• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Summary "Network Element State Processing Method and Apparatus" embodiments of the present invention disclose a method and apparatus for processing a network element state. The method includes: obtaining a network element by monitoring network element performance data or an accepted operation request, where the network element is a base station or a cell or subnet; then obtaining target data that corresponds to the network element, where the target data includes at least one of the tracking data, the manual minimization of data disk testing, radio link failure data, a User equipment error, alarm data, and performance data; subsequently, according to the target data, determining if the network element is out of service or needs to compensate for another network element; and finally, when the network element is out of service or needs to compensate for another network element, it indicates whether the network element can enter a power save state. The present invention is applicable to the field of communication systems.
    公开号:BR112014017933B1
    申请号:R112014017933-6
    申请日:2013-01-17
    公开日:2019-05-07
    发明作者:Dong Zhao
    申请人:Huawei Technologies Co., Ltd.;
    IPC主号:
    专利说明:

    METHOD AND APPARATUS TO PROCESS NETWORK ELEMENT STATE
    TECHNICAL FIELD [001] The present invention relates to the field of communications systems, and in particular to a method and apparatus for processing a network element state.
    BACKGROUND [002] A SON (Self-Organizing Network, self-organizing network) is a type of key standardization project work by the 3GPP standards organization (The Third Generation Partnership Project, the Third Generation Partnership Project ) during work periods R8 / 9/10, and a main concept of this is to reduce additional manual operations through an automation process during network planning, implementation, optimization and maintenance phases, in order to reduce a cost of maintenance of a network operator.
    [003] A communications network element has an abnormal working state, where the network element can be a cell or a base station. In this state, the network element cannot provide normal communication services, and user equipment (UE, User Equipment) residing on the network element cannot establish a communication connection, or user equipment that is performing non-communication can maintain a communication connection and become offline. Furthermore, the network element is in this abnormal working state because of the occurrence of a certain type of serious failure instead of performing a network element energy saving operation. The network element in this situation is referred to as an out-of-service network element. a
    2/25 the system needs an ability to automatically detect the network element out of service, to activate a restore operation of the network element out of service or an operation to deactivate an energy saving network element in real time, so that the network element returns to a normal working state. The process of automatically detecting the out-of-service network element belongs to a self-repair scope (SH, Self-repair) of the self-organizing network.
    [004] If a network element (a cell or a base station) is out of service, some KPIs of the network element, for example, indicators such as a number of access requests, a number of users served and a charge rate access success, are similar to indicators when the cell meets normal energy saving conditions, and whether a current network element is out of service or can enter an energy saving state needs to be distinguished. Currently, methods for detecting the network element out of service emphasize implementation within the base station. Whether a network element is out of service is determined by means of particular circular detection software and hardware within the base station, an external power supply system or by a network connection, and an alarm that the network is out of service is reported by the base station. This method is strongly related to the implementation of the base station, and is limited only to the base station itself. Another detection method is a network management system that periodically collects a KPI (Key Indicator)
    3/25 Performance, key performance indicator) and / or PM (Performance Measurements, performance measurement) of the network element, and whether a performance indicator such as an RRC connection success rate (Resource Control) Radio, radio resource control), or a session or call drop rate (which can be briefly referred to as a session / call drop rate in the following) of the network element exceeds a predefined threshold in one or more reporting periods, the network element is considered to be out of service. However, these methods consider only the base station itself, and possibly cause the network element to be in an out of service state for a long time, thereby further lengthening the time to determine the out of service network element or increasing a probability of determining the network element out of service erroneously.
    [005] Therefore, because of the flaws in the methods of determining out of service indicated above, and in which energy savings and out of service are not coordinated and controlled in the prior art, an out of service network element can decide for itself even going into an energy-saving state after reaching an energy-saving condition and becoming a normal energy-saving cell; as a result, out-of-service detection and compensation is no longer performed for the network element, thus causing a serious service failure.
    SUMMARY [006]
    Modalities of the present invention provide a
    4/25 method and apparatus for processing a device state, which solve a problem in the prior art in which time to determine an out-of-service network element is long and a probability of erroneously determining the out-of-service network element is high when the network element out of service is determined.
    [007] The modalities of the present invention use the following technical solutions.
    [008] A method for processing a network element state includes:
    determining whether a network element is out of service, or whether the network element is a compensating network element of another network element, or whether the network element is performing an optimization operation; and prohibit, when the network element is out of service, or the network element is the compensation network element of another network element, or the network element is performing the optimization operation, the network element from entering in an energy-saving state.
    [009] An apparatus for processing a network element state includes:
    a determination unit, configured to determine whether a network element is out of service, or whether the network element is a compensating network element of another network element, or whether the network element is performing an optimization operation ; and an instruction unit, configured to instruct, when the determination unit determines that the network element is out of service, or the network element is the compensating network element of another
    5/25 network, or the network element is performing the optimization operation, the network element not to enter a state of energy saving.
