CN114786133A

CN114786133A - Data processing method, device, equipment and storage medium

Info

Publication number: CN114786133A
Application number: CN202210694429.XA
Authority: CN
Inventors: 王传宝; 魏进武; 冯立华; 张伦泳; 赵海超; 蔡凯; 肖瑞; 刘建玲; 彭伶珊; 马德旺; 李冉; 李纪华; 赵斌; 李萌; 徐戬
Original assignee: China United Network Communications Group Co Ltd
Current assignee: China United Network Communications Group Co Ltd
Priority date: 2022-06-20
Filing date: 2022-06-20
Publication date: 2022-07-22
Anticipated expiration: 2042-06-20
Also published as: CN114786133B

Abstract

The application provides a data processing method, a data processing device, data processing equipment and a storage medium. The method comprises the following steps: the server side determines a target place; the server side determines a target non-service cell identification group corresponding to the target place according to the target place and the mapping relation between the entrance and the exit of the place and the non-service cell identification group; the access parameters of each non-service cell in the non-service cell identification group enable the terminal equipment not to be accessed to the non-service cell; the server determines target terminal equipment visiting a target place according to the target non-service cell identification group and the non-service cell identification set of at least one terminal equipment; the non-serving cell identity set of the terminal device comprises: the terminal device histories a non-serving cell identification group acquired from the broadcast signal of the searched at least one non-serving cell. The data processing method, the data processing device, the data processing equipment and the storage medium can realize 'no perception of visitors' under the condition that the terminal equipment visiting a certain place can be determined.

Description

Data processing method, device, equipment and storage medium

Technical Field

The present application relates to communications technologies, and in particular, to a data processing method, apparatus, device, and storage medium.

Background

Infectious disease is a disease that can be transmitted from person to person, or from person to animal, and is widely prevalent. The infectious disease has the characteristics of high transmission speed, wide influence range and the like. The method accurately searches for closely contacted objects of confirmed objects of infectious diseases, and is an important means for effectively intervening and controlling the spread of epidemic situations of the infectious diseases.

Conventionally, in order to accurately search for a closely contacted object of a diagnosed subject of an infectious disease, a wireless device such as a wireless access point or a pseudo base station is generally installed in a public place, a terminal device visiting the place is determined by establishing a connection with a terminal device of a user visiting the place, and it is possible to know which users visit the place. Therefore, when the diagnosis object of the infectious disease appears, people can be screened to visit the place where the diagnosis object of the infectious disease appears based on the acquired information, so as to accurately track the close contact object of the diagnosis object of the infectious disease.

However, the above method of identifying a terminal device visiting a certain location cannot achieve "no sense of the visitor".

Disclosure of Invention

The application provides a data processing method, a data processing device, data processing equipment and a storage medium, which are used for solving the technical problem that the existing mode of determining a terminal device visiting a certain place cannot achieve 'no sense of a visitor'.

In a first aspect, the present application provides a data processing method, including:

the server side determines a target place;

the server side determines a target non-service cell identification group corresponding to the target place according to the target place and the mapping relation between the entrance and the exit of the place and the non-service cell identification group; the access parameters of each non-service cell in the non-service cell identification group enable the terminal equipment not to be accessed to the non-service cell;

the server determines target terminal equipment visiting the target place according to the target non-service cell identification group and a non-service cell identification set of at least one terminal equipment; the non-serving cell identity set of the terminal device comprises: the terminal device history obtains a non-service cell identification group from the searched broadcast signal of at least one non-service cell.

Optionally, the determining, by the server, the target terminal device visiting the target location according to the target non-serving cell identifier group and the non-serving cell identifier set of at least one terminal device includes:

and the server determines the target terminal equipment visiting the target place in the target historical time period according to the target non-service cell identification group, the target historical time period and the non-service cell identification set of at least one terminal equipment.

Optionally, the non-serving cell identity set further includes: the terminal equipment historically obtains the time of a non-service cell identification group;

or,

the server determines, according to the target non-serving cell identifier group, a target historical time period, and a non-serving cell identifier set of at least one terminal device, a target terminal device that visits the target location within the target historical time period, including:

and the server determines the target terminal equipment visiting the target place in the target historical time period according to the target non-service cell identification group, the target historical time period, the non-service cell identification set of at least one terminal equipment and the receiving time of the non-service cell identification group in the non-service cell identification set reported by each terminal equipment history.

Optionally, after the server determines, according to the target non-serving cell identifier group and a non-serving cell identifier set of at least one terminal device, that the target terminal device in the target location has visited, the method further includes:

and the server sends prompt information to the target terminal equipment, wherein the prompt information is used for prompting the target terminal equipment to visit the target place.

Optionally, before determining that the target terminal device visiting the target location is visited according to the target non-serving cell identifier group and the non-serving cell identifier set of the at least one terminal device, the method further includes:

the server receives a non-service cell identification group from the terminal equipment and the identification of the terminal equipment;

and the server adds the non-service cell identification group of the terminal equipment to the non-service cell identification set of the terminal equipment according to the identification of the terminal equipment.

In a second aspect, the present application provides a data processing method, including:

the terminal equipment searches for the broadcast signal;

the terminal equipment acquires a non-service cell identification group from the broadcast signal of at least one non-service cell when the broadcast signal of the at least one non-service cell is searched; the access parameter of each non-service cell in the non-service cell identification group enables the terminal equipment not to be accessed to the non-service cell;

the terminal equipment sends a non-service cell identification group and an identification of the terminal equipment to a server, so that the server adds the non-service cell identification group of the terminal equipment to a non-service cell identification set of the terminal equipment according to the identification of the terminal equipment, wherein the non-service cell identification set of the terminal equipment is used for enabling the server to determine whether the terminal equipment visits the target place according to a target non-service cell identification group corresponding to the target place and the non-service cell identification set of the terminal equipment.

Optionally, the sending, by the terminal device, the non-serving cell identifier group and the identifier of the terminal device to a server includes:

and when the acquired non-service cell identification group belongs to a preset non-service cell identification group, the terminal equipment sends the non-service cell identification group and the identification of the terminal equipment to the server.

Optionally, the method further comprises:

the terminal equipment receives indication information sent by a base station, wherein the indication information is used for indicating a non-service cell identification group obtained by the terminal equipment in a reporting mode; and the base station is the base station to which the service cell which provides service for the terminal equipment currently belongs.

Optionally, the indication information is further used to indicate a mode of reporting the acquired non-serving cell identifier group by the terminal device.

and the terminal equipment sends the non-service cell identification group, the time for acquiring the non-service cell identification group and the identification of the terminal equipment to the server side.

Optionally, the method further comprises:

the terminal equipment receives prompt information from the server, wherein the prompt information is used for prompting the terminal equipment to visit a target place;

and the terminal equipment outputs the prompt message.

In a third aspect, the present application provides a data processing method, including:

the server side determines a target place;

the server side determines a target non-service cell identification group corresponding to the target place according to the target place and the mapping relation between the entrance and the exit of the place and the non-service cell identification group; the access parameter of each non-service cell in the non-service cell identification group enables the terminal equipment not to be accessed to the non-service cell;

the server sends the target non-serving cell identifier group to the terminal equipment, so that the terminal equipment determines whether the terminal equipment visits the target place or not according to the target non-serving cell identifier group and a non-serving cell identifier set of the terminal equipment; each non-serving cell identity group in the non-serving cell identity set comprises: the terminal device history includes a non-serving cell identification group obtained from the broadcast signal of the searched at least one non-serving cell.

Optionally, the sending, by the server, the target non-serving cell identifier group to the terminal device includes:

and the server sends the target non-service cell identification group and a target historical time period to the terminal equipment, so that the terminal equipment determines whether the terminal equipment visits the target place within the target historical time period according to the target non-service cell identification group, the target historical time period and the non-service cell identification set.

In a fourth aspect, the present application provides a data processing method, including:

the method comprises the steps that terminal equipment receives a target non-service cell identification group corresponding to a target place from a server, wherein the target non-service cell identification group is determined by the server according to the target place and the mapping relation between an entrance and an exit of the place and the non-service cell identification group; the access parameter of each non-service cell in the target non-service cell identification group enables the terminal equipment not to be accessed to the non-service cell;

the terminal equipment determines whether the target place is visited or not according to the target non-service cell identification group and the non-service cell identification set of the terminal equipment; the set of non-serving cell identities comprises: the terminal device history includes a non-serving cell identification group obtained from the broadcast signal of the searched at least one non-serving cell.

Optionally, the determining, by the terminal device, whether the target location is visited according to the target non-serving cell identity group and the non-serving cell identity set of the terminal device includes:

and the terminal equipment determines whether the target place is visited in the target historical time period or not according to the target non-service cell identification group, the target historical time period and the non-service cell identification set.

Optionally, the non-serving cell identity set further includes: and the terminal equipment historically obtains the time of the non-service cell identification group.

Optionally, before the terminal device determines whether the terminal device visits the target location according to the target non-serving cell identifier group and the non-serving cell identifier set of the terminal device, the method further includes:

the terminal equipment searches for a broadcast signal;

when the terminal equipment searches the broadcast signal of at least one non-service cell, acquiring a non-service cell identification group from the broadcast signal of the at least one non-service cell, and acquiring the time of the non-service cell identification group;

and the terminal equipment stores the non-service cell identification group and the time for acquiring the non-service cell identification group to the non-service cell identification set.

Optionally, the step of storing, by the terminal device, the non-serving cell identifier group and the time when the non-serving cell identifier group is acquired to the non-serving cell identifier set includes:

when the acquired non-service cell identification group belongs to a preset non-service cell identification group, the terminal equipment stores the non-service cell identification group and the time for acquiring the non-service cell identification group to the non-service cell identification set; and the access parameter of each non-service cell in the preset non-service cell identification group enables the terminal equipment not to be accessed to the non-service cell.

Optionally, the method further comprises:

the terminal equipment receives indication information sent by a base station, wherein the indication information is used for indicating that the terminal equipment stores a non-service cell identification group to a non-service cell identification set when the acquired non-service cell identification group belongs to a preset non-service cell identification group; the base station is a base station to which a serving cell currently providing service for the terminal equipment belongs.

