CN103857024B - Administration of energy conservation method in network management system, apparatus and system - Google Patents
Administration of energy conservation method in network management system, apparatus and system Download PDFInfo
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- CN103857024B CN103857024B CN201410087929.2A CN201410087929A CN103857024B CN 103857024 B CN103857024 B CN 103857024B CN 201410087929 A CN201410087929 A CN 201410087929A CN 103857024 B CN103857024 B CN 103857024B
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D30/00—Reducing energy consumption in communication networks
- Y02D30/70—Reducing energy consumption in communication networks in wireless communication networks
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Abstract
Administration of energy conservation methods, devices and systems in network management system, wherein administration of energy conservation method includes:Integrated reference point management entity IRPManager sets in Energy Saving Strategy, the Energy Saving Strategy and included:The mark of energy-conservation covering support entity, also deactivates policy information comprising energy-conservation activation strategy information and/or energy-conservation;Above-mentioned IRPManager acts on behalf of IRPAgent to integrated reference point and sends above-mentioned Energy Saving Strategy, and above-mentioned Energy Saving Strategy is used to carry out administration of energy conservation to base station.Above-mentioned technical proposal provides the information carried out required for base station energy-saving management by IRPManager to IRPMAgent, to meet the administration of energy conservation demand under heterogeneous networks deployment scenario.
Description
Technical field
The present invention relates to the administration of energy conservation technology in moving communicating field, more particularly to network management system.
Background technology
Day be becoming tight in traditional energy, energy prices constantly soaring today, the section by communication equipment is made every effort to by operator
Can emission reduction reduce the operation cost of itself.Existing base station energy-saving method is mainly touched using base station according to the Energy Saving Algorithm of itself
Hair cell is closed, the mode of operation that adjacent base station is opened by X2 interface triggering cell, and is changed in X2 interface transmission power save mode
The notice of change.
But, current this economized operation modes lack unified Energy Saving Strategy traction, make the Energy Saving Algorithm of inside of base station
The isolated island that operation is performed is likely to become, lacks necessary performing environment(Or be context)With algorithm input, it is impossible to meet not
Administration of energy conservation demand under same network deployment scenarios.
The content of the invention
One aspect of the present invention provides a kind of administration of energy conservation method in network management system, including:Integrated reference point management entity
IRPManager sets in Energy Saving Strategy, the Energy Saving Strategy and included:The mark of energy-conservation covering support entity, in addition to energy-conservation activation
Policy information and/or energy-conservation deactivate policy information;Above-mentioned IRPManager is acted on behalf of in IRPAgent transmissions to integrated reference point
Energy Saving Strategy is stated, above-mentioned Energy Saving Strategy is used to carry out administration of energy conservation to base station.
Another aspect of the present invention provides a kind of administration of energy conservation method in network management system, including:In centralized administration of energy conservation
In, integrated reference point management entity IRPManager acts on behalf of IRPAgent to integrated reference point and sends energy-conservation activation command, it is desirable to
The IRPAgent is in one or more energy-conservation entities initiate energy-conservation activation, the energy-conservation activation command comprising energy-conservation entity mark
Know, also comprising one or more of following information:Power-save operation type, energy-conservation activation time delay, oam system are broken
Reconstruction operation maintaining-managing system connects before energy-conservation is deactivated when energy-conservation during chain deactivates time delay, oam system chain rupture
The number of retries connect;Above-mentioned IRPManager receives the energy-conservation activation result that above-mentioned IRPAgent is sent.
Further aspect of the present invention provides a kind of integrated reference point management entity IRPManager, and the IRPManager includes:
Setting unit and transmitting element.Transmitting element sets in Energy Saving Strategy, the Energy Saving Strategy and included:The mark of energy-conservation covering support entity
Know, also deactivate policy information comprising energy-conservation activation strategy information and/or energy-conservation;Transmitting element is acted on behalf of to integrated reference point
IRPAgent sends above-mentioned Energy Saving Strategy, and above-mentioned Energy Saving Strategy is used to carry out administration of energy conservation to base station.Correspondingly, the present invention is another
Aspect also provides a kind of energy-saving management system, including energy-conservation reference point management entity IRPManager as described above, in addition to
Integrated reference point acts on behalf of IRPAgent.
