CN108966116B

CN108966116B - Terminal control method, network side and acquisition device

Info

Publication number: CN108966116B
Application number: CN201710381278.1A
Authority: CN
Inventors: 张佩佩
Original assignee: Xian Zhongxing New Software Co Ltd
Current assignee: Xian Zhongxing New Software Co Ltd
Priority date: 2017-05-25
Filing date: 2017-05-25
Publication date: 2021-05-18
Anticipated expiration: 2037-05-25
Also published as: WO2018214966A1; CN108966116A

Abstract

The invention discloses a terminal control method, which comprises the following steps: the method comprises the steps that a narrow-band internet of things NB-IoT based on honeycomb is connected with an acquisition device; the acquisition device has the function of the NB-IoT; receiving terminal user information reported by an acquisition device and position information of the acquisition device; the terminal user information comprises the departure place information of the user, the destination information of the user and the identification number of the terminal; and controlling the target enabling parameters of the terminal access network according to the terminal user information and the position information of the acquisition device. The invention also discloses a network side and a collecting device.

Description

Terminal control method, network side and acquisition device

Technical Field

The present invention relates to mobile communication technologies, and in particular, to a terminal control method, a network side, and an acquisition device.

Background

A User Equipment (UE) call function used by a User at a high speed has a doppler effect, and a UE call drop condition has a high probability at a high speed, especially in a high-speed railway mode; due to the uniqueness of railway lines and the rapidity of operating speeds, operators propose and implement a form of private network coverage for railway communication networks, namely railway private networks.

At present, operators begin to arrange a railway private network, and a networking mode of the railway private network is a series of independent base stations for sealing and banded networking; the independence of the railway private network is kept as much as possible through coverage control and cell parameter optimization; besides enhancing the UE signals along the railway, another important reason for the construction of the private railway network is to optimize the location area setting of the private railway network, thereby reducing the location updating amount in the private railway network and improving the wireless call completing rate.

Fig. 1 is a schematic diagram of a switching relationship setting of an existing mutual networking of a private railway network and a public network, as shown in fig. 1, a private railway network coverage is independent of the public network, a neighboring cell relationship is established between adjacent private network cells in the private railway network without reselection and switching with the public network, and a connection point of the private railway network and the public network is a railway station; according to the principle of switching relationship setting in the figure, a railway station waiting room serves as a buffer area role between the railway station waiting room and a public network, and a railway station platform serves as a buffer area role between the railway station platform and a private network, so that the problems of wrong switching and reselection of UE between the public network and the private network are solved.

However, in the existing solutions, only a network buffer is provided in places where there are public networks and private networks for railways, such as stations and platforms, and only the private networks for railways and public networks are networked with each other, which is provided to help private network users for railways to reduce dropped calls and cannot accurately distinguish private network users for railways from public network users.

Disclosure of Invention

In view of this, embodiments of the present invention are expected to provide a terminal control method, a network side and a collection device, so as to quickly and accurately identify a user needing to access a network, and enable the network user to obtain services of the network, and in addition, can also avoid that other users who do not confirm the user needing to access the network, thereby effectively reducing additional burden of the network.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

the invention provides a terminal control method, which comprises the following steps:

the method comprises the steps that a narrow-band internet of things NB-IoT based on honeycomb is connected with an acquisition device; the acquisition device has the function of the NB-IoT;

receiving terminal user information reported by the acquisition device and position information of the acquisition device; the terminal user information comprises departure place information of a user, destination information of the user and an identification number of the terminal;

and controlling the target enabling parameters of the terminal access network according to the terminal user information and the position information of the acquisition device.

In the above solution, before the receiving the terminal user information reported by the acquisition device and the position information of the acquisition device, the method further includes:

sending a request signaling to the acquisition device; the request signaling is used for instructing the acquisition device to report the terminal user information and the position information of the acquisition device, which are acquired within a preset time.

In the above scheme, the controlling the target enabling parameter of the terminal access network according to the terminal user information and the position information of the acquisition device includes:

establishing a terminal user information list according to the terminal user information and the position information of the acquisition device; the terminal user information list stores the position information of the acquisition device corresponding to the identification number of the terminal, the departure place information of the user corresponding to the identification number of the terminal and the destination information of the user corresponding to the identification number of the terminal;

and controlling the target enabling parameter of the terminal access network to be a first target enabling parameter or a second target enabling parameter according to the terminal user information list.

In the foregoing solution, the controlling the target enabling parameter of the terminal accessing the network according to the terminal user information list to be a first target enabling parameter or a second target enabling parameter includes:

judging whether the destination information of the user corresponding to the identification number of the terminal is the same as the position information of the acquisition device corresponding to the identification number of the terminal;

if the destination information of the user corresponding to the identification number of the terminal is the same as the position information of the acquisition device corresponding to the identification number of the terminal, controlling the target enabling parameter of the identification number of the terminal to be accessed to the network as the second target enabling parameter;

and if the destination information of the user corresponding to the identification number of the terminal is different from the position information of the acquisition device corresponding to the identification number of the terminal, controlling the target enabling parameter of the identification number of the terminal to be accessed into the network to be the first target enabling parameter.

In the foregoing solution, after the target enabling parameter for controlling the identifier of the terminal to access the network is the second target enabling parameter, the method further includes:

and deleting the position information of the acquisition device corresponding to the identification number of the terminal, the departure place information of the user corresponding to the identification number of the terminal and the destination information of the user corresponding to the identification number of the terminal, which are stored in the terminal user information list.

In the foregoing solution, after the controlling the identifier of the terminal to access the target enabling parameter of the network, the method further includes:

the identification number of the terminal is accessed to a target cell and a frequency point of a public network side through switching a handover mode or redirecting mode; or the like, or, alternatively,

and accessing the identification number of the terminal to a target cell and a frequency point of the network through switching a handover mode or redirecting a redirect mode.

