a user holds the mobile terminal operations company called EuclidAnalytics track analysis of reality offered to him, length of visit, and access time interval information. 因此,母设备在采集到用户持有的移动终端的无线请求信号时,即可获取用户的定位信息。 Therefore, the parent device when the mobile terminal held by the user to capture a wireless request signal, the user can obtain location information. 其中,母设备可支持b/g/n/a/ac等各种标准的WIFI探测设备。 Wherein the device can support the mother b / g / n / a / ac detection equipment and the like WIFI various standards.

[0078] S402,母设备检测到广播的UID之后,建立与广播该WD的子设备的连接。 [0078] S402 is connected, UID parent device after detecting the broadcast, the broadcast WD establish the child device.

[0079] 在本发明的实施例中,步骤S302可在步骤S301之前也可在步骤S302之后。 [0079] In an embodiment of the present invention, the step S302 may also be before the step S301 after the step S302.

[0080] S403,母设备获取子设备的电量及信号强度信息。 [0080] S403, the master device and the power acquisition sub-device signal strength information.

[0081] S404,母设备根据子设备组中子设备的信号强度获取子设备的位置信息,并生成子设备地图。 [0081] S404, the master device acquires location information based on the signal strength of the sub-device sub-device group neutron device, and generating sub-device map.

[0082] 在本发明的一个实施例中,母设备还可以根据子设备的电量和信号强度信息判断子设备的工作状态是否正常。 [0082] In one embodiment of the present invention, the parent device may also power is normal according to the working status and the signal strength information judgment sub-device sub-devices. 具体地,母设备可定期根据获取到的子设备组中的子设备的信号强度,并通过一定的算法确定子设备之间以及每个子设备与母设备的相对位置(可精确到米),并进行汇总,生成子设备组中各个子设备的地图。 Specifically, the master device may periodically signal strength of the sub-device to sub-device acquisition group, and the relative position between the device and the master device and each of the sub-sub-devices through a certain algorithm (accurate to m), and Summarizing, the device generates a sub-group map each child device. 如果母设备不能与子设备进行通信的时间超过预设阈值,且子设备的电量充足,则可认为子设备的位置发生变化或者出现其他问题(如故障),此时可进行异常提示,以通过人工处理,并根据处理结果对子设备重新进行配置或者将该子设备标记为不可用,并对子设备地图进行更新。 If the master device can not communicate with the sub-time device exceeds a preset threshold, and has a charge of the child device, the child device may be considered a position change or other problems (e.g. malfunction), may be an exception in this case, through manual processing, and re-configured according to the processing results of sub-devices or sub-devices marked as unavailable, and the sub-device to update the map.

[0083] S405,母设备接收属于母设备的子设备组发送的用户的第二定位信息。 [0083] S405, the master device receives the user equipment sub-group belonging to the parent device transmits the second location information.

[0084] 在本发明的实施例中,步骤S403和S404可在步骤S405之前,也可在步骤S405之后。 [0084] In an embodiment of the present invention, the steps S403 and S404 may precede the step S405, the can after the step S405.

[0085] S406,母设备将用户的第一定位信息和第二定位信息发送至服务器。 [0085] S406, the master device transmits the user information and the first positioning location information to the second server.

[0086] 具体地,母设备可将自身探测获取的用户的第一定位信息和/或第二定位信息以及子设备获取的第二定位信息发送至服务器。 [0086] Specifically, the master device may itself detect a first user to obtain location information and / or the second location information and the sub-positioning apparatus acquires the second information to the server. 其中,母设备可通过2G网络、3G网络以及WIFI等方式与服务器进行通信。 Wherein the parent device via the 2G network, 3G network and WIFI manner communicate with the server.

[0087] 在本发明的一个实施例中,服务器接收到用户的第一定位信息和第二定位信息后,可据此生成用户的位置信息,并根据用户的位置信息分析用户的行为信息。 After [0087] In one embodiment of the present invention, the server receives the user of the first location information and second location information, the location information can generate therefrom the user, and the user information based on the position information analyzing user behavior. 具体地,月艮务器可根据不同子设备以及母设备获取的用户的定位信息进行综合分析,以得到用户的准确的位置信息。 Specifically, that works to months can be a comprehensive analysis of the different sub-device and the positioning information acquired by the user of the parent device, to obtain accurate position information of the user. 同时可对用户的位置信息随时间的变化进行分析,以得到用户的行为信息,如行动轨迹、在每个地点的停留时间、以及到每个地点的频率等。 While on the user's location information is analyzed over time to get the user's behavior information, such as track action, the residence time in each location, and frequency to each location. 并且可根据大量用户的行为,分析出热点区域,并对其他用户进行推荐。 And according to a large number of user behavior, analyze hot spots, and make recommendations to other users.

[0088] 另外,服务器还可接收母设备上传的子设备地图,进而可结合子设备地图以及用户的定位信息,将用户的位置信息更加直观的展现在子设备地图上,且更加准确。 [0088] Further, the master server may also receive apparatus uploaded map child device, the sub-positioning information may be combined and further maps and the user's device, the position information of the user is more intuitive map presented on the child device, and more accurate.

[0089] 在本发明的一个实施例中,服务器还可根据用户的行为信息对用户进行推送。 [0089] In one embodiment of the present invention, the server may also be pushed to the user based on the user's behavior information. 例如,如果根据用户的行为信息确定用户进入了一个商场,服务器可向用户的移动终端中发送该商场的店铺信息、每个店铺的折扣信息、经营类型等,随着用户在商场中位置的变化,如进入其中一家店铺,服务器可向该用户的终端发送该店铺和/或周边店铺的折扣卷以及进店积分等信息。 For example, if the user enters a mall is determined based on the user's behavior information, the server may send the mall store information to a user's mobile terminal in each store discount information, type of business, as the user changes position in the mall , wherein information such as access to a shop, the shop server may send and / or outside the store to the user's terminal into the store and the integral volume discounts and the like.

[0090] 本发明实施例的用户行为采集方法,母设备可通过蓝牙方式与子设备建立连接,并可根据检测子设备的信号强度和电量,进而生成子设备地图,准确的对子设备进行管理,从而能够更准确的获取用户的定位信息和用户的行为。 [0090] The embodiments of user behavior acquisition method of the present invention, the parent device via a Bluetooth connection may be established with a slave device embodiment, and according to the detector signal intensity and power devices, thereby generating sub-device map, sub-devices accurately manage , it is possible to obtain a more accurate location information and user behavior of users.