Optionally, after the terminal device determines whether to visit the target location according to the target non-serving cell identifier group and the non-serving cell identifier set of the terminal device, the method further includes:

and when the terminal equipment determines that the target place is visited, outputting prompt information, wherein the prompt information is used for prompting the terminal equipment that the target place is visited.

Optionally, when determining that the target location is visited, the terminal device outputs a prompt message, which includes:

and the terminal equipment outputs the prompt information when determining that the target place is visited within the target historical time period.

In a fifth aspect, the present application provides a data processing apparatus comprising:

the first determining module is used for determining a target place;

the second determining module is used for determining a target non-service cell identification group corresponding to the target place according to the target place and the mapping relation between the entrance and the exit of the place and the non-service cell identification group; the access parameter of each non-service cell in the non-service cell identification group enables the terminal equipment not to be accessed to the non-service cell;

a third determining module, configured to determine, according to the target non-serving cell identifier group and a non-serving cell identifier set of at least one terminal device, a target terminal device that visits the target location; the non-serving cell identity set of the terminal device comprises: the terminal device history obtains a non-service cell identification group from the searched broadcast signal of at least one non-service cell.

In a sixth aspect, the present application provides a data processing apparatus comprising:

a search module for searching for a broadcast signal;

an obtaining module, configured to obtain a non-serving cell identifier group from a broadcast signal of at least one non-serving cell when the broadcast signal of the at least one non-serving cell is searched; the access parameter of each non-service cell in the non-service cell identification group enables the terminal equipment not to be accessed to the non-service cell;

the sending module is used for sending a non-service cell identification group and an identification of the terminal equipment to a server so that the server adds the non-service cell identification group of the terminal equipment to a non-service cell identification set of the terminal equipment according to the identification of the terminal equipment, and the non-service cell identification set of the terminal equipment is used for enabling the server to determine whether the terminal equipment visits the target place according to a target non-service cell identification group corresponding to the target place and the non-service cell identification set of the terminal equipment.

In a seventh aspect, the present application provides a data processing apparatus, comprising:

the first determining module is used for determining a target place;

the second determining module is used for determining a target non-service cell identification group corresponding to the target place according to the target place and the mapping relation between the entrance and the exit of the place and the non-service cell identification group; the access parameters of each non-service cell in the non-service cell identification group enable the terminal equipment not to be accessed to the non-service cell;

a sending module, configured to send the target non-serving cell identifier group to the terminal device, so that the terminal device determines, according to the target non-serving cell identifier group and a non-serving cell identifier set of the terminal device, whether the terminal device visits the target location; the set of non-serving cell identities comprises: the terminal device history includes a non-serving cell identification group obtained from the broadcast signal of the searched at least one non-serving cell.

In an eighth aspect, the present application provides a data processing apparatus comprising:

the receiving module is used for receiving a target non-service cell identification group corresponding to a target place from a server, wherein the target non-service cell identification group is determined by the server according to the target place and the mapping relation between an entrance and an exit of the place and the non-service cell identification group; the access parameter of each non-service cell in the target non-service cell identification group enables the terminal equipment not to be accessed to the non-service cell;

a determining module, configured to determine whether the target location is visited according to the target non-serving cell identifier group and the non-serving cell identifier set of the terminal device; the set of non-serving cell identities comprises: the terminal device history obtains a non-service cell identification group from the searched broadcast signal of at least one non-service cell.

In a ninth aspect, the present application provides an electronic device comprising: a processor, and a memory communicatively coupled to the processor;

the memory stores computer-executable instructions;

the processor executes computer-executable instructions stored by the memory to implement a method as described in any of the first aspect, or any of the second aspect, or any of the third aspect, or any of the fourth aspect.

In a tenth aspect, the present application provides a computer-readable storage medium having stored therein computer-executable instructions for implementing the data processing method according to any one of the first aspect, or any one of the second aspect, or any one of the third aspect, or any one of the fourth aspect when executed by a processor.

The data processing method, device, equipment and storage medium provided by the application cover a target area (such as an entrance and/or an exit) of a place by using a cell of a non-communication base station, and can identify a target terminal device visiting the place under the condition that the terminal device of a user visiting the place does not reside or reselect the cell by setting system parameters of the cell of the non-communication base station. That is, in this implementation, the user's terminal device need not establish a connection with the non-communicating base station, and therefore, need not reside specifically for the user to resolve the problem of connecting with the wireless device. In addition, the realization mode does not need the terminal equipment to access the cell of the non-communication base station, therefore, the normal mobile communication network service used by the user is not influenced. In conclusion, the method and the device can realize that the visitor has no perception. In addition, no trigger device is additionally arranged, the system architecture is simplified, and the cost is reduced.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the application and, together with the description, serve to explain the principles of the application.

FIG. 1 is a schematic diagram of a system architecture for use in an embodiment of the present application;

figure 2 is a schematic diagram of a common coverage using multiple non-serving cells;

figure 3 is another schematic diagram of a common coverage with multiple non-serving cells;

fig. 4 is a schematic diagram of another embodiment of a common coverage with multiple non-serving cells;

fig. 5 is a schematic flowchart of a data processing method according to an embodiment of the present application;

fig. 6 is a schematic flowchart of another data processing method according to an embodiment of the present application;

fig. 7 is a schematic flowchart of another data processing method according to an embodiment of the present application;

fig. 8 is a schematic structural diagram of a data processing apparatus according to an embodiment of the present application;

fig. 9 is a schematic structural diagram of another data processing apparatus according to an embodiment of the present application;

FIG. 10 is a schematic structural diagram of another data processing apparatus according to an embodiment of the present application;

fig. 11 is a schematic structural diagram of another data processing apparatus according to an embodiment of the present application;

fig. 12 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

With the above figures, there are shown specific embodiments of the present application, which will be described in more detail below. These drawings and written description are not intended to limit the scope of the inventive concepts in any manner, but rather to illustrate the inventive concepts to those skilled in the art by reference to specific embodiments.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present application, as detailed in the appended claims.

The Terminal equipment may also be referred to as a Terminal, a User Equipment (UE), a Mobile Station (MS), a Mobile Terminal (MT), and the like. The terminal device may be a mobile phone (mobile phone), a tablet computer (pad), a computer with a wireless transceiving function, a Virtual Reality (VR) terminal device, an Augmented Reality (AR) terminal device, a wireless terminal in unmanned driving (self driving), an intelligent wearable device, and the like.

Some scenarios may require a user visiting a certain location. For example, in an epidemiological investigation scene, a close-contact subject to a confirmed diagnosis subject of an infectious disease is investigated, and the like. At present, the acquisition of a user visiting a certain location is mainly achieved by determining a terminal device visiting the certain location, which specifically includes:

prior art 1:

when a user visits any POI (Point of Interest, POI), the user can establish connection between the terminal equipment and the wireless access Point corresponding to the POI. In this way, the terminal device identifier set visiting the place indicated by any POI can be obtained subsequently based on the connection information of the wireless access point corresponding to the POI. Although the implementation manner may determine the terminal device visiting a certain location, the implementation manner needs the user visiting the location to connect the terminal device to the wireless access point corresponding to the POI indicating the location, which causes the following problems in the implementation manner:

the existing connection establishment between the terminal equipment and the wireless access point comprises the processes of finding the wireless access point by the terminal equipment, verifying the identity of the terminal equipment by the wireless access point, completing the connection establishment between the terminal equipment and the wireless access point and the like. Even if the wireless access point is free from authentication, although the process of "authentication of the terminal device by the wireless access point" can be omitted, the rest of the process still needs to be executed to complete the connection establishment. That is, it takes a certain time for the terminal device to establish a connection with the wireless access point. Therefore, the user needs to stay in the coverage area of the wireless access point for a period of time to ensure that the terminal device and the wireless access point complete the connection establishment process and the subsequent operation, which results in that the efficiency of determining the terminal device visiting a certain place through the above method is low, and the situation that the visitor does not feel the terminal device cannot be achieved, thereby reducing the user experience of visiting the place.

In addition, for a user who first reaches the coverage area of the wireless access point, the problem that the terminal device of the user cannot pass the authentication of the wireless access point may occur, so that the user needs to stay or spend more time to enable the terminal device of the user to pass the authentication of the wireless access point, and the efficiency of determining the terminal device visiting a certain place is further reduced.

Prior art 2:

a low-power external position information sending device (comprising a pseudo base station or a wireless access point) is arranged at an entrance of a public place, and in addition, an Application (APP) downloaded with an information storage system is installed in a mobile phone of a user. Thus, the external position information sending device can directionally send the position code and the time of the machine to the owner entering the area through the triggering device. Subsequently, when the users visiting a certain place are screened, the position code of the place can be sent to the mobile phone of each user, so that the mobile phone can judge whether the mobile phone visits the certain place or not.

However, the above implementation also requires the terminal device to establish a connection with an external location information transmitting device. If the external position information transmitting apparatus is a wireless access point, there is the same technical problem as that of the prior art 1. If the external position information sending device is a pseudo base station, because the pseudo base station operates, the mobile phone of the user located in the coverage area can be forcibly connected to the device and cannot be connected to a public mobile communication network, the visitor can be affected to use normal mobile communication network service, the 'visitor cannot feel' and the user experience of visiting the place is reduced. In addition, the implementation method needs to additionally provide a trigger device, which results in a complex system architecture and higher cost.

In summary, in the existing manners of determining a terminal device visiting a certain location, the terminal device needs to establish a connection with a wireless device such as a wireless access point or a pseudo base station installed in the location, and in some implementation manners, the visitor cannot use normal mobile communication network services, which results in that the visitor cannot feel.

The radio access network device is an access device in which the terminal device is accessed to the mobile communication system in a wireless manner, and may be a base station NodeB, an evolved node b, a 5G mobile communication system, or a base station in a new generation wireless (NR) communication system, a base station in a future mobile communication system, an access node in a WiFi system, and the like. In the embodiment of the present application, a radio access network device is referred to as a base station for short.

