CN112511967B

CN112511967B - Method and equipment for sending terminal detection information

Info

Publication number: CN112511967B
Application number: CN201910791051.3A
Authority: CN
Inventors: 陈大年; 张华嘉
Original assignee: Shanghai Lianshang Network Technology Co Ltd
Current assignee: Shanghai Lianshang Network Technology Co Ltd
Priority date: 2019-08-26
Filing date: 2019-08-26
Publication date: 2023-02-28
Anticipated expiration: 2039-08-26
Also published as: CN112511967A

Abstract

The purpose of the present application is to provide a method and a device for sending terminal probe information, wherein the method comprises: acquiring at least one piece of real-time position information corresponding to probe equipment and terminal detection information corresponding to each piece of real-time position information, wherein the terminal detection information corresponding to each piece of real-time position information is acquired by detecting the probe equipment in a detection range corresponding to the real-time position information, and the terminal detection information corresponding to each piece of real-time position information comprises identification information of at least one terminal detected in the detection range corresponding to the real-time position information; and sending the at least one piece of real-time position information and the terminal detection information corresponding to each piece of real-time position information to network equipment. According to the method and the device, a plurality of terminal devices detected by the probe device can be filtered to obtain the effective terminal devices corresponding to the probe device, so that redundant data and dirty data are eliminated, and distribution information of the terminal devices corresponding to the probe device is further obtained.

Description

Method and equipment for sending terminal detection information

Technical Field

The present application relates to the field of communications, and in particular, to a technique for transmitting terminal probe information.

Background

The principle of the probe device is that wireless signals sent by modules such as Wi-Fi, bluetooth and NFC provided by an intelligent device provider are used for sensing the terminal device, so that the probe device or other devices connected with the probe device are connected with the terminal device sending the wireless signals.

Disclosure of Invention

An object of the present application is to provide a method and apparatus for transmitting terminal probe information.

According to an aspect of the present application, there is provided a method of transmitting terminal probe information, the method including: acquiring at least one piece of real-time position information corresponding to probe equipment and terminal detection information corresponding to each piece of real-time position information, wherein the terminal detection information corresponding to each piece of real-time position information is acquired by detecting the probe equipment in a detection range corresponding to the real-time position information, and the terminal detection information corresponding to each piece of real-time position information comprises identification information of at least one terminal detected in the detection range corresponding to the real-time position information; and sending the at least one piece of real-time position information and the terminal detection information corresponding to each piece of real-time position information to network equipment.

According to another aspect of the present application, there is provided a method of obtaining terminal sounding information, the method including: receiving at least one piece of real-time position information sent by probe equipment and terminal detection information corresponding to each piece of real-time position information, wherein the terminal detection information corresponding to each piece of real-time position information is obtained by detecting the probe equipment in a detection range corresponding to the real-time position information, and the terminal detection information corresponding to each piece of real-time position information comprises identification information of at least one terminal detected in the detection range corresponding to the real-time position information; determining all terminals detected by the probe equipment according to the terminal detection information corresponding to each piece of real-time position information; determining a plurality of effective terminals corresponding to the probe equipment according to a preset filtering condition; and acquiring terminal distribution information corresponding to the probe equipment according to the at least one piece of real-time position information and the terminal detection information corresponding to the plurality of effective terminals.

According to an aspect of the present application, there is provided a probe apparatus for transmitting terminal probe information, the apparatus including: a module, configured to obtain at least one piece of real-time location information corresponding to the probe device and terminal detection information corresponding to each piece of real-time location information, where the terminal detection information corresponding to each piece of real-time location information is obtained by detecting the probe device in a detection range corresponding to the real-time location information, and the terminal detection information corresponding to each piece of real-time location information includes identification information of at least one terminal detected in the detection range corresponding to the real-time location information; and the second module is used for sending the at least one piece of real-time position information and the terminal detection information corresponding to each piece of real-time position information to the network equipment.

According to another aspect of the present application, there is provided a network device for obtaining terminal probe information, the device including: the module is used for receiving at least one piece of real-time position information sent by the probe equipment and terminal detection information corresponding to each piece of real-time position information, wherein the terminal detection information corresponding to each piece of real-time position information is obtained by detecting the probe equipment in a detection range corresponding to the real-time position information, and the terminal detection information corresponding to each piece of real-time position information comprises identification information of at least one terminal detected in the detection range corresponding to the real-time position information; the second module is used for determining all terminals detected by the probe equipment according to the terminal detection information corresponding to each piece of real-time position information; a second module and a third module, which are used for determining a plurality of effective terminals corresponding to the probe equipment according to a preset filtering condition; and the second module and the fourth module are used for acquiring terminal distribution information corresponding to the probe equipment according to the at least one piece of real-time position information and the terminal detection information corresponding to the plurality of effective terminals.

According to an aspect of the present application, there is provided an apparatus for transmitting terminal probe information, wherein the apparatus includes: acquiring at least one piece of real-time position information corresponding to probe equipment and terminal detection information corresponding to each piece of real-time position information, wherein the terminal detection information corresponding to each piece of real-time position information is obtained by detecting the probe equipment in a detection range corresponding to the real-time position information, and the terminal detection information corresponding to each piece of real-time position information comprises identification information of at least one terminal detected in the detection range corresponding to the real-time position information; and sending the at least one piece of real-time position information and the terminal detection information corresponding to each piece of real-time position information to network equipment.

According to an aspect of the present application, there is provided an apparatus for obtaining terminal sounding information, wherein the apparatus includes: receiving at least one piece of real-time position information sent by probe equipment and terminal detection information corresponding to each piece of real-time position information, wherein the terminal detection information corresponding to each piece of real-time position information is obtained by detecting the probe equipment in a detection range corresponding to the real-time position information, and the terminal detection information corresponding to each piece of real-time position information comprises identification information of at least one terminal detected in the detection range corresponding to the real-time position information; determining all terminals detected by the probe equipment according to the terminal detection information corresponding to each piece of real-time position information; determining a plurality of effective terminals corresponding to the probe equipment according to a preset filtering condition; and acquiring terminal distribution information corresponding to the probe equipment according to the at least one piece of real-time position information and the terminal detection information corresponding to the plurality of effective terminals.

According to one aspect of the application, there is provided a computer-readable medium storing instructions that, when executed, cause a system to: acquiring at least one piece of real-time position information corresponding to probe equipment and terminal detection information corresponding to each piece of real-time position information, wherein the terminal detection information corresponding to each piece of real-time position information is acquired by detecting the probe equipment in a detection range corresponding to the real-time position information, and the terminal detection information corresponding to each piece of real-time position information comprises identification information of at least one terminal detected in the detection range corresponding to the real-time position information; and sending the at least one piece of real-time position information and the terminal detection information corresponding to each piece of real-time position information to network equipment.

According to another aspect of the application, there is provided a computer-readable medium storing instructions that, when executed, cause a system to: receiving at least one piece of real-time position information sent by probe equipment and terminal detection information corresponding to each piece of real-time position information, wherein the terminal detection information corresponding to each piece of real-time position information is obtained by detecting the probe equipment in a detection range corresponding to the real-time position information, and the terminal detection information corresponding to each piece of real-time position information comprises identification information of at least one terminal detected in the detection range corresponding to the real-time position information; determining all terminals detected by the probe equipment according to the terminal detection information corresponding to each piece of real-time position information; determining a plurality of effective terminals corresponding to the probe equipment according to a preset filtering condition; and acquiring terminal distribution information corresponding to the probe equipment according to the at least one piece of real-time position information and the terminal detection information corresponding to the plurality of effective terminals.

Compared with the prior art, the method and the device have the advantages that the movable probe equipment is implanted into the offline information publishing equipment, at least one real-time position corresponding to the probe equipment and the terminal equipment detected in the detection range corresponding to each real-time position are obtained, the terminal equipment is sent to the network equipment, the network equipment filters the terminal equipment detected by the probe equipment to obtain the effective terminal equipment corresponding to the probe equipment, redundant data and dirty data are removed, and distribution information of the terminal equipment corresponding to the probe equipment is further obtained.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

fig. 1 illustrates a flow diagram of a method of sending terminal probe information according to some embodiments of the present application;

fig. 2 illustrates a flow diagram of a method of obtaining terminal probe information according to some embodiments of the present application;

FIG. 3 illustrates a flow diagram of a system method for obtaining terminal probe information according to some embodiments of the present application;

FIG. 4 illustrates a probe device structure diagram for transmitting terminal probing information according to some embodiments of the present application;

FIG. 5 illustrates a network device architecture diagram for obtaining terminal probe information according to some embodiments of the present application;

fig. 6 illustrates an exemplary system that may be used to implement some embodiments in the present application.

The same or similar reference numbers in the drawings identify the same or similar elements.

Detailed Description

The present application is described in further detail below with reference to the attached drawing figures.

In a typical configuration of the present application, the terminal, the device serving the network, and the trusted party each include one or more processors (CPUs), input/output interfaces, network interfaces, and memory.

The memory may include forms of volatile memory in a computer readable medium, random Access Memory (RAM) and/or non-volatile memory, such as Read Only Memory (ROM) or flash memory (flash RAM). Memory is an example of a computer-readable medium.

Computer-readable media, including both permanent and non-permanent, removable and non-removable media, may implement the information storage by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of computer storage media include, but are not limited to, phase change memory (PRAM), static Random Access Memory (SRAM), dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), read Only Memory (ROM), electrically Erasable Programmable Read Only Memory (EEPROM), flash memory or other memory technology, compact disc read only memory (CD-ROM), digital Versatile Discs (DVD) or other optical storage, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other non-transmission medium that can be used to store information that can be accessed by a computing device.

The device referred to in this application includes, but is not limited to, a user device, a network device, or a device formed by integrating a user device and a network device through a network. The user equipment includes, but is not limited to, any mobile electronic product, such as a smart phone, a tablet computer, etc., capable of performing human-computer interaction with a user (e.g., human-computer interaction through a touch panel), and the mobile electronic product may employ any operating system, such as an android operating system, an iOS operating system, etc. The network device includes an electronic device capable of automatically performing numerical calculation and information processing according to a preset or stored instruction, and hardware thereof includes, but is not limited to, a microprocessor, an Application Specific Integrated Circuit (ASIC), a Programmable Logic Device (PLD), a Field Programmable Gate Array (FPGA), a Digital Signal Processor (DSP), an embedded device, and the like. The network device includes but is not limited to a computer, a network host, a single network server, a plurality of network server sets or a cloud of a plurality of servers; here, the Cloud is composed of a large number of computers or web servers based on Cloud Computing (Cloud Computing), which is a kind of distributed Computing, one virtual supercomputer consisting of a collection of loosely coupled computers. Including, but not limited to, the internet, a wide area network, a metropolitan area network, a local area network, a VPN network, a wireless Ad Hoc network (Ad Hoc network), etc. Preferably, the device may also be a program running on the user device, the network device, or a device formed by integrating the user device and the network device, the touch terminal, or the network device and the touch terminal through a network.

Of course, those skilled in the art will appreciate that the foregoing is by way of example only, and that other existing or future devices, which may be suitable for use in the present application, are also encompassed within the scope of the present application and are hereby incorporated by reference.