Another aspect of the invention provides a kind of integrated reference point management entity IRPManager, and the IRPManager includes:
Transmitting element and receiving unit.In centralized administration of energy conservation, transmitting element acts on behalf of IRPAgent to integrated reference point and sends section
Energy activation command, it is desirable to which the IRPAgent initiates energy-conservation activations, the energy-conservation activation command in one or more energy-conservation entities
In comprising energy-conservation entity identification, also comprising one or more of following information:Power-save operation type, energy-conservation activation time delay, behaviour
Energy-conservation rebuilds behaviour before deactivating when energy-conservation when making maintaining-managing system chain rupture deactivates time delay, oam system chain rupture
Make the number of retries of maintaining-managing system connection;Receiving unit receives the energy-conservation activation result that above-mentioned IRPAgent is sent.Accordingly
Ground, another aspect of the invention also provides a kind of energy-saving management system, including energy-conservation reference point management entity as described above
IRPManager, in addition to integrated reference point act on behalf of IRPAgent.
Above-mentioned technical proposal provides the letter carried out required for base station energy-saving management by IRPManager to IRPMAgent
Breath, to meet the administration of energy conservation demand under heterogeneous networks deployment scenario.
Brief description of the drawings
Fig. 1 is system structure diagram provided in an embodiment of the present invention;
Fig. 2 is the schematic diagram for the administration of energy conservation method that one embodiment of the invention is provided;
Fig. 3 is the schematic diagram for the administration of energy conservation method that another embodiment of the present invention is provided;
Fig. 4 is the structural representation for the energy-saving management system that one embodiment of the invention is provided;
Fig. 5 is the structural representation for the integrated reference point management entity that one embodiment of the invention is provided;
Fig. 6 is the structural representation for the integrated reference point management entity that another embodiment of the present invention is provided.
Embodiment
Embodiments of the invention are discussed in detail below in conjunction with the accompanying drawings.
Oam is introduced first(Operations Administration and Maintenance, OAM)System
The related content of system.As shown in figure 1, in OAM systems, integrated reference point management entity(Integrated Reference
Point Manager, IRPManager)With integrated reference point agency(Integrated Reference Point Agent,
IRPAgent)Connected by northbound interface Itf-N.IRPManager's functions as network manager, is responsible for whole network
Operation, maintenance and management;IRPAgent's functions as NE Explorer, is responsible for a certain kind equipment in network(For example
Base station)Operation, maintenance and management.In embodiments of the present invention, Energy Saving Strategy, section are set from IRPManager to IRPAgent
It tactful can be used to be controlled the power saving function management process of specific base in the affiliated scopes of IRPAgent.Implementing
The Energy Saving Strategy received can be passed to base station, such as transparent transmission by Cheng Zhong, IRPAgent.Energy-conservation described in the embodiment of the present invention is gone
Activation alternatively referred to as energy-conservation is recovered, that is, saves entity(Base station or cell)Power save mode is terminated, non-section is returned to from power save mode
Can state.
As shown in Fig. 2 the administration of energy conservation method in the network management system that the present embodiment is provided includes herein below.
201, IRPManager set Energy Saving Strategy(Energy Saving Policy, ESPolicy), the Energy Saving Strategy
In include:The mark of energy-conservation covering support entity(esOverlaidBackupEntityID), also comprising energy-conservation activation strategy letter
Breath and/or energy-conservation deactivate policy information.
202, above-mentioned IRPManager send above-mentioned Energy Saving Strategy to IRPAgent, and the Energy Saving Strategy is used to carry out base station
Administration of energy conservation.During implementing, IRPAgent is received after above-mentioned Energy Saving Strategy to specific base in its affiliated scope
Power saving function management process is controlled.
Specifically, the mark of above-mentioned energy-conservation covering support entity(esOverlaidBackupEntityID)It is real to save
Body(Base station or cell)The mark of the entity of covering support is provided.When it is base station to save entity, energy-conservation covering support entity is
The base station of covering support is provided for the base station;When it is cell to save entity, energy-conservation covering support entity is provided for the cell
Cover the cell of support.Alternatively, the mark of above-mentioned energy-conservation covering support entity can also provide covering branch for energy-conservation entity
Multiple base stations of support or the group mark of multiple cells.During implementing, the above-mentioned group of mark that IRPAgent parsings are received,
Obtain the mark of the base station that covering support is provided for energy-conservation entity or cell.For example, energy-conservation covering support entity is:Cell A1,
Cell A2 and cell A3, IRPManager can directly provide cell ID:A1, A2 and A3, or A is denoted as cell A1, it is small
Area A2 and cell A3 group mark is supplied to IRPAgent, IRPAgent to parse specific energy-conservation further according to a group mark A and cover
Support cell A1, A2 and A3.Alternatively, the mark of above-mentioned energy-conservation covering support entity may also include:Geographic region mark, tracking area
The group mark of mark, the group mark of multiple geographic areas or multiple tracking areas.