The base station may be divided into a macro base station and a small base station according to the transmission power. The macro base station has large transmitting power and large coverage area, and the small base station has small transmitting power and small coverage area. The small cell may be further divided into: micro base stations, pico base stations, femto base stations, etc. The transmitting power of the femto base station is less than that of the pico base station, and the transmitting power of the pico base station is less than that of the micro base station. Correspondingly, the coverage area of the femto base station is smaller than that of the pico base station, and the coverage area of the pico base station is smaller than that of the micro base station.

A cell is an area covered by a base station or a part of the antennas of a base station. A cell is provided with a Broadcast Channel (BCH), and the cell may send a Broadcast signal on the BCH, so that a terminal device (i.e., a terminal device located within a coverage area of the cell) that monitors the Broadcast signal may determine whether to camp on or reselect to the cell based on a system parameter carried by the Broadcast signal. After residing in or reselecting to the cell, the terminal device can access to the mobile communication system through the base station to which the cell belongs.

The System parameter may be a System parameter carried by a Master Information Block (MIB) and/or a System Information Block (SIB), and may include at least one of the following:

1. a cell Identity Document (ID).

2. A Reference Signal Received Power (RSRP) value of a cell, referred to as Qrxlevmin for short, which participates in cell selection calculation or cell reselection calculation, and when the RSRP value of the cell measured by the terminal device is greater than Qrxlevmin, it is possible to select to camp on the cell.

3. The minimum access RSRP offset value of the cell, referred to as qrxlevmoffset for short, is a parameter referred to by the S criterion of cell selection. When the value of qrxlevminooffset of a cell is larger, it is more difficult for the terminal device to select the cell to camp on.

4. A cell reselection time threshold (Treselection), a parameter referred to by the cell reselection R criterion, and when the Treselection value of a cell is larger, the terminal device is harder to reselect to the cell.

5. Cell reselection offset value (Qoffset), cell reselection offset value. When the Qoffset value of a cell is larger, the terminal equipment is more difficult to reselect the cell.

6. One or more Tracking Area Code (TAC) or Location Area Code (LAC): identification of the area in which the terminal device is located by a mobile communications radio access network provided by the mobile communications system. When the terminal equipment moves in the same TAC/LAC, the mobile communication wireless access network does not need to be informed.

In the prior art, the configuration of system parameters of cells in a mobile communication system is considered based on the purpose that a terminal device can move between cells/base stations more reasonably so as to maintain the consistency and continuity of mobile communication services.

In view of the above, the present application provides a method for covering a target area (e.g., an entrance and/or an exit) of a location with a cell of a non-communication base station, and by setting system parameters of the cell of the non-communication base station, a terminal device of a user visiting the location can be identified without residing in or reselecting the cell. That is, in this implementation, the user's terminal device need not establish a connection with the non-communicating base station, and therefore, need not reside specifically for the user to resolve the connection with the wireless device. In addition, the realization mode does not need the terminal equipment to access the cell of the non-communication base station, therefore, the normal mobile communication network service used by the user is not influenced. In conclusion, the application can realize that the visitor has no perception. In addition, no trigger device is additionally arranged, the system architecture is simplified, and the cost is reduced.

It should be understood that the location according to the embodiment of the present application may be any location having an entrance, and the location may be a location whose geographical position is fixed or a location where the location is mobile. For example, the vehicle may be a mobile vehicle, a section of a car of a mobile vehicle, a supermarket, a building, or the like.

Fig. 1 is a schematic diagram of a system architecture applied in an embodiment of the present application. As shown in fig. 1, the system architecture may include the following parts:

the server side: can be any electronic device with processing capability, such as a terminal device, or a server, or a device in a mobile communication system (e.g., a base station, a core network device, a server), etc.; the system can also be any computing cluster with processing capability, or a cloud platform, or a processing system, etc. The cloud platform can be an epidemic prevention platform, and the processing system can be an epidemic prevention system, for example.

Base stations of the first type (communication base stations for short): the base station connected to the core network of the mobile communication system may be a macro base station or a small base station. When the terminal device is accessed to the cell of the communication base station in a wireless mode, the terminal device can use normal mobile communication network service. In the following embodiments, the cell of the communication base station is referred to as a serving cell.

Base stations of the second type (non-communicating base stations for short): a base station that is not connected to the core network of the mobile communication system and the system parameters of the cell of the base station may enable the terminal device to search for the broadcast signal of the cell, but not to camp on or reselect to the cell, i.e., not to access the cell. The second type of base station may be, for example, a small base station with an omni-directional antenna. Illustratively, the second type of base station may be a pico base station, i.e. a pico base station with only one cell. In the following embodiments, the cell of the non-communication base station is referred to as a non-serving cell.

It should be noted that, since the base station of the second type does not need to be connected to the core network of the mobile communication system, the base station may be implemented by using a base station with possibly low transmission power of the radio frequency signal, so as to ensure the accuracy of the coverage area thereof and also save power consumption.

It should be understood that the system parameter mentioned above may be one or more parameters of Qrxlevmin, qrxlevminooffset, Treselection, Qoffset, etc. The present application does not limit the specific values of the system parameters of the cell of the non-communication base station, and the specific values are related to the parameter settings of the mobile communication operator to which the non-communication base station belongs, as long as the terminal device does not access the cell. For example, the parameter values of Qrxlevmin, qrxlevminiffset, Treselection, and Qoffset of the cell are greater than the upper limit allowed to be set by the mobile communication system, or the parameter values of Qrxlevmin, qrxlevminiffset, Treselection, and Qoffset of the cell are less than the lower limit allowed to be set by the mobile communication system, or part of the system parameters of the cell are greater than the upper limit and part of the system parameters are less than the lower limit, and the like.

In addition, the system parameter values of the cells of each second type of base station may be different or the same. Taking Qrxlevmin as an example, Qrxlevmin for 1 cell may be, for example, -141dBm, and Qrxlevmin for another cell may be, for example, -43 dBm.

By the method, the terminal equipment does not need to access the cell of the non-communication base station, so that the normal mobile communication network service used by the user is not influenced. For example, it is possible to avoid affecting the ongoing session of the terminal device.

It should be noted that the above-mentioned base station of the second type may belong to a single Mobile communications operator, and may also be applicable to multiple Mobile communications operators, that is, the base station of the second type may be provided with a Public Land Mobile Network (PLMN) number of one Mobile communications operator, or the broadcast signal of the non-serving cell provided by the base station of the second type may be monitored by a terminal device using the communications service of the Mobile communications operator. The second type base station may also be provided with PLMN numbers of a plurality of mobile communication operators, or broadcast signals transmitted by non-serving cells provided by the second type base station may be monitored by terminal devices using communication services of the plurality of mobile communication operators.

When the base station of the second type includes PLMN numbers of a plurality of mobile communication operators, the non-serving cell identifiers provided by the base station of the second type may be shared among the plurality of mobile communication operators, or in other words, the same non-serving cell is the same for cell identifiers carried in broadcast signals transmitted by terminal devices using communication services of different mobile communication operators. In this way, base station resources may be saved.

In the following, taking the target area as an entrance of a location as an example, how to use a non-serving cell of a non-communication base station to cover the target area of the location is described:

the first scenario is: the entrance and exit of the site are mixed. That is, the location has only one entrance. Such as a gate of a subway station. In this scenario, one non-serving cell may cover the entrance or exit of the venue, or at least two non-serving cells may cover the entrance or exit of the venue. That is, the entrance of the location may be covered by one non-communication base station, or the entrance of the location may be covered by at least two non-communication base stations, specifically, the non-communication base stations may be installed according to the actual situation of the location or the needs of the user. In the following embodiments, a non-serving cell is provided by a non-communication base station, which is not described in detail herein.

When a non-service cell is adopted to cover the entrance and exit of the place, whether the terminal device enters or exits the place can be judged by further combining the time when the terminal device obtains the identifier of the non-service cell. For example, when the terminal device searches for the broadcast signal of the non-serving cell twice in sequence and acquires the identifier of the non-serving cell, it may be determined that the terminal device enters the location for the first time and that the terminal device leaves the location for the second time.

It should be noted that, for the case of using a single non-serving cell for coverage, for example, the coverage area of the non-serving cell may be limited within a certain geographic range, that is, the transmission distance of the radio frequency signal (for example, a broadcast signal) transmitted by the non-serving cell is limited within a certain geographic range, for example:

implementation mode 1: the non-communication base station to which the non-service cell belongs is arranged in a device similar to a security check machine, so that the non-service cell only covers the interior of the device. The terminal equipment is transmitted into and out of the device through the conveyor belt so as to acquire the non-service cell identification through the broadcast signal of the non-service cell.

Implementation mode 2: the non-communication base station adopts a form of a radome, so that the coverage range of the non-service cell is limited in a range below the radome only, namely, only when the non-communication base station enters the range below the radome, the terminal equipment can monitor the broadcast signal of the non-service cell.

For example, a small radome may be positioned above a table top, e.g., there may be a distance of about 20 cm between the radome and the table top, which facilitates the visitor to sweep or sweep the terminal device through the space above the radome and the table top. Large radomes can be suspended indoors under the roof, for example, the distance between the radome and the ground is around 2 meters, facilitating visitors to walk under the radome.

Implementation 3 may use a non-communication base station similar to a Point Of Sale (POS) machine, which provides a non-serving cell with low power Of radio frequency signals (e.g., broadcast signals) transmitted by the non-communication base station, and the terminal device Of the visitor can monitor and resolve the broadcast signals Of the non-serving cell when the terminal device is close to the non-communication base station.

Taking the common coverage of three non-serving cells as an example, fig. 2 is a schematic diagram of the common coverage of a plurality of non-serving cells, and as shown in fig. 2, the entrance of the place can be covered by the non-serving cell 1, the non-serving cell 2, and the non-serving cell 3, for example. The figures are simplified by cell 1, cell 2, and cell 3.

