CN111277992B - Method and system for determining terminal network state - Google Patents
Method and system for determining terminal network state Download PDFInfo
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- CN111277992B CN111277992B CN201811476351.4A CN201811476351A CN111277992B CN 111277992 B CN111277992 B CN 111277992B CN 201811476351 A CN201811476351 A CN 201811476351A CN 111277992 B CN111277992 B CN 111277992B
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W8/00—Network data management
- H04W8/02—Processing of mobility data, e.g. registration information at HLR [Home Location Register] or VLR [Visitor Location Register]; Transfer of mobility data, e.g. between HLR, VLR or external networks
- H04W8/08—Mobility data transfer
- H04W8/14—Mobility data transfer between corresponding nodes
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W8/00—Network data management
- H04W8/22—Processing or transfer of terminal data, e.g. status or physical capabilities
- H04W8/24—Transfer of terminal data
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D30/00—Reducing energy consumption in communication networks
- Y02D30/70—Reducing energy consumption in communication networks in wireless communication networks
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Abstract
The disclosure discloses a method and a system for determining a terminal network state, and relates to the field of mobile communication. The method comprises the following steps: collecting S1 signaling in a DPI signaling system; and determining the network state of the terminal based on the time point of the S1 signaling event and the parameters negotiated by the core network and the terminal in the S1 signaling. According to the method and the device, the network state of the terminal can be determined from the network side under the condition that the terminal is not directly interacted, so that the control efficiency and accuracy of the application platform on the terminal can be improved.
Description
Technical Field
The present disclosure relates to the field of mobile communications, and in particular, to a method and system for determining a network status of a terminal.
Background
The method for acquiring the network state of the terminal currently indicates the reporting state of the terminal by adding a field in a signaling, and sends an indication message for indicating that the UE needs to report the service state of the UE to the terminal (UE); and receiving and acquiring the service state reported by the UE.
For example, a Call STATUS LIST (Call STATUS LIST) is added to an TRACKING AREA UPDATE REQUEST message of the terminal, so that the UE reports the service STATUS to the network side through a TRACKING AREA UPDATE REQUEST message carrying the Call STATUS LIST.
In the technology of this scheme, there is no reporting Mode of PSM (power saving Mode) status of the terminal. In addition, due to the particularity of the NB-IOT (narrowband internet of things) terminal, no response is made to any message of the network after entering the PSM, i.e., there is a defect in the way of indicating the terminal reporting status through the network side.
In addition, in the prior art, the control module at the NB terminal side may adjust parameters such as the PSM state duration according to the actual situation to achieve the purpose of reducing power consumption. However, this type of technique is also biased towards the terminal side and does not obtain the PSM status from the network side.
Disclosure of Invention
One technical problem to be solved by the present disclosure is to provide a method and a system for determining a terminal network state, which can determine the terminal network state from a network side.
According to an aspect of the present disclosure, a method for determining a network status of a terminal is provided, including: collecting S1 signaling in a Deep Packet Inspection (DPI) signaling system; and determining the network state of the terminal based on the time point of the S1 signaling event and the parameters negotiated by the core network and the terminal in the S1 signaling.
Optionally, the determining the network state of the terminal based on the time point of the S1 signaling event and the parameter negotiated with the terminal in the S1 signaling comprises: obtaining a time point T1 of a context release command parameter issued by a network and an attachment receiving parameter issued by the network based on an S1 signaling, wherein the attachment receiving parameter carries the running time T of an activation timer Stator (ii) a Based on T1 and T Stator Determining a power saving mode PSM time point T1+ T Stator (ii) a Comparing the current time T with the PSM time point T1+ T Stator And determining whether the terminal is in the PSM state.
Optionally, if the current time T is greater than or equal to the PSM time point T1+ T Stator Determining that the terminal is in the PSM state; if the current time T is less than the PSM time point T1+ T Stator Then it is determined that the terminal is in an active state or an idle state.
Optionally, the method further comprises: acquiring a time point T2 of issuing the attachment receiving parameters by the network based on S1 signaling; s1 signaling-based acquisition of time T3 of issuing tracking area update receiving parameters by network and time T required by terminal to update tracking area TAU (ii) a Based on T2 and T TAU Determining the time T2+ T of the next tracking area update of the terminal TAU Or based on T3 and T TAU Determining the time T3+ T of the next tracking area update of the terminal TAU (ii) a If the current time T is more than or equal to T2+ T TAU Or the current time T is largeEqual to T3+ T TAU It is determined that the terminal exits the PSM state.
