WO2014015693A1 - Method and apparatus for determining state of user equipment and parameter sending method and apparatus - Google Patents

Abstract

Disclosed are a method and an apparatus for determining a state of a user equipment and a parameter sending method and apparatus. The method comprises: a user equipment receiving a service state parameter from a network side device; and the user equipment determining, according to the service state parameter, whether to enter a state of frequently receiving and transmitting data. The technical solution of the present invention saves the electrical power required by the user equipment.

Description

The present invention relates to the field of communications, and in particular to a method and apparatus for determining a state of a user equipment and a method and apparatus for transmitting parameters. BACKGROUND A cellular wireless communication system is mainly composed of a core network (Core Network, abbreviated as CN), an access network (Radio Access Network, RAN for short), and a terminal. 1 is a schematic diagram of a cellular wireless communication system in accordance with the related art. As shown in Figure 1, the core network is responsible for non-access stratum transactions, such as: terminal location update, and the core network is also the anchor point of the user plane; the access network may include: a base station or a base station and a base station control, and the access network is responsible for accessing Layer services, for example: management of radio resources, there may be physical or logical connections between base stations according to actual conditions, such as: the connection between base station 1 and base station 2 in Figure 1 or the connection between base station 1 and base station 3. And each base station can be connected to one or more core network nodes; a user equipment (User Equipment, referred to as UE) refers to various devices that can communicate with a cellular wireless communication network, for example: a mobile phone, a notebook computer. The Mobility Management Entity (MME) of the LTE network or the Mobility Management Entity Service (SGSN) of the 3G network is the core of the Serving General Packet Radio Service Support Node (SGSN). The entity responsible for managing terminal access control, location information update, and handover in the network has non-access stratum signaling control from the core network to the terminal and a function of registering the terminal to the network. The Home Subscriber Server (HSS) or the Home Subscriber Location Register (HLR) is an entity in the core network responsible for saving subscription data, identity information, authentication information, and authorization information of the terminal device. Depending on the situation, the HSS or HLR can be used to store the identity information of the user and the binding information of the user and the terminal device, or only the identity information of the user (the binding information of the user and the terminal device can be saved by the gateway), or Save the identity information of the terminal device directly. The HSS or HLR is also responsible for the user's subscription database, as well as the user's authentication and authorization. The service platform can query user or terminal information from the HSS or HLR. The Visitor Location Register (VLR) is a network element of the 2G network, which is used to store incoming calls (MS) in the jurisdiction, and information to be retrieved for outgoing calls, as well as user subscription services and additional services. Information, such as: the customer's number, the location of the location, the service provided to the customer, and other parameters. Long Term Evolution Network (LTE) mainly provides users with high-speed packet data services, but needs to provide voice services to users through 2G networks. Therefore, users who have voice service requirements need to register to the 2G network while registering to the LTE network. Since the voice service runs on the 2G network, when the voice called service is generated, the voice service request first arrives at the 2G network, and then sends a paging request from the 2G network to the LTE network, and then the LTE network paging terminal initiates a voice service request. . Since various services have their own business characteristics, different service states are presented. For example, an intelligent mobile terminal daemon usually connects to the network to receive and send data frequently, which may include submitting background data and software update detection. , client online loop detection, etc., thus reflecting the terminal receiving and transmitting data frequently. Therefore, the terminal frequently switches between the idle mode and the connected mode, which is likely to cause the terminal power to be greatly consumed. SUMMARY OF THE INVENTION The present invention provides a method and apparatus for determining a state of a user equipment and a method and apparatus for transmitting parameters, so as to at least solve the related art, in which the user equipment frequently needs to receive and transmit data, and needs to frequently be in an idle mode and a connected mode. Switching between them is likely to cause a problem that the power of the terminal is greatly consumed. According to an aspect of the present invention, a method of determining a state of a user equipment is provided. The method for determining the state of the user equipment according to the present invention includes: the user equipment receives the service status parameter from the network side device; and the user equipment determines whether to enter the frequent data transmission and reception status according to the service status parameter. Preferably, the foregoing service state parameter includes: a first preset duration and a preset threshold of the number of times of receiving and/or transmitting data, and determining, by the user equipment, whether to enter a frequent data transmission and reception state according to the service state parameter includes: the user equipment according to the first Whether the number of times of receiving and/or transmitting data counted within the preset duration reaches or exceeds a threshold value determines whether a frequent data transmission and reception state is entered. Preferably, the user equipment determines whether to enter the frequent data transmission and reception state according to whether the number of times of receiving and/or transmitting data counted in the first preset duration is up to or exceeds a threshold: the user equipment acquires the first preset duration from the service state parameter. The user equipment records the number of times the data is received and/or transmitted within the first preset duration; the user equipment determines whether the number of times the data is received and/or transmitted reaches or exceeds a threshold, if the number of times the data is received and/or transmitted reaches or exceeds a threshold , then enter the state of frequent data transmission and reception. Preferably, the foregoing service state parameter further includes: a second preset duration, after the user equipment enters the frequent data transceiving state, the method further includes: the user equipment determining, according to the service state parameter, whether to exit the frequent data transceiving state. Preferably, determining, by the user equipment, whether to withdraw the frequent data transmission and reception status according to the service status parameter comprises: determining, by the user equipment, whether to cancel the frequent data transmission and reception status according to whether the number of times of receiving and/or transmitting data counted within the second preset time