In the description of the present application, "a plurality" means two or more unless specifically defined otherwise.

Fig. 1 shows a flowchart of a method for sending terminal probe information according to an embodiment of the present application, where the method includes step S11 and step S12. In step S11, the probe device obtains at least one piece of real-time location information corresponding to the probe device, and terminal detection information corresponding to each piece of real-time location information, where the terminal detection information corresponding to each piece of real-time location information is obtained by the probe device detecting within a detection range corresponding to the real-time location information, and the terminal detection information corresponding to each piece of real-time location information includes identification information of at least one terminal detected within the detection range corresponding to the real-time location information; in step S12, the probe device sends the at least one piece of real-time location information and the terminal probe information corresponding to each piece of real-time location information to the network device.

In step S11, the probe device obtains at least one piece of real-time location information corresponding to the probe device, and terminal detection information corresponding to each piece of real-time location information, where the terminal detection information corresponding to each piece of real-time location information is obtained by the probe device performing detection in a detection range corresponding to the real-time location information, and the terminal detection information corresponding to each piece of real-time location information includes identification information of at least one terminal detected in the detection range corresponding to the real-time location information. The principle of the probe device is that wireless signals sent by modules such as Wi-Fi, bluetooth and NFC provided by intelligent equipment manufacturers are used for sensing terminal equipment. In some embodiments, the probe device includes, but is not limited to, a terminal device (e.g., a wifi probe) that is located within a certain detection range (e.g., 5 meters) near the terminal device by using wifi, bluetooth, NFC, or other detection methods, the identification information of the terminal device includes, but is not limited to, information that can uniquely identify the terminal device, a mac address of the terminal device can be used as the identification information of the terminal device, a real-time location of the probe device can be fixed or movable, the probe device can be implanted into an offline information distribution device (e.g., wallpaper, multimedia display, mobile billboard, etc.), and the probe device can select at least one piece of real-time location information from one or more pieces of real-time location information corresponding to one or more pieces of real-time location information (e.g., longitude and latitude), wherein the at least one piece of real-time location information satisfies that a staying time of the probe device at the real-time location is greater than or equal to a predetermined time threshold (e.g., 5 minutes). For example, the wifi probe acquires real-time location information LA corresponding to the wifi probe and terminal detection information "MAC _ a, MAC _ B" corresponding to the real-time location information LA, which indicates that the wifi probe detects a terminal device with MAC address "MAC _ a" and a terminal device with MAC address "MAC _ B" in a detection range corresponding to the real-time location information LA, and "MAC _ a" and "MAC _ B" are identification information of the detected terminal devices.

In step S12, the probe device sends the at least one piece of real-time location information and the terminal probe information corresponding to each piece of real-time location information to the network device. In the above example, the wifi probe sends the real-time location information LA and the terminal detection information "MAC _ a" corresponding to the real-time location information LA to the network device.

In some embodiments, the terminal probe information corresponding to each real-time location information further includes entry probe time information and exit probe time information of the at least one terminal. In some embodiments, the entering detection time information of the terminal is a time when the terminal enters a detection range of the probe device, a time when the terminal is detected for the first time within the detection range of the probe device may be taken as the entering detection time information of the terminal, the leaving detection time information of the terminal is a time when the terminal leaves the detection range of the probe device, and a time when the terminal is detected for the last time within the detection range of the probe device may be taken as the leaving detection time information of the terminal. For example, the terminal probe information corresponding to the real-time location information LA further includes "MAC _ a entry probe time: 5 point 20 min 15 sec, MAC _ a left probe time: 5 points, 21 minutes, 20 seconds ".

In some embodiments, the terminal probing information corresponding to each real-time location information further includes probing strength variation information corresponding to each terminal. In some embodiments, the probe strength includes, but is not limited to, wifi signal strength, bluetooth signal strength, and the like. For example, the terminal detection information corresponding to the real-time location information LA further includes that "the wifi signal strength corresponding to the MAC _ a in the time range TA-TB is-80 dbm, and the wifi signal strength corresponding to the time range TB-TC is-60 dbm".

In some embodiments, the method further comprises: the probe equipment acquires detection requirement information corresponding to the probe equipment, and sets or modifies parameter information of the probe equipment according to the detection requirement information. In some embodiments, the acquisition means includes, but is not limited to, acquisition from a server, acquisition locally from the probe device, acquisition of probe demand information entered by maintenance personnel of the probe device. For example, the wifi probe acquires the detection requirement information from the server, and the parameter information of the wifi probe is dynamically set or modified according to the detection requirement information.

In some embodiments, the detecting requirement information includes detecting range information, and the setting or modifying the parameter information of the probe device according to the detecting requirement information includes: setting or modifying the detection range of the probe device according to the detection range information. For example, the detection requirement information includes "detection range 2 meters", and the wifi probe sets or modifies the detection range of the wifi probe to 2 meters according to the detection requirement information, so that only the terminal device within 2 meters near the wifi probe is detected.

In some embodiments, the probe requirement information includes terminal filtering condition information, and the setting or modifying the parameter information of the probe device according to the probe requirement information includes: setting or modifying the filtering condition of the probe equipment according to the terminal filtering condition information; wherein the step S11 includes: and acquiring at least one piece of real-time position information corresponding to the probe equipment, and acquiring terminal detection information corresponding to one or more terminals in a detection range corresponding to the real-time position information for each piece of real-time position information, wherein the one or more terminals are in the detection range of the probe equipment and meet the filtering condition of the probe equipment. In some embodiments, the terminal filtering condition information is used to filter terminals that do not meet the predetermined condition, and only detect terminals that meet the predetermined condition. For example, the detection requirement information includes "only detect the terminal of the manufacturer FA", and the wifi probe sets or modifies the filtering condition of the wifi probe to only detect the terminal of the manufacturer FA according to the detection requirement, so as to obtain the manufacturer information corresponding to the terminal according to the mac address of the detected terminal, thereby filtering out the terminal whose manufacturer information is not "manufacturer FA".

In some embodiments, the method further comprises: the probe equipment sequences the acquired real-time position information according to a preset sequencing condition, and sends the real-time position information and the terminal detection information corresponding to each piece of real-time position information to the network equipment according to a sequencing result. In some embodiments, the predetermined ordering condition includes, but is not limited to, chronological order based on the plurality of real-time location information acquired for the probe device, geographic location order based on the plurality of real-time location information acquired for the probe device (e.g., in order of geographic location from west to east). For example, the terminal probe information corresponding to the real-time location information LA is "MAC _ a", the terminal probe information corresponding to the real-time location information LB is "MAC _ B", the time for acquiring the real-time location information LA is "5 o 'clock 20 minutes", the time for acquiring the real-time location information LB is "4 o' clock 10 minutes", the two pieces of real-time location information are sorted according to the time for acquiring the real-time location information LB prior to the time for acquiring the real-time location information LA, and the two pieces of real-time location information and the corresponding terminal probe information "LB: MAC _ B, LA: MAC _ a "is sent to the network device.

In some embodiments, the method further comprises: and the probe equipment receives the release indication information from the network equipment and presents corresponding release information according to the release indication information. In some embodiments, the publishing information includes, but is not limited to, a picture, a text, an audio, a video, and the like, and the publishing indication information includes, but is not limited to, an id, a local storage path, a link address, and the like corresponding to the publishing information. For example, the wifi probe receives the release indication information "link address: and UrlA ' acquires the corresponding video resource from the server according to the link address ' UrlA ', and displays the video resource on a display screen corresponding to the wifi probe.

In some embodiments, the release indication information includes, but is not limited to:

1) Published content that needs to be presented

For example, if the distribution information is a picture, audio or video, the distribution content may be a corresponding binary file stream, and if the distribution information is a text, the distribution content may be a corresponding text content.

2) Identification information corresponding to published content to be presented

For example, the identification information may be an id, a local storage path, a link address, etc. corresponding to the publishing information.

3) The release time corresponding to the release content needing to be presented

For example, the publication time may be a start presentation time, an end presentation time, or a presentation duration of the publication information that needs to be presented.

4) Presentation style corresponding to published content to be presented

For example, the presentation style may be "full screen", "filter or not", "loop play", "mute or not", and the like, according to which the probe device presents the published content that needs to be presented.

5) The release time corresponding to the current release content

For example, the publication time may be an end presentation time, a presentation duration time of the currently presented publication information.

6) Presentation style corresponding to currently published content

For example, the presentation style may be "full screen", "filter", "loop play", "mute", etc., according to which the probe device modifies and re-presents the published content currently being presented.

7) Any combination of the above-mentioned issuing indication information

In some embodiments, the method further comprises: the probe equipment receives the movement indication information from the network equipment; and presenting corresponding movement information according to the movement indication information. In some embodiments, the movement instruction information is used to instruct a movement direction, a movement destination, a movement route, or the like of the probe apparatus, and the probe apparatus displays a corresponding route pattern, a destination name, a destination longitude and latitude, or the like on a corresponding display screen according to the received movement instruction information. For example, the probe apparatus receives movement instruction information "(L1 (X1, Y1) - > L2 (X2, Y2) - > L3 (X3, Y3) - > L4 (X4, Y4) - > L5 (X5, Y5) - > L6 (X6, Y6)" from the network apparatus, and based on the movement instruction information, L1 is plotted at the position of the map (X1, Y1) presented on the screen, and so on, L1, L2, L3, L4, L5, L6 are connected by a smooth curve in the band direction, thereby presenting the movement pattern corresponding to the probe apparatus.

In some embodiments, the presenting the corresponding movement information according to the movement indication information includes: and playing corresponding mobile information according to the mobile indication information. In some embodiments, the played movement information includes, but is not limited to, a direction of movement, a destination of movement, or a route of movement of the probe device, and the like. For example, the probe device receives movement instruction information "destination L1" from the network device, and according to the movement instruction information, voice plays corresponding movement information "please the maintenance staff of the probe device move the probe device to the destination L1".

Fig. 2 shows a flowchart of a method for obtaining terminal distribution information according to an embodiment of the present application, where the method includes step S21, step S22, step S23, and step S24. In step S21, the network device receives at least one piece of real-time location information sent by the probe device and terminal detection information corresponding to each piece of real-time location information, where the terminal detection information corresponding to each piece of real-time location information is obtained by the probe device detecting within a detection range corresponding to the real-time location information, and the terminal detection information corresponding to each piece of real-time location information includes identification information of at least one terminal detected within the detection range corresponding to the real-time location information; in step S22, the network device determines all terminals detected by the probe device according to the terminal detection information corresponding to each piece of real-time location information; in step S23, the network device determines a plurality of valid terminals corresponding to the probe device according to a predetermined filtering condition; in step S24, the network device obtains terminal distribution information corresponding to the probe device according to the at least one piece of real-time location information and the terminal probing information corresponding to the plurality of valid terminals.