Optionally, the DPI signaling system obtains signaling of interaction between all terminals and the network side from the core network.
According to another aspect of the present disclosure, a system for determining a terminal network state is further provided, including an acquisition module, configured to acquire an S1 signaling in a deep packet inspection, DPI, signaling system; and the state analysis and judgment module is used for determining the network state of the terminal based on the time point of the S1 signaling event and the parameter negotiated by the core network and the terminal in the S1 signaling.
Optionally, the state analyzing and determining module includes: an analysis module, configured to obtain, based on the S1 signaling, a time point T1 at which the network issues the context release command parameter, and an attach receiving parameter issued by the network, where the attach receiving parameter carries an operation time T of activating the timer Stator (ii) a A determination module for determining the time based on T1 and T Stator Determining a power saving mode PSM time point T1+ T Stator Comparing the current time T with the PSM time point T1+ T Stator And determining whether the terminal is in the PSM state.
Optionally, the determining module is configured to determine whether the current time T is greater than or equal to the PSM time point T1+ T Stator Determining that the terminal is in the PSM state; if the current time T is less than the PSM time point T1+ T Stator Then it is determined that the terminal is in an active state or an idle state.
Optionally, the analysis module is further configured to obtain a time point T2 when the network issues the attach reception parameter based on the S1 signaling; s1 signaling-based acquisition of time T3 of issuing tracking area update receiving parameters by network and time T required by terminal to update tracking area TAU (ii) a The judging module is also used for judging whether the current time is T2 or not TAU Determining the time T2+ T of the next tracking area update of the terminal TAU Or based on T3 and T TAU Determining the time T3+ T of the next tracking area update of the terminal TAU (ii) a If the current time T is more than or equal to T2+ T TAU Or, the current time T is greater than or equal to T3+ T TAU It is determined that the terminal exits the PSM state.
Optionally, the system further comprises: the storage module is used for storing T1, T2 and T3; and/or the query module is used for providing a query function and an interface for the outside.
Optionally, the DPI signaling system obtains signaling of interaction between all terminals and the network side from the core network.
According to another aspect of the present disclosure, a system for determining a network status of a terminal is further provided, including: a memory; and a processor coupled to the memory, the processor configured to perform the method of determining a terminal network status as described above based on the instructions stored in the memory.
According to another aspect of the present disclosure, a computer-readable storage medium is also proposed, on which computer program instructions are stored, which instructions, when executed by a processor, implement the steps of the above-described method of determining a terminal network state.
Compared with the prior art, the method and the device have the advantages that through the DPI signaling system, the signaling event related to the PSM state is recorded under the condition that the DPI signaling system does not interact with the terminal directly, and the network state of the terminal can be determined from the network side based on the time point of the S1 signaling event and the parameter negotiated by the core network and the terminal in the signaling, so that the control efficiency and the accuracy of the application platform on the terminal can be improved.
Other features of the present disclosure and advantages thereof will become apparent from the following detailed description of exemplary embodiments thereof, which proceeds with reference to the accompanying drawings.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments of the disclosure and together with the description, serve to explain the principles of the disclosure.
The present disclosure may be more clearly understood from the following detailed description, taken with reference to the accompanying drawings, in which:
fig. 1 is a flowchart illustrating an embodiment of a method for determining a network status of a terminal according to the present disclosure.
Fig. 2 is a flowchart illustrating another embodiment of the method for determining the network status of the terminal according to the present disclosure.
Fig. 3 is a schematic diagram of the terminal status principle.
Fig. 4 is a flowchart illustrating a method for determining a network status of a terminal according to still another embodiment of the present disclosure.
Fig. 5 is a schematic structural diagram of an embodiment of the system for determining the network status of the terminal according to the present disclosure.
Fig. 6 is a schematic structural diagram of another embodiment of the system for determining the network status of the terminal according to the present disclosure.
Fig. 7 is a schematic structural diagram of a system for determining a network status of a terminal according to still another embodiment of the present disclosure.