    [010] In the prior art, only a base station itself is considered when a network element state is determined, which causes a problem of prolonging the time to determine an out-of-service network element or increasing a probability of determining a network element out of service erroneously. In the method and apparatus for processing a network element state that are provided in the embodiments of the present invention, an out-of-service network element or a compensating network element of another network element or a network element that is performing a optimization operation is controlled by determining whether the network element is out of service, or whether the network element is the compensating network element of another network element, or whether the network element is performing the optimization operation , so as not to enter an energy-saving state, thus solving the problem of prolonging the time to determine the out-of-service network element or increase the likelihood of erroneously determining the out-of-service network element.
    BRIEF DESCRIPTION OF THE DRAWINGS [011] To describe the technical solutions in the modalities of the present invention more clearly, the following briefly introduces the attached drawings required to describe the modalities or the prior art. Of course, the drawings attached to the description below show merely some embodiments of the present invention,
    6/25 and a person of ordinary skill in the art can still derive other designs from these attached drawings without creative efforts.
    [012] Figure 1 is a flow chart of a method for
    processing a network element state according to embodiment 1 of the present invention;
    [013] Figure 2 is a structural diagram schematic of an appliance to process a state of element of network in accordance with Modality 1 of this
    invention;
    [014] Figure 3 is a flow chart of a method for
    processing a network element state according to Mode 2 of the present invention; and
    [015] Figure 4 is a structural diagram schematic of an appliance to process a state of element of network in accordance with Modality 2 of this invention. DESCRIPTION OF MODALITIES [016] The following describes clearly and
    complete technical solutions in the modalities of the present invention with reference to the drawings attached in
    modalities of the present invention. Evidently, modalities described are merely a part rather than a
    all the modalities of the present invention. All other modalities obtained by a person of ordinary skill in the art based on the modalities of the present invention without creative efforts should be included in the scope of protection of the present invention.
    [017] To make the advantages of the technical solutions of the present invention more understandable,
    7/25 set out below describes the present invention
    in detail with reference to drawings attachments and the modalities. Mode 1 [018] It is modality provides one method for process one state of element network. Such as shown in the figure 1, O method includes: [019] 101: Determine whether an element network it is
    out of service, or if the network element is a compensating network element of another network element, or if the network element is performing an optimization operation.
    [020] The network element can be a base station, a cell or a subnet.
    [021]
    102: Prohibit, when the network element is out of service, or the network element is the compensating network element of another network element, or the network element is performing the optimization operation, the network element of go into an energy-saving state.
    [022] Specifically, an energy saving permission signal can be used to indicate whether the network element can enter the energy saving state.
    [023] The permission signal is to allow or prohibit. For example, the following form can be used:
    Permission EE = True indicates that the network element can enter the energy saving EE state, and Permission EE = False indicates that the network element is prohibited from entering the energy saving state, where Permission EE
    8/25 means that energy savings are allowed, True means it is true, and False means it is not true.
    [024] The energy saving permission signaling of the network element can be established to control the energy saving function, used as an identifier established to control, through a distributed energy saving function, the energy saving of the network element or to prohibit a centralized energy saving function from controlling energy saving of the network element.
    [025] Additionally, when the network element is a cell, signaling can be used as an attribute of the cell; and when the network element is a base station, signaling can be used as an attribute of the base station.
    [026] This mode provides an apparatus for processing a network element state. As shown in figure 2, an apparatus entity can be a base station or a cell. The apparatus includes a determination unit 21 and an instruction unit 22.
    [027] The determination unit 21 is configured to determine whether a network element is out of service, or whether the network element is a compensating network element from another network element, or whether the network element is running an optimization operation.
    [028] Instruction unit 22 is configured to prohibit when the determination unit determines that the network element is out of service, or the network element is the compensation network element of another
    9/25 network element, or the network element is performing the optimization operation, the network element to enter a power-saving state.
    [029]
    Specifically, an energy-saving permission flag can be used to indicate whether a network element can enter the energy-saving state.
    [030] energy from
    Network element save permission flags can be set to control the power save function, used as an identifier established to control, through a distributed power save function, network element power save or to prohibit a centralized energy saving function from controlling energy saving of the network element.
    [031] The permission signal is to allow or prohibit. For example, the following form can be used: Permission EE = True indicates that the network element can enter the energy saving ES state, and Permission EE = False indicates that the network element is prohibited from entering the energy saving state. energy, where EE Permission means that energy savings are allowed, True means it is true, and False means it is not true.
    [032] Additionally, when the network element is a cell, signaling can be used as an attribute of the cell; and when the network element is a base station, signaling can be used as an attribute of the base station.