In step S21, the network device receives at least one piece of real-time location information sent by the probe device and terminal detection information corresponding to each piece of real-time location information, where the terminal detection information corresponding to each piece of real-time location information is obtained by the probe device detecting in a detection range corresponding to the real-time location information, and the terminal detection information corresponding to each piece of real-time location information includes identification information of at least one terminal detected in the detection range corresponding to the real-time location information. For example, the network device receives the real-time location information LA sent by the probe device and the terminal detection information "MAC _ a, MAC _ B" corresponding to the real-time location information LA, where "MAC _ a" and "MAC _ B" are identification information corresponding to the terminal device detected by the probe device in the detection range corresponding to the real-time location information LA.

In step S22, the network device determines all terminals detected by the probe device according to the terminal detection information corresponding to each piece of real-time location information. For example, it is determined that all the terminals probed by the probe apparatus include the terminal MA having MAC address "MAC _ a", the terminal MB having MAC address "MAC _ B", and the terminal MC having MAC address "MAC _ C", based on the terminal probe information "MAC _ a, MAC _ B" corresponding to the received real-time position information LA and the terminal probe information "MAC _ a, MAC _ C" corresponding to the real-time position information LB.

In step S23, the network device determines a plurality of valid terminals corresponding to the probe device according to a predetermined filtering condition. In some embodiments, the plurality of terminal devices detected by the probe device are filtered according to a predetermined filtering condition to obtain an effective terminal device corresponding to the probe device, and redundant data and dirty data can be removed. In the above example, the predetermined filtering condition is to acquire only the terminal probe information corresponding to the terminal device produced by the manufacturer FA, where the manufacturers corresponding to the terminal device MA and the terminal device MB are FA, and the manufacturer corresponding to the terminal device MC is FB, so as to determine that the valid terminals are the terminal device MA and the terminal device MB. For another example, the predetermined filtering condition is to acquire only the terminal probe information corresponding to the terminal device of the type of the mobile phone, the types corresponding to the terminal device MA and the terminal device MB are mobile phones, and the type corresponding to the terminal device MC is a bluetooth headset, so as to determine that the valid terminals are the terminal device MA and the terminal device MB.

In step S24, the network device obtains terminal distribution information corresponding to the probe device according to the at least one piece of real-time location information and the terminal probing information corresponding to the plurality of valid terminals. In some embodiments, the probe device may be used as a dimension, and the distribution of the terminal devices detected by the probe device is used as terminal distribution information (for example, information about the number of the terminal devices detected by the probe device), or a certain detected terminal device may be used as a dimension, and the distribution of the terminal device is used as terminal distribution information (for example, position distribution information detected by a certain terminal device at different real-time positions or time distribution information detected at different time points), or motion trajectory information corresponding to the terminal device may be further obtained according to the distribution of the terminal device, and the motion trajectory information corresponding to the terminal device is used as terminal distribution information. For example, the terminal distribution information may be "10 terminal devices are detected in total by the real-TIME location information LA", or "terminal device MA appears in the detection range of the real-TIME location information LA in the TIME ranges TIME1 to TIME2 and appears in the detection range of the real-TIME location information LB in the TIME ranges TIME3 to TIME 4". In some embodiments, after the terminal distribution information corresponding to the probe device is obtained, the data collected by the probe device can be further analyzed, so that quantifiable market analysis and effect analysis can be performed on offline information distribution activities, the exposure rate of the offline information distribution activities can be estimated, the conversion rate of the offline information distribution activities can be calculated, and policy adjustment can be performed by a service provider initiating the offline information distribution activities based on actual analysis results.

In some embodiments, the step S23 includes: the network equipment acquires equipment information corresponding to each terminal detected by the probe equipment according to the identification information corresponding to each terminal detected by the probe equipment; and obtaining a plurality of effective terminals corresponding to the probe equipment according to the equipment information corresponding to each terminal detected by the probe equipment, wherein the equipment information corresponding to the effective terminals meets a preset filtering condition. In some embodiments, the device information includes, but is not limited to, device type information (e.g., cell phone, wearable device, tablet, etc.), device hardware information, device version information, device manufacturer information, and the like. For example, the wifi probe acquires the device type information corresponding to the terminal device MA as a mobile phone according to the detected MAC address "MAC _ a" corresponding to the terminal device MA, and acquires the device type information corresponding to the terminal device MB as a wearable device according to the detected MAC address "MAC _ B" corresponding to the terminal device MB, wherein the predetermined filtering condition is to acquire only the terminal detection information corresponding to the mobile phone and exclude other types of terminal devices, so that the terminal device MA is used as an effective terminal corresponding to the wifi probe according to the predetermined filtering condition.

In some embodiments, the method further comprises: the network equipment calculates the similarity between the terminal detection information corresponding to the effective terminal and the terminal detection information corresponding to other effective terminals in the effective terminals for each effective terminal in the effective terminals, aggregates the effective terminal and one or more other effective terminals with the corresponding similarity exceeding a preset similarity threshold into a set, and aggregates the terminal detection information corresponding to the effective terminal and the terminal detection information corresponding to the one or more other effective terminals to obtain the terminal detection information corresponding to the set. In some embodiments, if the similarity between the terminal probe information corresponding to multiple terminals exceeds a predetermined similarity threshold (for example, 90%), it may be considered that the multiple terminals are held by the same user, the multiple terminals may be aggregated into a set, and the terminal probe information corresponding to each terminal is aggregated to obtain the terminal probe information corresponding to the set, so as to increase the accuracy of the probe data and reduce the redundancy of the probe data. For example, the terminal probe information corresponding to terminal device a is "the probe range of terminal device MA in real-TIME location information LA in TIME range TIME1-TIME2, and the probe range of real-TIME location information LB in TIME3-TIME 4", and the terminal probe information corresponding to terminal device B is "the probe range of terminal device MB in real-TIME location information LA in TIME range TIME1-TIME2, and the probe range of real-TIME location information LB in TIME3-TIME 4", and the similarity (100%) between the terminal probe information corresponding to terminal device a and terminal device B exceeds a predetermined similarity threshold (90%), it can be considered that terminal device a and terminal device B are held by the same user, terminal device a and terminal device B can be aggregated into a set { terminal device a, terminal device B }, and the terminal probe information corresponding to terminal device a and terminal device B respectively is aggregated to obtain terminal probe information "{ terminal device a, terminal device B } in real-TIME location information LA in TIME range TIME3-TIME 4".

In some embodiments, if the terminal distribution information includes terminal trajectory information, the method further includes, for each active terminal in the plurality of active terminals: detecting whether at least partially overlapped track information exists between the terminal track information corresponding to the effective terminal and the terminal track information corresponding to other effective terminals in the plurality of effective terminals; if at least partially overlapped track information exists between the terminal track information corresponding to the effective terminal and the terminal tracks corresponding to one or more other effective terminals, the effective terminal and the one or more other effective terminals are aggregated into a set, and the terminal detection information corresponding to the effective terminal and the terminal detection information corresponding to the one or more other effective terminals are aggregated to obtain the terminal detection information corresponding to the set. In some embodiments, terminal track information corresponding to the terminal may be obtained according to distribution information of the terminal device at multiple different real-time locations, and if there is track information that at least partially overlaps with terminal track information corresponding to multiple terminal devices, it is indicated that the multiple terminal devices are held by the same user, the multiple terminals may be aggregated into a set, and terminal detection information corresponding to each terminal is aggregated to obtain terminal detection information corresponding to the set.

In some embodiments, if there is track information that at least partially overlaps between the terminal track information corresponding to the active terminal and the terminal tracks corresponding to one or more other active terminals, aggregating the active terminal and the one or more other active terminals into a set, and aggregating the terminal probe information corresponding to the active terminal and the terminal probe information corresponding to the one or more other active terminals to obtain the terminal probe information corresponding to the set, the method includes: if at least partially overlapped track information exists between the terminal track information corresponding to the effective terminal and the terminal tracks corresponding to one or more other effective terminals, and the ratio between the at least partially overlapped track information corresponding to each other effective terminal in the one or more other effective terminals and the terminal track information of the effective terminal and the terminal track information of the other effective terminals is larger than or equal to a preset ratio threshold, the effective terminal and the one or more other effective terminals are aggregated into a set, and the terminal detection information corresponding to the effective terminal and the terminal detection information corresponding to the one or more other effective terminals are aggregated to obtain the terminal detection information corresponding to the set. In some embodiments, if at least partially overlapping track information exists in the terminal track information corresponding to the plurality of terminal devices, and the ratio of the at least partially overlapping track information to the terminal track information corresponding to each of the terminal devices is greater than or equal to a predetermined ratio threshold (for example, 90%), indicating that the plurality of terminal devices are held by the same user, the plurality of terminals may be aggregated into a set, and the terminal probe information corresponding to each terminal is aggregated to obtain the terminal probe information corresponding to the set.

In some embodiments, if the terminal probe information corresponding to each piece of real-time location information further includes the entering probe time information and the leaving probe time information of each terminal; wherein the step S23 includes: the network equipment acquires the detection duration of each terminal according to the entering detection time information and the leaving detection time information of each terminal; obtaining a plurality of active terminals corresponding to the probe device, wherein a probing duration corresponding to the plurality of active terminals is greater than or equal to a predetermined time threshold. In some embodiments, the detection duration of the terminal may be calculated according to the entry detection time and the exit detection time of the terminal, wherein the detection duration = exit detection time-entry detection time, and a terminal having a corresponding detection duration greater than or equal to a predetermined time threshold (e.g., 1 minute) is determined to be a valid terminal corresponding to the wifi probe from among a plurality of terminals detected by the wifi probe, so that the accuracy of the detection data may be increased. For example, the entering probing time of the terminal device MA is "5 points 30 minutes 10 seconds", the leaving probing time is "5 points 32 minutes 10 seconds", the calculated probing duration is "2 minutes", and is greater than the predetermined time threshold (1 minute), so that the terminal device MA can be used as the valid terminal corresponding to the wifi probe.

In some embodiments, if the terminal detection information corresponding to each piece of real-time location information further includes detection strength variation information corresponding to each terminal detected in a detection range corresponding to the real-time location information; wherein the step S23 includes: the network equipment generates the nearest distance of each terminal detected by the probe equipment relative to the probe equipment according to the detection intensity change information corresponding to each terminal detected by the probe equipment; obtaining a plurality of valid terminals corresponding to the probe device, wherein a closest distance to the probe device corresponding to the plurality of valid terminals is less than or equal to a predetermined distance threshold. In some embodiments, according to the detection intensity change information corresponding to the terminal, the distance change information corresponding to the terminal and relative to the probe device may be calculated, the closest distance of the terminal and relative to the probe device is obtained, and a terminal, of which the corresponding closest distance is less than or equal to a predetermined distance threshold (for example, 1 meter), is determined to be an effective terminal corresponding to the wifi probe from the multiple terminals detected by the wifi probe, so that the accuracy of the detection data may be increased. For example, according to the detection intensity variation information "-80dbm — -60dbm" corresponding to the terminal device MA, the distance variation information "2 meters-0.5 meters" relative to the wifi probe may be calculated, so that the closest distance of the terminal device MA relative to the wifi probe is obtained to be 0.5 meters and smaller than a predetermined distance threshold (1 meter), and the terminal device MA may be used as an effective terminal corresponding to the wifi probe.