Fig. 8 is a schematic structural diagram of a system for determining a network status of a terminal according to another embodiment of the present disclosure.
Fig. 9 is a schematic structural diagram of a system for determining a network status of a terminal according to another embodiment of the present disclosure.
Detailed Description
Various exemplary embodiments of the present disclosure will now be described in detail with reference to the accompanying drawings. It should be noted that: the relative arrangement of the components and steps, the numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present disclosure unless specifically stated otherwise.
Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description.
The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the disclosure, its application, or uses.
Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate.
In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values.
It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.
For the purpose of promoting a better understanding of the objects, aspects and advantages of the present disclosure, reference is made to the following detailed description taken in conjunction with the accompanying drawings.
Fig. 1 is a flowchart illustrating an embodiment of a method for determining a network status of a terminal according to the present disclosure.
In step 110, S1 signaling in a DPI (Deep Packet Inspection) signaling system is collected. The DPI signaling system acquires signaling of interaction between all terminals and a network side from an EPC core network, and an S1 interface is a communication interface between a base station and the core network. The terminal in this embodiment is an NB-IOT terminal.
In step 120, the network status of the terminal is determined based on the time point of the S1 signaling event and the parameters negotiated by the core network and the terminal in the S1 signaling. For example, a time point T1 when the network issues a Context release command parameter is obtained based on the S1 signaling; acquiring an attach accept parameter issued by a network based on an S1 signaling, wherein the attach accept parameter carries a running time T of an activation timer Stator (ii) a Run time T based on T1 and activation timer Stator Determining a power saving mode PSM time point T1+ T Stator (ii) a Comparing the current time T with the PSM time point T1+ T Stator And determining whether the terminal is in the PSM state.
In this embodiment, through the DPI signaling system, the signaling event related to the PSM status is recorded without direct interaction with the terminal, and based on the time point of the S1 signaling event and the parameter negotiated between the core network and the terminal in the signaling, the network status of the terminal can be determined from the network side, so that the control efficiency and accuracy of the application platform on the terminal can be improved.
Fig. 2 is a flowchart illustrating another embodiment of the method for determining the network status of the terminal according to the present disclosure.
At step 210, S1 signaling in the DPI signaling system is collected.
In step 220, a time point T1 at which the network issues a Context release command parameter and an attach accept parameter issued by the network are obtained based on the S1 signaling, where the attach accept parameter carries an operation of activating a timerLine time T Stator . Wherein, T Stator And negotiating parameters for the terminal and the EPC core network.
In step 230, based on T1 and T Stator Determining a power saving mode PSM time point T1+ T Stator 。
In step 240, it is compared whether the current time T is greater than or equal to the PSM time point T1+ T Stator If so, go to step 250, otherwise, go to step 260.
In step 250, it is determined whether the terminal is in the PSM state. At this time, the terminal does not respond to any message on the network side, such as paging, downlink data, and the like.
In step 260, it is determined whether the terminal is in an active state or an idle state. At this time, the terminal may respond to the message on the network side.
In another embodiment, if the terminal is already in the PSM state, it may be further determined when the terminal exits the PSM state. As shown in fig. 3, when the terminal stops transmitting and receiving data, the base station side performs idle detection and starts a timer, which is based on the configuration of the base station, for example, 20S. After the Timer is overtime, the network side releases S1 connection, RRC (Radio Resource Control) connection, the terminal enters IDLE state, and starts Active Timer T Stator For example 180S. Timer T Stator After a timeout the terminal enters a PSM state in which it does not respond to any instructions of the core network. The terminal can exit the PSM state under two conditions, wherein the terminal actively reports data and TAU period arrives to update TAU. Therefore, the following steps as shown in fig. 4 may also be included after step 250:
in step 270, a time point T2 when the network issues the attach accept parameter is obtained based on the S1 signaling.
In step 280, the time point T3 when the network issues the TAU accept parameter and the time T required for the terminal to perform TAU are obtained based on the S1 signaling TAU 。
Wherein, step 270 and step 280 may be executed simultaneously, or may not be executed sequentially.