In the scheme, the network is a high-speed rail private network; the collecting device is a ticket checking device.

The invention also provides a terminal control method, which comprises the following steps:

accessing a network side through a narrow-band cellular-based Internet of things (NB-IoT);

reporting the acquired terminal user information and the self position information to the network side; the terminal user information comprises departure place information of the user, destination information of the user and an identification number of the terminal.

In the above solution, before reporting the acquired end user information and the location information of the end user to the network side, the method further includes:

receiving a request signaling sent by the network side; the request signaling is used for instructing a collection device to report the terminal user information and the self position information acquired within the preset time to the network side.

In the above scheme, the network side is a high-speed railway private network side.

The invention also provides a network side, comprising:

the connection module is used for connecting the acquisition device through a narrow-band Internet of things (NB-IoT) based on honeycomb; the acquisition device has the function of the NB-IoT;

the receiving module is used for receiving the terminal user information reported by the acquisition device and the position information of the acquisition device; the terminal user information comprises departure place information of a user, destination information of the user and an identification number of the terminal;

and the determining module is used for controlling the target enabling parameters of the terminal access network according to the terminal user information and the position information of the acquisition device.

In the foregoing solution, the network side further includes:

the sending module is used for sending a request signaling to the acquisition device; the request signaling is used for instructing the acquisition device to report the terminal user information and the position information of the acquisition device, which are acquired within a preset time.

In the above scheme, the determining module is specifically configured to establish an end user information list according to the end user information and the position information of the acquisition device; the terminal user information list stores the position information of the acquisition device corresponding to the identification number of the terminal, the departure place information of the user corresponding to the identification number of the terminal and the destination information of the user corresponding to the identification number of the terminal;

the determining module is further specifically configured to control the target enabling parameter of the terminal accessing the network to be a first target enabling parameter or a second target enabling parameter according to the terminal user information list.

In the foregoing solution, the determining module is further specifically configured to determine whether destination information of the user corresponding to the identification number of the terminal is the same as position information of the acquiring device corresponding to the identification number of the terminal; if the destination information of the user corresponding to the identification number of the terminal is the same as the position information of the acquisition device corresponding to the identification number of the terminal, controlling the target enabling parameter of the identification number of the terminal to be accessed to the network as the second target enabling parameter; and if the destination information of the user corresponding to the identification number of the terminal is different from the position information of the acquisition device corresponding to the identification number of the terminal, controlling the target enabling parameter of the identification number of the terminal to be accessed into the network to be the first target enabling parameter.

In the foregoing solution, the network side further includes:

and the deleting module is used for deleting the position information of the acquisition device corresponding to the identification number of the terminal, the departure place information of the user corresponding to the identification number of the terminal and the destination information of the user corresponding to the identification number of the terminal, which are stored in the terminal user information list.

In the foregoing solution, the network side further includes:

the first access module is used for accessing the identification number of the terminal to a target cell and a frequency point on a public network side by switching a handover mode or redirecting mode;

and the second access module is used for accessing the identification number of the terminal into the target cell and the frequency point of the network through switching the handover mode or redirecting the redirect mode.

In the scheme, the network side is a high-speed rail private network side; the collecting device is a ticket checking device.

The present invention also provides a collecting device, comprising:

the access module is used for accessing the network side through the cellular-based narrowband Internet of things NB-IoT;

the reporting module is used for reporting the acquired terminal user information and the self position information to the network side; the terminal user information comprises departure place information of the user, destination information of the user and an identification number of the terminal.

In the above scheme, the collecting device further comprises:

a receiving module, configured to receive a request signaling sent by the network side; the request signaling is used for instructing the reporting module to report the terminal user information and the self position information acquired within the preset time to the network side.

According to the terminal control method, the network side and the acquisition device, the network side is connected with the acquisition device through NB-IoT, and the acquisition device has the function of NB-IoT; the network side receives the terminal user information reported by the acquisition device and the position information of the acquisition device; the network side controls the identification number of the terminal in the terminal user information to access the target enabling parameter of the network according to the terminal user information and the position information of the acquisition device; according to the scheme of the invention, the network side controls the target enabling parameters of the terminal identification number accessing network in the terminal user information by using the terminal user information acquired by the acquisition device and the position information of the acquisition device, so that the network side can quickly and accurately identify the user needing to access the network and enable the network user to obtain the service of the network, in addition, other users which do not confirm the user needing to access the network can be prevented from accessing the network, and the additional burden of the network is effectively reduced.

Drawings

Fig. 1 is a schematic diagram of a switching relationship setting of an existing inter-networking of a private railway network and a public network;

fig. 2 is a flowchart of a first embodiment of a terminal control method according to the present invention;

fig. 3 is a flowchart of a second embodiment of a terminal control method according to the present invention;

fig. 4 is a flowchart of a third embodiment of a terminal control method according to the present invention;

fig. 5 is a flowchart of a fourth embodiment of a terminal control method according to the present invention;

fig. 6 is a scene diagram of a fourth embodiment of the terminal control method of the present invention;

FIG. 7 is a schematic diagram of a network side embodiment of the present invention;

FIG. 8 is a schematic structural diagram of an embodiment of the collecting device of the present invention;

FIG. 9 is a schematic structural diagram of a system for terminal control according to an embodiment of the present invention;

FIG. 10 is a schematic diagram of a network server according to an embodiment of the present invention;

fig. 11 is a schematic structural diagram of an embodiment of the collecting apparatus of the present invention.

Detailed Description

To facilitate an understanding of the aspects of the present invention, some techniques used in the aspects of the present invention are explained herein.

The design idea of the private network is a closed manner, i.e. the private network is isolated from the public network, even if the private network uses Base Station Controllers (BSCs) of different manufacturers, under the condition of hybrid networking, each private network BSC can be mounted in the same Mobile Switching Center (MSC), so that a uniform Location Area Code (LAC) parameter can be set for each different BSC.