period reaches or exceeds a threshold. . Preferably, the user equipment determines whether to exit the frequent data transmission and reception state according to whether the number of times of receiving and/or transmitting data counted in the second preset duration is up to or exceeds a threshold: the user equipment acquires the second preset duration from the service state parameter. After the user equipment enters the frequent data transceiving state, the number of times of receiving and/or transmitting data is recorded within the second preset duration; the user equipment determines whether the number of times of receiving and/or transmitting data reaches or exceeds a threshold, if received and/or When the number of times the data is transmitted reaches or exceeds the threshold, the frequent data transmission and reception state is maintained; if the number of times of receiving and/or transmitting data is lower than the threshold, the frequent data transmission and reception state is exited. Preferably, after the user equipment enters the frequent data transceiving state, the method further includes: the mobility management unit acquires first state information that the user equipment enters a frequent data transceiving state; and the mobility management unit maintains signaling with the user equipment according to the first state information. connection. Preferably, after the user equipment exits the frequent data transceiving state, the method further includes: the mobility management unit acquires second state information that the user equipment exits the frequent data transceiving state; the mobility management unit receives and/or receives the user equipment according to the second state information. After the data currently being transmitted is sent, the signaling connection with the user equipment is released. Preferably, the network side device sends the service status parameter to the user equipment by using one of the following manners: the network side device sends the service status parameter to the user equipment by using the broadcast; the network side device sends the service status parameter to the user equipment by using the radio resource control RRC signaling; The side device sends the service state parameter to the user equipment through the non-access stratum NAS signaling. Preferably, the mobility management unit acquires the first state information of the user equipment entering the frequent data transceiving state, or the mobility management unit acquires the second state information of the user equipment exiting the frequent data transceiving state, including: the mobility management unit passes the NAS signaling Acquiring the first state information of the user equipment to enter the frequent data transmission and reception state, or the mobility management unit acquires the second state information of the user equipment to exit the frequent data transmission and reception state by using the NAS signaling, where the NAS signaling includes one of the following: Signaling, attach request signaling, tracking area update request signaling, packet data network PDN connection request signaling. According to another aspect of the present invention, a method of transmitting a parameter is provided. The method for transmitting a parameter according to the present invention includes: the network side device configuring a service state parameter, wherein the service state parameter is used to enable the user equipment to determine whether the user equipment enters a frequent data transmission and reception state; and the network side device sends the service state parameter to the user equipment . According to still another aspect of the present invention, a device for judging a state of a user equipment is provided. The device for judging the state of the user equipment according to the present invention includes: a receiving module configured to receive a service state parameter from the network side device; and a first determining module configured to determine whether to enter a frequent data transceiving state according to the service state parameter. Preferably, the foregoing service state parameter includes: a first preset duration and a preset threshold of the number of times the data is received and/or transmitted; the first determining module is configured to receive according to statistics and/or within a first preset duration Whether the number of times the data is sent exceeds the threshold to determine whether to enter the frequent data transmission and reception state. Preferably, the first determining module includes: a first acquiring unit, configured to obtain a first preset duration from the service state parameter; and a first recording unit configured to record receiving and/or transmitting data within the first preset duration The first determining unit is configured to determine whether the number of times of receiving and/or transmitting data exceeds a threshold, and if the number of times of receiving and/or transmitting data reaches or exceeds a threshold, enters a frequent data transceiving state. Preferably, the service status parameter further includes: a second preset duration, the device further includes: a second determining module, configured to determine whether to exit the frequent data transceiving state according to the service status parameter. Preferably, the second determining module is configured to determine whether to exit the frequent data transceiving state according to whether the number of times of receiving and/or transmitting data counted within the second preset duration exceeds a threshold. Preferably, the second determining module includes: a second acquiring unit, configured to obtain a second preset duration from the service state parameter; and a second recording unit, configured to be in the second preset duration after entering the frequent data sending and receiving state Recording the number of times of receiving and/or transmitting data; the second determining unit is configured to determine whether the number of times of receiving and/or transmitting data exceeds a threshold, and if the number of times of receiving and/or transmitting data reaches or exceeds a threshold, continuing to maintain frequent data transmission and reception State; if the number of times the data is received and/or transmitted is below the threshold, the frequent data transceiving state is exited. According to still another aspect of the present invention, a parameter transmitting apparatus is provided. The sending device of the parameter according to the present invention includes: a configuration module, configured to configure a service state parameter, wherein the service state parameter is used to enable the user equipment to determine whether the user equipment enters a frequent data transceiving state, and the sending module is configured to set the service state. The parameters are sent to the user device. According to the present invention, the configured service state parameter is sent to the user equipment by using the network side device, and the user equipment determines whether it needs to enter the frequent data sending and receiving state according to the received service state parameter, and solves the related technology in which the user equipment continuously receives and When sending data, it is necessary to frequently switch between the idle mode and the connected mode, which is likely to cause a problem that the power of the terminal is greatly consumed, thereby achieving the effect of saving the power of the user equipment. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are set to illustrate,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, 1 is a schematic diagram of a cellular wireless communication system according to the related art; FIG. 2 is a flowchart of a method for determining a state of a user equipment according to an embodiment of the present invention; FIG. 3 is a user according to a preferred embodiment of the present invention. FIG. 4 is a flowchart of a method for determining a state of a user equipment according to a preferred embodiment 2 of the present invention; FIG. 5 is a flowchart of a method for determining a state of a user equipment according to a preferred embodiment 3 of the present invention; 6 is a flowchart of a method for transmitting a parameter according to an embodiment of the present invention; FIG. 7 is a structural block diagram of a device for determining a state of a user equipment according to an embodiment of the present invention; and FIG. 8 is a state of a user equipment according to a preferred embodiment of the present invention. A block diagram of a device for judging; and FIG. 9 is a block diagram showing the structure of a device for transmitting parameters according to an embodiment of the present invention. BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the embodiments in the present application and the features in the embodiments may be combined with each other without conflict. 2 is a flow chart of a method for determining a state of a user equipment according to an embodiment of the present invention. As shown in FIG. 2, the method may include the following processing steps: Step S202: The user equipment receives the service status parameter from the network side device. Step S204: The user equipment determines whether to enter the frequent data transmission and reception status according to the service status parameter. In the related art, the user equipment needs to frequently switch between the idle mode and the connected mode because it continuously receives and transmits data, which is likely to cause a large consumption of the terminal power. As shown in FIG. 2, the network side device sends the configured service state parameter to the user equipment, and the user equipment determines whether it needs to enter the frequent data sending and receiving state according to the received service state parameter, and solves the related problem in the related art. Constantly receiving and When sending data, it is necessary to frequently switch between the idle mode and the connected mode, which is likely to cause a problem that the power of the terminal is greatly consumed, thereby achieving the effect of saving the power of the user equipment. Preferably, the service status parameter may include, but is not limited to: a first preset duration and a preset threshold of the number of times the data is received and/or transmitted. In step S204, the user equipment determines whether to enter the frequent data transmission and reception according to the service status parameter. The status may include the following operations: Step S1: The user equipment determines whether to enter a frequent data transceiving state according to whether the number of times of receiving and/or transmitting data counted within the first preset duration is up to or exceeding a threshold. Preferably, in step S1, the user equipment determines whether to enter the frequent data transceiving state according to whether the number of times of receiving and/or transmitting data counted within the first preset duration is equal to or exceeds a threshold. The following operations may be included: Step S11: User equipment Obtaining a first preset duration from the service status parameter; Step S12: The user equipment records the number of times of receiving and/or transmitting data within the first preset duration; Step S13: The user equipment determines whether the number of times of receiving and/or transmitting data is reached Or exceed the threshold, if the number of times the data is received and/or transmitted reaches or exceeds the threshold, the frequent data transceiving state is entered. In a preferred embodiment, if the number of times the data is received and/or transmitted is below a threshold, the number of times the data is received and/or transmitted is re-recorded for the next first predetermined time period until a frequent data transceiving state is entered. Preferably, the foregoing service status parameter may further include: a second preset duration, after the user equipment enters the frequent data transceiving state, the method may further include the following processing: the user equipment determines whether to exit the frequent data transceiving state according to the service status parameter. Preferably, the determining, by the user equipment, whether to exit the frequent data transmission and reception state according to the service status parameter, the following operations are performed: Step S2: The user equipment determines whether the number of times of receiving and/or transmitting data that is counted within the second preset duration is greater than or equal to a threshold value. Whether to exit the frequent data transmission and reception status. Preferably, in step S2, the user equipment determines whether to exit the frequent data transceiving state according to whether the number of times of receiving and/or transmitting data counted within the second preset duration is greater than or equal to a threshold. The step of step S21: the user equipment Obtaining a second preset duration from the service state parameter; Step S22: After the user equipment enters the frequent data transceiving state, the number of times of receiving and/or transmitting data is recorded in the second preset duration; Step S23: The user equipment determines whether the number of times of receiving and/or transmitting data reaches or exceeds a threshold. If the number of times the data is received and/or transmitted reaches or exceeds the threshold, the frequent data transmission and reception state is continued; if the number of times of receiving and/or transmitting data is lower than the threshold, the frequent data transmission and reception state is exited. Preferably, after the user equipment enters the frequent data transceiving state, the following operations may be included in step S204: Step S3: The MME acquires first status information of the user equipment entering the frequent data transceiving state; Step S4: The MME maintains according to the first status information. Signaling connection with the user equipment. Preferably, after the user equipment exits the frequent data transceiving state, the following steps may be further included: Step S5: The MME acquires the second status information that the user equipment exits the frequent data transceiving state; Step S6: The MME receives the second status information on the user equipment according to the second status information. And after transmitting the data currently being transmitted, release the signaling connection with the user equipment. In a preferred implementation, the network side device may send the service status parameter to the user equipment by using one of the following methods: 1. The network side device sends the service status parameter to the user equipment by using the broadcast mode; The control (Radio Resource Control, hereinafter referred to as RRC) signaling sends the service status parameter to the user equipment. The third mode is that the network side device sends the service status parameter to the user equipment through the non-access stratum (Non-Access Stratum, NAS) signaling. . In the preferred implementation, in step S3, the MME obtains the first state information of the user equipment to enter the frequent data transmission and reception state, or the second state information that the MME obtains the user equipment to exit the frequent data transmission and reception state may include the following in step S5. Processing steps:

The MME obtains the first state information of the user equipment to enter the frequent data transmission and reception state through the NAS signaling, or the MME obtains the second state information of the user equipment to exit the frequent data transmission and reception state through the NAS signaling, where the NAS signaling may include but is not limited to One of the following: (1) Service request signaling;

(2) Attach request signaling;

(3) tracking area update request signaling;

(4) Packet Data Network (PDN) connection request signaling. The above preferred embodiments will be further described below in conjunction with the preferred embodiments illustrated in Figures 3 through 5. FIG. 3 is a flowchart of a method for determining a state of a user equipment according to a preferred embodiment of the present invention. In the preferred embodiment, the network side device sends the service status parameter to the user equipment by means of the system message broadcast. As shown in FIG. 3, the method may include the following processing steps: Step S302: The network side device configures the service status for the user equipment. The parameter may include: a parameter, a statistic time (corresponding to the first preset duration), configured to enable the user equipment to determine whether the user equipment enters a frequent data transmission and reception state, and the user equipment receives the data in the statistical time. Or the number of times the data is sent is counted; parameter 2: a preset threshold for receiving and/or sending data, the maximum number of data transmission and reception times for the user equipment to determine whether the user equipment is in a state of frequent data transmission and reception; The lag time (corresponding to the second preset duration) is used to enable the user equipment to determine whether the user equipment continues to be in a frequent data transmission and reception state after the user equipment enters a frequent data transmission and reception state, and the user equipment receives the data in a lag time. And/or the number of times the data is sent is counted; Step S304: As the network side device, the base station sends the service status parameter to the user equipment through the system message broadcast; Step S306: After receiving the service status parameter from the system message, the user equipment starts the statistics time timer.