    [033]
    In the prior art, only one station
    10/25 base itself is considered when a network element state is determined, which causes a problem of prolonging the time to determine an out-of-service network element or increasing a probability of erroneously determining an out-of-service network element . In the method and apparatus for processing a network element state that are provided in the embodiments of the present invention, an out-of-service network element or a compensating network element of another network element or a network element that is performing a optimization operation is controlled by determining whether the network element is out of service, or whether the network element is the compensating network element of another network element, or whether the network element is performing the optimization operation , so as not to enter an energy-saving state, thus solving the problem of prolonging the time to determine the out-of-service network element or increase the likelihood of erroneously determining the out-of-service network element.
    Mode 2
    [034] It is modality provides a method for process a state of element network. Such as shown in the figure 3, the method includes: [035] 301: Get data matching targets to a
    network element.
    [036] The network element can be a base station, a cell, or a subnet. Target data includes at least one trace data, manual minimization of drive test data, radio link failure data, cell transfer failure data, a
    11/25 user equipment failure report, alarm data and performance data.
    [037] Specifically, a trace task or a trigger test minimization task is initiated for the network element or for a network element neighboring the network element, where a track task or tracking task execution track minimization of triggering tests initiated includes the network element or the network element neighboring the network element; and trace data or drive test minimization data corresponding to the network element is obtained after the tracking task or drive test minimization task is finished.
    [038] Alternatively, existing data from the network element or from a network element neighboring the network element is obtained, and the target data is obtained according to the existing data. Existing data is stored in the network element or the neighboring network element, or in a network management entity or in a trace data collection entity.
    [039] Before step 301, the method additionally includes: obtaining the network element in step 301.
    [040] Specifically, key performance data for all network elements is obtained; and when all network elements include a network element whose key performance data is less than a predefined threshold, the network element whose key performance data is less than the predefined threshold is obtained as the network element, where the data Performance keys include at least one of a network element load,
    12/25 an access success rate, a transfer success rate between cells and a network element or user transfer rate, and the predefined threshold is a pre-designated indicator value for key performance data.
    [041] Alternatively, when all network elements include a network element that initiates an energy saving request, the network element that initiates the energy saving request is obtained as the network element.
    [042] Alternatively, when all network elements include a network element whose key performance data includes at least one of a network element load, a network element access success rate, a transfer success rate between network element cells, and a network element or user throughput and whose load is less than a predefined load value, the network element whose load is less than the predefined load value is obtained as the element network.
    [043] 302: According to the target data, determine whether the network element is out of service, or determine whether the network element is a compensating network element of another network element.
    [044] Specifically, when it is determined whether the network element is the compensating network element of another network element, it is determined, according to state information obtained that the network element is compensating another network element , or information that the network element is pre-configured to compensate for a
    13/25 another network element, or information that the network element is performing a parameter setting or operation, if the network element is in a state of compensating for another network element.
    [045] Alternatively, it is determined, according to a compensation execution state value obtained from the network element, or information obtained that if a cell neighboring the network element is in a state to be compensated, or a pre- configuration obtained or a default execution state for the network element, if the network element is in a state to compensate for another network element.
    [046] Alternatively, it is determined, when a network element load is less than a predefined load value, or a number of users accessing is less than a predefined number of users accessing, or a network element transfer rate is less than a predefined network element throughput, or data transfer failure between cells is greater than a predefined number of failures, or a lower network element radio environment is obtained from a user equipment failure report , or information that the network element malfunctions is obtained from alarm data, or a radio signal quality less than an expected value is obtained from manual minimization data of drive tests, or trace data includes information that a user signaling interface fails or cannot be executed, that the network element is out of service.
    [047] Additionally, when the target data is
    14/25 manual minimization data from drive tests, radio measurement data is obtained after the network element and an area in a predefined range of the network element is measured; and it is determined, when an exception occurs in the radio measurement data of the network element at a predefined time, that the network element is out of service.
    [048] Alternatively, it is determined, when the target data is radio link failure data or transfer failure data between cells and when a user device moving to the network element or moving to a network element neighbor of the network element reports radio link failure data or data transfer failure between cells of the network element, that the network element is out of service.
    [049] 303: Forbid, when the network element is out of service or the network element is the netting element of another network element, the network element from entering an energy-saving state.
    [050] Specifically, an energy saving permission signal from the network element is established to indicate whether the network element can enter the energy saving state, where the energy saving permission signal is to allow or prohibit.
    [051]
    When the network element is predefined with a default energy-saving permission value, the network element's energy-saving permission signal is reset, at the moment the network element returns to a normal state from the state in
    15/25 energy saving or at a predefined time point to reset signaling, to be the default energy saving permission value corresponding to the energy saving permission signal, where the default energy saving permission value can be to allow or prohibit, and the default energy-saving permission value is a network element initial energy-saving permission flag.