The private network may include any one of a high-speed railway private network (high-speed railway private network), a fast railway private network, a general railway private network, a high-speed passenger car private network, and the like.

The cellular-based narrowband Internet of Things (NB-IoT) is constructed in a cellular network, only consumes about 180KHz of bandwidth, and can be directly deployed in a GSM network, a UMTS network, an LTE network or a later higher-level network; NB-IoT is an emerging technology in the Internet of Things (IoT) field, supports cellular data connectivity of Low-Power devices in a Wide Area network, and is also called Low Power Wide Area network (LPWA); the NB-IoT equipment can provide very comprehensive indoor cellular data connection coverage, has the characteristics of wide coverage, more connections, low speed, low cost, low power consumption, excellent architecture and the like, and can be widely applied to various vertical industries, such as information acquisition, remote meter reading, asset tracking, intelligent parking, intelligent agriculture and the like.

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Fig. 2 is a flowchart of a first embodiment of a terminal control method according to the present invention; the terminal control method provided by the embodiment of the invention is applied to a network side, and the network side can be understood as a network system and provides service support for network users in a network.

As shown in fig. 2, the terminal control method provided in the embodiment of the present invention may include the following steps:

step 201, connecting with an acquisition device through NB-IoT; the acquisition device has the function of the NB-IoT.

The network side is connected with the acquisition device through NB-IoT; the acquisition device has the function of NB-IoT, namely, both the network side and the acquisition device have the function of supporting NB-IoT.

Preferably, the network side can be a high-speed rail private network side, and the high-speed rail private network side can be understood as a high-speed rail private network system and provides service support for high-speed rail private network users in the high-speed rail private network; the collecting device can be a ticket checking device, the ticket checking device can be a ticket checking gate fixedly arranged at a gate or a portable ticket checker held by a worker, and the ticket checking device can read the identity card information of a user and can also read the ticket information of the user.

For example, the user is using a high-speed rail service, the network may be a high-speed rail private network, and the collecting device may be a ticket checking gate of a high-speed rail station.

Step 202, receiving the user information reported by the collecting device and the position information of the collecting device.

After the network side is connected with the acquisition device through NB-IoT, the network side can send a request signaling to the acquisition device, wherein the request signaling is used for instructing the acquisition device to report the terminal user information acquired within the preset time and the position information of the acquisition device; the network side may periodically or aperiodically send a request signaling to the acquisition device, and may specifically be set according to actual requirements, which is not limited herein; in addition, the preset time can also be set according to actual requirements, and is not limited herein.

The acquisition device can acquire user information of the terminal user when the user swipes an identity card or a ticket, for example, the name of the user, the departure place information of the user, the destination information of the user and the identification number of the terminal used by the user can be acquired through the identity card number of the user or the ticket of the user; the identification number of the terminal can be understood as parameter information representing terminal uniqueness, and can be a communication identification number or other identification numbers; for example, the International Mobile Equipment Identity (IMEI) of the terminal, the International Mobile Subscriber Identity Number (IMSI) in the Subscriber Identity Module (SIM), the Mobile Station International Subscriber Directory Number (MSISDN), i.e., the Mobile phone Number, and so on.

For example, when a user purchases a ticket, the user inputs user information such as an identification number of the user, a name of the user, departure place information of the user, destination information of the user, and an identification number of a terminal used by the user, and the ticket information into a ticket purchasing system, the ticket purchasing system uploads the user information and the ticket information to a station system, and once the user swipes the identification number or the ticket through a ticket checking device, the ticket checking device can acquire the user information corresponding to the identification number or the ticket number from the station system.

After receiving the request signaling, the acquisition device reports the terminal user information acquired within a preset time and the position information of the acquisition device to a network side, and the network side receives the terminal user information reported by the acquisition device and the position information of the acquisition device; the terminal user information at least comprises departure place information of the user, destination information of the user and an identification number of the terminal.

And 203, controlling a target enabling parameter of the terminal access network according to the terminal user information and the position information of the acquisition device.

The network side judges and controls the target enabling parameter of the terminal access network according to the terminal user information reported by the acquisition device and the position information of the acquisition device, namely, whether the target enabling parameter of the terminal access network is a first target enabling parameter or a second target enabling parameter is determined, wherein the first target enabling parameter is used for definitely enabling the terminal to access the network, namely, the network side keeps the connection with the terminal according to the first target enabling parameter, so that the terminal is accessed into the network, an access state is kept, and network service is provided for the terminal; if the target enabling parameter of the terminal access network is determined to be the second target enabling parameter, executing step 204; if it is determined that the target enabling parameter of the terminal accessing the network is the first target enabling parameter, step 205 is executed.

And step 204, accessing the identification number of the terminal to a target cell and a frequency point of a public network side.

After the network side determines that the identification number of the terminal is not the identification number of the network user, the network side accesses the identification number of the terminal to a target cell and a frequency point of a public network side through switching a handover mode or redirecting mode, and the public network side provides public network service for the user.

Step 205, accessing the identification number of the terminal to the target cell and the frequency point of the network.

After determining that the identification number of the terminal is the identification number of the network user, the network side accesses the identification number of the terminal to a target cell and a frequency point of the network side through switching a handover mode or redirecting mode, and the network side provides network service for the user.

According to the terminal control method provided by the embodiment of the invention, a network side is connected with an acquisition device through NB-IoT, and the acquisition device has the function of NB-IoT; receiving terminal user information reported by an acquisition device and position information of the acquisition device; controlling a target enabling parameter of a terminal access network according to the terminal user information and the position information of the acquisition device; after determining that the target enabling parameter of the terminal access network is a first target enabling parameter, accessing the identification number of the terminal into a target cell and a frequency point of the network through switching a handover mode or redirecting mode, and providing network service for a user by the network side; after determining that the target enabling parameter of the terminal access network is a second target enabling parameter, accessing the identification number of the terminal to a target cell and a frequency point of a public network side by switching a handover mode or redirecting mode, and providing public network service for a user by the public network side; according to the scheme of the embodiment of the invention, the network side controls whether the target enabling parameter of the terminal identification number in the terminal user information accessed to the network is the first target enabling parameter or the second target enabling parameter by utilizing the terminal user information acquired by the acquisition device and the position information of the acquisition device, so that the network side can quickly and accurately identify the user needing to access the network and can enable the network user to obtain the service of the network, in addition, other users which do not confirm the user needing to access the network can be prevented from accessing the network, and the additional burden of the network is effectively reduced.