In step 290, based on T2 and T TAU Determining that the terminal performs the nextTime T2+ T of secondary TAU TAU Or based on T3 and T TAU Determining the time T3+ T of the terminal for the next TAU TAU 。
In step 2100, if the current time T is greater than or equal to T2+ T TAU Or, the current time T is greater than or equal to T3+ T TAU It is determined that the terminal exits the PSM state.
In the above embodiment, through the DPI signaling system, under the condition that the DPI signaling system does not interact directly with the terminal, the signaling event related to the PSM state is recorded, and based on the time point of the S1 signaling event and the parameter negotiated between the core network and the terminal in the signaling, it can be determined from the network side whether the terminal enters the PSM state or not, and when the terminal exits the PSM state, thereby improving the control efficiency and accuracy of the application platform on the NB terminal, and reducing the load pressure and processing efficiency caused by the instruction and data cache of the application platform.
For example, when the application platform prepares to issue data or a control command, it first queries whether the terminal is reachable, i.e. in PSM state, if it is reachable, it issues the command, and if it is not reachable, it will be sent out temporarily, so that it is avoided that the terminal is sent out and retransmitted blindly in the state that it is not known whether the terminal is reachable, and the number of terminals is generally large, which is easy to cause backlog of commands and downlink data, and brings pressure to the platform.
Fig. 5 is a schematic structural diagram of an embodiment of the system for determining the network status of the terminal according to the present disclosure. The system includes an acquisition module 510 and a state analysis determination module 520.
The collecting module 510 is used to collect S1 signaling in the DPI signaling system. The DPI signaling system acquires interactive signaling of all terminals and a network side from an EPC core network.
The state analyzing and determining module 520 is configured to determine a network state of the terminal based on a time point of the S1 signaling event and a parameter negotiated between the core network and the terminal in the S1 signaling. For example, a time point T1 at which the network issues a Context release command parameter is obtained based on the S1 signaling; acquiring an attach accept parameter issued by a network based on an S1 signaling, wherein the attach accept parameter carries a running time T of an activation timer Stator (ii) a Run time T based on T1 and activation timer Stator DeterminingPower saving mode PSM time point T1+ T Stator (ii) a Comparing the current time T with the PSM time point T1+ T Stator And determining whether the terminal is in the PSM state.
In this embodiment, through the DPI signaling system, the signaling event related to the PSM status is recorded without direct interaction with the terminal, and based on the time point of the S1 signaling event and the parameter negotiated between the core network and the terminal in the signaling, the network status of the terminal can be determined from the network side, so that the control efficiency and accuracy of the application platform on the terminal can be improved.
Fig. 6 is a schematic structural diagram of another embodiment of the system for determining the network status of the terminal according to the present disclosure. The system comprises an acquisition module 610, an analysis module 620 and a judgment module 630, wherein the analysis module and the judgment module belong to sub-modules in a state analysis judgment module.
The collecting module 610 is used for collecting S1 signaling in the DPI signaling system.
The analysis module 620 is configured to obtain, based on the S1 signaling, a time point T1 at which the network issues a Context release command parameter, and an attach accept parameter issued by the network, where the attach accept parameter carries an operation time T of the activation timer Stator . Wherein, T Stator And negotiating parameters for the terminal and the EPC core network.
The determining module 630 is used for determining the difference between T1 and T Stator Determining a power saving mode PSM time point T1+ T Stator If the current time T is greater than or equal to the PSM time point T1+ T Stator Determining that the terminal is in the PSM state; if the current time T is less than the PSM time point T1+ T Stator Then it is determined that the terminal is in an active state or an idle state.
In another embodiment, the analysis module 620 is further configured to obtain a time point T2 when the network issues the attach reception parameter based on the S1 signaling; s1 signaling-based acquisition of time T3 of issuing tracking area update receiving parameters by network and time T required by terminal to update tracking area TAU (ii) a The determining module 630 is further configured to determine whether to perform the operation based on T2 and T TAU Determining the time T2+ T of the next tracking area update of the terminal TAU Or based on T3 and T TAU Determining next tracking area update by terminalTime T3+ T TAU (ii) a If the current time T is more than or equal to T2+ T TAU Or, the current time T is greater than or equal to T3+ T TAU It is determined that the terminal exits the PSM state.