The value of the timer can be set to the statistical time in the service status parameter, and the number of times the data is sent and/or the data is received in the statistical time Ν; Step S308: The user equipment determines whether the number of times the data is received and/or sent reaches Or exceeds the threshold; if the number of times of receiving and/or transmitting data reaches or exceeds the threshold, proceeding to step S310; if the number of times of receiving and/or transmitting data is lower than the threshold, then proceeds to step S312; Step S310: In the case of T to time, if Ν is greater than or equal to a preset threshold in the service state parameter, the user equipment enters a frequent data transceiving state. After the user equipment sends the NAS signaling notification, the user equipment enters the frequent data transmission and reception state; and the process continues to step S314; in the preferred embodiment, the NAS signaling may be one of the following: service request signaling, attach request signaling, Tracking area update request signaling, Packet Data Network (PDN) connection request signaling. Step S312: If the N is still less than the preset threshold in the case of T to, the first round of statistics can be started again, and the process returns to step S308. Step S314: The MME obtains that the user equipment has entered the frequent data transmission and reception through the NAS signaling. After the status information, the signaling connection with the user equipment is maintained, and is not released after the current data is sent and received. Step S316: After the user equipment enters the frequent data transceiving state, the user equipment stops the timer T, and then starts. The value of the timer Thyst, Thyst may be set to the lag time in the service state parameter, and the number of times of receiving and/or transmitting data is continuously counted N; Step S318: The user equipment determines whether the number of times of receiving and/or transmitting data reaches or exceeds a threshold; If the number of times of receiving and/or transmitting data is lower than the threshold, proceeding to step S320; if the number of times of receiving and/or transmitting data reaches or exceeds the threshold, then proceeding to step S324; step S320: in the case of Thyst, If N is less than the preset threshold, the user equipment exits the frequent data transceiving state. The user equipment notifies the MME by sending NAS signaling, and the user equipment has exited the frequent data transmission and reception state. In the preferred embodiment, the NAS signaling may be one of the following: service request signaling, attach request signaling, and tracking area update request. Signaling, PDN connection request signaling. Step S322: After the MME obtains the frequent data transceiving state of the user equipment by using the NAS signaling, the signaling connection with the terminal is released after the current data is sent and received. Step S324: In the case of Thyst, if N is greater than a preset threshold , the user equipment continues to maintain frequent data transmission and reception. 4 is a flowchart of a method for determining a state of a user equipment according to a preferred embodiment 2 of the present invention. In the preferred embodiment, the network side device sends the service status parameter to the user equipment by means of RRC signaling. As shown in FIG. 4, the method may include the following processing steps: Step S402: The network side device configures a service state parameter for the user equipment, where the method includes: a parameter, a statistic time (corresponding to the first preset duration), configured to enable the user equipment to determine whether the user equipment enters frequent data transmission and reception. The user equipment counts the number of times the data is received and/or sent in the statistical time. The parameter is a preset threshold for receiving and/or sending data. The user equipment determines whether the user equipment is frequently. The maximum number of data transmission and reception times of the data transmission and reception state; parameter 3, the lag time (corresponding to the second preset duration), is used to enable the user equipment to determine whether the user equipment continues to be kept frequently after the user equipment enters the frequent data transmission and reception state. The data transmission and reception state, the user equipment counts the number of times of receiving and/or transmitting data in a lag time; Step S404: The base station functions as a network side device, and the service state parameter passes the RRC signaling during the establishment of the RRC connection by the user equipment. That is, RRCConnectionSetup) is sent to the user equipment; Step S406: User equipment After receiving the service status parameter in the RRC signaling (RRCConnectionSetup), the statistics time timer T is started, and the value of the timer can be set to the statistical time in the service status parameter, and the data is sent and/or received in the statistical time. Step S408: The user equipment determines whether the number of times of receiving and/or transmitting data reaches or exceeds a threshold; if the number of times of receiving and/or transmitting data reaches or exceeds the threshold, proceeding to step S410; if receiving and/or transmitting data If the number of times is lower than the threshold, the process goes to step S412; Step S410: In the case of Τ, if the Ν is greater than or equal to the preset threshold in the service state parameter, the user equipment enters the frequent data transceiving state. After the user equipment sends the NAS signaling notification, the user equipment enters the frequent data transmission and reception state; and the process proceeds to step S414; in the preferred embodiment, the NAS signaling may be one of the following: service request signaling, attach request signaling, Tracking area update request signaling, Packet Data Network (PDN) connection request signaling. Step S412: If the N is still less than the preset threshold in the case of the T to the time, the start of the next round of statistics may be started again, and the process returns to step S408. Step S414: The MME acquires the frequent data transmission and reception of the user equipment by using the NAS signaling. After the status information, the signaling connection with the user equipment is maintained, and is not released after the current data is sent and received; Step S416: After the user equipment enters the frequent data transceiving state, the user equipment stops the timer T, and then starts the timer Thyst. The value of Thyst can be set to the lag time in the service status parameter, and the statistics of receiving and/or transmitting data are continued. Number of times N; Step S418: The user equipment determines whether the number of times of receiving and/or transmitting data reaches or exceeds a threshold; if the number of times of receiving and/or transmitting data is lower than a threshold, proceeding to step S420; if receiving and/or transmitting data If the number of times reaches or exceeds the threshold, the process goes to step S424; Step S420: In the case that Thyst arrives, if N is less than the preset threshold, the user equipment exits the frequent data transceiving state. The user equipment notifies the MME by sending NAS signaling, and the user equipment has exited the frequent data transmission and reception state. In the preferred embodiment, the NAS signaling may be one of the following: service request signaling, attach request signaling, and tracking area update request. Signaling, PDN connection request signaling. Step S422: After the MME obtains the frequent data transceiving state of the user equipment by using the NAS signaling, the signaling connection with the terminal is released after the current data is sent and received. Step S424: In the case of Thyst, if N is greater than a preset threshold , the user equipment continues to maintain frequent data transmission and reception. FIG. 5 is a flowchart of a method for determining a state of a user equipment according to a preferred embodiment 3 of the present invention. In the preferred embodiment, the network side device sends the service status parameter to the user equipment by means of the NAS signaling. As shown in FIG. 5, the method may include the following processing steps: Step S502: The network side device configures the service status for the user equipment. The parameter may include: a parameter, a statistic time (corresponding to the first preset duration), configured to enable the user equipment to determine whether the user equipment enters a frequent data transmission and reception state, and the user equipment receives the data in the statistical time. Or the number of times the data is sent is counted; parameter 2: a preset threshold for receiving and/or sending data, the maximum number of data transmission and reception times for the user equipment to determine whether the user equipment is in a state of frequent data transmission and reception; The lag time (corresponding to the second preset duration) is used to enable the user equipment to determine whether the user equipment continues to be in a frequent data transmission and reception state after the user equipment enters a frequent data transmission and reception state, and the user equipment receives the data in a lag time. And/or the number of times the data is sent is counted; Step S504: The MME functions as a network side device, and sends the service state parameter to the user equipment through NAS signaling (for example, attach reception, tracking area update reception) in the mobility management process (for example, the attach process and the tracking area update process). Step S506: After receiving the service state parameter from the NAS signaling (for example, the attached receiving and the tracking area update receiving), the user equipment starts the statistical time timer T, and the value of the timer can be set to the statistical time in the service status parameter. And recording the number of times the data is transmitted and/or received in the statistical time Ν; Step S508: The user equipment determines whether the number of times of receiving and/or transmitting data reaches or exceeds a threshold; if the number of times of receiving and/or transmitting data reaches or exceeds If the threshold is reached, step S510 is continued; if the number of times of receiving and/or transmitting data is lower than the threshold, then go to step S512; Step S510: In the case of Τ, if Ν is greater than or equal to the preset in the service state parameter The threshold is that the user equipment enters a frequent data transmission and reception state. After the user equipment sends a NAS signaling notification, the user equipment enters a frequent data transmission and reception state; and continues to perform step S514; in the preferred embodiment, the NAS signaling may be one of the following: service request signaling, attach request signaling, Tracking area update request signaling, Packet Data Network (PDN) connection request signaling. Step S512: If the N is still less than the preset threshold in the case of the T to the time, the next round of statistics can be started again, and the process returns to step S508. Step S514: The MME obtains that the user equipment has entered the frequent data transmission and reception through the NAS signaling. After the status information is maintained, the signaling connection with the user equipment is maintained, and is not released after the current data is sent and received. Step S516: After the user equipment enters the frequent data transceiving state, the user equipment stops the timer T, and then starts. The value of the timer Thyst, Thyst may be set to the lag time in the service state parameter, and the number of times of receiving and/or transmitting data is continuously counted N; Step S518: The user equipment determines whether the number of times of receiving and/or transmitting data reaches or exceeds a threshold; If the number of times of receiving and/or transmitting data is lower than the threshold, proceeding to step S520; if the number of times of receiving and/or transmitting data reaches or exceeds the threshold, then proceeding to step S524; step S520: in the case of Thyst, If N is less than the preset threshold, the user equipment exits the frequent data transceiving state. The user equipment notifies the MME by sending NAS signaling, and the user equipment has exited the frequent data transceiving state; In the preferred embodiment, the NAS signaling may be one of the following: service request signaling, attach request signaling, tracking area update request signaling, and PDN connection request signaling. Step S522: After the MME obtains the frequent data transceiving state of the user equipment by using the NAS signaling, the signaling connection with the terminal is released after the current data is sent and received. Step S524: In the case of Thyst, if N is greater than a preset threshold , the user equipment continues to maintain frequent data transmission and reception. FIG. 6 is a flowchart of a method of transmitting a parameter according to an embodiment of the present invention. As shown in FIG. 6, the method may include the following processing steps: Step S602: The network side device configures a service state parameter, where the service state parameter is used to enable the user equipment to determine whether the user equipment enters a frequent data sending and receiving state; Step S604: Network The side device sends the service status parameter to the user equipment. The method shown in FIG. 6 solves the problem that the user equipment in the related art needs to frequently switch between the idle mode and the connected mode due to continuous receiving and transmitting data, which is likely to cause a large consumption of the terminal power, thereby achieving The effect of saving the power of the user equipment. FIG. 7 is a structural block diagram of a device for determining a state of a user equipment according to an embodiment of the present invention. As shown in FIG. 7, the apparatus for determining the status of the user equipment may include: a receiving module 10 configured to receive a service status parameter from a network side device; and a first determining module 20 configured to determine whether to enter the frequent data according to the service status parameter. Send and receive status. The device shown in FIG. 7 solves the problem that the user equipment in the related art needs to frequently switch between the idle mode and the connected mode due to continuous receiving and transmitting data, which is likely to cause a large consumption of the terminal power, thereby achieving The effect of saving the power of the user equipment. Preferably, the foregoing service state parameter may include, but is not limited to: a first preset duration and a preset threshold of the number of times the data is received and/or transmitted; the first determining module 20 is configured to perform statistics according to the first preset duration. Whether the number of times of receiving and/or transmitting data reaches or exceeds a threshold to determine whether to enter a frequent data transceiving state. Preferably, as shown in FIG. 8, the first determining module 20 may include: a first obtaining unit 200, configured to obtain a first preset duration from the service state parameter; and a first recording unit 202 configured to be in the first preset The number of times of receiving and/or transmitting data is recorded in the duration; the first determining unit 204 is configured to determine the number of times the data is received and/or transmitted. Whether the number reaches or exceeds the threshold, if the number of times the data is received and/or transmitted reaches or exceeds the threshold, the frequent data transceiving state is entered. Preferably, as shown in FIG. 8, the service status parameter may further include: a second preset duration, where the apparatus may further include: a second determining module 30, configured to determine whether to exit the frequent data transceiving state according to the service status parameter. Preferably, the second determining module 30 is configured to determine whether to exit the frequent data transceiving state according to whether the number of times of receiving and/or transmitting data counted within the second preset duration is up to or exceeding a threshold. Preferably, as shown in FIG. 8, the second determining module 30 may include: a second obtaining unit 300, configured to obtain a second preset duration from the service state parameter; and a second recording unit 302 configured to enter and receive frequent data transmission and reception. After the status, the number of times of receiving and/or transmitting data is recorded within the second preset duration; the second determining unit 304 is configured to determine whether the number of times of receiving and/or transmitting data reaches or exceeds a threshold, if the data is received and/or transmitted If the number of times reaches or exceeds the threshold, the frequent data transmission and reception state is continued; if the number of times of receiving and/or transmitting data is lower than the threshold, the frequent data transmission and reception state is exited. 9 is a block diagram showing the structure of a transmitting apparatus of parameters according to an embodiment of the present invention. As shown in FIG. 9, the sending device of the parameter may include: a configuration module 40, configured to configure a service state parameter, where the service state parameter is used to enable the user equipment to determine whether the user equipment enters a frequent data transceiving state, and the sending module 50 , set to send business status parameters to the user device. The device shown in FIG. 9 solves the problem that the user equipment in the related art needs to frequently switch between the idle mode and the connected mode due to continuous receiving and transmitting data, which is likely to cause a large consumption of the terminal power, thereby achieving The effect of saving the power of the user equipment. It should be noted that the preferred modes of operation of the modules shown in FIG. 7 to FIG. 9 and the interaction between the units may be referred to the embodiment shown in FIG. 2 to FIG. 6 , and details are not described herein again. From the above description, it can be seen that the foregoing embodiments implement the following technical effects (it is required that the effects are achievable by some preferred embodiments): the configured network state device is used to send the configured service state parameters to The user equipment determines whether the user needs to enter the frequent data transmission and reception state according to the received service state parameter, and solves the problem that the user equipment needs to frequently switch between the idle mode and the connection mode because the user equipment continuously receives and transmits data. It is easy to cause the problem that the power of the terminal is greatly consumed, thereby achieving the effect of saving the power of the user equipment. Obviously, those skilled in the art should understand that the above modules or steps of the present invention can be implemented by a general-purpose computing device, which can be concentrated on a single computing device or distributed over a network composed of multiple computing devices. Alternatively, they may be implemented by program code executable by the computing device, such that they may be stored in the storage device by the computing device and, in some cases, may be different from the order herein. The steps shown or described are performed, or they are separately fabricated into individual integrated circuit modules, or a plurality of modules or steps are fabricated as a single integrated circuit module. Thus, the invention is not limited to any specific combination of hardware and software. The above is only the preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes can be made to the present invention. Any modifications, equivalent substitutions, improvements, etc. made within the spirit and scope of the present invention are intended to be included within the scope of the present invention.