Fig. 3 is a flowchart of a second embodiment of a terminal control method according to the present invention; the terminal control method provided by the embodiment of the invention is applied to the acquisition device; as shown in fig. 3, the terminal control method provided in the embodiment of the present invention may include the following steps:

step 301, accessing a network side through a cellular-based narrowband internet of things (NB-IoT).

The acquisition device is accessed to the network side through the NB-IoT and keeps communication connection with the network side; the network side has the function of NB-IoT, namely the network side and the acquisition device both have the function of supporting NB-IoT.

Step 302, reporting the acquired terminal user information and the self position information to the network side; the terminal user information at least comprises departure place information of the user, destination information of the user and an identification number of the terminal.

After the network side is connected with the acquisition device through NB-IoT, the network side can send a request signaling to the acquisition device, wherein the request signaling is used for instructing the acquisition device to report the terminal user information acquired within the preset time and the position information of the acquisition ticket device; the network side may periodically or aperiodically send a request signaling to the acquisition device, and may specifically be set according to actual requirements, which is not limited herein; in addition, the preset time can also be set according to actual requirements, and is not limited herein.

The acquisition device can acquire user information of the terminal user when the user swipes an identity card or a ticket, for example, the name of the user, the departure place information of the user, the destination information of the user and the identification number of the terminal used by the user can be acquired through the identity card number of the user or the ticket of the user; the identification number of the terminal can be understood as parameter information representing terminal uniqueness, and can be a communication identification number or other identification numbers; for example, the IMEI of the terminal, the IMSI in the SIM, the MSISDN, i.e. the mobile phone number, and so on.

After receiving the request signaling, the acquisition device reports the terminal user information acquired within a preset time and the position information of the acquisition device to a network side, and the network side receives the terminal user information reported by the acquisition device and the position information of the acquisition device; the terminal user information includes departure place information of the user, destination information of the user and an identification number of the terminal.

And then, the network side judges and controls whether the target enabling parameter of the terminal access network is a first target enabling parameter or a second target enabling parameter according to the terminal user information reported by the acquisition device and the position information of the acquisition device, wherein the first target enabling parameter is used for definitely enabling the terminal to access the network, namely, the network side keeps the connection with the terminal according to the first target enabling parameter, so that the terminal is accessed into the network, an access state is kept, network service is provided for the terminal, the second target enabling parameter is used for definitely disabling the terminal from accessing the network, namely, the network side disconnects the connection with the terminal according to the second target enabling parameter, a disconnection state is kept, and network service is not provided for the terminal.

According to the terminal control method provided by the embodiment of the invention, the acquisition device is accessed to the network side through NB-IoT; reporting the acquired terminal user information and the position information of the acquisition device to a network side, wherein the terminal user information comprises the departure place information of a user, the destination information of the user and the identification number of a terminal; the network side controls whether the target enabling parameter of the terminal access network is the first target enabling parameter or the second target enabling parameter according to the terminal user information and the position information of the acquisition device, so that the network side can quickly and accurately identify the user needing to access the network and can obtain the service of the network, in addition, other users who do not confirm the user needing to access the network can be prevented from accessing the network, and the additional burden of the network is effectively reduced.

To further illustrate the object of the present invention, the above embodiments are further illustrated.

Fig. 4 is a flowchart of a third embodiment of a terminal control method according to the present invention; the terminal control method provided by the embodiment of the invention is applied to a network side and an acquisition device, and is an interactive process, wherein the network side can be a private network side, and the acquisition device can be a ticket checking device; as shown in fig. 4, the terminal control method provided in the embodiment of the present invention may include the following steps:

step 401, the network side and the acquisition device are connected through NB-IoT.

The network side is connected with the acquisition device through NB-IoT, and the acquisition device is accessed to the network side through NB-IoT; the acquisition device has the function of NB-IoT, namely, both the network side and the acquisition device have the function of supporting NB-IoT.

Step 402, the network side sends a request signaling to the acquisition device.

The network side sends a request signaling to the acquisition device, and the acquisition device receives the request signaling sent by the network side; the request signaling is used for instructing the acquisition device to report the terminal user information acquired within the preset time and the position information of the acquisition device.

And step 403, the acquisition device reports the acquired terminal user information and the self position information to the network side through a response signaling.

The acquisition device reports the acquired terminal user information and the position information of the acquisition device to a network side through a response signaling, and the network side receives the terminal user information reported by the acquisition device and the position information of the acquisition device; the terminal user information at least comprises departure place information of the user, destination information of the user and a telephone number of a terminal used by the user.

And step 404, the network side establishes an end user information list according to the end user information and the position information of the acquisition device.

The network side establishes a terminal user information list according to the terminal user information and the position information of the acquisition device; the terminal user information list stores position information of the acquisition device corresponding to the telephone number of the terminal, departure place information of the user corresponding to the telephone number of the terminal and destination information of the user corresponding to the telephone number of the terminal.

Step 405, the network side controls the target enabling parameter of the terminal access network to be a first target enabling parameter or a second target enabling parameter according to the terminal user information list.