In the above embodiment, through the DPI signaling system, under the condition that the DPI signaling system does not interact directly with the terminal, the signaling event related to the PSM state is recorded, and based on the time point of the S1 signaling event and the parameter negotiated between the core network and the terminal in the signaling, it can be determined from the network side whether the terminal enters the PSM state or not, and when the terminal exits the PSM state, thereby improving the control efficiency and accuracy of the application platform on the NB terminal, and reducing the load pressure and processing efficiency caused by the instruction and data cache of the application platform.
Fig. 7 is a schematic structural diagram of a system for determining a network status of a terminal according to still another embodiment of the present disclosure.
In the system, a DPI signaling system acquires interactive signaling of all terminals and a network side from an EPC core network. The acquisition module acquires S1 signaling in the DPI signaling system. The analysis module is used for analyzing the time point of the S1 key signaling related to the PSM and keeping the latest. The storage module is used for storing T1, T2 and T3. The judging module judges whether the terminal is in the PSM state in real time. The query module provides a function and an interface for external query. After the PSM state query system is introduced, when an application platform prepares to issue data or control instructions, whether the terminal is reachable or not is queried firstly, if the data or the control instructions are reachable, the data is issued, and if the data or the control instructions are not reachable, the data or the control instructions are sent temporarily, so that blind sending and resending under the state that whether the NB terminal is reachable or not is avoided, the number of NB terminals is generally large, the overstock of instructions and downlink data is easily caused, and pressure is brought to the platform.
In this embodiment, the network state of the terminal is determined from the network side, so as to improve the control efficiency and accuracy of the application platform on the NB terminal, and reduce the load pressure and processing efficiency caused by the instruction and data cache of the application platform. Meanwhile, from the maintenance perspective of an operator, if problems need to be checked, whether the terminal is in the PSM state can be known only by real-time tracking and signaling backtracking, and the efficiency is greatly influenced because single user cannot operate in batch.
Fig. 8 is a schematic structural diagram of a system for determining a network status of a terminal according to another embodiment of the present disclosure. The system comprises: a memory 810 and a processor 820, wherein: the memory 810 may be a magnetic disk, flash memory, or any other non-volatile storage medium. The memory is used for storing the instructions in the embodiments corresponding to fig. 1, 2 and 4. Processor 820 is coupled to memory 810 and may be implemented as one or more integrated circuits, such as a microprocessor or microcontroller. The processor 820 is configured to execute instructions stored in the memory.
In one embodiment, as also shown in fig. 9, the apparatus 900 includes a memory 910 and a processor 920. Processor 920 is coupled to memory 910 by a BUS 930. The device 900 may also be coupled to an external storage device 950 via a storage interface 940 for facilitating retrieval of external data, and may also be coupled to a network or another computer system (not shown) via a network interface 960, which will not be described in detail herein.
In this embodiment, the memory stores the data instruction, and the processor processes the instruction, so that whether the terminal enters the PSM state or not and when the terminal exits the PSM state can be determined from the network side, thereby improving the control efficiency and accuracy of the application platform on the NB terminal, and reducing the load pressure and processing efficiency caused by the instruction and data cache of the application platform.
In another embodiment, a computer-readable storage medium has stored thereon computer program instructions which, when executed by a processor, implement the steps of the method in the embodiments corresponding to fig. 1, 2, 4. As will be appreciated by one skilled in the art, embodiments of the present disclosure may be provided as a method, apparatus, or computer program product. Accordingly, the present disclosure may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present disclosure may take the form of a computer program product embodied on one or more computer-usable non-transitory storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.
The present disclosure is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the disclosure. 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.
Thus far, the present disclosure has been described in detail. Some details that are well known in the art have not been described in order to avoid obscuring the concepts of the present disclosure. It will be fully apparent to those skilled in the art from the foregoing description how to practice the presently disclosed embodiments.
Although some specific embodiments of the present disclosure have been described in detail by way of example, it should be understood by those skilled in the art that the foregoing examples are for purposes of illustration only and are not intended to limit the scope of the present disclosure. It will be appreciated by those skilled in the art that modifications may be made to the above embodiments without departing from the scope and spirit of the present disclosure. The scope of the present disclosure is defined by the appended claims.