Alternatively, energy conservation object information can be also included in above-mentioned Energy Saving Strategy.Energy conservation object is energy-conservation entity(Base station is small
Area)Pass through applicating energy-saving process(Energy-conservation activation and energy-conservation are deactivated)The effect of the reduction energy consumption reached.IRPManager to
IRPAgent sets energy-conservation entity(Base station or cell)The assessment cycle of energy conservation object(For example, by week or month calculating)And energy consumption
The percentage of reduction(Energy-saving effect relative value)Or the absolute magnitude of energy consumption reduction determines the section acquired by applicating energy-saving process
Can effect.
The administration of energy conservation method that the present embodiment is provided, Energy Saving Strategy is set by IRPManager to IRPAgent, to
IRPAgent provides the control method information required for base station energy-saving is managed, and includes the mark of energy-conservation covering support entity, also
Policy information is deactivated including energy-conservation activation strategy information and/or energy-conservation, so as to meet the section under different network deployment scenarios
Can regulatory requirement.
As non-limiting specific embodiment, above-mentioned Energy Saving Strategy can be divided into centralized Energy Saving Strategy
And hybrid Energy Saving Strategy (CentralizedESPolicies)(HybridESPolicies).
As shown in table 1, be the attribute and related content of a kind of Energy Saving Strategy, such as centralized Energy Saving Strategy
(CentralizedESPolicies) administration of energy conservation that, the centralized Energy Saving Strategy can be used under centralized management framework, i.e. base
The power-save operation stood is triggered by oam system.In centralization energy-conservation framework, power-save operation can be in cell-level
Or base station level, therefore energy-conservation entity in the present embodiment is energy-saving cell or energy-saving base station.Included in the Energy Saving Strategy:Energy-conservation is covered
The mark of lid support entity, also deactivates policy information comprising energy-conservation activation strategy information and/or energy-conservation, wherein energy-conservation activation plan
Slightly information includes:Power-save operation type and energy-conservation activation time delay, in addition to energy-conservation activationary time or energy-conservation activation enable information.Section
Policy information, which can be deactivated, to be included:Energy-conservation, which deactivates to enable information and/or save, deactivates live time;The energy-conservation deactivates strategy letter
Energy-conservation is deactivated when breath also includes oam system chain rupture time delay, and/or oam system chain rupture time
The number of retries of reconstruction operation maintaining-managing system connection before deactivating.
Table 1
In table 1, power-save operation type, energy-conservation activation enable information, energy-conservation activation time delay, energy-conservation activationary time be all with
Energy-conservation activation(esActivation)Related policy information, can be collectively referred to as saving activation strategy information;Energy-conservation, which is deactivated, to be enabled
The time delay of energy-conservation deactivation, oam system are broken when information, energy-conservation deactivate live time, oam system chain rupture
The number of retries of reconstruction operation maintaining-managing system connection is deactivated with energy-conservation before energy-conservation is deactivated during chain
(esDeactivation)Related policy information, can be collectively referred to as energy-conservation and deactivates policy information.
Lower mask body introduces the centralized Energy Saving Strategy shown in IRPManager settings table 1
(CentralizedESPolicies) related content.
(1)The mark of energy-conservation covering support entity(esOverlaidBackupEntityID).IRPManager will be section
Energy base station or cell provide the adjacent base station of basis covering support or the mark of cell is sent to IRPAgent, make the IRPAgent
Active user in energy-saving base station or cell is moved to the covering branch by the base station under management before energy-conservation activation manipulation is performed
The base station of support or cell.
(2)Power-save operation type(esOperationType).IRPManager sets the power-save operation type of base station, will
The specific power-save operation type transfer in activation manipulation performed by base station is saved to IRPAgent.In network management northbound interface
On Itf-N, the power-save operation type that IRPManager is set includes:Base station close/open or cell close/open.The strategy
The value of attribute has scalability, for example, action type can also may be configured as to cell power amplifier dynamic voltage adjustment etc..