In some embodiments, the step S23 includes: the network equipment generates the retention time of each terminal detected by the probe equipment in the detection range of the probe equipment according to the detection intensity change information corresponding to each terminal detected by the probe equipment; obtaining a plurality of valid terminals corresponding to the probe device, wherein the dwell time of the valid terminals in the detection range of the probe device is greater than or equal to a predetermined time threshold. In some embodiments, the staying time during which the terminal device remains relatively stationary within the detection range of the probe device may be generated according to a time range within which the detection intensity in the detection intensity variation information remains unchanged, and a terminal with a corresponding staying time greater than or equal to a predetermined time threshold (e.g., 1 minute) is determined to be a valid terminal corresponding to the wifi probe from among a plurality of terminals detected by the wifi probe, so that the accuracy of the detection data may be increased. For example, the detection intensity change information corresponding to the terminal device MA is that "wifi intensity continuously increases in the first 20 seconds, wifi intensity keeps unchanged in the middle 2 minutes, and wifi intensity continuously decreases in the last 10 seconds", so that the retention time for the terminal device to keep relatively static in the detection range of the wifi probe is generated to be 2 minutes, which is greater than a predetermined time threshold (1 minute), and the terminal device MA can be used as an effective terminal corresponding to the wifi probe.

In some embodiments, the terminal distribution information includes, but is not limited to:

1) Terminal quantity information

For example, the terminal number information may be "10 terminal devices are detected by wifi probe in total".

2) Terminal time distribution information

For example, the terminal TIME distribution information may be "the wifi probe has detected 5 terminal devices at TIME point TIME1 and 10 terminal devices at TIME point TIME 2", or may be "the terminal device MA has been detected within TIME ranges TIME1 to TIME2 and the terminal device MA has been detected again within TIME ranges TIME3 to TIME 4".

3) Terminal position distribution information

For example, the terminal location information may be "the wifi probe has detected 5 terminal devices in the real-time location information LA and has detected 10 terminal devices in the real-time location information LB", or "the wifi probe has detected the terminal device MA within a distance range of 3 meters to 1 meter from the real-time location information LA and has detected the terminal device MA within a distance range of 3 meters to 2 meters from the real-time location information LB".

4) Terminal track information

For example, the motion trail information corresponding to a certain terminal device may be further obtained according to the terminal time distribution information and the terminal location distribution information, and the specific representation form of the motion trail information may be a route map. For example, the terminal MA is detected in the detection range of the real-TIME location information LA in the TIME ranges TIME1 to TIME2, in the detection range of the real-TIME location information LB in the TIME ranges TIME3 to TIME4, and in the detection range of the real-TIME location information LC in the TIME ranges TIME5 to TIME6, and draws 3 points on the real-TIME location information LA, the real-TIME location information LB, and the real-TIME location information LC on the corresponding map, and connects the 3 points with a smooth curve with a direction, thereby generating a route map corresponding to the terminal MA, and uses the route map as the terminal trajectory information of the terminal MA.

5) Any combination of the above terminal distribution information

In some embodiments, the step S24 includes: and the network equipment acquires the terminal quantity information corresponding to the probe equipment according to the at least one piece of real-time position information and the identification information corresponding to each terminal in the plurality of effective terminals. For example, the number information of terminals corresponding to the wifi probe "the wifi probe detects 3 terminal devices in total" is obtained according to the real-time location information LA and the MAC addresses "MAC _ a" and "MAC _ B" corresponding to the terminals detected by the real-time location information LA, and the MAC addresses "MAC _ a" and "MAC _ C" corresponding to the terminals detected by the real-time location information LB and the real-time location information LB.

In some embodiments, if the terminal probe information corresponding to each piece of real-time location information further includes the terminal entry probe time information and the terminal exit probe time information; wherein the step S24 includes: and the network equipment acquires terminal time distribution information corresponding to the probe equipment according to the at least one piece of real-time position information and the entering detection time information and the leaving detection time information corresponding to each terminal in the plurality of effective terminals. For example, according to the fact that the entering detection TIME of the terminal equipment MA in the real-TIME position information LA and the real-TIME position information LA is TIME1, the leaving detection TIME is TIME2, the entering detection TIME of the terminal equipment MA in the real-TIME position information LB and the real-TIME position information LB is TIME3, and the leaving detection TIME is TIME4, the terminal TIME distribution information corresponding to the wifi probe is obtained, and the terminal equipment MA is detected in the TIME ranges of TIME1-TIME2, and the terminal equipment MA is detected again in the TIME ranges of TIME3-TIME 4.

In some embodiments, if the terminal detection information corresponding to each piece of real-time location information further includes detection strength change information corresponding to each terminal detected in a detection range corresponding to the real-time location information; wherein the step S24 includes: and the network equipment acquires terminal position distribution information corresponding to the probe equipment according to the at least one piece of real-time position information and the detection intensity change information corresponding to each terminal in the plurality of effective terminals. For example, according to the real-time position information LA and the detection intensity change information of the terminal equipment MA in the real-time position information LA is-120 dbm to-80 dbm, the detection intensity change information of the terminal equipment MA in the real-time position information LB and the real-time position information LB is-120 dbm to-60 dbm, if-120 dbm corresponds to the distance from the wifi probe by 2 meters, 80dbm corresponds to the distance from the wifi probe by 1.5 meters, and 60dbm corresponds to the distance from the wifi probe by 1 meter, the terminal position distribution information corresponding to the wifi probe is obtained by the method, namely that the terminal equipment MA is detected within the distance range of 2 meters to 1.5 meters of the real-time position information LA, and the terminal equipment MA is detected within the distance range of 2 meters to 1 meter of the real-time position information LB.

In some embodiments, the step S24 includes: and the network equipment acquires terminal track information corresponding to the probe equipment according to the at least one piece of real-time position information, the detection intensity change information corresponding to each terminal in the plurality of effective terminals, the entering detection time information and the leaving detection time information. For example, according to the real-TIME location information LA and the real-TIME location information LA, the entering detection TIME of the terminal equipment MA is TIME1, the leaving detection TIME is TIME2, the entering detection TIME of the terminal equipment MA in the real-TIME location information LB and the real-TIME location information LB is TIME3, the leaving detection TIME is TIME4, and the detection intensity variation information of the terminal equipment MA in the real-TIME location information LA is-120 dbm-80 dbm, the detection intensity variation information of the terminal equipment MA in the real-TIME location information LB is-120 dbm-60 dbm, if-120 dbm corresponds to a distance of 2 meters from the wifi probe, if-80 dbm corresponds to a distance of 1.5 meters from the wifi probe, -60dbm corresponds to a distance of 1 meter from the wifi probe, whereby an AREA AREA1 is marked on the corresponding map within a range of 2 meters to 1.5 meters near the real-TIME location information LA, an AREA AREA2 is marked within a range of 2 meters to 1 meter near the real-TIME location information LB, and the AREA AREA1 and the AREA AREA2 are taken as terminal trajectory information of the terminal equipment MA, this means that the terminal MA is present in the AREA1 in the TIME range TIME1 to TIME2, and is present in the AREA2 in the TIME range TIME3 to TIME4, and the terminal MA moves from the AREA1 to the AREA2 in the TIME range TIME2 to TIME 3.

In some embodiments, the method further includes step S25 (not shown) and step S26 (not shown), in step S25, the network device determines, according to the at least one piece of real-time location information and the terminal probing information corresponding to the plurality of valid terminals, issuing indication information corresponding to the probe device; in step S26, the network device sends the issuing instruction information corresponding to the probe device. For example, according to the real-time position information LA and the terminal detection information 'MAC _ A, MAC _ B', it is determined that the terminal to which the probe device probe is directed includes a terminal device MA with a MAC address of 'MAC _ A' and a terminal device MB with a MAC address of 'MAC _ B', personal information corresponding to a user of the terminal device is obtained through the MAC address of the terminal device, according to the fact that the common interests and hobbies of the users of the terminal device MA and the terminal device MB displayed in the personal information are that the user eats seafood, a promotion video of a seafood merchant near the real-time position information LA is determined, and a link address of the promotion video is sent to the corresponding wifi probe as release indication information.

In some embodiments, the step S25 includes a step S251 (not shown), a step S252 (not shown), and a step S253 (not shown), in the step S251, the network device determines a plurality of terminals corresponding to the probe device according to the at least one piece of real-time location information and the terminal probing information corresponding to the plurality of valid terminals; in step S252, the network device determines at least one interest tag according to the tag information of each of the plurality of terminals; in step S253, the network device detects whether the current release information of the probe device matches with the at least one interest tag, and if not, generates release indication information corresponding to the probe device according to the at least one interest tag. In some embodiments, the tag information may be uploaded by a user of the terminal device, or may be automatically established by the server according to historical track information of the user of the terminal device (for example, the historical track information shows that the user often appears near a basketball court, so that tag information "playing basketball" corresponding to the user may be automatically established), at least one tag related to interest and hobbies is determined from tag information of a plurality of terminal devices, wherein a ratio of the number of terminal devices corresponding to the interest tag to the total number of the plurality of terminal devices is greater than or equal to a predetermined ratio threshold (for example, 60%), it is determined whether the release information currently presented by the probe device matches the interest tag, and if not, release indication information related to the interest tag is generated. For example, according to the real-time position information LA and the terminal detection information 'MAC _ A, MAC _ B', it is determined that the terminal to which the probe device probe points includes a terminal device MA with a MAC address being 'MAC _ A' and a terminal device MB with a MAC address being 'MAC _ B', common interest tags of the terminal device MA and the terminal device MB are obtained through the MAC addresses of the terminal device MA and the terminal device MB to be 'make up', if release information currently presented by the wifi probe does not match the interest tags, latest product videos of cosmetic merchants nearby the real-time position information LA related to the interest tags are determined, and link addresses of the latest product videos are used as release indication information to send the wifi probe.

In some embodiments, the step S251 includes: the network equipment determines a plurality of terminals corresponding to the probe equipment according to a plurality of pieces of real-time position information and terminal detection information corresponding to each piece of real-time position information, wherein the occurrence frequency of the terminals in a plurality of detection ranges corresponding to the real-time position information is larger than or equal to a preset frequency threshold value. For example, the detection information corresponding to the real-time location information LA is "MAC _ a, MAC _ B", the detection information corresponding to the real-time location information LB is "MAC _ a, MAC _ C", the detection information corresponding to the real-time location information LC is "MAC _ a, MAC _ D", and the frequency of occurrence of the terminal MA having the MAC address of "MAC _ a" in the detection ranges corresponding to 3 different real-time locations is greater than a predetermined frequency threshold (occurring in the detection ranges corresponding to 2 different real-time locations), so as to preferentially generate the release indication information related to the interest tag of the terminal MA.

In some embodiments, the step S251 includes: and the network equipment determines a plurality of terminals corresponding to the probe equipment according to the latest real-time position information of the probe equipment and the terminal detection information corresponding to the latest real-time position information, wherein the terminals are positioned in the detection range corresponding to the latest real-time position information. For example, the probe information corresponding to the real-time location information LA is "MAC _ a, MAC _ B", the probe information corresponding to the real-time location information LB is "MAC _ a, MAC _ C", and the probe information corresponding to the real-time location information LC is "MAC _ a, MAC _ D", where the latest real-time location information is the real-time location information LC, so as to preferentially generate the release indication information related to the interest tags of the terminal MA and the terminal MD.