The network side judges whether destination information of a user corresponding to the identification number of the terminal in the terminal user information list is the same as position information of an acquisition device corresponding to the identification number of the terminal, if the destination information of the user corresponding to the identification number of the terminal is the same as the position information of the acquisition device corresponding to the identification number of the terminal, the target enabling parameter for controlling the identification number of the terminal to be accessed into the network is a second target enabling parameter (representing an enabling parameter for enabling the terminal not to be accessed into the network), namely the identification number of the terminal is a user who is not in the network, and then steps 406 to 407 are executed; if the destination information of the user corresponding to the identification number of the terminal is different from the location information of the acquisition device corresponding to the identification number of the terminal, the target enabling parameter for controlling the identification number of the terminal to access the network is the first target enabling parameter (representing the enabling parameter for allowing the terminal to access the network), that is, the identification number of the terminal is the user of the network, and then step 408 is executed.

And step 406, the network side deletes the position information of the acquisition device, the departure place information of the user and the destination information of the user, which correspond to the identification numbers of the terminals stored in the terminal user information list respectively.

And the network side deletes the position information of the acquisition device corresponding to the identification number of the terminal, the departure place information of the user corresponding to the identification number of the terminal and the destination information of the user corresponding to the identification number of the terminal, which are stored in the terminal user information list, namely, maintains the terminal user information list in real time and keeps the latest data.

And 407, the network side accesses the identification number of the terminal to a target cell and a frequency point of the public network side through switching a handover mode or redirecting mode.

The network side accesses the identification number of the user terminal to the target cell and the frequency point of the public network side through switching the handover mode or redirecting mode, and the public network side provides public network service for the user.

And step 408, the network side accesses the identification number of the terminal to the target cell and the frequency point of the network side by switching the handover mode or redirecting mode.

The network side accesses the identification number of the terminal of the user to the target cell and the frequency point of the network side by switching the handover mode or redirecting mode, and the network side provides network service for the user.

According to the terminal control method provided by the embodiment of the invention, a network side is connected with an acquisition device through NB-IoT, and the acquisition device has the function of NB-IoT; the network side reports the acquired terminal user information and the position information of the acquisition device through a request signaling command acquisition device; the network side receives the terminal user information reported by the acquisition device through the response signaling and the position information of the acquisition device; the network side controls the target enabling parameter of the terminal access network to be a first target enabling parameter or a second target enabling parameter according to the terminal user information and the position information of the acquisition device; after determining that the target enabling parameter of the terminal access network is a first target enabling parameter, accessing the identification number of the terminal into a target cell and a frequency point of the network side by switching a handover mode or redirecting mode, and providing network service for a user by the network side; after determining that the target enabling parameter of the terminal access network is a second target enabling parameter, accessing the identification number of the terminal to a target cell and a frequency point of a public network side by switching a handover mode or redirecting mode, and providing public network service for a user by the public network side; according to the scheme of the embodiment of the invention, the network side controls whether the target enabling parameter of the terminal identification number in the terminal user information accessed to the network is the first target enabling parameter or the second target enabling parameter by utilizing the terminal user information acquired by the acquisition device and the position information of the acquisition device, so that the network side can quickly and accurately identify the user needing to access the network and can obtain the service of the network, and the terminal user which is not reported by the acquisition device can not access the network side; the network user can be effectively prevented from switching into the public network, and the perception influence of the network user is reduced; in addition, other users who do not confirm to access the network can be prevented from accessing the network, and the additional burden of the network is effectively reduced.

Fig. 5 is a flowchart of a fourth embodiment of the terminal control method of the present invention, and fig. 6 is a scene diagram of the fourth embodiment of the terminal control method of the present invention; the terminal control method provided by the embodiment of the invention is applied to a high-speed rail private network side and a ticket checking gate; as shown in fig. 5 and fig. 6, the terminal control method provided in the embodiment of the present invention may include the following steps:

and step 501, connecting the high-speed rail private network side with the ticket checking gate through NB-IoT.

The private network side is connected with the ticket checking gate machine through NB-IoT, and the ticket checking gate machine is accessed to the private network side of the high-speed rail through NB-IoT; the ticket checking gate has the function of NB-IoT, namely the high-speed rail private network side and the ticket checking gate have the function of supporting NB-IoT; the process of registering the ticket checking gate to the high-speed rail private network side is basically the same as the existing UE registration mode, and is not described again.

And 502, the high-speed rail private network side sends an identification request signaling to the ticket checking gate.

The method comprises the steps that a request signaling is sent to a ticket checking gate machine by a high-speed rail private network side, and the ticket checking gate machine receives an identification request signaling sent by the high-speed rail private network side; the identification request signaling is used for instructing the ticket checking gate to report the user information acquired within the preset time and the position information of the ticket checking gate.

For example, as illustrated in the LTE network, the high-speed rail private network side periodically sends an identification Request signaling (Identity Request) to the ticket checking gate, where the Identity Request requests the ticket checking gate to report the user information of the high-speed rail and the location information of the ticket checking gate; the high-speed rail user information comprises a user name, user departure place information, user destination information and a user telephone number.

The specific Identity Request is subjected to signaling extension, and the extension information is as follows, underlined:

the above signaling extensions are exemplary and not limiting.

And 503, reporting the acquired user information and the position information of the ticket checking gate to a high-speed railway private network side through an identification response signaling by the ticket checking gate.

And the ticket checking gate reports the acquired user information and the position information of the ticket checking gate to a high-speed rail private network side through an identification response signaling, and the high-speed rail private network side receives the user information reported by the ticket checking gate and the position information of the ticket checking gate.

For example, as illustrated in the LTE network, the high-speed railway private network side periodically sends an identification Response signaling (Identity Response) to the ticket checking gate, where the Identity Response signaling carries the high-speed railway user information and the location information of the ticket checking gate;

the specific Identity Response is subjected to signaling extension, and the extension information is as follows, underlined:

the above signaling extensions are exemplary and not limiting.

And step 504, the high-speed rail private network side establishes an end user information list according to the user information and the position information of the ticket checking gate.

The high-speed rail private network side establishes a terminal user information list according to the user information and the position information of the ticket checking gate; table 1 is a list of end user information, as shown in table 1.