[0091] 为了实现上述实施例,本发明还提出另一种用户行为采集方法。 [0091] In order to achieve the above-described embodiments, the present invention further provides another method for collecting user behavior. [0092] 一种用户行为采集方法,包括:子设备以第二无线探测方式对用户进行定位以获取用户的第二定位信息;子设备将用户的第二定位信息发送至所属的母设备,以使母设备将第二定位信息发送至服务器。 [0092] A method for collecting user behavior, comprising: a second radio sub-detecting device to locate the user mode to obtain location information of a second user; child device transmits to the parent device belongs to a second location information of the user, to that the parent device sends the location information to the second server.

[0093] 图5为根据本发明另一个实施例的用户行为采集方法的流程图。 [0093] FIG. 5 is a flowchart of user behavior according to another embodiment of the present invention, the acquisition method. 如图5所示,该用户行为采集方法,包括: 5, the user behavior acquisition method, comprising:

[0094] S501,子设备以第二无线探测方式对用户进行定位以获取用户的第二定位信息。 [0094] S501, the sub-device to a second embodiment of a wireless probe user positioning a second user to obtain location information.

[0095] 其中,第二定位信息为通过第二无线探测方式获取的用户的位置范围。 [0095] wherein the positioning range of the second position information acquired by the second wireless user detection methods. 在本发明的一个实施例中,第二无线探测方式可为iBeacon蓝牙方式。 In one embodiment of the present invention, the second detection mode may be a wireless Bluetooth iBeacon mode. iBeacon蓝牙方式是苹果公司2013年9月发布的移动设备用0S(i0S7)上配备的新功能。 iBeacon Bluetooth mode is a new feature Apple's September 2013 release of the mobile device with the 0S (i0S7) equipped. 其工作方式是,配备有BLE通信功能的设备使用BLE技术向周围发送自己特有的标识信息,以确定接收到该标识信息的移动终端的位置信息。 The way it works is equipped with a communication function BLE device sends its identification information unique to the surrounding BLE using techniques to determine the mobile terminal receiving the location information of the identification information. 更具体地,子设备上可配有BLE设备,从而可向周围发送自己的标识信息,当移动终端接收到该标识信息时,即可获取持有该移动终端的用户的定位信息。 More specifically, the child device may be equipped with BLE devices, thereby transmitting its own identification information to the surroundings when the mobile terminal receives the identification information, to obtain location information of the mobile terminal held by the user.

[0096] S502,子设备将用户的第二定位信息发送至所属的母设备,以使母设备将第二定位信息发送至服务器。 [0096] S502, the user of the child device transmits the second location information to the master device belongs, so that the master device sends the location information to the second server.

[0097] 在本发明的实施例中,子设备可通过蓝牙或WIFI与母设备进行通信。 [0097] In an embodiment of the present invention, the child device may communicate via Bluetooth or WIFI with the parent device. 对于通过WIFI方式进行通信的方法很多,本领域技术人员可参照根据相关技术,本发明实施例中不再说明。 A method for communicating through a WIFI many ways, those skilled in the art can refer to the related art according to, for example, in embodiments of the present invention will not be described.

[0098] 在本发明的一个实施例中,母设备具有蓝牙主动装置,子设备具有蓝牙从动装置,母设备与子设备通过蓝牙进行通信的过程如下:子设备通过蓝牙从动装置广播具有WD的信号,母设备检测到广播的UID之后,即可建立与发送该信号的子设备的连接。 [0098] In one embodiment of the present invention, active parent device with a Bluetooth device, a Bluetooth slave device having a slave process, the parent device and a child device communicates via Bluetooth follows: child device having a Bluetooth slave device broadcasting by WD signal, after detecting the UID parent device broadcasts, to establish a connection with the child device transmits the signal. 具体地,当子设备第一次开机或者进入配置流程时,会自动广播具有其自身的WD的信号,母设备可定期扫描检测具有WD的信号,当只母设备检测子设备广播的信号时,即可与该子设备建立连接。 Specifically, when the child device is first turned on or enter the configuration process, the broadcast will automatically have its own signal WD, the parent device periodically scanning detector having a signal WD, only the parent device when the detector signal is broadcast equipment, to establish a connection with the child device. 如果多个母设备同时检测到子设备的信号,则还包括母设备可从服务器接受配置信息的步骤,其中,配置信息包括属于每个母设备的子设备的WD,从而,母设备仅接受属于该母设备的子设备的WD,与具有配置信息中的WD的子设备建立连接,忽略检测到的其他UID。 If multiple simultaneous detection signal to the parent device of the child device, the parent device may further comprise the step of receiving configuration information from the server, wherein the configuration information includes a device belonging to each sub-WD parent device, whereby, the female part of the device only accepts WD child device is the master device, establish a connection with the device having the sub-configuration information WD, and ignore the other UID detected.

[0099] 本发明实施例的用户行为采集方法,子设备可将自身通过第二探测方式获取的第二定位信息通过母设备发送至服务器,从而使服务器可采集到通过子设备和母设备两种不同无线探测方式获取的用户的定位信息,可结合两种不同无线探测方式的优点,能够更加准确的采集用户的行为,并且可探测到配备不同无线传输设备的终端同时满足了覆盖范围广、探测精确度高的需求,因此大部分终端用户的行为都可被准确的采集到,并且子设备的制作和部署低成本很低,大大节约了部署成本。 [0099] Example embodiment of the user behavior acquisition method of the present invention, the child apparatus itself can be obtained by detecting the second embodiment of the second location information transmitted by the master device to the server so that the server can be acquired through the two kinds of child devices and parent devices different wireless detection mode acquired location information of the user, may be combined advantages of the two different wireless detection methods can be more accurately capture user behavior, and can detect a terminal equipped with different radio transmission apparatus simultaneously satisfy the wide coverage, the probe high accuracy requirements, so most end-user behavior can be accurately captured, and the sub-devices and deployment cost is low, significant savings in deployment costs.

[0100] 为了实现上述实施例,本发明还提出一种母设备。 [0100] In order to achieve the above-described embodiments, the present invention also provides a master apparatus.

[0101] 一种母设备,包括:第一探测模块,用于以第一无线探测方式对用户进行定位,以获取用户的第一定位信息;通信模块,用于接收子设备组发送的用户的第二定位信息;发送模块,用于将用户的第一定位信息和第二定位信息发送至服务器。 User's communication module for receiving a sub-group transmission device; a first detecting means for detecting a first embodiment of a wireless user positioning, a first user to obtain location information: [0101] A master apparatus, comprising a second location information; transmitting means for transmitting a first user location information and second location information to the server.