    [052] Additionally, when the network element is used to compensate another network element, or is in a period of another optimization operation, and has performed a function of the compensation operation or the optimization operation, to the network is indicated, when establishing the energy saving permission signal of the network element to prohibit, that the network element is prohibited from entering the energy saving state. Additionally, when the network element is predefined with a default energy saving permission value, a changed energy saving permission signal from the network element is reset, at the moment the network element ends the optimization operation, or terminate an operation to compensate for another network element, to be the default energy-saving allowance. However, when the network element's default energy-saving allowance is set to prohibit, the
    energy saving network element does not can be changed during the operation. [053] 304: O element network is detected and compensated through in detection of element in network outside in
    16/25 service and / or network element compensation out of service when the network element is out of service.
    [054] In this mode, when the network element needs to enter the energy saving state and it is verified that the energy element permission signaling of the network element is prohibiting, the network element is first instructed to send a request for entering a power-saving state and waiting to receive information to determine whether the network element can enter the power-saving state, or the network element is instructed to terminate the power-saving request to return to the normal state. When it is determined according to the target data of the network element that the network element is an out of service network element, either the network element is performing another operation, or the network element needs to compensate or is compensating another network element, or a default value of the network element is prohibiting the network element from entering the energy saving state, the network element is prohibited from entering the energy saving state or the request to enter the energy saving state of the network element's power is denied, or the network element's energy-saving permission flag is set to prohibit. When it is determined according to the target data that the network element is a normal network element, the network element is allowed to enter the energy-saving state, or the energy-saving permission signal of the network element is established to allow. When the network element ends energy saving, or when the network element returns to the normal state the
    17/25 from an out of service state, or when the network element ends compensation, or when the network element ends the execution of another operation, the energy saving permission signal of the network element is restored to be the default value, or the energy saving permission flag is reset to allow.
    [055] This mode provides an apparatus for processing a network element state. As shown in figure 4, an apparatus entity can be a base station or a cell. The apparatus includes: a acquisition unit 41, a determination unit 42, an instruction unit 43, a detection and compensation unit 44, a first processing unit 45 and a second processing unit 46.
    [056] Obtaining unit 41 is configured to obtain target data corresponding to a network element.
    [057] The network element can be a base station, a cell or a subnet.
    [058] The unity in obtaining 41 can to be configured additionally for get the element network . [059] The unity in obtaining 41 can to be configured additionally to get Dice keys in performance of all elements network. [060] The unity in obtaining 41 can to be configured additionally for: when all elements
    network elements include a network element whose key performance data is less than a predefined threshold, obtain the network element whose key performance data is less than the predefined threshold as the network element.
    18/25 [061] Key performance data includes at least one of a network element load, an access success rate, a cell transfer success rate, and a network element or user transfer rate , and the default threshold is a pre-designated indicator value for key performance data.
    [062] Obtaining unit 41 can be additionally configured for: when all network elements include a network element that initiates an energy saving request, obtain the network element that initiates the energy saving request as the element network.
    [063] Obtaining unit 41 can be additionally configured for: when all network elements include a network element whose key performance data includes at least one of a network element load, an element access success rate network, a transfer success rate between network element cells, and a network element or user transfer rate and whose load is less than a predefined load value, obtain the network element whose load is less than the default load value as the network element.
    [064] Obtaining unit 41 can be additionally configured to initiate a trace task or initiate a task of minimizing drive tests for the network network element neighboring the network element, or for an element where a execution range of the triggering task or triggering test minimization task initiated includes the
    19/25 network element or the network element neighboring the network element.
    [065]
    The acquisition unit 41 can be further configured to obtain trace data or drive test minimization data corresponding to the network element after the tracking task or the drive test minimization task is finished.
    [066] retrieval unit 41 can be additionally configured to obtain existing data from the network element or from the neighboring network element of the network element, and to obtain the target data according to the existing data.
    [067] The existing data is stored in the network element or in the neighboring network element, or in a network management entity or in a trace data collection entity.
    [068] The determination unit 42 is configured to: according to the target data, determine whether the network element is out of service, or determine whether the network element is a compensating network element of another network element .
    [069] The determination unit 42 can be further configured to determine, according to status information obtained that the network element is compensating for another network element, or information that the network element is preconfigured to compensate another network element, or information that the network element is performing a parameter setting or operation, if the network element is in a state of compensating for another
    20/25 network element.
    [070] The determination unit 42 can be additionally configured to determine, according to a compensation run state value obtained from the network element, or information obtained that if a cell neighboring the network element is in a state of be compensated, either a pre-configuration obtained or a default execution state for the network element, if the network element is in a state to compensate for another network element.