When the user enters the location, the user's terminal device enters the target area 2, moves from the target area 2 to the target area 1, and leaves the target area 1. Therefore, the terminal device may first search the broadcast channel of the non-serving cell 1 and the broadcast channel of the non-serving cell 3 to obtain the identifier of the non-serving cell 1 and the identifier of the non-serving cell 3, then search the broadcast channel of the non-serving cell 1, the broadcast channel of the non-serving cell 2, and the broadcast channel of the non-serving cell 3 at the same time to obtain the identifier of the non-serving cell 1, the identifier of the non-serving cell 2, and the identifier of the non-serving cell 3. On the contrary, if the user leaves the location, the user's terminal device enters the target area 1, moves from the target area 1 to the target area 2, and leaves the target area 2. Therefore, the terminal device may first obtain the identifier of the non-serving cell 1, the identifier of the non-serving cell 2, and the identifier of the non-serving cell 3 at the same time, and then obtain the identifiers of the non-serving cell 1 and the non-serving cell 3 at the same time, and then determine the terminal device. That is, [ (cell 1, cell 3), (cell 1, cell 2, cell 3) ] indicates that the terminal device enters the site, and [ (cell 1, cell 2, cell 3), (cell 1, cell 3) ] indicates that the terminal device leaves the site. The arrival and departure can be distinguished by the combination of cells in the two sets of non-serving cells.

The second scenario is as follows: the entrance and exit of the site are separated. I.e. the site has a separate outlet and a separate inlet. E.g. a supermarket with separate entrances and separate exits, etc.

In this scenario, for a portal, one non-serving cell coverage may be used, or at least two non-serving cell coverage may be used. Accordingly, one non-serving cell coverage or at least two non-serving cell coverage may also be used for the egress. That is, different coverage areas are set at the entrance and exit to distinguish the arrival and the departure.

Taking the common coverage of two non-serving cells as an example, fig. 3 is another schematic diagram of the common coverage of multiple non-serving cells, as shown in fig. 3, an entrance of a site may be covered by the non-serving cell 1 and the non-serving cell 2, and an exit may be covered by the non-serving cell 3 and the non-serving cell 4. The figures are simplified by cell 1, cell 2, cell 3, and cell 4.

In this example, when the user enters the location from the entrance of the location, the terminal device of the user can simultaneously search the broadcast channel of the non-serving cell 1 and the broadcast channel of the non-serving cell 2, and acquire the identity of the non-serving cell 1 and the identity of the non-serving cell 2. When the user leaves the location from the exit of the location, the terminal device of the user can simultaneously search the broadcast channel of the non-serving cell 3 and the broadcast channel of the non-serving cell 4 to obtain the identifier of the non-serving cell 3 and the identifier of the non-serving cell 4.

Taking the common coverage of three non-serving cells as an example, fig. 4 is another schematic diagram of the common coverage of multiple non-serving cells, as shown in fig. 4, an entrance of a site may be covered by the

non-serving cells

1, 2, and 3, and an exit may be covered by the

non-serving cells

4, 5, and 6, for example.

In this example, when the user enters the location from the entrance of the location, the terminal device of the user can simultaneously search the broadcast channel of the non-serving cell 1, the broadcast channel of the non-serving cell 2, and the broadcast channel of the non-serving cell 3, and acquire the identity of the non-serving cell 1, the identity of the non-serving cell 2, and the identity of the non-serving cell 3. When the user leaves the location from the exit of the location, the terminal device of the user can simultaneously search the broadcast channel of the non-serving cell 4, the broadcast channel of the non-serving cell 5, and the broadcast channel of the non-serving cell 6, and acquire the identifier of the non-serving cell 4, the identifier of the non-serving cell 5, and the identifier of the non-serving cell 6.

As can be seen from the above two scenarios, one non-serving cell may cover the target area, or a plurality of non-serving cells may cover the target area. That is, the entrance, the exit, or the entrance of a location corresponds to a non-serving cell identifier group, and the non-serving cell identifier group may include one non-serving cell identifier or a plurality of non-serving cell identifiers. That is, there is a mapping relationship between the entrance and exit of the venue and the non-serving cell identity group. The mapping relationship may be, for example, as follows:

TABLE 1

It should be understood that table 1 above only gives an exemplary mapping relationship between an entrance and an exit of a place and a non-serving cell identifier group, and how to specifically characterize the mapping relationship between the entrance and the exit and the non-serving cell identifier group may be set according to actual requirements of users.

As can be seen from the example in table 1, a target area in some places is covered by one non-serving cell, and a target area in some places is covered by a plurality of non-serving cells, which may be specifically set according to the actual situation of the place or the requirement of the user, so that the scheme in the embodiment of the present application may be applicable to various places.

In addition, the mode of jointly covering a plurality of non-service cells is adopted, so that the accuracy of identifying the entrance and exit of the terminal equipment can be further improved, and the accuracy of determining the target terminal equipment visiting the place is further improved.

It should be noted that the above-mentioned second type of base station capable of providing a non-serving cell may also be replaced by other short-range communication devices capable of transmitting radio frequency signals, such as any of the following short-range communication devices:

in this implementation, a Service Set Identifier (SSID) of a Wireless fidelity (WIFI) device may be used as a non-serving cell Identifier.

Near Field Communication (NFC) devices, in this implementation, the identity of an NFC device may be used as a non-serving cell identity.

The bluetooth device, in this implementation, may use the ID of the bluetooth device as the non-serving cell identity.

For example, a single non-serving cell may be replaced by the short-range communication device, or a part of non-serving cells in a scenario covered by multiple non-serving cells together may be replaced by the short-range communication device. For example, in the scenario shown in fig. 2, cell 1 may be a base station of the second type, cell 2 may be a WIFI device, cell 3 may be an NFC device, and the like. Through the method, the implementation mode of the embodiment of the application can be expanded so as to flexibly adapt to the requirements of different places.

As described above, the method of the embodiment of the present application can be applied to, for example, a mobile location. For example, the vehicle may be a moving vehicle (e.g., a bus, etc.), or may be a section of a moving vehicle (e.g., a section of a rail transportation, etc.).

Therefore, in a mobile and small space, the coverage of the non-serving cell can be set at the entrance as follows:

for a place where front and rear doors are provided, that is, a place where an entrance and an exit are separated (for example, a front door is an entrance, and a rear door is an exit), NFC devices with different identification distances may be respectively set up on the front and rear doors, and the behavior of entering and exiting the place may be determined by the identifiers of the different NFC devices. It should be understood that, as used herein, NFC devices with different identification distances are understood to have different coverage areas, or different working distances, or different sensing distances. For example, an NFC device with a recognition distance of 2 meters may be adopted, that is, when the distance between the terminal device and the NFC device is less than or equal to 2 meters, the identification of the NFC device broadcasted by the NFC device may be acquired.

Or, for the place, a single non-service cell is adopted for covering, and the identifiers of the non-service cells arranged in different places and/or the values of system parameters are different. Taking a bus as an example, the identifiers of non-service cells corresponding to different buses and/or the values of system parameters are different. In this implementation, when the terminal device leaves the coverage of the non-serving cell, it is determined to leave the location.

Under the system architecture shown in fig. 1, for example, the terminal device visiting a certain location may be determined in the following 2 ways in the embodiment of the present application:

the first mode is as follows: and the terminal equipment monitors the broadcast signal, and reports the broadcast signal to the server after acquiring the non-service cell identification group so as to store the non-service cell identification set of the terminal equipment at the server side. When the identifier of the terminal device in a certain location (e.g., a target location) needs to be obtained, the server may determine the terminal device visiting the location based on the non-serving cell identifier corresponding to the target location and the non-serving cell identifier set of the terminal device.

The second mode is as follows: and the terminal equipment monitors the broadcast signals, acquires the non-service cell identification group and then automatically stores the non-service cell identification group to a non-service cell identification set on the terminal equipment side. When the identifier of the terminal device in a certain location (e.g., a target location) needs to be obtained, the server may send a non-serving cell identifier group corresponding to the target location to the terminal device. And the terminal equipment judges whether the target place is visited or not based on the non-service cell identification group corresponding to the target place and the non-service cell identification set of the terminal equipment.

For convenience of understanding, the following describes how a terminal device searches for a broadcast signal of at least one non-serving cell covering a target area and acquires a non-serving cell identifier group, by taking an example that the terminal device enters the target area of a certain location:

fig. 5 is a schematic flowchart of a data processing method according to an embodiment of the present application. As shown in fig. 5, the method may include the steps of:

s101, the terminal equipment searches for the broadcast signal.

When a user enters a target area, the user's terminal device may search for broadcast signals of at least one non-serving cell covering the target area, in particular in relation to the number of cells covering the target area. See prior art for how a terminal device searches for a broadcast signal.

Optionally, the base station to which the serving cell currently providing service for the terminal device belongs may send information such as a cell identifier and a frequency point of a non-serving cell within a coverage area of the serving cell to the terminal device as information of a neighboring cell, so as to accelerate a search speed of the terminal device for a broadcast signal of the non-serving cell.

S102, when the terminal equipment searches the broadcast signal of at least one non-service cell, acquiring a non-service cell identification group from the broadcast signal of the at least one non-service cell.

The broadcast signal of each non-serving cell carries the non-serving cell identity, and the broadcast signal may be, for example, MIB and/or SIB.

The non-serving cell ID may be, for example, an ID of the cell, or a system parameter value of the cell. E.g., the value of one or more parameters of Qrxlevmin, Qrxlevminoffset, Treselection, Qoffset, etc. for that cell. It should be understood that when values of a plurality of parameters are used as the cell identifier, the values of the plurality of parameters may be arranged in a preset order.

In this embodiment, the terminal device may obtain at least one non-serving cell identifier from a broadcast signal of at least one non-serving cell, where the at least one non-serving cell identifier forms a non-serving cell identifier group obtained this time.

In this scenario, the specific arrangement order of the non-serving cell identifiers in the non-serving cell identifier group identified by the terminal device indicates whether the user of the terminal device enters or leaves the location. The specific composition order of the plurality of non-serving cell identities in the non-serving cell identity group may be, for example, as shown in the example of venue B in table 1.

After acquiring the non-serving cell identifier group, the terminal device may store the non-serving cell identifier group in the terminal device side, or report the non-serving cell identifier group to the server. For example, the terminal device may directly send to the server, or send to a base station to which a serving cell currently providing service for the terminal device belongs, and forward the base station to the server. For example, the base station may be directly connected to the server, or may forward the packet through other intermediate devices, which is not limited in this embodiment of the present application.