TABLE 1

Name (R)	Telephone number	Location of ticket gate	Departure place	Destination
					User 1	13500000000	Beijing	Beijing	Shanghai province
User 2	13500000001	Shanghai province	Beijing	Shanghai province
					User 3	13500000002	Beijing	Beijing	Shanghai province
User 4	13500000003	Shanghai province	Beijing	Shanghai province
					……	……	……	……	……

The terminal user information list stores the telephone number of the user, the location of the ticket checking gate, the departure place of the user and the destination of the user corresponding to the name of the user.

And 505, the private network side of the high-speed rail controls whether the target enabling parameter of the terminal accessing the private network of the high-speed rail is a first target enabling parameter or a second target enabling parameter according to the terminal user information list.

The high-speed rail private network side judges whether destination information corresponding to the telephone number in the terminal user information list is the same as the location of the ticket checking gate corresponding to the telephone number, if the destination corresponding to the telephone number is the same as the location of the ticket checking gate corresponding to the telephone number, the target enabling parameter for controlling the telephone number of the terminal to be accessed into the high-speed rail private network is a second target enabling parameter (representing the enabling parameter for enabling the telephone number of the terminal not to be accessed into the high-speed rail private network), namely the telephone number of the terminal is a non-high-speed rail private network user, and then steps 506 to 507 are executed; if the destination corresponding to the phone number is different from the location of the ticket checking gate corresponding to the phone number, the target enabling parameter for controlling the phone number of the terminal to access the private network for high speed rail is the first target enabling parameter (representing the enabling parameter for enabling the phone number of the terminal to access the private network for high speed rail), that is, the phone number of the terminal is the user of the private network for high speed rail, and then step 508 is executed.

For example, the private network side of the high-speed rail determines that the destination corresponding to the telephone number 13500000000 of the user 1 in table 1 is different from the location of the ticket gate in beijing, that is, it is determined that the telephone number 13500000000 of the user 1 enters a station of the high-speed rail and starts, the private network side of the high-speed rail allocates an enabling parameter for accessing the private network of the high-speed rail to the telephone number 13500000000 of the user 1, that is, it is determined that the telephone number 13500000000 of the user 1 is a private network user of the high-speed rail, and then step 508 is executed; the private network side of the high-speed rail judges that the destination corresponding to the telephone number 13500000001 of the user 2 in the table 1 is shanghai and the place of the ticket checking gate is shanghai, namely, the telephone number 13500000001 of the user 2 is confirmed to leave the station of the high-speed rail and arrive, the private network side of the high-speed rail allocates an enabling parameter which cannot be accessed to the private network of the high-speed rail for the telephone number 13500000001 of the user 2, namely, the telephone number 13500000001 of the user 2 is confirmed to be a non-private network user of the high-speed rail, and then steps 506 to 507 are executed.

And step 506, deleting the name, the position of the ticket checking gate, the departure place and the destination which correspond to the telephone number stored in the terminal user information list by the high-speed railway private network side.

And deleting the name corresponding to the telephone number, the place of the ticket checking gate corresponding to the telephone number, the departure place corresponding to the telephone number and the destination corresponding to the telephone number which are stored in the terminal user information list by the high-speed railway private network side, namely maintaining the terminal user information list in real time and keeping the latest data.

And 507, the private network side of the high-speed rail accesses the telephone number to a target cell and a frequency point of the public network side by switching a handover mode or redirecting mode.

The high-speed railway private network side accesses the telephone number to a target cell and a frequency point of the public network side through switching a handover mode or redirecting a redirect mode, and the public network side provides public network service for the user.

And step 508, the private network side of the high-speed rail accesses the telephone number to the target cell and frequency point of the private network side of the high-speed rail through switching or redirecting.

The high-speed railway private network side accesses the telephone number into a target cell and a frequency point of the high-speed railway private network side through switching or redirecting, and the high-speed railway private network side provides high-speed railway private network service for a user.

According to the terminal control method provided by the embodiment of the invention, the high-speed rail private network side is connected with the ticket checking gate through NB-IoT, and the ticket checking gate has the function of NB-IoT; the high-speed rail private network side orders the ticket checking gate to report the acquired terminal user information and the position information of the ticket checking gate through a request signaling; the high-speed rail private network side receives terminal user information reported by the ticket checking gate machine through a response signaling and position information of the ticket checking gate machine; controlling the target enabling parameter of the terminal access high-speed rail private network to be a first target enabling parameter or a second target enabling parameter according to the terminal user information and the position information of the ticket checking gate; after determining that the target enabling parameter of the terminal accessing the high-speed railway private network is a first target enabling parameter, accessing the telephone number of the user to a target cell and a frequency point of the high-speed railway private network side by switching a handover mode or redirecting mode, and providing high-speed railway private network service for the user by the high-speed railway private network side; after determining that the target enabling parameter of the terminal accessing the high-speed railway private network is a second target enabling parameter, accessing the telephone number of the user to a target cell and a frequency point of a public network side by switching a handover mode or redirecting mode, and providing public network service for the user by the public network side; according to the scheme of the embodiment of the invention, the high-speed railway private network side controls whether the target enabling parameter of the user accessing the high-speed railway private network is the first target enabling parameter or the second target enabling parameter by using the terminal user information acquired by the ticket checking gate and the position information of the ticket checking gate in the terminal user information, so that the high-speed railway private network side can quickly and accurately identify the high-speed railway private network user and can obtain the service of the high-speed railway private network, and the terminal user which is not reported by the ticket checking gate cannot access the high-speed railway private network side; the method can effectively prevent the high-speed rail private network users from switching into the public network, and reduce the perception influence of the high-speed rail private network users; in addition, the method can also avoid the condition that the public network users needing to access the high-speed rail private network are not confirmed to access the high-speed rail private network, and effectively reduce the extra burden of the high-speed rail private network.