    [071] The unit of determination 42 can be additionally configured for: when a load of the network element is less than a predefined load value, or the number of users accessing is less than a predefined number of users accessing, or a rate of network element transfer is less than a predefined network element transfer rate, or cell-to-cell transfer failure data is greater than a predefined amount of failure, or a lower network element radio environment is obtained from a report failure of user equipment, or information that the network element malfunctions is obtained from alarm data, or a radio signal quality less than an expected value is obtained from manual minimization data of drive tests, or trace data includes information that a user signaling interface fails or cannot be executed, determine that the network element and is out of service.
    [072] The determination unit 42 can be additionally configured to obtain measurement data from
    21/25 radio after the network element and an area within a predefined range of the network element are measured.
    [073] The determination unit 42 can be further configured to determine, when an exception occurs in the radio measurement data of the network element at a predefined time, that the network element is out of service.
    [074] The determination unit 42 can be additionally configured to determine when user equipment moving to the network element or moving to a network element neighboring the network element reports radio link failure data or transfer failure data between cells of the network element, that the network element is out of service.
    [075] The determination unit 42 can be additionally configured for: when it is determined according to the target data of the network element that the network element is an out-of-service network element, or the network element is executing another operation, either the network element needs to compensate or is compensating for another network element, or a default value of the network element is prohibiting the network element from entering the energy saving state, prohibiting the network element from entering a energy-saving state or refuse a request to enter the energy-saving state of the
    network element. to be [076] The unity of determination 42 can configured additionally for: when is determined in a deal with the target data that the element in network is one
    22/25 normal network element or the default value of the network element is not prohibiting the network element from entering the energy-saving state, allowing the network element to enter the energy-saving state, or establishing a permission flag power saving of the network element to allow.
    [077] Instruction unit 43 is configured to instruct, when the network element is out of service or the network element is the netting element of another network element, the network element not to enter the state energy saving.
    [078] Instruction unit 43 can be additionally configured to indicate, when establishing a network element energy-saving permission signal, whether the network element can enter the energy-saving state, where the energy permission signal energy saving is to allow or prohibit.
    [079] Instruction unit 43 can be additionally configured for: when the network element is used to compensate another network element, or is in a period of another optimization operation, and has performed a function of the compensation operation or the optimization operation, instruct the network element not to enter the energy-saving state.
    [080] Instruction unit 43 can be further configured to instruct, when the network element needs to enter the energy saving state, the network element to send a request to enter the energy saving state.
    [081] The detection and compensation unit 44 is
    23/25 configured to detect and compensate the network element through out-of-service network element detection and / or out-of-service network compensation when the network element is out of service.
    [082] The first processing unit 45 is configured for: when the network element is predefined with a default energy-saving allowance value, restore, the moment the network element returns to a normal state from the state energy saving or at a predefined time point to reset the signal, the network element's energy saving permission signaling to be the default energy saving permission value corresponding to the energy saving permission signaling.
    [083] O default permission value in economy in energy can to be to allow or prohibit, and O standard value permission in economy of energy is a signaling in permission from saving initial energy of element in network. [084] THE Monday processing unit 46 is
    configured for: when the network element is predefined with a default energy saving allowance value, restore, at the moment the network element finishes the optimization operation, or ends an operation to compensate another network element, the network element energy saving permission flag to be the default energy saving permission value.
    [085] The second processing unit 46 can be additionally configured to not reset the element's energy-saving permission signaling
    24/25 network when the default power saving allowance value of the network element is set to prohibit.
    [086] The second processing unit 46 can be additionally configured to restore a default network element default value when the network element ends energy saving.
    [087] In the method and apparatus for processing a network element state which are provided in the embodiments of the present invention, the network element is obtained first. Then, the target data corresponding to the network element is obtained. According to the target data, it is determined whether the network element is out of service, or whether the network element is the compensating network element of another network element. Finally, when the network element is out of service, the network element is instructed not to enter the energy-saving state. In the prior art, only one base station itself is considered when the state of the network element is determined, which causes a problem of prolonging the time to determine the network element out of service or increasing a probability of determining the network element out of service erroneously. In the embodiments of the present invention, a working state of the network element is determined by collecting and analyzing target data related to the network element, and subsequent coordination work is performed, thus solving the problem of prolonging the time to determine the element out of service or increase the likelihood of determining the out of service network element.
    [088] The apparatus for processing a state of
    25/25 network element that is provided in the mode of the present invention can implement the method modality indicated above, refer to the description in the method modality for specific functional implementation, and details will not be described again in this document. The method and apparatus for processing a network element state which are provided in the embodiments of the present invention are applicable to the field of communications systems, but are not limited to this.
    [089] A person of ordinary skill in the art can understand that all or a part of the method methods in the modalities can be implemented by a computer program instructing relevant hardware. The program can be stored on a computer-readable storage medium. When the program executes, the methods' methods in the modalities are executed. The storage media indicated above can be a magnetic disk, an optical disk, a read-only memory (Read-Only Memory, ROM), or a random access memory (Random Access Memory, RAM).