When the terminal device reports to the server, the terminal device may report in real time, or report at regular time, and so on.

How the terminal device identifies whether the cell identifier group acquired by itself is a non-serving cell identifier group is described below:

in a possible implementation manner, the non-serving cell identifier group may be issued to the terminal device in advance. The pre-issued non-serving cell identifier group may be a non-serving cell identifier group included in the aforementioned "mapping relationship between entrance and exit of a location and non-serving cell identifier group". In the following embodiments, the non-serving cell identifier group pre-issued to the terminal device may be referred to as a preset non-serving cell identifier group, or a preset non-serving cell identifier group list, or the like.

For example, for a terminal device using a Subscriber Identity Module (SIM) card supporting JAVA, the non-serving cell Identity group to be reported may be sent to the SIM of the terminal device in advance, for example, by using an Over-the-Air Technology (OTA) method.

For another example, the terminal device is installed with an APP or an applet that implements the function of the present application, so that the non-serving cell identifier group that needs to be reported can be issued to the APP or the applet in advance. It should be understood that the APP or applet mentioned above may be an APP or applet specifically implementing the function, or an APP or applet integrating other functions in addition to the function. Taking APP as an example, the APP may be an instant messaging APP, or a payment APP, for example. The APP referred to herein may be an APP installed in a SIM card of the terminal device, or an APP installed in an operating system of the terminal device.

Of course, other methods may also be adopted to issue to the terminal device in advance, which is not limited in this regard.

After the cell identifier is issued to the terminal device in advance, when the terminal device acquires the cell identifier group based on the broadcast signal, whether the cell identifier group is stored or not is judged by taking the cell identifier group as a basis, or the cell identifier group is reported to the server. For example, the terminal device may actively determine whether to store or report, or may trigger based on other events.

Taking the active judgment of the terminal device as an example, if the terminal device is installed with an APP or applet for implementing the functions of the application, the judgment can be performed through the APP or applet, and the action of storing or reporting is executed. For example, the terminal device may run a background process of the APP to perform a post-screening operation.

Taking the terminal device as an example to trigger based on other events, for example, the following implementation manners may be included:

for example, the base station sends the indication information to the terminal device to indicate the terminal device to store the acquired non-serving cell identifier group in the terminal device side, or report the acquired non-serving cell identifier group to the server. The indication information may be, for example, configured through Radio Resource Control (RRC) signaling, or the RRC reconfiguration signaling is issued to the terminal device. It should be understood that the base station referred to herein is the base station to which the serving cell currently serving the terminal device belongs. I.e. the aforementioned base stations of the first type.

The indication information may be, for example, all cell identifiers acquired by the terminal device and reported by the terminal device. In this implementation, the cell identifier reported or stored by the terminal device may have a serving cell identifier in addition to the non-serving cell identifier group. In this implementation, the base station may filter the non-serving cell identifier group from the cell identifiers reported by the terminal device and then forward the non-serving cell identifier group to the server, or the non-serving cell identifier group may be self-filtered by the server, or may be filtered by other intermediate devices and then forwarded to the server. The implementation method can also be applied to a scene that the cell identification group is not issued in advance in the terminal equipment. In this implementation, the terminal device directly reports the cell identifier obtained based on the broadcast signal without comparing the cell identifiers.

Or, the indication information may indicate, for example, that the terminal device reports or stores the obtained non-serving cell identifier group, or indicate that the terminal device reports or stores the obtained non-serving cell identifier group when the obtained non-serving cell identifier group belongs to a preset non-serving cell identifier group. The set carries a plurality of non-serving cell identities, or a set of non-serving cell identities within the coverage of the serving cell of the base station.

As another example, a new measurement report triggering event is set or defined. The measurement report triggering event may be: when the non-serving cell identifier group is obtained, the terminal device may be stored in the terminal device side, or reported to the server.

For another example, the broadcast signal of the non-serving cell carries indication information (or referred to as configuration information), which indicates the terminal device to send the cell identifier acquired by the terminal device to the base station. It should be understood that the base station referred to herein is the base station to which the serving cell currently serving the terminal device belongs. I.e. the aforementioned base station of the first type.

The indication information may be a newly added information, or may be system parameters of the non-serving cell, for example, one or more of Qrxlevmin, qrxlevminiffset, Treselection, Qoffset, and specific TAC/LAC. Taking Qrxlevmin of a non-serving cell as an example, it may be set to a value exceeding the value upper limit. Therefore, after the terminal device obtains the value of the parameter from the broadcast signal, the value can be triggered to be stored or reported to the server.

The implementation method can also be applied to a scene that the non-service cell identification group is not issued in advance in the terminal equipment. In this implementation, the terminal device directly reports the cell identifier obtained based on the broadcast signal without comparing the cell identifiers.

In summary, when the terminal device stores the non-serving cell group in advance, the terminal device may compare the cell identifier identified based on the broadcast signal with the pre-stored non-serving cell group, and store or report the cell identifier if the cell identifier appears in the pre-stored non-serving cell group. That is, the terminal device stores or reports the acquired non-serving cell identifier group when the acquired non-serving cell identifier group belongs to the preset non-serving cell identifier group.

When the non-service cell group is not prestored in the terminal device, the terminal device may store or report all the cell identifiers identified based on the broadcast signal, that is, store or report the cell identifiers in full, the comparison process is not executed, and the comparison process is executed by other devices.

It should be noted that, when the terminal device sends the non-serving cell identifier group identified by the terminal device based on the broadcast signal to the server, the terminal device may send the identified non-serving cell identifier group and the identifier of the terminal device to the server together, so that the server adds the non-serving cell identifier group of the terminal device to the non-serving cell identifier set of the terminal device according to the identifier of the terminal device. Wherein the non-serving cell identity group comprises: at least one non-serving cell identity obtained from a broadcast signal of at least one non-serving cell.

In addition, for the terminal device to report to the server, the following implementation modes can be adopted:

for example, when the terminal device adopts a mode of first sending the measurement report to the base station to which the serving cell currently providing service for the terminal device belongs, and then forwarding the measurement report to the server through the base station, the terminal device may report the measurement report to the base station by using a measurement report log, or report the measurement report to the base station by using other modes that can be known by the base station.

For another example, if an APP or an applet that implements the function of the application is installed in the terminal device, the terminal device may report to the server through the APP or the applet. In this implementation, the identifier of the terminal device may be, for example, an ID of an APP.

For another example, if an APP or an applet for implementing the functions of the present application is installed in the terminal device, and a part of non-serving cells in a scenario covered by multiple non-serving cells are replaced with the near field communication device, the identifier of the non-serving cell may be reported through a measurement report or a measurement report log, and other identifiers, such as an SSID, an identifier of an NFC, and an ID of a bluetooth device, may be reported through the APP. And associating the reported identifications through the identification of the terminal equipment and/or the ID of the APP at the service end side. Or all are reported through the APP, or all are reported through a measurement report or a measurement report log, and the like.

It should be noted that the specific reporting manner may be determined by the terminal device, or may be indicated by the base station or the server, taking the base station as an example, and the base station may be indicated by the indication information, for example. For example, the aforementioned indication information is also used to indicate a mode of reporting the acquired non-serving cell identifier group by the terminal device, for example, the reporting mode is a measurement report log, or a measurement report.

It should be understood that the foregoing is only exemplary to show several ways that can trigger the terminal device to identify the non-serving cell identity group and how to store or report the non-serving cell identity group to the server, and the application is not limited thereto.

It should be understood that, the above-mentioned terminal device stores the acquired non-serving cell identifier group, which may be that the terminal device adds the acquired non-serving cell identifier group to a non-serving cell identifier set of the terminal device. That is, in this implementation, the non-serving cell identity set of the terminal device is stored at the terminal device side. After the terminal device sends the acquired non-serving cell identifier group to the server, the server may add the acquired non-serving cell identifier group to a non-serving cell identifier set of the terminal device. That is, in this implementation, the non-serving cell identity set of the terminal device is stored on the serving side.

The non-serving cell identification set of the terminal device records a non-serving cell identification group obtained by the terminal device from the searched broadcast signal of at least one non-serving cell each time in history.

The foregoing embodiments describe how to obtain a non-serving cell identifier set of a terminal device, and how to determine a terminal device visiting a certain location (e.g., a target location) based on the non-serving cell identifier set of the terminal device will be described in detail below.

Fig. 6 is a schematic flowchart of another data processing method according to an embodiment of the present application. When the identifier of the terminal device in a certain location (e.g., a target location) needs to be obtained, the server may perform determination based on the non-serving cell identifier corresponding to the target location and the non-serving cell identifier set of at least one terminal device. As shown in fig. 6, the method may include:

s201, the server determines a target place.

For example, the server may receive a target location input by the user, or the server may obtain a specific event and take a location related to the specific event as the target location. Taking the example of searching for the close contact object of the confirmed diagnosis object of the infectious disease, the server may take the location related to the history track as the target location after acquiring the history track of the confirmed diagnosis object.

S202, the server side determines a target non-service cell identification group corresponding to the target place according to the target place and the mapping relation between the entrance and the exit of the place and the non-service cell identification group.

The mapping relationship between the entrance and the exit of the location and the non-serving cell identifier group may be, for example, as shown in table 1.

If the exit and the entrance of the target location correspond to different non-serving cell identity groups, the number of the target non-serving cell identity groups may be two, and if the exit and the entrance of the target location correspond to the same non-serving cell identity group, the number of the target non-serving cell identity groups may be one.

S203, the server determines the target terminal equipment visiting the target place according to the target non-service cell identification group and the non-service cell identification set of at least one terminal equipment.

It should be understood that the term "visit" as used herein may be understood as whether the terminal device enters the location, and whether the terminal device leaves the location may not need to be determined, or may be determined separately according to actual needs, and the like, and specifically relates to a usage scenario of "determining a target terminal device visiting a target location".

When the non-serving cell identifier set of a certain terminal device includes the target non-serving cell identifier set, it is described that the terminal device history obtains the target non-serving cell identifier set based on the searched broadcast signal, and further it is described that the terminal device visited the place once, or in other words, the user using the terminal device visited the place once, and then the terminal device is used as the target terminal device.