Claims

Claim

A method for determining a state of a user equipment, including:

 The user equipment receives the service status parameter from the network side device;

 The user equipment determines whether to enter the frequent data transceiving state according to the service status parameter.

The method according to claim 1, wherein the service status parameter comprises: a first preset duration and a preset threshold of the number of times of receiving and/or transmitting data, the user equipment according to the service status parameter Determining whether to enter the frequent data transmission and reception status includes:

 Determining, by the user equipment, whether to enter the frequent data transceiving state according to whether the number of times of receiving and/or transmitting data counted within the first preset duration is up to or exceeds the threshold.

The method according to claim 2, wherein the user equipment determines whether to enter or not according to whether the number of times of receiving and/or transmitting data counted within the first preset duration is equal to or exceeds the threshold. The status of frequent data transmission and reception includes:

 The user equipment acquires the first preset duration from the service state parameter; the user equipment records the number of times of receiving and/or transmitting data in the first preset duration; the user equipment determines Whether the number of times of receiving and/or transmitting data reaches or exceeds the threshold, and if the number of times of receiving and/or transmitting data reaches or exceeds the threshold, the frequent data transceiving state is entered.

The method of claim 3, wherein the service status parameter further comprises: a second preset duration, after the user equipment enters the frequent data transceiving state, further comprising:

 The user equipment determines whether to exit the frequent data transceiving state according to the service status parameter.

The method according to claim 4, wherein the determining, by the user equipment, whether to exit the frequent data transmission and reception state according to the service state parameter comprises:

Determining, by the user equipment, whether to exit the frequent data transceiving state according to whether the number of times the receiving and/or transmitting data counted in the second preset duration is up to or exceeds the threshold.