[0102] 图6为根据本发明一个实施例的母设备的结构示意图。 [0102] FIG. 6 is a schematic structural diagram of a master device according to an embodiment of the present invention.

[0103] 如图6所示,根据本发明实施例的母设备,包括:第一探测模块110、通信模块120和发送模块130。 [0103] As shown in FIG 6, according to an embodiment of the present invention, the parent device, comprising: a first detecting module 110, communication module 120 and a sending module 130. [0104] 具体地,第一探测模块110用于以第一无线探测方式对用户进行定位,以获取用户的第一定位信息。 [0104] Specifically, the first detection module 110 for detecting a wireless manner to a first target users, a first user to obtain location information. 其中,第一定位信息为通过第一无线探测方式获取的用户的位置信息。 Wherein the first location information of the user acquired by the first wireless mode detecting position information. 在本发明的一个实施例中,第一无线探测方式可为WIFI探测方式。 In one embodiment of the invention, the first embodiment may be a WIFI wireless probe detection methods. WIFI探测方式为一家名为EuclidAnalytics的实境分析公司提出的通过探测支持WIFI功能移动终端发出无线探测请求信号对用户行为进行分析,以获取持有该移动终端的用户的行动轨迹、访问时长、以及访问时间间隔等信息。 WIFI signal detection methods for the request sent to user behavior analysis detected by probing support WIFI wireless function of the mobile terminal to acquire a user holds the mobile terminal operations company called EuclidAnalytics track analysis of reality offered to him, length of visit, and access time interval information. 因此,第一探测模块110在采集到用户持有的移动终端的无线请求信号时,即可获取用户的定位信息。 Thus, the first detection module 110 when the mobile terminal held by the user to capture a wireless request signal, the user can obtain location information. 其中,第一探测模块110可支持b/g/n/a/ac等各种标准的WIFI探测设备。 Wherein the first detecting module 110 may support b / g / n / a / ac detection equipment and the like WIFI various standards.

[0105] 通信模块120用于接收子设备组发送的用户的第二定位信息。 [0105] The communication module 120 for receiving the sub-user device transmits a second group of location information. 通信模块120通过蓝牙或WIFI与子设备组中的子设备进行通信。 The communication module 120 communicates via Bluetooth or WIFI child device and the child device group.

[0106] 在本发明的实施例中,子设备组中的子设备可通过蓝牙或WIFI与所属的母设备进行通信。 [0106] In an embodiment of the present invention, the sub-child device in the device group may communicate via Bluetooth or WIFI the parent device belongs. 对于通过WIFI方式进行通信的方法很多,本领域技术人员可参照根据相关技术,本发明实施例中不再说明。 A method for communicating through a WIFI many ways, those skilled in the art can refer to the related art according to, for example, in embodiments of the present invention will not be described.

[0107] 在本发明的一个实施例中,通信模块120可为蓝牙主动装置,子设备具有蓝牙从动装置,通信模块120具体用于检测子设备通过蓝牙从动装置广播的WD的信号,并于在检测到广播的WD之后,建立与子设备的连接。 [0107] In one embodiment of the present invention, the active communication module 120 may be a Bluetooth device, a Bluetooth slave device having a slave device, the communication module 120 for detecting a particular slave device via a Bluetooth slave device WD broadcast signal, and after detecting WD to broadcast establish a connection with the child device. 更具体地,当子设备第一次开机或者进入配置流程时,会自动广播具有其自身的WD的信号,通信模块120可定期扫描检测具有WD的信号,当只通信模块120检测子设备广播的信号时,即可与该子设备建立连接。 More specifically, when the child device is first turned on or enter the configuration process, will automatically have its own broadcast signal WD, the communication module 120 may periodically scan detector having a signal WD, only when the communication module 120 of the detector device broadcasts signal, to establish a connection to the child device.

[0108] 在本发明的一个实施例中,在通信模块120在定期检测广播信号时如果发现有新的子设备,且该子设备不属于其他母设备,则可建立与该子设备的连接,并对子设备进行配置,同时修改母设备对应的配置信息(在配置信息中增加该子设备的UID记录)。 [0108] In one embodiment of the present invention, the communication module 120 detects when a broadcast signal periodically if there are new child device and the child device does not belong to another master device, may establish a connection with the child device, and sub-device configuration, and modify configuration information corresponding to the parent device (UID increase the recording device in the sub-configuration information).

[0109] 如果通信模块120不能与子设备进行通信的时间超过预设阈值,且子设备的电量充足,则可认为子设备的位置发生变化或者出现其他问题(如故障),此时可进行异常提示,以通过人工处理,并根据处理结果对子设备重新进行配置或者将该子设备标记为不可用,并对子设备地图进行更新。 [0109] If the communication module 120 can communicate with the sub-time device exceeds a preset threshold, and has a charge of the child device, the child device may be considered a position change or other problems (such as failure), then the abnormality can be prompt, through manual processing, and re-configured according to the processing results of sub-devices or sub-devices marked as unavailable, and the sub-device to update the map.

[0110] 发送模块130用于将用户的第一定位信息和第二定位信息发送至服务器。 [0110] The transmitting module 130 for transmitting user information and the first positioning location information to the second server. 更具体地,发送模块130可将自身探测获取的用户的第一定位信息和/或第二定位信息以及子设备获取的第二定位信息发送至服务器。 More specifically, the transmission module 130 may transmit the probe itself acquired user of the first location information and / or the second apparatus and the sub-positioning information acquired location information to the second server. 其中,发送模块130可通过2G网络、3G网络以及WIFI等方式与服务器进行通信。 Wherein the transmitting module 130 may communicate via 2G networks, 3G networks and servers, etc. and WIFI.