When the non-serving cell identifier set of a certain terminal device does not include the target non-serving cell identifier group, it indicates that the terminal device has not acquired the target non-serving cell identifier group based on the searched broadcast signal, and further indicates that the terminal device has not visited the location, or that a user using the terminal device has not visited the location.

Therefore, the server can accurately determine the target terminal equipment visiting the target place according to the target non-service cell identification group and the non-service cell identification set of at least one terminal equipment.

Optionally, in some embodiments, the server may determine, according to the target non-serving cell identifier group, the target historical time period, and the non-serving cell identifier set of the at least one terminal device, a target terminal device that visits the target location within the target historical time period. That is, the target terminal device visiting the target location within a certain time period can be determined, so that the accuracy of determining the target terminal device visiting the target location can be further improved.

It should be noted that, when determining that the target terminal device visits the target location within the target history time period, the server may respectively match the arrival time and the departure time of the terminal device having the target serving cell group in the non-serving cell identifier set, so as to determine whether the target location is visited within the target history time period.

The target historical time period may be determined based on a starting time point and an ending time point input by a user, or the server may obtain a specific event and determine the target historical time period according to a time period related to the specific event. The target historical time period may be a time period to which a specific event relates, or may be a time period including a time period to which a specific event relates.

Taking the example of finding the closely contacted object of the diagnosed object of the infectious disease as an example, the server may determine the obtained target historical time period according to the time period when the diagnosed object specifically enters and exits the target site after obtaining the historical track of the diagnosed object. The target historical time period may be a time period when the diagnosed object specifically enters the target location, or a time point when the diagnosed object specifically enters the target location may be used as a starting point of the target historical time period, and a time point when the diagnosed object specifically leaves the target location is further extended by a certain time period may be used as an end point of the target historical time period.

The precision of the time point can be determined according to the requirements of the server, for example, the precision can be up to a certain day, or up to a certain second, and the like.

Taking the example of finding the closely contacted object of the confirmed object of the infectious disease as an example, if the target site is a site visited by the confirmed object of the infectious disease in XX month XX in 2:00-3:00 afternoon, assuming that the time period is taken as a target historical time period, the server may determine the target terminal device visiting the target site in the time period according to the target non-serving cell identifier group, the non-serving cell identifier set of at least one terminal device in XX month XX in 2:00-3:00 afternoon, and the non-serving cell identifier set of the target terminal device.

For example, when reporting the acquired non-serving cell identifier group to the server, the terminal device may also report the time when the terminal device has historically acquired the non-serving cell identifier group. The time may be one of the following:

time values parsed from the broadcast signal, e.g., time values parsed from the SIBs; or, when acquiring the non-service cell identification group from the broadcast signal, the local time of the terminal device; or, when the time value is analyzed from the broadcast signal, the local time of the terminal device; or when the terminal equipment sends the non-service cell identification group to the server, the local time of the terminal equipment is obtained.

Therefore, the server may determine the target terminal device that visits the target location within the target history time period according to the target non-serving cell identifier group, the target history time period, and the time corresponding to each non-serving cell identifier group in the non-serving cell identifier set of at least one terminal device.

For another example, when the server receives a non-serving cell identifier group in the non-serving cell identifier set reported by the terminal device history each time, the server may record the reception time, and use the reception time as the time when the user having the terminal device enters or exits the location corresponding to the non-serving cell identifier group. Thus, the server can determine the target terminal device visiting the target place within the target historical time period according to the target non-serving cell identifier group, the target historical time period, the non-serving cell identifier set of at least one terminal device and the receiving time of the non-serving cell identifier group in the non-serving cell identifier set reported by each terminal device in the history.

The present application does not limit the behavior after the target terminal device visiting the target location is determined in the above manner, and is specifically related to the usage scenario of the "target terminal device visiting the target location is determined".

Taking epidemic situation prevention control as an example, if the target site is a site where the diagnostic subject of the infectious disease has come in and out, after the server determines the target terminal device visiting the target site, for example, at least one of the following operations may be performed:

the server may add a tag to the electronic identity of the user corresponding to the target terminal device to represent that the user has visited the target location, and the tag may also carry a specific time period for the user to visit the target location.

Or, the server may send a prompt message to the target terminal device, where the prompt message may be used to prompt that the historical track of the terminal device is abnormal. Or the prompt information is used for prompting the terminal equipment to visit the target place. Or, the prompt message includes: the identification of the target place, and the time when the target terminal device enters or exits the target place. That is, after matching the arrival time and the departure time of the terminal device having the target serving cell group in the non-serving cell identifier set, the server sends the time when the target terminal device enters or exits the target location and the identifier of the target location carried in a prompt message to the target terminal device.

Or, the server may send the first prompt information and the second prompt information to the target terminal device, where the first prompt information includes: the identification of the target place and the time when the target terminal equipment enters the target place; the second prompt message includes: the identification of the target location, and the time when the target terminal device leaves the target location. After receiving the first prompt message and the second prompt message, the target terminal device may determine the display mode by itself, for example, the first prompt message and the second prompt message may be displayed separately, or the first prompt message and the second prompt message may be combined and then displayed.

It should be noted that any one of the above prompt messages may be issued through a short message, or may be issued through an APP or an applet on the target terminal device. If the data is transmitted through the APP or the applet, the target terminal equipment can immediately pop up the window after receiving the data, and can also pop up the window when the user subsequently opens the APP or the applet and the like, and the data can be specifically set according to actual requirements.

It should be understood that the prompt information sent by the server may be consistent with the prompt information displayed by the target terminal device, and in this implementation, the target terminal device only needs to display the prompt information, and does not need to perform secondary processing on the prompt information.

Or, the target terminal device may generate and display new prompt information according to the prompt information sent by the server.

For example, the prompt information sent by the server only carries the prompt code, and the target terminal device presets the prompt content corresponding to the prompt code, so that the target terminal device can generate and display the prompt information containing the prompt content corresponding to the prompt code.

For another example, the prompt information sent by the server only carries key information (e.g., information of a target location, access time, etc.) that needs to be prompted, and a template of the prompt information is preset in the target terminal device, and part of the key information in the template is vacant. Therefore, after receiving the information of the target place, the target terminal device can fill the key information into the template to generate new prompt information and display the new prompt information.

That is to say, the prompt information in the embodiment of the present application focuses on prompting the user holding the terminal device, and as to whether the prompt information needs to prompt the key information, etc., the prompt information may be set according to actual requirements, which is not limited in the present application.

In the foregoing embodiment, it is described how, in a scenario in which the terminal device reports a non-serving cell identifier group obtained by the terminal device based on a searched broadcast signal to the server, the server determines a target terminal device that visits a target location based on a non-serving cell identifier corresponding to the target location and a non-serving cell identifier set of at least one terminal device.

When the terminal device stores the non-serving cell identifier set of the non-serving cell identifier group obtained by the searched broadcast signal, how the terminal device determines whether the terminal device visits the target place based on the instruction of the server side is described below.

Fig. 7 is a schematic flowchart of another data processing method according to an embodiment of the present application. It should be noted that the same terms or concepts in this embodiment are similar to those in the embodiment shown in fig. 6, and are not repeated. As shown in fig. 7, the method may include:

s301, the server determines a target place.

S302, the server side determines a target non-service cell identification group corresponding to the target place according to the target place and the mapping relation between the entrance and the exit of the place and the non-service cell identification group.

For the above steps S301 to S302, reference may be made to the description of steps S201 to S202, which are not repeated herein.

S303, the server sends the target non-service cell identification group to the terminal equipment.

Accordingly, the terminal device receives the target non-serving cell identity group.

For example, the service end may issue a target non-serving cell identifier group to multiple terminal devices in a broadcast manner. For example, the server may send the target non-serving cell identifier group to the terminal device through an APP or an applet installed in the terminal device.

S304, the terminal equipment determines whether the target place is visited or not according to the target non-service cell identification group and the non-service cell identification set of the terminal equipment.

When the non-serving cell identifier set of the terminal device includes the target non-serving cell identifier set, it is described that the terminal device history obtains the target non-serving cell identifier set based on the searched broadcast signal, and further it is described that the terminal device visited the location, or that a user using the terminal device visited the location.

When the non-serving cell identifier set of the terminal device does not include the target non-serving cell identifier group, it is indicated that the target non-serving cell identifier group has not been acquired by the terminal device history based on the searched broadcast signal, and further it is indicated that the terminal device has never visited the location, or that a user using the terminal device has not visited the location.

Therefore, the terminal device can accurately determine whether the terminal device visits the target place or not according to the target non-service cell identification group and the non-service cell identification set of the terminal device.

Optionally, in some embodiments, the server sends the target non-serving cell identifier group to the terminal device, and at the same time, also sends the target historical time period, so that the terminal device determines, according to the target non-serving cell identifier group, the target historical time period, and the non-serving cell identifier set, whether the terminal device has visited the target location within the target historical time period, thereby further improving the accuracy of determining whether the terminal device has visited the target location. The manner for the server to obtain the target historical time period may be referred to the foregoing description about this portion in the embodiment shown in fig. 6.

In specific implementation, the server may send the starting time point and the ending time point of the target historical time period to the terminal device, so as to represent the target historical time period by the two time points. For example, when the server issues the target non-serving cell identifier group corresponding to the target location, only the target non-serving cell identifier group corresponding to the entrance or the exit may be provided, but two time points may be included. For a target place with mixed entrances and exits, a service end issues a target non-service cell identification group, and the target non-service cell identification group comprises two time points successively. The forward time points indicate arrival and the backward time points indicate departure.

The precision of the time point can be determined according to the requirements of the server, for example, the precision can be up to a certain day, or up to a certain second.

It should be noted that, when determining whether the target location is visited within the target history time period, the terminal device may respectively match the arrival time and the departure time to determine whether the target location is visited within the target history time period.

For example, when the terminal device stores the acquired non-serving cell identifier group in the non-serving cell identifier set, the terminal device may also store the time when the terminal device acquires the non-serving cell identifier group. That is, the non-serving cell identification set further includes: the terminal device historically obtains the time of the non-service cell identification group. The time may be one of the following:

time values parsed from the broadcast signal, e.g., parsed from the SIB; or, when acquiring the non-service cell identification group from the broadcast signal, the local time of the terminal device; or, when the time value is analyzed from the broadcast signal, the local time of the terminal device; or when the terminal device stores the non-service cell identification group, the local time of the terminal device.