    [090] The foregoing descriptions are merely specific embodiments of the present invention, and are not intended to limit the scope of protection of the present invention. Any variation or substitution readily envisioned by those skilled in the art within the technical scope disclosed in the present invention should be included in the scope of protection of the present invention. Therefore, the scope of protection of the present invention should be subject to the scope of protection of the claims.
    权利要求:
    Claims (8)
    [1]
    1. Method for processing a network element state, characterized by the fact that it comprises:
    obtain target data corresponding to the network element, where the network element is a base station, a cell or a subnet;
    determine whether a network element is a netting element of another network element according to the target data, which comprises:
    determining, according to a value obtained from whether a network element is in a state of execution to be compensated, whether the network element is in a state to compensate another network element; and prohibit, when the network element is the netting element of another network element, the network element from entering an energy-saving state.
    [2]
    2. Method according to claim 1, characterized by the fact that the network element is a network element whose key performance data is less than a predefined threshold, and the key performance data comprises at least one of a load of network element, an access success rate, a transfer success rate between cells, a network element transfer rate and a user transfer rate, and the predefined threshold is a pre-designated indicator value for key performance data; or the network element is a network element that initiates an energy-saving request.
    Petition 870180013703, of 02/20/2018, p. 25/42
    2/4
    [3]
    3. Method according to claim 1 or 2, characterized by the fact that an energy saving permission signal is used to indicate whether the network element can enter the energy saving state, and to prohibit, when the network element is the netting element of another network element, the network element entering an energy saving state comprises:
    indicate, when establishing the energy saving permission to prohibit signs, that the network element is prohibited from entering the energy saving state.
    [4]
    4. Method according to claim 3, characterized by the fact that it additionally comprises:
    when the network element is predefined with a default energy saving permission value, reset, after the network element finishes an operation to compensate for another network element, the network element energy saving permission signaling to be the default energy-saving permission value corresponding to the energy-saving permission flag, where the default energy-saving permission value is to allow or prohibit, and the default energy-saving permission value is a flag of allowance of initial energy saving of the network element;
    the network element's energy saving permission flag cannot be reset, when the default energy saving flag value allows the network element's default value to be set to prohibit.
    Petition 870180013703, of 02/20/2018, p. 26/42
    3/4
    [5]
    5. Apparatus for processing a network element state, characterized by the fact that it comprises:
    a retrieval unit, configured to obtain target data corresponding to the network element, where the network element is a base station, a cell or a subnet; and a determination unit, configured to determine whether a network element is a compensating network element of another network element according to the target data, wherein the determination unit is specifically configured to determine, according to a value obtained that if a network element is in a state of execution to be compensated, if the network element is in a state to compensate another network element; and an instruction unit, configured to prohibit, when the network element is the netting element of another network element, the network element from entering an energy-saving state.
    [6]
    6. Apparatus according to claim 5, characterized by the fact that the network element is a network element whose key performance data is less than a predefined threshold, and the key performance data comprises at least one of a load of network element, an access success rate, a transfer success rate between cells, a network element transfer rate and a user transfer rate, and the predefined threshold is a pre-designated indicator value for key performance data; or the network element is a network element that initiates an energy-saving request.
    Petition 870180013703, of 02/20/2018, p. 27/42
    4/4
    [7]
    Apparatus according to claim 5 or 6, characterized by the fact that an energy saving permission signal from the network element is established to indicate whether the network element can enter the energy saving state, and the The instruction unit is configured to indicate, when setting the energy saving permission signal to prohibit, that the network element is prohibited from entering the energy saving state.
    [8]
    8. Apparatus according to claim 7, characterized by the fact that it additionally comprises:
    a processing unit, configured for: when the network element is predefined with a default energy-saving allowance value, restore, at the moment the network element ends an operation to compensate for another network element, the signaling of energy saving permission of the network element to be the default energy saving permission value corresponding to the energy saving permission flag, where the default energy saving permission value is to allow or prohibit, and the value energy saving permission pattern is an initial energy saving permission signal from the network element;
    the network element's energy saving permission flag cannot be reset, when the default energy saving flag value allows the network element's default value to be set to prohibit.