In some embodiments, the step S252 includes: and the network equipment determines at least one interest tag according to the tag information of each terminal in the plurality of terminals and at least one release information provider corresponding to the latest real-time position information of the probe equipment. For example, the tag information of the terminal device MA includes "basketball shooting", "barbecuing", the tag information of the terminal device MB includes "running", "reading", and since the release information provider near the real-time location information LA includes a merchant providing a barbecue promotional video, the interest tag is determined as "barbecuing", and the wifi probe is sent with the link address of the barbecue promotional video as the release indication information.

In some embodiments, the method further comprises: the network equipment determines the mobile indication information corresponding to one or more probe equipment according to the terminal distribution information corresponding to the probe equipment; and sending the movement indication information corresponding to the one or more probe devices. For example, the terminal distribution information is "the wifi probe a detects 100 terminal devices in total", the latest real-time location information LA of the wifi probe a is used as the movement indication information of other probe devices (e.g., wifi probe B, wifi probe C) due to the large number of terminals near the wifi probe a, and the movement indication information "real-time location information LA" is sent to the other probe devices to inform that the other probe devices can move to the real-time location LA, and for example, the terminal distribution information is "the wifi probe a detects 50 terminal devices at the real-time location information LA, 10 terminal devices at the real-time location information LB, 20 terminal devices at the real-time location information LC, the real-time location information LA is used as the movement indication information of the wifi probe a and other probe devices (e.g., wifi probe B, wifi probe C) due to the large number of terminals near the real-time location information LA, and the movement indication information" real-time location information LA "is sent to the wifi probe a and the other probe devices to inform that the real-time location information LA of the wifi probe a can move to the wifi probe device.

Fig. 3 illustrates a flow diagram of a system method for obtaining terminal probe information according to some embodiments of the present application.

As shown in fig. 3, in step S31, the probe device obtains at least one piece of real-time location information corresponding to the probe device, and terminal detection information corresponding to each piece of real-time location information, where the terminal detection information corresponding to each piece of real-time location information is obtained by the probe device detecting in a detection range corresponding to the real-time location information, and the terminal detection information corresponding to each piece of real-time location information includes identification information of at least one terminal detected in the detection range corresponding to the real-time location information, and step S31 is the same as or similar to step S11, and is not repeated herein; in step S32, the probe device sends the at least one piece of real-time location information and the terminal detection information corresponding to each piece of real-time location information to the network device, where step S32 is the same as or similar to step S12, and is not described herein again; in step S33, the network device receives at least one piece of real-time location information sent by the probe device and terminal probe information corresponding to each piece of real-time location information, and step S33 is the same as or similar to step S21, and is not described herein again; in step S34, the network device determines all terminals detected by the probe device according to the terminal detection information corresponding to each piece of real-time location information, where step S34 is the same as or similar to step S22, and is not described herein again; in step S35, the network device determines a plurality of valid terminals corresponding to the probe device according to a predetermined filtering condition, where step S35 is the same as or similar to step S23, and is not described herein again; in step S36, the network device obtains terminal distribution information corresponding to the probe device according to the at least one piece of real-time location information and the terminal probing information corresponding to the plurality of valid terminals, where step S36 is the same as or similar to step S24, and is not described herein again.

According to the method, the movable probe equipment is implanted into the offline information publishing equipment, at least one real-time position corresponding to the probe equipment and the terminal equipment detected in the detection range corresponding to each real-time position are obtained, the terminal equipment is sent to the network equipment, the network equipment filters the received terminal equipment to obtain the effective terminal equipment corresponding to each real-time position, redundant data and dirty data are removed, the distribution information of the terminal equipment corresponding to the probe equipment is further obtained, the data collected by the probe equipment can be analyzed, further quantifiable market analysis and effect analysis of offline information publishing activities are achieved, and a service provider who initiates the offline information publishing activities can perform strategy adjustment based on actual analysis results.

Fig. 4 shows a probe device for sending terminal probing information according to an embodiment of the present application, which includes a one-module 11 and a two-module 12. A module 11, configured to obtain at least one piece of real-time location information corresponding to the probe device and terminal detection information corresponding to each piece of real-time location information, where the terminal detection information corresponding to each piece of real-time location information is obtained by detecting the probe device in a detection range corresponding to the real-time location information, and the terminal detection information corresponding to each piece of real-time location information includes identification information of at least one terminal detected in the detection range corresponding to the real-time location information; a second module 12, configured to send the at least one piece of real-time location information and the terminal detection information corresponding to each piece of real-time location information to a network device.

A module 11, configured to obtain at least one piece of real-time location information corresponding to the probe device, and terminal detection information corresponding to each piece of real-time location information, where the terminal detection information corresponding to each piece of real-time location information is obtained by detecting the probe device in a detection range corresponding to the real-time location information, and the terminal detection information corresponding to each piece of real-time location information includes identification information of at least one terminal detected in the detection range corresponding to the real-time location information. The principle of the probe device is that wireless signals sent by modules such as Wi-Fi, bluetooth and NFC provided by intelligent equipment manufacturers are used for sensing terminal equipment. In some embodiments, the probe device includes, but is not limited to, a terminal device (e.g., a wifi probe) that is located within a certain detection range (e.g., 5 meters) near the terminal device by using wifi, bluetooth, NFC, or other detection methods, the identification information of the terminal device includes, but is not limited to, information that can uniquely identify the terminal device, a mac address of the terminal device can be used as the identification information of the terminal device, a real-time location of the probe device can be fixed or movable, the probe device can be implanted into an offline information distribution device (e.g., wallpaper, multimedia display, mobile billboard, etc.), and the probe device can select at least one piece of real-time location information from one or more pieces of real-time location information corresponding to one or more pieces of real-time location information (e.g., longitude and latitude), wherein the at least one piece of real-time location information satisfies that a staying time of the probe device at the real-time location is greater than or equal to a predetermined time threshold (e.g., 5 minutes). For example, the wifi probe acquires the real-time location information LA corresponding to the wifi probe and the terminal detection information "MAC _ a, MAC _ B" corresponding to the real-time location information LA, which indicates that the wifi probe detects a terminal device with MAC address "MAC _ a" and a terminal device with MAC address "MAC _ B" in the detection range corresponding to the real-time location information LA, and "MAC _ a" and "MAC _ B" are identification information of the detected terminal devices.

A second module 12, configured to send the at least one piece of real-time location information and the terminal detection information corresponding to each piece of real-time location information to a network device. In the above example, the wifi probe sends the real-time location information LA and the terminal detection information "MAC _ a" corresponding to the real-time location information LA to the network device.

In some embodiments, the terminal probe information corresponding to each real-time location information further includes an entering probe time information and an leaving probe time information of the at least one terminal. Here, the related terminal probing information is the same as or similar to the embodiment shown in fig. 1, and therefore, is not described again, and is included herein by reference.

In some embodiments, the terminal sounding information corresponding to each piece of real-time location information further includes sounding strength variation information corresponding to each terminal. Here, the related terminal probing information is the same as or similar to the embodiment shown in fig. 1, and therefore, is not described again, and is included herein by reference.

In some embodiments, the apparatus is further configured to: acquiring detection requirement information corresponding to the probe equipment, and setting or modifying parameter information of the probe equipment according to the detection requirement information. Here, the related operations are the same as or similar to those of the embodiment shown in fig. 1, and therefore are not described again, and are included herein by reference.

In some embodiments, the detecting requirement information includes detecting range information, and the setting or modifying the parameter information of the probe device according to the detecting requirement information includes: setting or modifying the detection range of the probe device according to the detection range information. Here, the related operations are the same as or similar to those of the embodiment shown in fig. 1, and therefore are not described again, and are included herein by reference.

In some embodiments, the probe requirement information includes terminal filtering condition information, and the setting or modifying parameter information of the probe device according to the probe requirement information includes: setting or modifying the filtering condition of the probe equipment according to the terminal filtering condition information; wherein, the one-to-one module 11 is configured to: and acquiring at least one piece of real-time position information corresponding to the probe equipment, and acquiring terminal detection information corresponding to one or more terminals in a detection range corresponding to the real-time position information for each piece of real-time position information, wherein the one or more terminals are in the detection range of the probe equipment and meet the filtering condition of the probe equipment. Here, the related operations are the same as or similar to those of the embodiment shown in fig. 1, and thus are not described again, and are included herein by reference.

In some embodiments, the apparatus is further configured to: and sequencing the acquired real-time position information according to a preset sequencing condition, and sending the real-time position information and the terminal detection information corresponding to each piece of real-time position information to the network equipment according to a sequencing result. Here, the related operations are the same as or similar to those of the embodiment shown in fig. 1, and thus are not described again, and are included herein by reference.

In some embodiments, the apparatus is further configured to: and receiving the release indication information from the network equipment, and presenting corresponding release information according to the release indication information. Here, the related operations are the same as or similar to those of the embodiment shown in fig. 1, and therefore are not described again, and are included herein by reference.

1) Published content that needs to be rendered

4) Presentation style corresponding to published content to be presented

5) The release time corresponding to the current release content

6) Presentation style corresponding to currently published content

7) Any combination of the above issuing instruction information

Here, the related distribution indication information is the same as or similar to the embodiment shown in fig. 1, and therefore, is not described again, and is included herein by reference.

In some embodiments, the apparatus is further configured to: receiving movement indication information from the network device; and presenting corresponding movement information according to the movement indication information. Here, the related operations are the same as or similar to those of the embodiment shown in fig. 1, and therefore are not described again, and are included herein by reference.

In some embodiments, said presenting the corresponding movement information according to the movement indication information includes: and playing corresponding mobile information according to the mobile indication information. Here, the related operations are the same as or similar to those of the embodiment shown in fig. 1, and therefore are not described again, and are included herein by reference.

Fig. 5 shows a network device for obtaining terminal distribution information according to an embodiment of the present application, where the network device includes two-one module 21, two-two module 22, two-three module 23, and two-four module 24. A second module 21, configured to receive at least one piece of real-time location information sent by a probe device and terminal detection information corresponding to each piece of real-time location information, where the terminal detection information corresponding to each piece of real-time location information is obtained by the probe device by detecting in a detection range corresponding to the real-time location information, and the terminal detection information corresponding to each piece of real-time location information includes identification information of at least one terminal detected in the detection range corresponding to the real-time location information; a second module 22, configured to determine, according to terminal detection information corresponding to each piece of real-time location information, all terminals detected by the probe device; a twenty-three module 23, configured to determine, according to a predetermined filtering condition, a plurality of valid terminals corresponding to the probe device; and a second-fourth module 24, configured to obtain terminal distribution information corresponding to the probe device according to the at least one piece of real-time location information and the terminal detection information corresponding to the plurality of valid terminals.

The first module 21 is configured to receive at least one piece of real-time location information sent by the probe device and terminal detection information corresponding to each piece of real-time location information, where the terminal detection information corresponding to each piece of real-time location information is obtained by detecting the probe device in a detection range corresponding to the real-time location information, and the terminal detection information corresponding to each piece of real-time location information includes identification information of at least one terminal detected in the detection range corresponding to the real-time location information. For example, the network device receives the real-time location information LA sent by the probe device and the terminal detection information "MAC _ a, MAC _ B" corresponding to the real-time location information LA, where "MAC _ a" and "MAC _ B" are identification information corresponding to the terminal device detected by the probe device in the detection range corresponding to the real-time location information LA.