Fig. 7 is a schematic structural diagram of a network side embodiment of the present invention, and as shown in fig. 7, a network side 07 provided in the embodiment of the present invention includes:

a connection module 71, configured to connect with the acquisition device through a cellular-based narrowband internet of things NB-IoT; the acquisition device has the function of the NB-IoT;

a receiving module 72, configured to receive terminal information reported by the acquisition device and position information of the acquisition device; the terminal user information comprises departure place information of a user, destination information of the user and an identification number of the terminal;

and the determining module 73 is configured to control a target enabling parameter of the terminal access network according to the terminal user information and the position information of the acquisition device.

Further, the network side further includes:

a sending module 74, configured to send a request signaling to the acquisition apparatus; the request signaling is used for instructing the acquisition device to report the terminal user information and the position information of the acquisition device, which are acquired within a preset time.

Further, the determining module 73 is specifically configured to establish an end user information list according to the end user information and the position information of the collecting device; the terminal user information list stores the position information of the acquisition device corresponding to the identification number of the terminal, the departure place information of the user corresponding to the identification number of the terminal and the destination information of the user corresponding to the identification number of the terminal;

the determining module 73 is further specifically configured to control the target enabling parameter of the terminal accessing the network to be a first target enabling parameter or a second target enabling parameter according to the terminal user information list.

Further, the determining module 73 is further specifically configured to determine whether the destination information of the user corresponding to the identification number of the terminal is the same as the location information of the acquiring device corresponding to the identification number of the terminal; if the destination information of the user corresponding to the identification number of the terminal is the same as the position information of the acquisition device corresponding to the identification number of the terminal, controlling the target enabling parameter of the identification number of the terminal to be accessed to the network to be a second target enabling parameter; and if the destination information of the user corresponding to the identification number of the terminal is different from the position information of the acquisition device corresponding to the identification number of the terminal, controlling the target enabling parameter of the identification number of the terminal to be accessed to the network to be a first target enabling parameter.

Further, the network side further includes:

a deleting module 75, configured to delete the position information of the acquisition device corresponding to the identification number of the terminal, the departure place information of the user corresponding to the identification number of the terminal, and the destination information of the user corresponding to the identification number of the terminal, which are stored in the terminal user information list.

Further, the network side further includes:

and a first access module 76, configured to access the identifier of the terminal to a target cell and a frequency point on the public network side through switching a handover mode or redirecting mode.

And a second access module 77, configured to access the identifier of the terminal to a target cell and a frequency point of the network through switching a handover mode or redirecting mode.

Further, the network side is a high-speed rail private network side; the collecting device is a ticket checking device.

The network side of this embodiment may be configured to execute the technical solution of the above-described method embodiment, and the implementation principle and the technical effect are similar, which are not described herein again.

In practical applications, the connection module 71, the receiving module 72, the determining module 73, the sending module 74, the deleting module 75, the first access module 76, and the second access module 77 may be implemented by a Central Processing Unit (CPU), a microprocessor Unit (MPU), a Digital Signal Processor (DSP), a Field Programmable Gate Array (FPGA), or the like, which are located in the network side 07.

Fig. 8 is a schematic structural diagram of an embodiment of the collecting device of the present invention, and as shown in fig. 8, a collecting device 08 according to an embodiment of the present invention includes:

an access module 81, configured to access a network side through a narrowband internet of things NB-IoT based on a cellular;

a reporting module 82, configured to report the acquired end user information and the location information of the end user to the network side; the user information comprises departure place information of the user, destination information of the user and the identification number of the terminal.

Further, the collecting device further comprises:

a receiving module 83, configured to receive a request signaling sent by the network side; the request signaling is used for instructing the reporting module to report the terminal user information and the self position information acquired within the preset time to the network side.

The apparatus of this embodiment may be configured to implement the technical solutions of the above-described method embodiments, and the implementation principles and technical effects are similar, which are not described herein again.

In practical application, the access module 81, the reporting module 82, and the receiving module 83 may be implemented by a CPU, an MPU, a DSP, or an FPGA located in the acquisition device 08.

Fig. 9 is a schematic structural diagram of a terminal control system according to an embodiment of the present invention, and as shown in fig. 9, a terminal control system 09 according to an embodiment of the present invention includes: a network side 91 and an acquisition device 92;

the network side 91 may be the network side as described in any of the above embodiments;

the collecting device 92 may be any collecting device as described in the above embodiments.

The system of this embodiment may be configured to implement the technical solutions of the above-described method embodiments, and the implementation principles and technical effects are similar, which are not described herein again.

Fig. 10 is a schematic structural diagram of a network server according to an embodiment of the present invention, and as shown in fig. 10, a network server 010 according to an embodiment of the present invention includes: an interface 101, a bus 102, a memory 103, and a processor 104, wherein the interface 101, the memory 103, and the processor 104 are connected via the bus 102, the memory 103 is used for storing an executable program, and the processor 104 is configured to execute the program instructions to implement the following steps:

Further, the processor 104 is configured to execute the program instructions to further implement the following steps:

Further, the processor 104 is configured to execute the program instructions to implement the following steps:

if the destination information of the user corresponding to the identification number of the terminal is the same as the position information of the acquisition device corresponding to the identification number of the terminal, controlling the target enabling parameter of the identification number of the terminal to be accessed to the network to be a second target enabling parameter;

and if the destination information of the user corresponding to the identification number of the terminal is different from the position information of the acquisition device corresponding to the identification number of the terminal, controlling the target enabling parameter of the identification number of the terminal to be accessed into the network to be a first target enabling parameter.

the identification number of the terminal is accessed to a target cell and a frequency point of a public network side through switching a handover mode or redirecting mode;

Further, the network is a high-speed rail private network; the collecting device is a ticket checking device.

The network server of this embodiment may be configured to execute the technical solutions of the above-described method embodiments, and the implementation principles and technical effects thereof are similar, and are not described herein again.