Therefore, the terminal device may determine whether the target location is visited within the target history time period according to the target non-serving cell identifier group, the target history time period, and the time corresponding to each non-serving cell identifier group in the non-serving cell identifier set of at least one terminal device.

The present application does not limit the behavior after the target location is determined in the above manner, and is particularly related to a usage scenario of "determining whether the target location is visited or not".

Taking epidemic situation prevention control as an example, if the target site is a site where a diagnostic subject of an infectious disease has come in and go out, the terminal device may perform, for example, at least one of the following operations after determining that the target site has been visited:

the terminal device may output a prompt message, where the prompt message may be used to prompt that the historical track of the terminal device is abnormal, or that the historical track of the user holding the terminal device is abnormal. Or, the prompt information is used to prompt the terminal device to visit the target location, or to say, the user holding the terminal device visits the target location. Or, the prompt message includes: the identification of the target place, and the time when the terminal device goes in and out of the target place. That is, the terminal device matches the arrival time and the departure time of the target serving cell group in the non-serving cell identifier set, and then outputs the time of entering or exiting the target location and the identifier of the target location together with one piece of prompt information.

Or, the terminal device may output the first prompt message and the second prompt message, where the first prompt message includes: identification of the target location, and time of entry into the target location; the second prompt message includes: an identification of the target location, and a time of departure from the target location.

It should be noted that any of the above prompt messages may be issued through a popup of the terminal device system, or through an APP or an applet on the target terminal device. If the prompt information is issued through the APP or the applet, the target terminal equipment can immediately pop up the window after generating the prompt information, and can also pop up the window when the user subsequently opens the APP or the applet, and the like, and the setting can be specifically performed according to actual requirements.

In addition, the prompt information in the embodiment of the present application focuses on prompting the user holding the terminal device, and as to whether the prompt information needs to prompt the key information, etc., the prompt information may be set according to actual requirements, which is not limited in the present application.

According to the data processing method, the target area (such as an entrance and/or an exit) of the place is covered by the cell of the non-communication base station, and the terminal equipment visiting the place can be identified under the condition that the terminal equipment of the user visiting the place does not reside or reselect in the cell by setting the system parameters of the cell of the non-communication base station. That is, in this implementation, the user's terminal device need not establish a connection with the non-communicating base station, and therefore, need not reside specifically for the user to resolve the problem of connecting with the wireless device. In addition, the realization method does not need the terminal equipment to access the cell of the non-communication base station, therefore, the normal mobile communication network service used by the user is not influenced. In conclusion, the application can realize that the visitor has no perception. In addition, no trigger device is additionally arranged, the system architecture is simplified, and the cost is reduced.

The above provides a detailed description of how to determine a terminal device visiting a target location for an embodiment of the present application.

Fig. 8 is a schematic structural diagram of a data processing apparatus according to an embodiment of the present application, and as shown in fig. 8, the apparatus may include: a first determination module 11, a second determination module 12 and a third determination module 13.

A first determining module 11, configured to determine a target location;

a second determining module 12, configured to determine a target non-serving cell identifier group corresponding to the target location according to the target location and a mapping relationship between an entrance and an exit of the location and the non-serving cell identifier group; the access parameter of each non-service cell in the non-service cell identification group enables the terminal equipment not to be accessed to the non-service cell;

a third determining module 13, configured to determine, according to the target non-serving cell identifier group and a non-serving cell identifier set of at least one terminal device, a target terminal device that visits the target location; the non-serving cell identity set of the terminal device comprises: the terminal device history obtains a non-service cell identification group from the searched broadcast signal of at least one non-service cell.

Optionally, the third determining module 13 is specifically configured to determine, according to the target non-serving cell identifier group, a target historical time period, and a non-serving cell identifier set of at least one terminal device, a target terminal device that visits the target location within the target historical time period.

For example, the set of non-serving cell identities further comprises: the terminal equipment historically obtains the time of a non-service cell identification group; or, the third determining module 13 is specifically configured to determine, according to the target non-serving cell identifier group, a target historical time period, a non-serving cell identifier set of at least one terminal device, and a receiving time of the non-serving cell identifier group in the non-serving cell identifier set that is reported by each terminal device history, a target terminal device that visits the target location within the target historical time period.

Optionally, the apparatus may further include a sending module 14, configured to send, after the third determining module 13 determines, according to the target non-serving cell identifier group and the non-serving cell identifier set of at least one terminal device, a prompt message to the target terminal device, where the prompt message is used to prompt the target terminal device to visit the target location.

Optionally, the apparatus may further comprise a receiving module 15 and a storing module 16.

A receiving module 15, configured to receive the non-serving cell identifier group from the terminal device and the identifier of the terminal device before the third determining module 13 determines, according to the target non-serving cell identifier group and the non-serving cell identifier set of at least one terminal device, that the target terminal device visits the target location;

a storage module 16, configured to add the non-serving cell identifier group of the terminal device to the non-serving cell identifier set of the terminal device according to the identifier of the terminal device.

The data processing apparatus provided in this embodiment may execute the actions of the server in the method embodiments corresponding to fig. 5 and fig. 6, and the implementation principle and the technical effect are similar, which are not described herein again.

Fig. 9 is a schematic structural diagram of another data processing apparatus according to an embodiment of the present application, and as shown in fig. 9, the apparatus may include: a search module 21, an acquisition module 22 and a sending module 23.

A search module 21 for searching for a broadcast signal;

an obtaining module 22, configured to obtain a non-serving cell identifier group from a broadcast signal of at least one non-serving cell when the broadcast signal of the at least one non-serving cell is searched; the access parameter of each non-service cell in the non-service cell identification group enables the terminal equipment not to be accessed to the non-service cell;

a sending module 23, configured to send a non-serving cell identifier group and an identifier of a terminal device to a server, so that the server adds the non-serving cell identifier group of the terminal device to a non-serving cell identifier set of the terminal device according to the identifier of the terminal device, where the non-serving cell identifier set of the terminal device is used to enable the server to determine whether the terminal device visits the target location according to a target non-serving cell identifier group corresponding to the target location and the non-serving cell identifier set of the terminal device.

Optionally, the sending module 23 is specifically configured to send the non-serving cell identifier group and the identifier of the terminal device to the server when the obtained non-serving cell identifier group belongs to a preset non-serving cell identifier group.

Optionally, the apparatus further comprises: a receiving module 24, configured to receive indication information sent by a base station, where the indication information is used to indicate that the terminal device reports an acquired non-serving cell identifier group; the base station is a base station to which a serving cell currently providing service for the terminal equipment belongs. For example, the indication information is further used to indicate a mode of reporting the acquired non-serving cell identifier group by the terminal device.

Optionally, the sending module 23 is specifically configured to send the non-serving cell identifier group, the time when the non-serving cell identifier group is obtained, and the identifier of the terminal device to the server.

Optionally, the receiving module 24 is further configured to receive, by the terminal device, prompt information from the server, where the prompt information is used to prompt the terminal device to visit a target location; the device further comprises: and the output module 25 is used for outputting the prompt message.

The data processing apparatus provided in this embodiment may execute the actions of the terminal device in the method embodiment corresponding to fig. 5, and the implementation principle and technical effects are similar, which are not described herein again.

Fig. 10 is a schematic structural diagram of another data processing apparatus according to an embodiment of the present application, and as shown in fig. 10, the apparatus may include: a first determining module 31, a second determining module 32 and a sending module 33.

A first determination module 31 for determining a target location;

a second determining module 32, configured to determine, according to the target location and a mapping relationship between an entrance and an exit of the location and a non-serving cell identifier group, a target non-serving cell identifier group corresponding to the target location; the access parameters of each non-service cell in the non-service cell identification group enable the terminal equipment not to be accessed to the non-service cell;

a sending module 33, configured to send the target non-serving cell identifier group to the terminal device, so that the terminal device determines, according to the target non-serving cell identifier group and a non-serving cell identifier set of the terminal device, whether the terminal device visits the target location; the set of non-serving cell identities comprises: the terminal device history includes a non-serving cell identification group obtained from the broadcast signal of the searched at least one non-serving cell.

Optionally, the sending module 33 is specifically configured to send the target non-serving cell identifier group and the target historical time period to the terminal device, so that the terminal device determines, according to the target non-serving cell identifier group, the target historical time period, and the non-serving cell identifier set, whether the terminal device visits the target location within the target historical time period.

The data processing apparatus provided in this embodiment may perform the actions of the server in the method embodiment corresponding to fig. 7, and the implementation principle and technical effects are similar, which are not described herein again.

Fig. 11 is a schematic structural diagram of another data processing apparatus according to an embodiment of the present application, and as shown in fig. 11, the apparatus may include: a receiving module 41 and a determining module 42.

A receiving module 41, configured to receive a target non-serving cell identifier group corresponding to a target location from a server, where the target non-serving cell identifier group is a target non-serving cell identifier group corresponding to the target location, and is determined by the server according to the target location and a mapping relationship between an entrance and an exit of the location and the non-serving cell identifier group; the access parameter of each non-service cell in the target non-service cell identification group enables the terminal equipment not to be accessed to the non-service cell;

a determining module 42, configured to determine whether the target location is visited according to the target non-serving cell identifier group and the non-serving cell identifier set of the terminal device; the set of non-serving cell identities comprises: the terminal device history includes a non-serving cell identification group obtained from the broadcast signal of the searched at least one non-serving cell.

Optionally, the determining module 42 is specifically configured to determine whether the target location is visited within the target history time period according to the target non-serving cell identifier group, the target history time period, and the non-serving cell identifier set. For example, the non-serving cell identification set further includes: and the terminal equipment historically obtains the time of the non-service cell identification group.

Optionally, the apparatus further comprises: a searching module 43, an obtaining module 44 and a storing module 45.