[0111] 本发明实施例的母设备,可分别通过母设备自身以及子设备的两种不同的无线探测方式对用户进行定位,以获取用户的定位信息,并通过母设备将用户的定位信息发送至服务器,可结合两种不同无线探测方式的优点,能够更加准确的采集用户的行为,并且可探测到配备不同无线传输设备的终端同时满足了覆盖范围广、探测精确度高的需求,因此大部分终端用户的行为都可被准确的采集到,且通过母设备对多个子设备进行统一管理,有效防止子设备的协议被破解的可能。 [0111] Example embodiments of the parent device of the present invention, respectively in two sub master apparatus itself and a radio device different detection methods to locate a user to obtain location information of the user, and the user will be sent via the parent device's location information to the server, may bind to two different wireless advantages detection methods can be more accurately capture user behavior, and can detect a terminal equipped with different radio transmission apparatus simultaneously satisfy the wide coverage, high accuracy detection requirements, and therefore a large part of end-user behavior can be accurately captured, and the unified management of the parent device via a plurality of sub-devices to effectively prevent the sub-protocol apparatus may be cracked.

[0112] 图7为根据本发明另一个实施例的母设备的结构示意图。 [0112] FIG. 7 is a schematic view of the structure of the parent device according to another embodiment of the present invention. 如图7所示,该母设备,包括:第一探测模块110、通信模块120、发送模块130和第二探测模块140。 As shown in FIG 7, the parent device, comprising: a first detecting module 110, communication module 120, transmission module 130 and a second detection module 140.

[0113] 具体地,第二探测模块140用于以第二无线探测方式对用户进行定位以获取用户的第二定位信息。 [0113] Specifically, the second detection module 140 for detecting a second embodiment of the wireless user to obtain the user positioning a second location information. 其中,第二定位信息为通过第二无线探测方式获取的用户的位置范围。 Wherein the second location information to the user via a second wireless detection mode acquired range of positions. 在本发明的一个实施例中,第二无线探测方式可为iBeacon蓝牙方式。 In one embodiment of the present invention, the second detection mode may be a wireless Bluetooth iBeacon mode. iBeacon蓝牙方式是苹果公司2013年9月发布的移动设备用0S(i0S7)上配备的新功能。 iBeacon Bluetooth mode is a new feature Apple's September 2013 release of the mobile device with the 0S (i0S7) equipped. 其工作方式是,配备有BLE通信功能的设备使用BLE技术向周围发送自己特有的标识信息,以确定接收到该标识信息的移动终端的位置信息。 The way it works is equipped with a communication function BLE device sends its identification information unique to the surrounding BLE using techniques to determine the mobile terminal receiving the location information of the identification information. 更具体地,第二探测模块140可为BLE设备,从而可向周围发送自己的标识信息,当移动终端接收到该标识信息时,即可获取持有该移动终端的用户的定位信息。 More specifically, the second detecting module 140 may BLE devices, which can transmit the identification information to their surroundings, when the mobile terminal receives the identification information, to obtain location information of the mobile terminal held by the user.

[0114] 本发明实施例的母设备,可通过两种不同方式获取用户的定位信息,因而可可探测到配备不同无线传输设备的终端,可采集到大部分终端用户的行为,适用范围更广。 [0114] parent device embodiment of the present invention, the user can obtain location information by two different ways, and thus to detect a terminal equipped with different cocoa wireless transmission equipment can be collected most of the end-user behavior, more broadly.

[0115] 图8为根据本发明又一个实施例的母设备的结构示意图。 [0115] FIG. 8 is a schematic structural diagram of the master device according to yet another embodiment of the present invention. 如图8所示,该母设备,包括:第一探测模块110、通信模块120、发送模块130、第二探测模块140、接收模块150、获取模块160和生成模块170。 8, the parent device, comprising: a first detecting module 110, communication module 120, transmission module 130, a second detection module 140, a receiving module 150, acquisition module 160 and the generating module 170.

[0116] 具体地,接收模块150用于接收服务器的配置信息,配置信息包括子设备组中每个子设备的WD,以使通信模块仅接受子设备组中的子设备的WD。 [0116] Specifically, the receiving module 150 is configured to receive server information, device configuration information includes sub-group of each sub-WD device, so that the communication module accepts only a sub-child device WD device group. 从而,通信模块120仅接受属于该母设备的子设备的WD,与具有配置信息中的WD的子设备建立连接,忽略检测到的其他WD。 Thus, the communication module 120 belonging to accept only the master device WD child device, the child device having a connection with the configuration information of the WD, WD ignore other detected.

[0117] 获取模块160用于获取子设备的电量及信号强度信息。 [0117] module 160 for obtaining the signal strength information and power acquisition sub-devices.

[0118] 生成模块170用于根据子设备组中子设备的信号强度获取子设备的位置信息,并生成子设备地图。 [0118] generating module 170 is configured to obtain location information based on the signal strength of the sub-device sub-device group neutron device, and generating sub-device map. 在本发明的一个实施例中,生成模块180还可以根据子设备的电量和信号强度信息判断子设备的工作状态是否正常。 In one embodiment of the present invention, the generation module 180 may be further sub-information Analyzing apparatus according to a power operation state is normal and the sub-device signal strength. 具体地,获取模块170可定期根据获取到的子设备组中的子设备的信号强度,生成模块180可通过一定的算法确定子设备之间以及每个子设备与母设备的相对位置(可精确到米),并进行汇总,生成子设备组中各个子设备的地图。 Specifically, module 170 may periodically obtain the signal strength of the sub-device to sub-device group acquired in the generation module 180 may determine the relative position between the device and the master device and each of the sub-sub-devices through a certain algorithm (to be precise m), and merged to create a sub-device map various sub-group devices. 如果通信模块120不能与子设备进行通信的时间超过预设阈值,且子设备的电量充足,则可认为子设备的位置发生变化或者出现其他问题(如故障),此时可进行异常提示,以通过人工处理,并根据处理结果对子设备重新进行配置或者将该子设备标记为不可用,并对子设备地图进行更新。 If the communication module 120 can communicate with the sub-time device exceeds a preset threshold, and has a charge of the child device, the child device may be considered a position change or other problems (e.g. malfunction), can be an exception in this case, in order to and re-doing the processing performed by the processing result according to the sub-devices or sub-devices configuration marked as unavailable, and the sub-device to update the map.

[0119] 本发明实施例的母设备,可根据配置信息确定可进行通信的子设备,并可根据检测子设备的信号强度和电量,进而生成子设备地图,准确的对子设备进行管理,从而能够更准确的获取用户的定位信息和用户的行为。 [0119] Example embodiments of the parent device of the present invention, can be determined according to configuration information of a communication sub-device, and according to the detector signal intensity and power devices, thereby generating sub-device map, accurate sub-device management, so that be able to get more accurate location information and user behavior of users.

[0120] 为了实现上述实施例,本发明还提出一种子设备。 [0120] In order to achieve the above-described embodiments, the present invention also provides a child apparatus.