    类似技术:
    公开号 | 公开日 | 专利标题
    BR112014017933B1|2019-05-07|METHOD AND APPARATUS FOR NETWORK STATE PROCESSING
    US10531429B2|2020-01-07|Coordination of capacity and coverage optimization of self-organizing networks
    JP6283077B2|2018-02-21|Self-organizing network coordination method, apparatus, and system
    US10419309B2|2019-09-17|Self organizing network operation diagnosis function
    US10367690B2|2019-07-30|Verification in self-organizing networks
    CN104244321A|2014-12-24|Cell energy saving and awakening method and device
    Nisa et al.2016|Simulation of the fault management with Self Healing mechanism |
    CN105325025B|2020-02-14|Execution method and device for HetNet network measurement task
    BR112012022058A2|2020-07-07|method for implementing neighboring cell reporting and system for implementing neighboring cell reporting
    同族专利:
    公开号 | 公开日
    CN106792864B|2020-03-31|
    US10432488B2|2019-10-01|
    IN2014KN01585A|2015-10-23|
    CN106792864A|2017-05-31|
    EP2800425A4|2014-11-26|
    US20140364114A1|2014-12-11|
    JP2016184945A|2016-10-20|
    EP3244663B1|2018-12-12|
    CN103220695B|2017-04-12|
    JP5945005B2|2016-07-05|
    EP2800425B1|2017-05-31|
    ES2632777T3|2017-09-15|
    EP3244663A1|2017-11-15|
    JP2015507892A|2015-03-12|
    CN103220695A|2013-07-24|
    WO2013107360A1|2013-07-25|
    EP2800425A1|2014-11-05|
    JP6332760B2|2018-05-30|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    JP2004135177A|2002-10-11|2004-04-30|Sharp Corp|Cellular phone|
    US7986946B2|2005-06-29|2011-07-26|Telefonaktiebolaget Lm Ericsson |Evaluation of random access preamble codes|
    US9072060B2|2008-06-03|2015-06-30|Nokia Technologies Oy|Method, apparatus and computer program for power control to mitigate interference|
    JP5277981B2|2009-01-19|2013-08-28|富士通株式会社|Radio base station apparatus and power supply control method thereof|
    CN102342157B|2009-03-03|2016-02-03|日本电气株式会社|Wireless communication system, wireless base station device and control method thereof|
    CN102045819B|2009-10-19|2014-12-24|华为技术有限公司|Base station energy-saving management method and base station energy-saving method, device and system|
    EP2494806B1|2009-10-28|2015-01-14|NEC Europe Ltd.|Method for energy management in a wireless radio network and corresponding wireless radio network|
    CN102083145A|2010-04-29|2011-06-01|大唐移动通信设备有限公司|Energy saving method and equipment|
    CN102238595B|2010-04-30|2014-02-26|华为技术有限公司|Method and equipment for processing cell outage|
    CN102238586B|2010-04-30|2014-02-26|华为技术有限公司|Energy saving management method, device and system in network management system|
    CN102244879B|2010-05-12|2015-12-09|电信科学技术研究院|A kind of method and device realizing Energy Saving Control between network element|
    KR101643170B1|2010-05-20|2016-07-27|한국전자통신연구원|Method and apparatus for power saving of femto base station using anr function in wireless communication sysyem|
    CN101873680B|2010-06-25|2014-07-30|华为技术有限公司|Dynamic energy consumption control method, system and related equipment|
    CN102316512B|2010-07-01|2016-06-08|中兴通讯股份有限公司|The power-economizing method of base station and device|
    CN102083192A|2010-08-12|2011-06-01|大唐移动通信设备有限公司|Cell energy-saving deactivation method, system and equipment|
    EP2466972B1|2010-12-15|2013-09-11|Alcatel Lucent|Network node and method|
    CN102065448A|2011-01-06|2011-05-18|大唐移动通信设备有限公司|Compensating method and device and recovering method and device of overlay area|
    WO2012152335A1|2011-05-12|2012-11-15|Nokia Siemens Networks Oy|Saving energy in muliti - rat communication network|
    CN106792864B|2012-01-20|2020-03-31|华为技术有限公司|Network element state processing method and device|CN106792864B|2012-01-20|2020-03-31|华为技术有限公司|Network element state processing method and device|
    US10313221B1|2014-01-28|2019-06-04|Sprint Communication Company L.P.|Endpoint monitoring for a messaging framework|
    US9146962B1|2014-10-09|2015-09-29|Splunk, Inc.|Identifying events using informational fields|
    US10235638B2|2014-10-09|2019-03-19|Splunk Inc.|Adaptive key performance indicator thresholds|
    US10505825B1|2014-10-09|2019-12-10|Splunk Inc.|Automatic creation of related event groups for IT service monitoring|
    US9210056B1|2014-10-09|2015-12-08|Splunk Inc.|Service monitoring interface|
    US11200130B2|2015-09-18|2021-12-14|Splunk Inc.|Automatic entity control in a machine data driven service monitoring system|
    US10417108B2|2015-09-18|2019-09-17|Splunk Inc.|Portable control modules in a machine data driven service monitoring system|