And a second-second module 22, configured to determine all terminals detected by the probe device according to the terminal detection information corresponding to each piece of real-time location information. For example, it is determined that all the terminals probed by the probe apparatus include the terminal MA having MAC address "MAC _ a", the terminal MB having MAC address "MAC _ B", and the terminal MC having MAC address "MAC _ C", based on the terminal probe information "MAC _ a, MAC _ B" corresponding to the received real-time position information LA and the terminal probe information "MAC _ a, MAC _ C" corresponding to the real-time position information LB.

And a second-third module 23, configured to determine, according to a predetermined filtering condition, a plurality of valid terminals corresponding to the probe device. In some embodiments, the plurality of terminal devices detected by the probe device are filtered according to a predetermined filtering condition to obtain an effective terminal device corresponding to the probe device, and redundant data and dirty data can be removed. In the above example, the predetermined filtering condition is to obtain only the terminal detection information corresponding to the terminal device produced by the manufacturer FA, where the manufacturer corresponding to the terminal device MA and the terminal device MB is FA, and the manufacturer corresponding to the terminal device MC is FB, so as to determine that the valid terminals are the terminal device MA and the terminal device MB. For another example, the predetermined filtering condition is to acquire only the terminal probe information corresponding to the terminal device of which the type is a mobile phone, the types corresponding to the terminal device MA and the terminal device MB are mobile phones, and the type corresponding to the terminal device MC is a bluetooth headset, so as to determine that the valid terminals are the terminal device MA and the terminal device MB.

And a second-fourth module 24, configured to obtain terminal distribution information corresponding to the probe device according to the at least one piece of real-time location information and the terminal detection information corresponding to the plurality of valid terminals. In some embodiments, the probe device may be used as a dimension, and the distribution condition of the terminal devices detected by the probe device is used as terminal distribution information (for example, information about the number of the terminal devices detected by the probe device), or a certain detected terminal device may be used as a dimension, and the distribution condition of the terminal device is used as terminal distribution information (for example, information about the position of the certain terminal device detected at different real-time positions or information about the time distribution of the certain terminal device detected at different time points), or motion trajectory information corresponding to the terminal device may be further obtained according to the distribution condition of the terminal device, and the motion trajectory information corresponding to the terminal device is used as terminal distribution information. For example, the terminal distribution information may be "10 terminal devices are detected in total by the real-TIME location information LA", or "terminal device MA appears in the detection range of the real-TIME location information LA in the TIME ranges TIME1 to TIME2 and appears in the detection range of the real-TIME location information LB in the TIME ranges TIME3 to TIME 4". In some embodiments, after the terminal distribution information corresponding to the probe device is obtained, the data collected by the probe device can be further analyzed, so that quantifiable market analysis and effect analysis can be performed on offline information distribution activities, the exposure rate of the offline information distribution activities can be estimated, the conversion rate of the offline information distribution activities can be calculated, and policy adjustment can be performed by a service provider initiating the offline information distribution activities based on actual analysis results.

In some embodiments, the two and three modules 23 are configured to: acquiring equipment information corresponding to each terminal detected by the probe equipment according to the identification information corresponding to each terminal detected by the probe equipment; and obtaining a plurality of effective terminals corresponding to the probe equipment according to the equipment information corresponding to each terminal detected by the probe equipment, wherein the equipment information corresponding to the effective terminals meets a preset filtering condition. Here, the related operations are the same as or similar to those of the embodiment shown in fig. 2, and therefore are not described again, and are included herein by reference.

In some embodiments, the apparatus is further configured to: for each effective terminal in the plurality of effective terminals, calculating the similarity between the terminal detection information corresponding to the effective terminal and the terminal detection information corresponding to other effective terminals in the plurality of effective terminals, aggregating the effective terminal and one or more other effective terminals with the corresponding similarity exceeding a preset similarity threshold into a set, and aggregating the terminal detection information corresponding to the effective terminal and the terminal detection information corresponding to the one or more other effective terminals to obtain the terminal detection information corresponding to the set. Here, the related operations are the same as or similar to those of the embodiment shown in fig. 2, and therefore are not described again, and are included herein by reference.

In some embodiments, if the terminal distribution information includes terminal trajectory information, the apparatus is further configured to perform the following for each active terminal in the plurality of active terminals: detecting whether at least partially overlapped track information exists between the terminal track information corresponding to the effective terminal and the terminal track information corresponding to other effective terminals in the plurality of effective terminals; if at least partially overlapped track information exists between the terminal track information corresponding to the effective terminal and the terminal tracks corresponding to one or more other effective terminals, the effective terminal and the one or more other effective terminals are aggregated into a set, and the terminal detection information corresponding to the effective terminal and the terminal detection information corresponding to the one or more other effective terminals are aggregated to obtain the terminal detection information corresponding to the set. Here, the related operations are the same as or similar to those of the embodiment shown in fig. 2, and therefore are not described again, and are included herein by reference.

In some embodiments, if there is track information that at least partially overlaps between the terminal track information corresponding to the active terminal and the terminal tracks corresponding to one or more other active terminals, aggregating the active terminal and the one or more other active terminals into a set, and aggregating the terminal probe information corresponding to the active terminal and the terminal probe information corresponding to the one or more other active terminals into terminal probe information corresponding to the set, includes: if at least partially overlapped track information exists between the terminal track information corresponding to the effective terminal and the terminal tracks corresponding to one or more other effective terminals, and the ratio between the at least partially overlapped track information corresponding to each other effective terminal in the one or more other effective terminals and the terminal track information of the effective terminal and the terminal track information of the other effective terminals is larger than or equal to a preset ratio threshold, the effective terminal and the one or more other effective terminals are aggregated into a set, and the terminal detection information corresponding to the effective terminal and the terminal detection information corresponding to the one or more other effective terminals are aggregated to obtain the terminal detection information corresponding to the set. Here, the related operations are the same as or similar to those of the embodiment shown in fig. 2, and therefore are not described again, and are included herein by reference.

In some embodiments, if the terminal probe information corresponding to each piece of real-time location information further includes the entering probe time information and the leaving probe time information of each terminal; wherein the two and three modules 23 are configured to: acquiring the detection duration of each terminal according to the entering detection time information and the leaving detection time information of each terminal; obtaining a plurality of active terminals corresponding to the probe device, wherein a probing duration corresponding to the plurality of active terminals is greater than or equal to a predetermined time threshold. Here, the related operations are the same as or similar to those of the embodiment shown in fig. 2, and therefore are not described again, and are included herein by reference.

In some embodiments, if the terminal detection information corresponding to each piece of real-time location information further includes detection strength variation information corresponding to each terminal detected in a detection range corresponding to the real-time location information; wherein the two and three modules 23 are configured to: generating the nearest distance of each terminal detected by the probe equipment relative to the probe equipment according to the detection intensity change information corresponding to each terminal detected by the probe equipment; obtaining a plurality of valid terminals corresponding to the probe device, wherein a closest distance to the probe device corresponding to the plurality of valid terminals is less than or equal to a predetermined distance threshold. Here, the related operations are the same as or similar to those of the embodiment shown in fig. 2, and therefore are not described again, and are included herein by reference.

In some embodiments, the two and three modules are to: generating the retention time of each terminal detected by the probe equipment in the detection range of the probe equipment according to the detection intensity change information corresponding to each terminal detected by the probe equipment; obtaining a plurality of valid terminals corresponding to the probe device, wherein the dwell time of the valid terminals in the detection range of the probe device is greater than or equal to a predetermined time threshold. Here, the related operations are the same as or similar to those of the embodiment shown in fig. 2, and therefore are not described again, and are included herein by reference.

1) Terminal quantity information

2) Terminal time distribution information

3) Terminal position distribution information

4) Terminal track information

5) Arbitrary combination of the above terminal distribution information

Here, the relevant terminal distribution information is the same as or similar to that in the embodiment shown in fig. 2, and therefore, is not described again, and is included herein by reference.

In some embodiments, the biquad module 24 is configured to: and acquiring the terminal quantity information corresponding to the probe equipment according to the at least one piece of real-time position information and the identification information corresponding to each terminal in the plurality of effective terminals. Here, the related operations are the same as or similar to those of the embodiment shown in fig. 2, and therefore are not described again, and are included herein by reference.

In some embodiments, if the terminal probe information corresponding to each piece of real-time location information further includes the terminal entry probe time information and the terminal exit probe time information; wherein the biquad module 24 is configured to: and acquiring terminal time distribution information corresponding to the probe equipment according to the at least one piece of real-time position information and the entering detection time information and the leaving detection time information corresponding to each terminal in the plurality of effective terminals. Here, the related operations are the same as or similar to those of the embodiment shown in fig. 2, and therefore are not described again, and are included herein by reference.

In some embodiments, if the terminal detection information corresponding to each piece of real-time location information further includes detection strength variation information corresponding to each terminal detected in a detection range corresponding to the real-time location information; wherein the two-four module 24 is configured to: and acquiring terminal position distribution information corresponding to the probe equipment according to the at least one piece of real-time position information and the detection intensity change information corresponding to each of the plurality of effective terminals. Here, the related operations are the same as or similar to those of the embodiment shown in fig. 2, and therefore are not described again, and are included herein by reference.

In some embodiments, the two-four module 24 is configured to: and acquiring terminal track information corresponding to the probe equipment according to the at least one piece of real-time position information, and detection intensity change information, entering detection time information and leaving detection time information corresponding to each of the plurality of effective terminals. Here, the related operations are the same as or similar to those of the embodiment shown in fig. 2, and therefore are not described again, and are included herein by reference.

In some embodiments, the apparatus further includes a twenty-five module 25 (not shown) and a twenty-six module 26 (not shown), where the twenty-five module 25 is configured to determine issuing indication information corresponding to the probe apparatus according to the at least one piece of real-time location information and terminal probing information corresponding to the plurality of valid terminals; the twenty-six module 26 is used for sending the issuing indication information corresponding to the probe device. Here, the specific implementation manners of the twenty-five module 25 and the twenty-six module 26 are the same as or similar to the embodiment of step S25 and step S26 in fig. 2, and therefore, the detailed description is omitted, and the detailed description is incorporated herein by reference.

In some embodiments, the twenty-five module 25 includes a twenty-five-one module 251 (not shown), a twenty-five-two module 252 (not shown), and a twenty-five-three module 253 (not shown), the twenty-five-one module 251 configured to determine a plurality of terminals corresponding to the probe device according to the at least one real-time position information and the terminal detection information corresponding to the plurality of valid terminals; a twenty-five-two module 252, configured to determine at least one interest tag according to tag information of each terminal in the plurality of terminals; a twenty-five-three module 253, configured to detect whether the current release information of the probe device matches the at least one interest tag, and if not, generate release indication information corresponding to the probe device according to the at least one interest tag. Here, the specific implementation of the twenty-five-one module 251, the twenty-five-two module 252 and the twenty-five-three module 253 is the same as or similar to the embodiment related to the steps S251, S252 and S253 in fig. 2, and therefore, the detailed description thereof is omitted, and the detailed description thereof is incorporated herein by reference.