[0121] 一种子设备,包括:蓝牙低功耗BLE芯片,BLE芯片用于通过第二无线探测方式对用户进行定位,并与所属的母设备进行通信'为BLE芯片供电的电池。 [0121] A child device, comprising: a low-power BLE Bluetooth chip, the chip for the user BLE positioned by detecting a second wireless mode, and a communication 'BLE is supplied to the chip device belongs to the parent cell.

[0122] 图9为根据本发明一个实施例的子设备的结构示意图。 [0122] FIG. 9 is a schematic view of the structure of a child apparatus according to an embodiment of the present invention. 如图9所示,该子设备,包括:蓝牙低功耗BLE芯片211和电池212。 9, the child device, comprising: a low-power Bluetooth chip 211 and the battery 212 BLE.

[0123] 具体地,蓝牙低功耗BLE芯片211用于通过第二无线探测方式对用户进行定位,并与所属的母设备进行通信。 [0123] Specifically, low power consumption BLE Bluetooth chip 211 to the user positioned by detecting a second wireless mode, and communicates with the master device belongs. 在本发明的一个实施例中,第二无线探测方式为iBeacon蓝牙方式。 In one embodiment of the present invention, the second detection mode is iBeacon Bluetooth wireless manner. iBeacon蓝牙方式是苹果公司2013年9月发布的移动设备用0S(i0S7)上配备的新功能。 iBeacon Bluetooth mode is a new feature Apple's September 2013 release of the mobile device with the 0S (i0S7) equipped. 其工作方式是,配备有BLE通信功能的设备使用BLE技术向周围发送自己特有的标识信息,以确定接收到该标识信息的移动终端的位置信息。 The way it works is equipped with a communication function BLE device sends its identification information unique to the surrounding BLE using techniques to determine the mobile terminal receiving the location information of the identification information.

[0124] 更具体地,蓝牙低功耗BLE芯片211可向周围发送自己的标识信息,当移动终端接收到该标识信息时,即可获取持有该移动终端的用户的定位信息。 [0124] More specifically, the low-power BLE Bluetooth chip 211 may send identification information to their surroundings, when the mobile terminal receives the identification information, to obtain location information of the mobile terminal held by the user. 也可根据相同原理与母设备进行通信。 Also may communicate with the master device according to the same principles. 蓝牙低功耗BLE芯片具体用于广播具有WD的信号,并在母设备中的蓝牙主动装置检测到广播的UID之后,建立与母设备的连接。 After BLE Bluetooth low energy chips having specific broadcast signal WD, the master Bluetooth device and the active device detects the broadcast UID establish a connection with the parent device.

[0125] 电池212用于为BLE芯片供电。 [0125] BLE battery 212 used to power the chip.

[0126] 本发明实施例的子设备,可通过BLE芯片以第二无线探测方式对用户进行定位,并与母设备通信,功耗低,成本低。 Child apparatus embodiment [0126] of the present invention, a user may be performed by detecting BLE chip positioned in a second radio, and communication with the parent device power consumption is low, and low cost.

[0127] 在本发明另一个实施例中,子设备还可包括WIFI芯片213 (图中未示出),具体地,WIFI芯片213用于与母设备进行通信。 [0127] embodiment, the child device may further include a WIFI chip 213 (not shown), in particular, WIFI chip 213 for communicating with the master device in another embodiment of the present invention. 电池212还用于为WIFI芯片供电。 Battery 212 is also used to power the chip WIFI. 子设备可通过多种通信方式可以使数据的传输更加稳定,且可并行传输,效果更高。 Sub-devices may be possible to transmit data by means of communication is more stable, and can be transmitted in parallel, higher effect.

[0128] 流程图中或在此以其他方式描述的任何过程或方法描述可以被理解为,表示包括一个或更多个用于实现特定逻辑功能或过程的步骤的可执行指令的代码的模块、片段或部分,并且本发明的优选实施方式的范围包括另外的实现,其中可以不按所示出或讨论的顺序,包括根据所涉及的功能按基本同时的方式或按相反的顺序,来执行功能,这应被本发明的实施例所属技术领域的技术人员所理解。 [0128] In the flowchart in any process or method or otherwise described in this description may be understood as representing modules comprises one or more steps for implementing specific logical functions or processes executable instructions, fragment or portion, and the scope of the preferred embodiment of the present invention includes other implementations, which may be shown or discussed in order not press, comprising a substantially simultaneous manner or in reverse order, depending upon the functionality to perform the functions involved it should be understood that embodiments skilled in the art of the present invention.

[0129] 在流程图中表示或在此以其他方式描述的逻辑和/或步骤,例如,可以被认为是用于实现逻辑功能的可执行指令的定序列表,可以具体实现在任何计算机可读介质中,以供指令执行系统、装置或设备(如基于计算机的系统、包括处理器的系统或其他可以从指令执行系统、装置或设备取指令并执行指令的系统)使用,或结合这些指令执行系统、装置或设备而使用。 [0129] or represents a logical and / or steps described herein in other ways, for example, may be considered as a sequencing table executable instructions for implementing logical functions in the flowcharts, can be embodied in any computer-readable medium to instruction execution system, apparatus, or device (e.g., computer-based system, processor-containing system, or other system may be performed from instruction fetch apparatus, or device and execute the instructions) using, instruction execution, or a combination of these system, apparatus, or device used. 就本说明书而言,"计算机可读介质"可以是任何可以包含、存储、通信、传播或传输程序以供指令执行系统、装置或设备或结合这些指令执行系统、装置或设备而使用的装置。 For purposes of this specification, a "computer-readable medium" can be any means can comprise, store, communicate, propagate, or transport the program for instruction execution system, apparatus, or device, or with the instruction execution system, apparatus, or device and used. 计算机可读介质的更具体的示例(非穷尽性列表)包括以下:具有一个或多个布线的电连接部(电子装置),便携式计算机盘盒(磁装置),随机存取存储器(RAM),只读存储器(R0M),可擦除可编辑只读存储器(EPR0M或闪速存储器),光纤装置,以及便携式光盘只读存储器(⑶ROM)。 More specific examples (a non exhaustive list) of the computer-readable medium comprising: an electrical connection (electronic device) having one or more wires, a portable computer diskette cartridge (magnetic device), a random access memory (RAM), a read only memory (R0M), erasable read-only memory edit (EPR0M or flash memory), an optical fiber device, and a portable compact disc read-only memory (⑶ROM). 另外,计算机可读介质甚至可以是可在其上打印所述程序的纸或其他合适的介质,因为可以例如通过对纸或其他介质进行光学扫描,接着进行编辑、解译或必要时以其他合适方式进行处理来以电子方式获得所述程序,然后将其存储在计算机存储器中。 Further, the computer-readable medium could even be paper or another suitable medium upon which the program is printed, as can, for example paper or other medium by optical scanning, and then edited, if necessary, interpreted, or otherwise suitable to be processed using the program obtained electronically, and then stored in a computer memory.