    US9128995B1|2014-10-09|2015-09-08|Splunk, Inc.|Defining a graphical visualization along a time-based graph lane using key performance indicators derived from machine data|
    US9491059B2|2014-10-09|2016-11-08|Splunk Inc.|Topology navigator for IT services|
    US10305758B1|2014-10-09|2019-05-28|Splunk Inc.|Service monitoring interface reflecting by-service mode|
    US11087263B2|2014-10-09|2021-08-10|Splunk Inc.|System monitoring with key performance indicators from shared base search of machine data|
    US9158811B1|2014-10-09|2015-10-13|Splunk, Inc.|Incident review interface|
    US9146954B1|2014-10-09|2015-09-29|Splunk, Inc.|Creating entity definition from a search result set|
    US10942960B2|2016-09-26|2021-03-09|Splunk Inc.|Automatic triage model execution in machine data driven monitoring automation apparatus with visualization|
    US10198155B2|2015-01-31|2019-02-05|Splunk Inc.|Interface for automated service discovery in I.T. environments|
    US10209956B2|2014-10-09|2019-02-19|Splunk Inc.|Automatic event group actions|
    US9130832B1|2014-10-09|2015-09-08|Splunk, Inc.|Creating entity definition from a file|
    US10193775B2|2014-10-09|2019-01-29|Splunk Inc.|Automatic event group action interface|
    US10942946B2|2016-09-26|2021-03-09|Splunk, Inc.|Automatic triage model execution in machine data driven monitoring automation apparatus|
    US10417225B2|2015-09-18|2019-09-17|Splunk Inc.|Entity detail monitoring console|
    US9967351B2|2015-01-31|2018-05-08|Splunk Inc.|Automated service discovery in I.T. environments|
    US9760240B2|2014-10-09|2017-09-12|Splunk Inc.|Graphical user interface for static and adaptive thresholds|
    US10474680B2|2014-10-09|2019-11-12|Splunk Inc.|Automatic entity definitions|
    US10536353B2|2014-10-09|2020-01-14|Splunk Inc.|Control interface for dynamic substitution of service monitoring dashboard source data|
    CN105813136A|2014-12-29|2016-07-27|中兴通讯股份有限公司|Flow control method, flow control device, flow control system and tracking collection entity|
    CN105813120B|2014-12-31|2019-04-16|中国电信股份有限公司|Base station inspection method and device|
    CN106034346B|2015-03-16|2019-12-24|联想有限公司|Information processing method and electronic equipment|
    CN105263159B|2015-09-06|2018-06-05|中国联合网络通信集团有限公司|The report method and device of MDT measurement reports|
    US11093518B1|2017-09-23|2021-08-17|Splunk Inc.|Information technology networked entity monitoring with dynamic metric and threshold selection|
    US11106442B1|2017-09-23|2021-08-31|Splunk Inc.|Information technology networked entity monitoring with metric selection prior to deployment|
    US10932192B2|2016-01-12|2021-02-23|Qualcomm Incorporated|EMTC power saving modeenhancements for service outage|
    EP3434040B1|2016-03-22|2022-03-02|British Telecommunications public limited company|Transmitter outage detection|
    WO2017162399A1|2016-03-22|2017-09-28|British Telecommunications Public Limited Company|Transmitter outage reporting|
    US10728844B2|2016-09-29|2020-07-28|British Telecommunications Public Limited Company|Cellular telecommunications network|
    CN109964503B|2016-10-28|2020-06-16|英国电讯有限公司|Fault detection method, cellular base station and cellular communication management processor|
    WO2018184748A1|2017-04-03|2018-10-11|British Telecommunications Public Limited Company|Network fault discovery|
    US10567992B2|2018-01-25|2020-02-18|Hewlett Packard Enterprise Development Lp|Network device KPI monitors based on bitmaps|
    EP3772227A1|2019-07-29|2021-02-03|British Telecommunications public limited company|Cellular telecommunications network|
    法律状态:
    2018-12-04| B06F| Objections, documents and/or translations needed after an examination request according art. 34 industrial property law|
    2019-03-26| B15K| Others concerning applications: alteration of classification|Free format text: A CLASSIFICACAO ANTERIOR ERA: H04W 52/02 Ipc: H04L 12/24 (1990.01), H04L 12/26 (1990.01), H04W 5 |
    2019-04-02| B09A| Decision: intention to grant|
    2019-05-07| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 17/01/2013, OBSERVADAS AS CONDICOES LEGAIS. (CO) 20 (VINTE) ANOS CONTADOS A PARTIR DE 17/01/2013, OBSERVADAS AS CONDICOES LEGAIS |
    优先权:
    申请号 | 申请日 | 专利标题
    CN201210019190.2|2012-01-20|
    CN201210019190.2A|CN103220695B|2012-01-20|2012-01-20|Processing method and processing device for network element states|
    PCT/CN2013/070596|WO2013107360A1|2012-01-20|2013-01-17|Network element state processing method and device|
    [返回顶部]