In some embodiments, the twenty-five module 251 is configured to: and determining a plurality of terminals corresponding to the probe equipment according to a plurality of pieces of real-time position information and terminal detection information corresponding to each piece of real-time position information, wherein the occurrence frequency of the terminals in a plurality of detection ranges corresponding to the real-time position information is greater than or equal to a preset frequency threshold value. Here, the related operations are the same as or similar to those of the embodiment shown in fig. 2, and therefore are not described again, and are included herein by reference.

In some embodiments, the twenty-five-one module 251 is configured to: and determining a plurality of terminals corresponding to the probe equipment according to the latest real-time position information of the probe equipment and the terminal detection information corresponding to the latest real-time position information, wherein the terminals are positioned in a detection range corresponding to the latest real-time position information. Here, the related operations are the same as or similar to those of the embodiment shown in fig. 2, and therefore are not described again, and are included herein by reference.

In some embodiments, the twenty-five-two module 252 is configured to: and determining at least one interest tag according to the tag information of each terminal in the plurality of terminals and at least one release information provider corresponding to the latest real-time position information of the probe equipment. Here, the related operations are the same as or similar to those of the embodiment shown in fig. 2, and therefore are not described again, and are included herein by reference.

In some embodiments, the apparatus is further configured to: determining movement indication information corresponding to one or more probe devices according to the terminal distribution information corresponding to the probe devices; and sending the movement indication information corresponding to the one or more probe devices. Here, the related operations are the same as or similar to those of the embodiment shown in fig. 2, and therefore are not described again, and are included herein by reference.

FIG. 6 illustrates an exemplary system that can be used to implement the various embodiments described in this application.

In some embodiments, as shown in FIG. 6, the system 300 can be implemented as any of the devices in each of the described embodiments. In some embodiments, system 300 may include one or more computer-readable media (e.g., system memory or NVM/storage 320) having instructions and one or more processors (e.g., processor(s) 305) coupled with the one or more computer-readable media and configured to execute the instructions to implement modules to perform the actions described herein.

For one embodiment, system control module 310 may include any suitable interface controllers to provide any suitable interface to at least one of processor(s) 305 and/or any suitable device or component in communication with system control module 310.

The system control module 310 may include a memory controller module 330 to provide an interface to the system memory 315. Memory controller module 330 may be a hardware module, a software module, and/or a firmware module.

System memory 315 may be used, for example, to load and store data and/or instructions for system 300. For one embodiment, system memory 315 may include any suitable volatile memory, such as suitable DRAM. In some embodiments, the system memory 315 may include a double data rate type four synchronous dynamic random access memory (DDR 4 SDRAM).

For one embodiment, system control module 310 may include one or more input/output (I/O) controllers to provide an interface to NVM/storage 320 and communication interface(s) 325.

For example, NVM/storage 320 may be used to store data and/or instructions. NVM/storage 320 may include any suitable non-volatile memory (e.g., flash memory) and/or may include any suitable non-volatile storage device(s) (e.g., one or more Hard Disk Drives (HDDs), one or more Compact Disc (CD) drives, and/or one or more Digital Versatile Disc (DVD) drives).

NVM/storage 320 may include storage resources that are physically part of the device on which system 300 is installed or may be accessed by the device and not necessarily part of the device. For example, NVM/storage 320 may be accessible over a network via communication interface(s) 325.

Communication interface(s) 325 may provide an interface for system 300 to communicate over one or more networks and/or with any other suitable device. System 300 may wirelessly communicate with one or more components of a wireless network according to any of one or more wireless network standards and/or protocols.

For one embodiment, at least one of the processor(s) 305 may be packaged together with logic for one or more controller(s) (e.g., memory controller module 330) of the system control module 310. For one embodiment, at least one of the processor(s) 305 may be packaged together with logic for one or more controller(s) of the system control module 310 to form a System In Package (SiP). For one embodiment, at least one of the processor(s) 305 may be integrated on the same die with logic for one or more controller(s) of the system control module 310. For one embodiment, at least one of the processor(s) 305 may be integrated on the same die with logic for one or more controller(s) of the system control module 310 to form a system on a chip (SoC).

In various embodiments, system 300 may be, but is not limited to being: a server, a workstation, a desktop computing device, or a mobile computing device (e.g., a laptop computing device, a holding computing device, a tablet, a netbook, etc.). In various embodiments, system 300 may have more or fewer components and/or different architectures. For example, in some embodiments, system 300 includes one or more cameras, a keyboard, a Liquid Crystal Display (LCD) screen (including a touch screen display), a non-volatile memory port, multiple antennas, a graphics chip, an Application Specific Integrated Circuit (ASIC), and speakers.

The present application also provides a computer readable storage medium having stored thereon computer code which, when executed, performs a method as in any one of the preceding.

The present application also provides a computer program product, which when executed by a computer device performs the method of any of the preceding claims.

The present application further provides a computer device, comprising:

one or more processors;

a memory for storing one or more computer programs;

the one or more computer programs, when executed by the one or more processors, cause the one or more processors to implement the method as recited in any preceding claim.

It should be noted that the present application may be implemented in software and/or a combination of software and hardware, for example, implemented using Application Specific Integrated Circuits (ASICs), general purpose computers or any other similar hardware devices. In one embodiment, the software programs of the present application may be executed by a processor to implement the steps or functions described above. As such, the software programs (including associated data structures) of the present application can be stored in a computer readable recording medium, such as RAM memory, magnetic or optical drive or diskette and the like. Further, some of the steps or functions of the present application may be implemented in hardware, for example, as circuitry that cooperates with the processor to perform various steps or functions.

In addition, some of the present application may be implemented as a computer program product, such as computer program instructions, which when executed by a computer, may invoke or provide methods and/or techniques in accordance with the present application through the operation of the computer. Those skilled in the art will appreciate that the form in which the computer program instructions reside on a computer-readable medium includes, but is not limited to, source files, executable files, installation package files, and the like, and that the manner in which the computer program instructions are executed by a computer includes, but is not limited to: the computer directly executes the instruction, or the computer compiles the instruction and then executes the corresponding compiled program, or the computer reads and executes the instruction, or the computer reads and installs the instruction and then executes the corresponding installed program. Computer-readable media herein can be any available computer-readable storage media or communication media that can be accessed by a computer.

Communication media includes media by which communication signals, including, for example, computer readable instructions, data structures, program modules, or other data, are transmitted from one system to another. Communication media may include conductive transmission media such as cables and wires (e.g., fiber optics, coaxial, etc.) and wireless (non-conductive transmission) media capable of propagating energy waves such as acoustic, electromagnetic, RF, microwave, and infrared. Computer readable instructions, data structures, program modules, or other data may be embodied in a modulated data signal, for example, in a wireless medium such as a carrier wave or similar mechanism such as is embodied as part of spread spectrum techniques. The term "modulated data signal" means a signal that has one or more of its characteristics set or changed in such a manner as to encode information in the signal. The modulation may be analog, digital, or hybrid modulation techniques.

By way of example, and not limitation, computer-readable storage media may include volatile and nonvolatile, removable and non-removable media implemented in any method or technology for storage of information such as computer-readable instructions, data structures, program modules or other data. For example, computer-readable storage media include, but are not limited to, volatile memory such as random access memory (RAM, DRAM, SRAM); and non-volatile memory such as flash memory, various read-only memories (ROM, PROM, EPROM, EEPROM), magnetic and ferromagnetic/ferroelectric memories (MRAM, feRAM); and magnetic and optical storage devices (hard disk, magnetic tape, CD, DVD); or other now known media or later developed that can store computer-readable information/data for use by a computer system.

An embodiment according to the present application comprises an apparatus comprising a memory for storing computer program instructions and a processor for executing the program instructions, wherein the computer program instructions, when executed by the processor, trigger the apparatus to perform a method and/or a solution according to the aforementioned embodiments of the present application.

It will be evident to those skilled in the art that the present application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned. Furthermore, it is obvious that the word "comprising" does not exclude other elements or steps, and the singular does not exclude the plural. A plurality of units or means recited in the apparatus claims may also be implemented by one unit or means in software or hardware. The terms first, second, etc. are used to denote names, but not any particular order.

Claims

1. A method of transmitting terminal probe information for a probe device, wherein the method comprises:

acquiring at least one piece of real-time position information corresponding to probe equipment and terminal detection information corresponding to each piece of real-time position information, wherein the terminal detection information corresponding to each piece of real-time position information is obtained by detecting the probe equipment in a detection range corresponding to the real-time position information, and the terminal detection information corresponding to each piece of real-time position information comprises identification information of at least one terminal detected in the detection range corresponding to the real-time position information;

and sending the at least one piece of real-time position information and the terminal detection information corresponding to each piece of real-time position information to network equipment, so that the network equipment determines all terminals detected by the probe equipment according to the terminal detection information corresponding to each piece of real-time position information, determines a plurality of effective terminals corresponding to the probe equipment according to a preset filtering condition, and obtains terminal distribution information corresponding to the probe equipment according to the at least one piece of real-time position information and the terminal detection information corresponding to the plurality of effective terminals.

2. The method of claim 1, wherein the terminal probe information corresponding to each real-time location information further includes an entering probe time information and an exiting probe time information of the at least one terminal.

3. The method of claim 2, wherein the terminal sounding information corresponding to each real-time location information further includes sounding strength variation information corresponding to each terminal.

4. The method of any of claims 1-3, wherein the method further comprises:

acquiring detection requirement information corresponding to the probe equipment, and setting or modifying parameter information of the probe equipment according to the detection requirement information.

5. The method of claim 4, wherein the probing requirement information includes probing range information, and the setting or modifying parameter information of the probe device according to the probing requirement information includes:

setting or modifying the detection range of the probe device according to the detection range information.

6. The method of claim 4, wherein the probe requirement information includes terminal filtering condition information, and the setting or modifying the parameter information of the probe device according to the probe requirement information includes:

setting or modifying the filtering condition of the probe equipment according to the terminal filtering condition information;

the acquiring at least one piece of real-time position information corresponding to the probe device and the terminal detection information corresponding to each piece of real-time position information, wherein the terminal detection information corresponding to each piece of real-time position information is acquired by detecting the probe device in a detection range corresponding to the real-time position information, and the terminal detection information corresponding to each piece of real-time position information includes identification information of at least one terminal detected in the detection range corresponding to the real-time position information, and includes:

and acquiring at least one piece of real-time position information corresponding to the probe equipment, and acquiring terminal detection information corresponding to one or more terminals in a detection range corresponding to the real-time position information for each piece of real-time position information, wherein the one or more terminals are in the detection range of the probe equipment and meet the filtering condition of the probe equipment.

7. The method of any of claims 1-3, wherein the method further comprises:

and sequencing the acquired real-time position information according to a preset sequencing condition, and sending the real-time position information and the terminal detection information corresponding to each piece of real-time position information to the network equipment according to a sequencing result.