[0130] 应当理解,本发明的各部分可以用硬件、软件、固件或它们的组合来实现。 [0130] It should be understood that various portions of the present invention may be implemented in hardware, software, firmware or a combination thereof to achieve. 在上述实施方式中,多个步骤或方法可以用存储在存储器中且由合适的指令执行系统执行的软件或固件来实现。 In the above-described embodiment, a plurality of steps or methods may be implemented in software or firmware and executed by a suitable system executing instructions stored in a memory with. 例如,如果用硬件来实现,和在另一实施方式中一样,可用本领域公知的下列技术中的任一项或他们的组合来实现:具有用于对数据信号实现逻辑功能的逻辑门电路的离散逻辑电路,具有合适的组合逻辑门电路的专用集成电路,可编程门阵列(PGA),现场可编程门阵列(FPGA)等。 For example, if implemented in hardware, as in another embodiment, the present technique may be any one of the following well-known in the art, or their combination thereof: a logic gate circuit for implementing logic functions upon data signals discrete logic circuits having appropriate combinational logic gate circuit ASIC, a programmable gate array (PGA), a field programmable gate array (FPGA) and the like.

[0131] 本技术领域的普通技术人员可以理解实现上述实施例方法携带的全部或部分步骤是可以通过程序来指令相关的硬件完成,所述的程序可以存储于一种计算机可读存储介质中,该程序在执行时,包括方法实施例的步骤之一或其组合。 [0131] skilled in the art can understand that ordinary method embodiments that all or part of the steps may be by a program instructing relevant hardware, the program may be stored in a computer-readable storage medium, one of the steps in the implementation of the embodiment of the method includes the program, or combinations thereof.

[0132] 此外,在本发明各个实施例中的各功能单元可以集成在一个处理模块中,也可以是各个单元单独物理存在,也可以两个或两个以上单元集成在一个模块中。 [0132] In addition, the functional units may be integrated in one processing module, or may be physically separate units exist, may be two or more units are integrated in a module in various embodiments of the present invention. 上述集成的模块既可以采用硬件的形式实现,也可以采用软件功能模块的形式实现。 The integrated module may be implemented in the form of hardware, software functional modules may also be implemented. 所述集成的模块如果以软件功能模块的形式实现并作为独立的产品销售或使用时,也可以存储在一个计算机可读取存储介质中。 If the integrated module is implemented as an independent product sold or used in the form of a software functional module, it may be stored in a computer-readable storage medium.

[0133] 上述提到的存储介质可以是只读存储器,磁盘或光盘等。 [0133] The storage medium may be a read-only memory, magnetic or optical disk.

[0134] 在本说明书的描述中,参考术语“一个实施例”、“一些实施例”、“示例”、“具体示例”、或“一些示例”等的描述意指结合该实施例或示例描述的具体特征、结构、材料或者特点包含于本发明的至少一个实施例或示例中。 [0134] In the description of the present specification, reference to the term "one embodiment," "some embodiments", "an example", "a specific example", or "some examples" means that a description of the exemplary embodiment or embodiments described a particular feature, structure, material, or characteristic is included in at least one embodiment of the present invention, embodiments or examples. 在本说明书中,对上述术语的示意性表述不一定指的是相同的实施例或示例。 In the present specification, a schematic representation of the above terms necessarily referring to the same embodiment or example. 而且,描述的具体特征、结构、材料或者特点可以在任何的一个或多个实施例或示例中以合适的方式结合。 Furthermore, the particular features, structures, materials, or characteristics described embodiments or examples may be at any one or more in a proper manner.

[0135] 尽管已经示出和描述了本发明的实施例,本领域的普通技术人员可以理解:在不脱离本发明的原理和宗旨的情况下可以对这些实施例进行多种变化、修改、替换和变型,本发明的范围由权利要求及其等同限定。 [0135] While there has been illustrated and described embodiments of the present invention, those of ordinary skill in the art can be appreciated: that various changes may be made to these embodiments without departing from the principles and spirit of the invention, modifications, substitutions and modifications, the scope of the invention defined by the appended claims and their equivalents.

Claims (35)