The method according to claim 5, wherein the user equipment determines whether to exit according to whether the number of times of receiving and/or transmitting data counted in the second preset duration is up to or exceeds the threshold. The status of frequent data transmission and reception includes:

 The user equipment acquires the second preset duration from the service state parameter; after the user equipment enters the frequent data transceiving state, the user equipment records the receiving and/or within the second preset duration The number of times the data was sent;

 Determining, by the user equipment, whether the number of times of receiving and/or transmitting data reaches or exceeds the threshold, if the number of times of receiving and/or transmitting data reaches or exceeds the threshold, continuing to maintain the frequent data transmission and reception status And if the number of times the data is received and/or transmitted is lower than the threshold, the frequent data transceiving state is exited.

The method according to any one of claims 1 to 3, wherein, after the user equipment enters the frequency data transmission and reception state, the method further includes:

 The mobility management unit acquires first state information that the user equipment enters the frequent data transceiving state;

 The mobility management unit maintains a signaling connection with the user equipment according to the first state information.

The method according to any one of claims 4 to 6, wherein, after the user equipment exits the frequency data transmission and reception state, the method further includes:

 The mobility management unit acquires second state information that the user equipment exits the frequent data transceiving state;

 The mobility management unit releases the signaling connection with the user equipment after the user equipment receives and/or transmits the data currently being transmitted according to the second status information.

The method according to any one of claims 1 to 8, wherein the network side device sends the service status parameter to the user equipment by one of the following methods:

 The network side device sends the service status parameter to the user equipment by using a broadcast; the network side device sends the service status parameter to the user equipment by using radio resource control RRC signaling;

The network side device sends the service state parameter to the user equipment by using non-access stratum NAS signaling.

The method according to claim 7 or 8, wherein the mobility management unit acquires the first state information that the user equipment enters the frequent data transceiving state, or the mobility management unit acquires The second state information of the user equipment to exit the frequent data transmission and reception state includes: the mobility management unit acquiring the first state information of the user equipment entering the frequent data transceiving state by using NAS signaling, Alternatively, the mobility management unit acquires the second state information that the user equipment exits the frequent data transceiving state by using NAS signaling, where the NAS signaling includes one of the following: service request signaling, and attaching Request signaling, tracking area update request signaling, packet data network PDN connection request signaling.

11. A method for transmitting parameters, including:

 The network side device configures a service status parameter, where the service status parameter is used to enable the user equipment to determine whether the user equipment enters a frequent data transmission and reception state;

 The network side device sends the service status parameter to the user equipment.

12. A device for determining a state of a user equipment, comprising: a receiving module, configured to receive a service state parameter from a network side device;

 The first determining module is configured to determine, according to the service status parameter, whether to enter the frequent data transceiving state.

The device according to claim 12, wherein the service status parameter comprises: a first preset duration and a preset threshold of the number of times the data is received and/or transmitted;

 The first determining module is configured to determine whether to enter the frequent data transceiving state according to whether the number of times of receiving and/or transmitting data counted within the first preset duration exceeds the threshold.

The device according to claim 13, wherein the first determining module comprises:

 a first acquiring unit, configured to acquire the first preset duration from the service state parameter; the first recording unit is configured to record the number of times the receiving and/or transmitting data is recorded within the first preset duration ;

 a first determining unit, configured to determine whether the number of times of receiving and/or transmitting data exceeds the threshold, and if the number of times of receiving and/or transmitting data reaches or exceeds the threshold, entering the frequent data sending and receiving state .

The device according to claim 14, wherein the service state parameter further comprises: a second preset duration, the device further comprising: The second determining module is configured to determine, according to the service status parameter, whether to exit the frequent data transceiving state.

16. The apparatus according to claim 15, wherein

 The second determining module is configured to determine whether to exit the frequent data transceiving state according to whether the number of times of receiving and/or transmitting data counted in the second preset duration exceeds the threshold.

The device according to claim 16, wherein the second determining module comprises: a second acquiring unit, configured to acquire the second preset duration from the service state parameter; a second recording unit, setting The number of times the receiving and/or transmitting data is recorded within the second preset duration after entering the frequent data transceiving state;

 a second determining unit, configured to determine whether the number of times of receiving and/or transmitting data exceeds the threshold, and if the number of times of receiving and/or transmitting data reaches or exceeds the threshold, continuing to maintain the frequent data transmission and reception a state; if the number of times the data is received and/or transmitted is lower than the threshold, the frequent data transceiving state is exited.

18. A parameter transmitting device, comprising:

 The configuration module is configured to configure a service status parameter, where the service status parameter is used by the user equipment to determine whether the user equipment enters a frequent data transmission and reception state.

 And a sending module, configured to send the service status parameter to the user equipment.