8. The method of any of claims 1-3, wherein the method further comprises:

and receiving the release indication information from the network equipment, and presenting corresponding release information according to the release indication information.

9. The method of claim 8, wherein the publication indication information comprises at least one of:

the published content that needs to be presented;

identification information corresponding to the release content to be presented;

the release time corresponding to the release content to be presented;

a presentation style corresponding to the release content to be presented;

the release time corresponding to the current release content;

and the presentation style corresponding to the current published content.

10. The method of any of claims 1 to 3, wherein the method further comprises:

receiving movement indication information from the network device;

and presenting corresponding movement information according to the movement indication information.

11. The method of claim 10, wherein the presenting the respective movement information according to the movement indication information comprises:

and playing corresponding mobile information according to the mobile indication information.

12. A method for obtaining terminal distribution information, which is used for a network device, wherein the method comprises the following steps:

receiving at least one piece of real-time position information sent by probe equipment and terminal detection information corresponding to each piece of real-time position information, wherein the terminal detection information corresponding to each piece of real-time position information is obtained by detecting the probe equipment in a detection range corresponding to the real-time position information, and the terminal detection information corresponding to each piece of real-time position information comprises identification information of at least one terminal detected in the detection range corresponding to the real-time position information;

determining all terminals detected by the probe equipment according to the terminal detection information corresponding to each piece of real-time position information;

determining a plurality of effective terminals corresponding to the probe equipment according to a preset filtering condition;

and acquiring terminal distribution information corresponding to the probe equipment according to the at least one piece of real-time position information and the terminal detection information corresponding to the plurality of effective terminals.

13. The method of claim 12, wherein said determining a plurality of valid terminals corresponding to the probe device according to a predetermined filtering condition comprises:

acquiring equipment information corresponding to each terminal detected by the probe equipment according to the identification information corresponding to each terminal detected by the probe equipment;

and obtaining a plurality of effective terminals corresponding to the probe equipment according to the equipment information corresponding to each terminal detected by the probe equipment, wherein the equipment information corresponding to the effective terminals meets a preset filtering condition.

14. The method of claim 13, wherein the method further comprises:

for each effective terminal in the plurality of effective terminals, calculating the similarity between the terminal detection information corresponding to the effective terminal and the terminal detection information corresponding to other effective terminals in the plurality of effective terminals, aggregating the effective terminal and one or more other effective terminals with the corresponding similarity exceeding a preset similarity threshold into a set, and aggregating the terminal detection information corresponding to the effective terminal and the terminal detection information corresponding to the one or more other effective terminals to obtain the terminal detection information corresponding to the set.

15. The method of claim 13, wherein if the terminal distribution information includes terminal trajectory information, the method further comprises, for each active terminal of the plurality of active terminals:

detecting whether at least partially overlapped track information exists between the terminal track information corresponding to the effective terminal and the terminal track information corresponding to other effective terminals in the plurality of effective terminals;

if at least partially overlapped track information exists between the terminal track information corresponding to the effective terminal and the terminal tracks corresponding to one or more other effective terminals, the effective terminal and the one or more other effective terminals are aggregated into a set, and the terminal detection information corresponding to the effective terminal and the terminal detection information corresponding to the one or more other effective terminals are aggregated to obtain the terminal detection information corresponding to the set.

16. The method according to claim 15, wherein if there is track information that at least partially overlaps between the terminal track information corresponding to the active terminal and the terminal tracks corresponding to one or more other active terminals, aggregating the active terminal and the one or more other active terminals into a set, and aggregating the terminal probe information corresponding to the active terminal and the terminal probe information corresponding to the one or more other active terminals to obtain the terminal probe information corresponding to the set, includes:

if at least partially overlapped track information exists between the terminal track information corresponding to the effective terminal and the terminal tracks corresponding to one or more other effective terminals, and the ratio between the at least partially overlapped track information corresponding to each other effective terminal in the one or more other effective terminals and the terminal track information of the effective terminal and the terminal track information of the other effective terminals is larger than or equal to a preset ratio threshold, the effective terminal and the one or more other effective terminals are aggregated into a set, and the terminal detection information corresponding to the effective terminal and the terminal detection information corresponding to the one or more other effective terminals are aggregated to obtain the terminal detection information corresponding to the set.

17. The method according to claim 12, wherein if the terminal probe information corresponding to each piece of real-time location information further includes entry probe time information and exit probe time information of each terminal;

wherein the determining a plurality of valid terminals corresponding to the probe device according to a predetermined filtering condition comprises:

acquiring the detection duration of each terminal according to the entering detection time information and the leaving detection time information of each terminal;

obtaining a plurality of active terminals corresponding to the probe device, wherein a probing duration corresponding to the plurality of active terminals is greater than or equal to a predetermined time threshold.

18. The method according to claim 12, wherein if the terminal detection information corresponding to each piece of real-time location information further includes detection strength variation information corresponding to each terminal detected within a detection range corresponding to the real-time location information;

generating the nearest distance of each terminal detected by the probe equipment relative to the probe equipment according to the detection intensity change information corresponding to each terminal detected by the probe equipment;

obtaining a plurality of valid terminals corresponding to the probe device, wherein a closest distance to the probe device for the plurality of valid terminals is less than or equal to a predetermined distance threshold.

19. The method of claim 13, wherein said determining a plurality of valid terminals corresponding to the probe device according to a predetermined filtering condition comprises:

generating the retention time of each terminal detected by the probe equipment in the detection range of the probe equipment according to the detection intensity change information corresponding to each terminal detected by the probe equipment;

obtaining a plurality of valid terminals corresponding to the probe device, wherein the dwell time of the valid terminals in the detection range of the probe device is greater than or equal to a predetermined time threshold.

20. The method according to any of claims 12-19, wherein the terminal distribution information comprises at least one of:

information on the number of terminals;

terminal time distribution information;

terminal position distribution information;

and terminal track information.

21. The method of claim 20, wherein the obtaining terminal distribution information corresponding to the probe device according to the at least one real-time location information and terminal probing information corresponding to the plurality of active terminals comprises:

and acquiring the terminal quantity information corresponding to the probe equipment according to the at least one piece of real-time position information and the identification information corresponding to each terminal in the plurality of effective terminals.

22. The method according to claim 20, wherein the terminal probe information further includes probe time information of each terminal entering and probe time information of each terminal leaving if the terminal probe information corresponding to each real-time location information;

wherein the obtaining terminal distribution information corresponding to the probe device according to the at least one real-time location information and the terminal probing information corresponding to the plurality of valid terminals includes:

and acquiring terminal time distribution information corresponding to the probe equipment according to the at least one piece of real-time position information and the entering detection time information and the leaving detection time information corresponding to each terminal in the plurality of effective terminals.

23. The method of claim 22, wherein if the terminal detection information corresponding to each piece of real-time location information further includes detection strength variation information corresponding to each terminal detected within a detection range corresponding to the real-time location information;

and acquiring terminal position distribution information corresponding to the probe equipment according to the at least one piece of real-time position information and the detection intensity change information corresponding to each of the plurality of effective terminals.

24. The method according to claim 15 or 23, wherein the obtaining terminal distribution information corresponding to the probe device according to the at least one real-time location information and the terminal probing information corresponding to the plurality of active terminals comprises:

and acquiring terminal track information corresponding to the probe equipment according to the at least one piece of real-time position information, and detection intensity change information, entering detection time information and leaving detection time information corresponding to each of the plurality of effective terminals.

25. The method of claim 20, wherein the method further comprises:

according to the at least one piece of real-time position information and the terminal detection information corresponding to the effective terminals, issuing indication information corresponding to the probe equipment is determined;

and sending the issuing indication information corresponding to the probe equipment.

26. The method of claim 25, wherein the determining the release indication information corresponding to the probe device according to the at least one real-time location information and the terminal probing information corresponding to the plurality of active terminals comprises:

determining a plurality of terminals corresponding to the probe device according to the at least one piece of real-time position information and the terminal detection information corresponding to the plurality of effective terminals;

determining at least one interest tag according to tag information of each terminal in the plurality of terminals;

and detecting whether the current release information of the probe equipment is matched with the at least one interest tag, if not, generating release indication information corresponding to the probe equipment according to the at least one interest tag.

27. The method of claim 26, wherein the determining a plurality of terminals corresponding to the probe device based on the at least one real-time location information and terminal probe information corresponding to the plurality of active terminals comprises:

and determining a plurality of terminals corresponding to the probe equipment according to a plurality of pieces of real-time position information and terminal detection information corresponding to each piece of real-time position information, wherein the occurrence frequency of the terminals in a plurality of detection ranges respectively corresponding to the real-time position information is greater than or equal to a preset frequency threshold value.

28. The method of claim 26, wherein the determining a plurality of terminals corresponding to the probe device based on the at least one real-time location information and terminal probe information corresponding to the plurality of active terminals comprises:

and determining a plurality of terminals corresponding to the probe equipment according to the latest real-time position information of the probe equipment and the terminal detection information corresponding to the latest real-time position information, wherein the terminals are positioned in a detection range corresponding to the latest real-time position information.

29. The method of any of claims 26 to 28, wherein said determining at least one interest tag from tag information of each of said plurality of terminals comprises:

and determining at least one interest tag according to the tag information of each terminal in the plurality of terminals and at least one release information provider corresponding to the latest real-time position information of the probe equipment.

30. The method of claim 20, wherein the method further comprises:

determining movement indication information corresponding to one or more probe devices according to the terminal distribution information corresponding to the probe devices;

and sending the movement indication information corresponding to the one or more probe devices.

31. A method for obtaining terminal distribution information, wherein the method comprises the following steps:

the method comprises the steps that probe equipment acquires at least one piece of real-time position information corresponding to the probe equipment and terminal detection information corresponding to each piece of real-time position information, wherein the terminal detection information corresponding to each piece of real-time position information is acquired by detecting the probe equipment in a detection range corresponding to the real-time position information, and the terminal detection information corresponding to each piece of real-time position information comprises identification information of at least one terminal detected in the detection range corresponding to the real-time position information;

the probe equipment sends the at least one piece of real-time position information and terminal detection information corresponding to each piece of real-time position information to network equipment;

the network equipment receives at least one piece of real-time position information sent by the probe equipment and terminal detection information corresponding to each piece of real-time position information;

the network equipment determines all terminals detected by the probe equipment according to the terminal detection information corresponding to each piece of real-time position information;

the network equipment determines a plurality of effective terminals corresponding to the probe equipment according to a preset filtering condition;

and the network equipment acquires terminal distribution information corresponding to the probe equipment according to the at least one piece of real-time position information and the terminal detection information corresponding to the plurality of effective terminals.

32. An apparatus for transmitting terminal probe information, wherein the apparatus comprises:

a processor; and

a memory arranged to store computer executable instructions that, when executed, cause the processor to perform the operations of the method of any of claims 1 to 11.

33. An apparatus for obtaining terminal distribution information, wherein the apparatus comprises:

a processor; and

a memory arranged to store computer executable instructions that, when executed, cause the processor to perform the operations of the method of any of claims 12 to 30.

34. A computer-readable medium storing instructions that, when executed, cause a system to perform the operations of any of the methods of claims 1-30.