Fig. 11 is a schematic structural diagram of an acquisition apparatus according to an embodiment of the present invention, and as shown in fig. 11, an acquisition apparatus 011 according to an embodiment of the present invention includes: an interface 111, a bus 112, a memory 113, and a processor 114, wherein the interface 111, the memory 113, and the processor 114 are connected via the bus 112, the memory 113 is used to store an executable program, and the processor 114 is configured to execute the program instructions to implement the following steps:

Further, the processor 114 is configured to execute the program instructions to further implement the following steps:

receiving a request signaling sent by the network side; the request signaling is used for instructing acquisition equipment to report the terminal user information and the self position information acquired within the preset time to the network side.

Further, the network side is a high-speed railway private network side.

The acquisition device of this embodiment may be configured to execute the technical solution of the above-described method embodiment, and the implementation principle and technical effect of the acquisition device are similar, which are not described herein again.

Embodiments of the present invention also provide a computer-readable storage medium, which stores one or more programs, where the one or more programs are executed by one or more processors to implement the following steps:

Further, the one or more programs are also executable by the one or more processors to perform the steps of:

Further, the one or more programs are executable by the one or more processors to implement the steps of:

the one or more programs are further executable by the one or more processors to perform the steps of:

The computer-readable storage medium of this embodiment may be used to implement the technical solutions of the above-mentioned method embodiments, and the implementation principles and technical effects are similar, which are not described herein again.

Further, the network side is a high-speed railway private network side.

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of a hardware embodiment, a software embodiment, or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, optical storage, and the like) having computer-usable program code embodied therein.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention.

Claims

1. A terminal control method, characterized in that the method comprises:

and controlling a target enabling parameter of the terminal access network according to the terminal user information and the position information of the acquisition device, wherein the target enabling parameter is a parameter for controlling the enabling and non-enabling of the terminal access network.

2. The method of claim 1, wherein prior to said receiving end-user information reported by said acquisition device and location information of said acquisition device, said method further comprises:

3. The method of claim 1, wherein the controlling the target-enabled parameters of the terminal access network according to the end-user information and the location information of the acquisition device comprises:

and controlling a target enabling parameter of the terminal access network to be a first target enabling parameter or a second target enabling parameter according to the terminal user information list, wherein the first target enabling parameter is a network access enabling parameter, and the second target enabling parameter is a network access non-enabling parameter.

4. The method of claim 3, wherein the controlling the target-enabled parameter of the terminal to access the network according to the terminal user information list to be a first target-enabled parameter or a second target-enabled parameter comprises:

5. The method according to claim 3, wherein after the target-enabled parameter for controlling the terminal's identification number to access the network is a second target-enabled parameter, the method further comprises:

6. The method of claim 1, wherein after controlling the terminal's identification number to access the target-enabled parameters of the network, the method further comprises:

7. The method according to any one of claims 1 to 6, wherein the network is a high-speed rail private network; the collecting device is a ticket checking device.

8. A terminal control method, characterized in that the method comprises:

reporting the acquired terminal user information and the self position information to the network side; the terminal user information comprises departure place information of a user, destination information of the user and an identification number of the terminal; the terminal user information and the position information of the acquisition device are used for controlling a target enabling parameter of the terminal access network by the network side, and the target enabling parameter is a parameter for controlling the enabling and non-enabling of the terminal access network.

9. The method according to claim 8, wherein before reporting the acquired end user information and the location information of the end user to the network side, the method further comprises:

10. The method according to claim 8 or 9, wherein the network side is a high-speed railway private network side.

11. A network side, the network side comprising:

and the determining module is used for controlling a target enabling parameter of the terminal access network according to the terminal user information and the position information of the acquisition device, wherein the target enabling parameter is a parameter for controlling the enabling and non-enabling of the terminal access network.

12. The network side of claim 11, wherein the network side further comprises:

13. The network side according to claim 11, wherein the determining module is specifically configured to establish an end user information list according to the end user information and the location information of the acquiring device; the terminal user information list stores the position information of the acquisition device corresponding to the identification number of the terminal, the departure place information of the user corresponding to the identification number of the terminal and the destination information of the user corresponding to the identification number of the terminal;

the determining module is further specifically configured to control a target enabling parameter of the terminal accessing the network to be a first target enabling parameter or a second target enabling parameter according to the terminal user information list, where the first target enabling parameter is a network access enabling parameter, and the second target enabling parameter is a network access non-enabling parameter.

14. The network side according to claim 13, wherein the determining module is further specifically configured to determine whether destination information of the user corresponding to the identification number of the terminal is the same as location information of the acquiring device corresponding to the identification number of the terminal; if the destination information of the user corresponding to the identification number of the terminal is the same as the position information of the acquisition device corresponding to the identification number of the terminal, controlling the target enabling parameter of the identification number of the terminal to be accessed to the network as the second target enabling parameter; and if the destination information of the user corresponding to the identification number of the terminal is different from the position information of the acquisition device corresponding to the identification number of the terminal, controlling the target enabling parameter of the identification number of the terminal to be accessed into the network to be the first target enabling parameter.

15. The network side of claim 13, wherein the network side further comprises:

16. The network side of claim 11, wherein the network side further comprises:

17. The network side according to any of claims 11 to 16, wherein the network side is a high-speed rail private network side; the collecting device is a ticket checking device.

18. An acquisition device, characterized in that it comprises:

the reporting module is used for reporting the acquired terminal user information and the self position information to the network side; the terminal user information comprises departure place information of a user, destination information of the user and an identification number of the terminal; the terminal user information and the position information of the acquisition device are used for the network side to control the target enabling parameters of the terminal access network, and the target enabling parameters are parameters for controlling the terminal access network enabling and non-enabling.

19. The acquisition device as defined in claim 18, further comprising:

20. The acquisition device according to claim 18 or 19, wherein the network side is a high-speed rail private network side; the collecting device is a ticket checking device.