The searching module 43 is configured to search for a broadcast signal before the determining module 42 determines whether the terminal device visits the target location according to the target non-serving cell identifier group and the non-serving cell identifier set of the terminal device;

an obtaining module 44, configured to obtain a non-serving cell identifier group from a broadcast signal of at least one non-serving cell when the broadcast signal of the at least one non-serving cell is searched, and obtain a time of the non-serving cell identifier group;

a storing module 45, configured to store the non-serving cell identifier group and the time when the non-serving cell identifier group is obtained to the non-serving cell identifier set.

For example, the storing module 45 is specifically configured to, when the acquired non-serving cell identifier group belongs to a preset non-serving cell identifier group, store the non-serving cell identifier group and the time when the non-serving cell identifier group is acquired to the non-serving cell identifier set; and the access parameter of each non-service cell in the preset non-service cell identification group enables the terminal equipment not to be accessed to the non-service cell.

Optionally, the receiving module 41 is further configured to receive indication information sent by the base station, where the indication information is used to indicate that the non-serving cell identifier group is stored to the non-serving cell identifier set when the obtained non-serving cell identifier group belongs to a preset non-serving cell identifier group; and the base station is the base station to which the service cell which provides service for the terminal equipment currently belongs.

Optionally, the apparatus further comprises: an output module 46, configured to output a prompt message when the determining module 42 determines that the target location has been visited according to the target non-serving cell identifier group and the non-serving cell identifier set of the terminal device, where the prompt message is used to prompt the terminal device to visit the target location.

For example, the output module 46 is specifically configured to output the prompt message when it is determined that the target location is visited within the target history time period.

The data processing apparatus provided in this embodiment may execute the actions of the terminal device in the method embodiments corresponding to fig. 5 and fig. 7, and the implementation principle and technical effects are similar, which are not described herein again.

Fig. 12 is a schematic structural diagram of an electronic device according to an embodiment of the present application. The electronic device may be, for example, the aforementioned server or terminal device. As shown in fig. 12, the electronic device may include: at least one processor 51, a memory 52.

A memory 52 for storing programs. In particular, the program may include program code comprising computer operating instructions.

The memory 52 may comprise high-speed RAM memory, and may also include non-volatile memory (non-volatile memory), such as at least one disk memory.

The processor 51 is configured to execute computer-executable instructions stored in the memory 52 to implement the data processing method described in the foregoing method embodiments. The processor 51 may be a Central Processing Unit (CPU), an Application Specific Integrated Circuit (ASIC), or one or more Integrated circuits configured to implement the embodiments of the present Application.

The electronic device may also include a communication port 53 so that communication interaction with external devices may occur via the communication port 53. In a specific implementation, if the communication port 53, the memory 52 and the processor 51 are implemented independently, the communication port 53, the memory 52 and the processor 51 may be connected to each other through the bus 54 and perform communication with each other. The bus 54 may be an Industry Standard Architecture (ISA) bus, a Peripheral Component Interconnect (PCI) bus, an Extended ISA (EISA) bus, or the like. The bus 54 may be divided into an address bus, a data bus, a control bus, etc., but does not represent only one bus or one type of bus.

Alternatively, in a specific implementation, if the communication port 53, the memory 52 and the processor 51 are integrated into a single chip, the communication port 53, the memory 52 and the processor 51 may complete communication through an internal port.

It should be noted that the above description of the structure of the electronic device merely illustrates the content related to the embodiments of the present application, and the embodiments of the present application are not limited as to whether the electronic device further includes other components or has other functions.

The present application also provides a computer-readable storage medium, which may include: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and in particular, the computer-readable storage medium stores program instructions, and the program instructions are used in the method in the foregoing embodiments.

The present application also provides a program product comprising execution instructions stored in a readable storage medium. The at least one processor of the computing device may read the execution instructions from the readable storage medium, and the execution of the execution instructions by the at least one processor causes the electronic device to implement the methods provided by the various embodiments described above.

Other embodiments of the present application will be apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein. This application is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the application and including such departures from the present disclosure as come within known or customary practice within the art to which the invention pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the application being indicated by the following claims.

It will be understood that the present application is not limited to the precise arrangements that have been described above and shown in the drawings, and that various modifications and changes may be made without departing from the scope thereof. The scope of the application is limited only by the appended claims.

Claims

1. A data processing method, comprising:

the server side determines a target place;

the server determines target terminal equipment visiting the target place according to the target non-service cell identification group and a non-service cell identification set of at least one terminal equipment; the non-serving cell identity set of the terminal device comprises: the terminal device history includes a non-serving cell identification group obtained from the broadcast signal of the searched at least one non-serving cell.

2. The method of claim 1, wherein the server determines a target terminal device visiting the target location according to the target non-serving cell identity group and a non-serving cell identity set of at least one terminal device, and the method comprises:

3. The method of claim 2, wherein the set of non-serving cell identities further comprises: the terminal equipment historically obtains the time of the non-service cell identification group;

or,

the server determines the target terminal device visiting the target place in the target historical time period according to the target non-service cell identification group, the target historical time period and the non-service cell identification set of at least one terminal device, and the method comprises the following steps:

4. The method according to any of claims 1-3, wherein after the server determines a target terminal device visiting the target location according to the target non-serving cell identity group and a non-serving cell identity set of at least one terminal device, the method further comprises:

5. The method according to any of claims 1-3, wherein before the server determines a target terminal device visiting the target location according to the target non-serving cell identity group and a non-serving cell identity set of at least one terminal device, the method further comprises:

6. A method of data processing, comprising:

the terminal equipment searches for the broadcast signal;

when the terminal equipment searches the broadcast signal of at least one non-service cell, acquiring a non-service cell identification group from the broadcast signal of the at least one non-service cell; the access parameter of each non-service cell in the non-service cell identification group enables the terminal equipment not to be accessed to the non-service cell;

7. The method of claim 6, wherein the terminal device sends the non-serving cell identity group and the identity of the terminal device to a server, and wherein the method comprises:

8. The method of claim 7, further comprising:

the terminal equipment receives indication information sent by a base station, wherein the indication information is used for indicating the terminal equipment to report the acquired non-service cell identification group; the base station is a base station to which a serving cell currently providing service for the terminal equipment belongs.

9. The method of claim 8, wherein the indication information is further used for indicating a manner in which the terminal device reports the acquired non-serving cell identity group.

10. The method according to any of claims 6-9, wherein the terminal device sends the non-serving cell identity group and the identity of the terminal device to a server, comprising:

11. The method according to any one of claims 6-9, further comprising:

and the terminal equipment outputs the prompt message.

12. A data processing method, comprising:

the server side determines a target place;

the server sends the target non-serving cell identifier group to the terminal equipment, so that the terminal equipment determines whether the terminal equipment visits the target place or not according to the target non-serving cell identifier group and a non-serving cell identifier set of the terminal equipment; each non-serving cell identity group in the non-serving cell identity set comprises: the terminal device history obtains a non-service cell identification group from the searched broadcast signal of at least one non-service cell.

13. The method of claim 12, wherein the server sends the target non-serving cell identity group to a terminal device, and wherein the sending comprises:

14. A data processing method, comprising:

15. The method of claim 14, wherein the determining, by the terminal device, whether the target site is visited according to the target non-serving cell identity group and the non-serving cell identity set of the terminal device comprises:

16. The method of claim 15, wherein the set of non-serving cell identities further comprises: and the terminal equipment historically obtains the time of the non-service cell identification group.

17. The method of claim 16, wherein the terminal device determines whether the terminal device visits the target location according to the target non-serving cell identity group and a non-serving cell identity set of the terminal device, and wherein the method further comprises:

the terminal equipment searches broadcast signals;

and the terminal equipment stores the non-service cell identification group and the time for acquiring the non-service cell identification group into the non-service cell identification set.

18. The method of claim 17, wherein the terminal device stores a non-serving cell identifier group and the time when the non-serving cell identifier group is acquired to the non-serving cell identifier set, and the method comprises:

19. The method of claim 18, further comprising:

20. The method according to any of claims 15-19, wherein the terminal device determines whether to visit the target site according to the target non-serving cell identity group and the non-serving cell identity set of the terminal device, and the method further comprises:

21. The method of claim 20, wherein the terminal device outputs prompt information when determining that the target place is visited, and the prompt information comprises:

22. A data processing apparatus, characterized in that the apparatus comprises:

the first determining module is used for determining a target place;

23. A data processing apparatus, characterized in that the apparatus comprises:

a search module for searching for a broadcast signal;

an obtaining module, configured to obtain a non-serving cell identifier group from a broadcast signal of at least one non-serving cell when the broadcast signal of the at least one non-serving cell is searched; the access parameter of each non-service cell in the non-service cell identification group enables terminal equipment not to be accessed to the non-service cell;

the sending module is used for sending a non-service cell identification group and the identification of the terminal equipment to a server so that the server adds the non-service cell identification group of the terminal equipment to a non-service cell identification set of the terminal equipment according to the identification of the terminal equipment, and the non-service cell identification set of the terminal equipment is used for enabling the server to determine whether the terminal equipment visits the target place according to a target non-service cell identification group corresponding to the target place and the non-service cell identification set of the terminal equipment.

24. A data processing apparatus, characterized in that the apparatus comprises:

the first determining module is used for determining a target place;

a sending module, configured to send the target non-serving cell identifier group to the terminal device, so that the terminal device determines, according to the target non-serving cell identifier group and a non-serving cell identifier set of the terminal device, whether the terminal device visits the target location; the set of non-serving cell identities comprises: the terminal device history obtains a non-service cell identification group from the searched broadcast signal of at least one non-service cell.

25. A data processing apparatus, characterized in that the apparatus comprises:

a determining module, configured to determine whether the target location is visited according to the target non-serving cell identifier group and the non-serving cell identifier set of the terminal device; the set of non-serving cell identities comprises: the terminal device history includes a non-serving cell identification group obtained from the broadcast signal of the searched at least one non-serving cell.

26. An electronic device, comprising: a processor, and a memory communicatively coupled to the processor;

the memory stores computer execution instructions;

the processor executes computer-executable instructions stored by the memory to implement the method of any of claims 1-21.

27. A computer-readable storage medium having stored thereon computer-executable instructions for implementing a data processing method as claimed in any one of claims 1 to 21 when executed by a processor.