  1. 1.一种用户行为采集系统,其特征在于,包括: 至少一个母设备,所述至少一个母设备用于以第一无线探测方式对用户进行定位,以获取所述用户的第一定位信息; 至少一个子设备组,所述每个子设备组包括至少一个子设备,且所述每个子设备组属于一个母设备,所述每个子设备组中的子设备均与所述母设备进行通信,且每个所述子设备组中的子设备用于以第二无线探测方式对用户进行定位以获取所述用户的第二定位信息,并将所述用户的第二定位信息发送至所属的母设备;以及服务器,所述服务器与所述至少一个母设备相连,所述服务器用于采集所述用户的第一定位信息和第二定位信息。 A user behavior acquisition system, characterized by comprising: at least one master device, said at least one master device for detecting a first embodiment of a wireless user positioning, to obtain first location information of the user; the at least one sub-device group, the device group each comprises at least one sub-child device and the child device in each group belong to one parent device, each of the sub-child device in the device group are communicating with the master device, and each said sub-child device in the device group to a second embodiment of a wireless probe user positioning to obtain location information of the second user and the second user transmits location information to the master device belongs ; and a server connected to the at least one master device, said server for acquiring location information of the first user and the second location information.
  2. 2.如权利要求1所述的用户行为采集系统,其特征在于,所述至少一个母设备,还用于以第二无线探测方式对用户进行定位以获取所述用户的第二定位信息。 2. The user behavior of the acquisition system of claim 1, wherein said at least one master device is further configured to detect a second embodiment of the wireless user to obtain positioning of the second user location information.
  3. 3.如权利要求1所述的用户行为采集系统,其特征在于,所述每个子设备组中的子设备通过蓝牙或WIFI与所属的母设备进行通信。 User behavior according to claim 1 collection system, wherein each of the sub-child device in the device group to communicate with via Bluetooth or WIFI parent device belongs.
  4. 4.如权利要求1所述的用户行为采集系统,其特征在于,所述第一无线探测方式为WIFI探测方式,所述第二无线探测方式为iBeacon蓝牙方式。 4. The behavior of the user collection system according to claim 1, wherein said first mode is WIFI wireless probe detection methods, the detection of the second wireless mode is Bluetooth iBeacon mode.
  5. 5.如权利要求4所述的用户行为采集系统,其特征在于,所述母设备具有蓝牙主动装置,所述子设备具有蓝牙从动装置,所述子设备通过所述蓝牙从动装置广播具有WD的信号,所述母设备检测到广播的所述UID之后,建立与所述子设备的连接。 5. The user behavior according to claim 4 acquisition system, wherein said master active device having a Bluetooth device, the Bluetooth slave child device, the child device via the Bluetooth slave device broadcasting having WD signal, the master device after detecting the broadcast UID establish a connection with the child device.
  6. 6.如权利要求5所述的用户行为采集系统,其特征在于,所述母设备还用于接收所述服务器的配置信息,所述配置信息包括属于所述母设备的子设备的WD,以使所述母设备仅接受属于母设备的子设备的UID。 6. The user behavior according to claim 5 collection system, wherein said master device is further configured to receive the configuration information of the server, the configuration information comprises WD device belonging to the sub-master device to the master device belonging to a parent device to accept only UID child devices.
  7. 7.如权利要求5所述的用户行为采集系统,其特征在于,所述母设备还用于获取所述子设备的电量及信号强度信息。 7. The user behavior according to claim 5 collection system, wherein said master device further configured to obtain power and signal strength information of the child device.
  8. 8.如权利要求5所述的用户行为采集系统,其特征在于,所述母设备还用于根据所述子设备的信号强度信息获取所述子设备的位置信息,并生成子设备地图。 8. The user behavior to claim 5, wherein collecting system, characterized in that said apparatus further configured to obtain said master device according to the sub-sub-device signal strength of the position information, and generating sub-device map.
  9. 9.如权利要求1所述的用户行为采集系统,其特征在于,所述子设备包括: 蓝牙低功耗BLE芯片,所述BLE芯片用于通过第二无线探测方式对用户进行定位,并与所属的母设备进行通信; 为所述BLE芯片供电的电池。 9. The user behavior of the acquisition system of claim 1, wherein the child device comprises: BLE Bluetooth low-power chip, for positioning the chip BLE second wireless user detection methods, and with communicating the master device belongs; BLE said battery-powered chip.
  10. 10.如权利要求1所述的用户行为采集系统,其特征在于,所述服务器还用于根据所述用户的第一定位信息和第二定位信息生成所述用户的位置信息,并根据所述用户的位置信息分析所述用户的行为信息。 10. The user behavior of the collection system according to claim 1, characterized in that said server is further configured to position a first information according to the user location information and user information to generate the second location, and in accordance with the analyzing the location information of the user behavior information of the user.
  11. 11.如权利要求10所述的用户行为采集系统,其特征在于,所述服务器还用于根据所述用户的行为信息对所述用户进行推送。 11. The user behavior of the collection system of claim 10, wherein said server is further used to push the user according to the user behavior information.
  12. 12.—种用户行为采集方法,其特征在于,包括: 母设备以第一无线探测方式对用户进行定位,以获取所述用户的第一定位信息; 所述母设备接收属于所述母设备的子设备组发送的所述用户的第二定位信息; 所述母设备将所述用户的第一定位信息和第二定位信息发送至服务器。 12.- kinds of user behavior acquisition method, characterized by comprising: a master device to a first embodiment of a wireless probe user positioning, to obtain first location information of the user; receiving the master device belonging to the parent apparatus second location information of the user transmitted sub-device group; the master device, the user of the first location information and second location information to the server.
  13. 13.如权利要求12所述的用户行为采集方法,其特征在于,还包括:所述母设备以第二无线探测方式对用户进行定位以获取所述用户的第二定位信息。 13. The user behavior collected claim 12, characterized in that, further comprising: said master device to a second wireless mode detection target users to obtain location information of the second user.
  14. 14.如权利要求12所述的用户行为采集方法,其特征在于,所述子设备组中的子设备通过蓝牙或WIFI与所述母设备进行通信。 14. The user behavior collected claim 12, characterized in that the sub-child device in the device group via Bluetooth or WIFI communication with the master device.
  15. 15.如权利要求13所述的用户行为采集方法,其特征在于,所述第一无线探测方式为WIFI探测方式,所述第二无线探测方式为iBeacon蓝牙方式。 15. The user behavior of the collection method of claim 13, wherein said first mode is WIFI wireless probe detection methods, the detection of the second wireless mode is Bluetooth iBeacon mode.
  16. 16.如权利要求15所述的用户行为采集方法,其特征在于,所述母设备具有蓝牙主动装置,所述子设备具有蓝牙从动装置,所述子设备通过所述蓝牙从动装置广播具有WD的信号,所述母设备检测到广播的所述UID之后,建立与所述子设备的连接。 16. The user behavior of the collection method of claim 15, wherein said master active device having a Bluetooth device, the Bluetooth slave child device, the child device via the Bluetooth slave device broadcasting having WD signal, the master device after detecting the broadcast UID establish a connection with the child device.