Claims (13)
1. A method of determining a state of a terminal network, comprising:
collecting an S1 signaling in a Deep Packet Inspection (DPI) signaling system;
determining the Power Saving Mode (PSM) network state of the terminal based on the time point of the S1 signaling event and the parameters negotiated by the core network and the terminal in the S1 signaling.
2. The method of claim 1, wherein determining the PSM network status of the terminal based on the time point of the S1 signaling event and the parameter negotiated with the terminal in the S1 signaling comprises:
obtaining a time point T1 of a context release command parameter issued by a network and an attachment receiving parameter issued by the network based on an S1 signaling, wherein the attachment receiving parameter carries the running time T of an activation timer Stator ;
Based on T1 and T Stator Determining the PSM time point T1+ T Stator ;
Comparing the current time T with the PSM time point T1+ T Stator And determining whether the terminal is in a PSM state.
3. The method of claim 2, wherein,
if the current time T is more than or equal to the PSM time point T1+ T Stator Determining that the terminal is in a PSM state;
if the current time T is less than the PSM time point T1+ T Stator Then determining that the terminal is in an active state or an idle state.
4. The method of claim 2, further comprising:
acquiring a time point T2 of issuing the attachment receiving parameters by the network based on S1 signaling;
obtaining the time point T3 of the network issuing the receiving parameter of the tracking area update based on the S1 signalingAnd the time T required by the terminal to update the tracking area TAU ;
Based on the T2 and T TAU Determining the time T2+ T of the next tracking area update of the terminal TAU Or based on said T3 and T TAU Determining the time T3+ T of the next tracking area update of the terminal TAU ;
If the current time T is more than or equal to T2+ T TAU Or, the current time T is greater than or equal to T3+ T TAU It is determined that the terminal exits the PSM state.
5. The method according to any one of claims 1 to 4,
the DPI signaling system acquires the interactive signaling of all terminals and a network side from a core network.
6. A system for determining the status of a terminal network, comprising:
the acquisition module is used for acquiring an S1 signaling in the DPI signaling system;
and the state analysis and judgment module is used for determining the power saving mode PSM network state of the terminal based on the time point of the S1 signaling event and the parameter negotiated by the core network and the terminal in the S1 signaling.
7. The system of claim 6, wherein the state analysis determination module comprises:
an analysis module, configured to obtain, based on the S1 signaling, a time point T1 at which the network issues the context release command parameter, and an attach receiving parameter issued by the network, where the attach receiving parameter carries an operation time T of activating the timer Stator ;
A determination module for determining the time based on T1 and T Stator Determining the PSM time point T1+ T Stator Comparing the current time T with the PSM time point T1+ T Stator And determining whether the terminal is in a PSM state.
8. The system of claim 7, wherein,
the judging module is used for judging ifThe current time T is greater than or equal to the PSM time point T1+ T Stator Determining that the terminal is in a PSM state; if the current time T is less than the PSM time point T1+ T Stator Then determining that the terminal is in an active state or an idle state.
9. The system of claim 7, wherein,
the analysis module is further used for acquiring a time point T2 of issuing the attachment receiving parameters by the network based on S1 signaling; s1 signaling-based acquisition of time T3 of issuing tracking area update receiving parameters by network and time T required by terminal to update tracking area TAU ;
The judging module is also used for judging whether the T2 is the same as the T TAU Determining the time T2+ T of the next tracking area update of the terminal TAU Or based on said T3 and T TAU Determining the time T3+ T of the next tracking area update of the terminal TAU (ii) a If the current time T is more than or equal to T2+ T TAU Or, the current time T is greater than or equal to T3+ T TAU It is determined that the terminal exits the PSM state.
10. The system of claim 9, further comprising:
the storage module is used for storing T1, T2 and T3;
and/or
And the query module is used for providing a query function and an interface for the outside.
11. The system of any of claims 6-10,
the DPI signaling system acquires signaling interacted between all terminals and a network side from a core network.
12. A system for determining the status of a terminal network, comprising:
a memory; and
a processor coupled to the memory, the processor configured to perform the method of determining a terminal network state of any of claims 1 to 5 based on instructions stored in the memory.
13. A computer readable storage medium having stored thereon computer program instructions which, when executed by a processor, carry out the steps of the method of determining a network state of a terminal of any of claims 1 to 5.
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