  17. 17.如权利要求16所述的用户行为采集方法,其特征在于,还包括: 所述母设备接收所述服务器的配置信息,所述配置信息包括属于所述母设备的子设备的WD,以使所述母设备仅接受属于母设备的子设备的WD。 17. The user behavior of the acquisition method of claim 16, characterized by further comprising: a master device receives the configuration information of the server, the configuration information includes sub-WD device belonging to the parent apparatus, to only accept the master device belonging to a parent device WD child devices.
  18. 18.如权利要求16所述的用户行为采集方法,其特征在于,还包括: 所述母设备获取所述子设备的电量及信号强度信息。 18. The user behavior of the acquisition method of claim 16, characterized by further comprising: acquiring the master device and the sub power device signal strength information.
  19. 19.如权利要求16所述的用户行为采集方法,其特征在于,还包括: 所述母设备根据所述子设备组中子设备的信号强度信息获取所述子设备的位置信息,并生成子设备地图。 19. The user behavior of the acquisition method of claim 16, characterized by further comprising: the master device acquires the position information of the child device in accordance with signal strength of the sub-group neutron device information of the device, and generation sub device map.
  20. 20.一种用于权利要求1所述的采集系统的用户行为采集方法,其特征在于,包括: 子设备以第二无线探测方式对用户进行定位以获取所述用户的第二定位信息; 所述子设备将所述用户的第二定位信息发送至所属的母设备,以使所述母设备将所述第二定位信息发送至服务器。 20. A user behavior collection system as claimed in claim 1, said acquisition method characterized by comprising: a child device in a second embodiment of a wireless probe user positioning to obtain location information of the second user; the said sub-device, the second user transmits location information to the master device belongs, to the master device transmits the location information to the second server.
  21. 21.如权利要求20所述的用户行为采集方法,其特征在于,所述子设备通过蓝牙或WIFI与所述母设备进行通信。 21. The behavior of the user collection method of claim 20, wherein the child device via Bluetooth or WIFI communication with the master device.
  22. 22.如权利要求20所述的用户行为采集方法,其特征在于,所述第二无线探测方式为iBeacon蓝牙方式。 22. The behavior of the user collection method of claim 20, wherein the second detection mode is iBeacon Bluetooth wireless manner.
  23. 23.如权利要求22所述的用户行为采集方法,其特征在于,所述母设备具有蓝牙主动装置,所述子设备具有蓝牙从动装置,所述子设备通过所述蓝牙从动装置广播具有WD的信号,所述母设备检测到广播的所述UID之后,建立与所述子设备的连接。 23. The behavior of the user of the acquisition method of claim 22, wherein said master active device having a Bluetooth device, the Bluetooth slave child device, the child device via the Bluetooth slave device broadcasting having WD signal, the master device after detecting the broadcast UID establish a connection with the child device.
  24. 24.一种母设备,其特征在于,包括: 第一探测模块,用于以第一无线探测方式对用户进行定位,以获取所述用户的第一定位信息; 通信模块,用于接收属于所述母设备的子设备组发送的所述用户的第二定位信息; 发送模块,用于将所述用户的第一定位信息和第二定位信息发送至服务器。 24. A master apparatus comprising: a first detecting means for detecting a first embodiment of a wireless user positioned, to obtain a first position the user information; and a communication module for receiving belonging to the second location information of the user of said sub-device group parent device transmitted; transmitting means for transmitting location information of the first user and the second location information to the server.
  25. 25.如权利要求24所述的母设备,其特征在于,还包括: 第二探测模块,用于以第二无线探测方式对用户进行定位以获取所述用户的第二定位信息。 25. The apparatus of claim 24, wherein the parent claims, characterized in that, further comprising: second detecting means for detecting a second embodiment of the wireless user to obtain positioning of the second user location information.
  26. 26.如权利要求24所述的母设备,其特征在于,所述通信模块通过蓝牙或WIFI与所述子设备组中的子设备进行通信。 26. The apparatus of claim 24 female as claimed in claim, wherein the communication module communicates via Bluetooth or WIFI device group with the sub-child device.
  27. 27.如权利要求25所述的母设备,其特征在于,所述第一无线探测方式为WIFI探测方式,所述第二无线探测方式为iBeacon蓝牙方式。 27. The parent apparatus as claimed in claim 25, wherein said first mode is WIFI wireless probe detection methods, the detection of the second wireless mode is Bluetooth iBeacon mode.
  28. 28.如权利要求27所述的母设备,其特征在于,所述通信模块为蓝牙主动装置,具体用于检测所述子设备通过蓝牙从动装置广播的WD的信号,并于在检测到广播的所述WD之后,建立与所述子设备的连接。 28. The parent apparatus as claimed in claim 27, wherein said active device is a Bluetooth communication module, particularly for detecting the sub-device through a Bluetooth slave signal WD broadcast, and the broadcast is detected in after the WD, establish a connection with the child device.
  29. 29.如权利要求28所述的母设备,其特征在于,还包括: 接收模块,用于接收所述服务器的配置信息,所述配置信息包括所述子设备组中每个子设备的WD,以使所述通信模块仅接受所述子设备组中的子设备的WD。 29. The parent apparatus as claimed in claim 28, characterized in that, further comprising: a receiving module, for receiving configuration information of the server, the configuration information includes device WD of the sub-groups of each sub-device to the communication module accepts only the sub-child device WD device group.
  30. 30.如权利要求28所述的母设备,其特征在于,还包括: 获取模块,用于获取所述子设备的电量及信号强度信息。 The parent device 28 as claimed in claim 30., characterized in that, further comprising: an obtaining module, configured to obtain the signal strength information of the sub power device.
  31. 31.如权利要求28所述的母设备,其特征在于,还包括: 生成模块,用于根据所述子设备组中子设备的信号强度信息获取所述子设备的位置信息,并生成子设备地图。 31. The parent apparatus as claimed in claim 28, characterized in that, further comprising: a generating module, configured to obtain location information of the child device based on signal strength of the sub-group neutron device information of the device, and generating sub-device map.
  32. 32.—种子设备,其特征在于,包括: 蓝牙低功耗BLE芯片,所述BLE芯片用于通过第二无线探测方式对用户进行定位,并与所属的母设备进行通信; 为所述BLE芯片供电的电池。 32.- seed device, characterized by comprising: BLE Bluetooth low energy chip, a chip for positioning BLE second wireless user detection methods, and communicates with the master device belongs; BLE to the chip battery powered.
  33. 33.如权利要求32所述的子设备,其特征在于,还包括: WIFI芯片,所述WIFI芯片用于与所述母设备进行通信; 所述电池还用于为所述WIFI芯片供电。 33. The apparatus according to sub-claim 32, characterized in that, further comprising: WIFI chip, the WIFI chip for communicating with the master device; said further battery power for said WIFI chip.
  34. 34.如权利要求32所述的子设备,其特征在于,所述第二无线探测方式为iBeacon蓝牙方式。 34. The apparatus according to sub-claim 32, wherein said second detection mode is iBeacon Bluetooth wireless manner.
  35. 35.如权利要求34所述的子设备,其特征在于,所述蓝牙低功耗BLE芯片具体用于广播具有WD的信号,并在所述母设备中的蓝牙主动装置检测到广播的所述UID之后,建立与所述母设备的连接。 35. The apparatus according to sub-claim 34, wherein said low-power BLE Bluetooth chip having a particular broadcast signal WD, and the master Bluetooth device in the active device detected broadcast after UID, establish a connection with the parent device.
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