(3)Energy-conservation activation time delay(esActivationDelay).When the trigger condition of energy-conservation activation is met,
IRPManager sets energy-conservation activation time delay to IRPAgent, i.e., IRPAgent waits are base station asynchronous in energy-conservation activation should
The time delay answered.After the energy-conservation activation time delay that IRPAgent sets IRPManager is sent to base station, in the decay time,
Energy-saving base station or cell(I.e.:Base station or the cell of power save mode will be entered)Active user will be transferred to offer covering branch
On the base station of support or cell, then base station performs power-save operation again, i.e. the response of energy-conservation activation is asynchronous progress.The strategy
The effect of attribute is to prevent power-save operation from producing the influence acutely shaken to network performance and quality of service, can also avoid occurring table tennis
Pang energy saving effect.If energy-conservation activation time delay terminates(For example timer is then), the active user of energy-saving base station or cell is still
It is not migrated to the base station that covering support is provided or cell, i.e. IRPManager is waited within time delay in specified asynchronous response
IRPAgent operation response is not received, then IRPManager thinks that this time energy-conservation activation manipulation performs failure.If should
EsActivationDelay policy attributes are set to 0, then it represents that energy-conservation activation manipulation needs to be immediately performed, i.e., without migration section
Energy base station or the active user of cell.
(4)The time delay that energy-conservation is deactivated during oam system chain rupture
(esOAMLossDeactivationDelay).IRPManager, which is set, to be occurred to save during oam system chain rupture failure
The wait time delay of deactivation.IRPManager sets the wait time delay that a base station energy-saving is deactivated to IRPAgent(For example set
Put a timer), IRPAgent passes to base station by the time delay is transparent.When generation oam system chain rupture failure
When, base station disconnects with oam systematic connection, it is impossible to communicated, then base station waits the wait time delay to terminate(Example
Such as timer then)Afterwards, the energy-conservation deactivation process under abnormal conditions is restarted, so that it may avoid oam system chain rupture
The energy-conservation deactivating operation that flash alarm is caused is invalid.If the policy attribute value is 0, then it represents that be immediately performed energy-conservation and deactivate
Operation.
(5)What reconstruction operation maintaining-managing system was connected before energy-conservation is deactivated during oam system chain rupture retries secondary
Number(esOAMConnectionRetries).IRPManager sets energy-conservation when occurring oam system chain rupture failure to go
The number of retries of reconstruction operation maintaining-managing system connection before activation.Specifically, IRPManager sets base station to IRPAgent
The number of retries of reconstruction operation maintaining-managing system connection, IRPAgent passes to execution power-save operation by the number of retries is transparent
Base station.When occurring oam system chain rupture failure, the base station disconnects with oam systematic connection, it is impossible to
Communicated, then the base station energy-conservation deactivate before can perform oam system link re-establishment process, when up to
The oam system link re-establishment of after to the number of attempt if base station is still failed, then the base station directly performs energy-conservation
Deactivation process.
(6)Energy-conservation activation enables information(esActivationEnabler).IRPManager sets the plan to IRPAgent
Slightly attribute, represents the energy-conservation activation function on northbound interface Itf-N(Energy Saving Activation function)
Whether can use(enabled).The policy attribute value may be configured as Boolean type { being, no }.
(7)Energy-conservation, which is deactivated, enables information(esDeactivationEnabler).IRPManager is set to IRPAgent
The policy attribute, represents that the energy-conservation on northbound interface Itf-N deactivates function(Energy Saving Deactivation
function)Whether can use(enabled).The policy attribute value may be configured as Boolean type { being, no }.
(8)Energy-conservation deactivates live time(esDeactivationTime).IRPManager sets the strategy to IRPAgent
Attribute, indicates to perform the time that energy-conservation is deactivated.At the time of the policy attribute value can be specific.
(9)Save activationary time(esActivationTime).IRPManager sets the policy attribute to IRPAgent,
Indicate to perform the time that energy-conservation is activated.At the time of the policy attribute value can be specific.
As shown in table 2, it is the attribute and related content of another Energy Saving Strategy, such as hybrid Energy Saving Strategy
(HybridESPolicies), the administration of energy conservation that the hybrid Energy Saving Strategy can be used under hybrid management framework, i.e. base station
Power-save operation can both be triggered by base station itself, can also be triggered by oam system, but the triggering bar of base station
Part is that the information of the trigger condition of interaction between oam system and base station is determined.In hybrid energy-conservation framework
In, energy-conservation entity of the power-save operation in cell-level, therefore the present embodiment is energy-saving cell.Included in the Energy Saving Strategy:Energy-conservation
The mark of covering support entity, also deactivates policy information comprising energy-conservation activation strategy information and/or energy-conservation, wherein energy-conservation activation
Policy information includes:Energy-conservation activation load-threshold, or including energy-conservation activation load-threshold and power-save operation type(The strategy belongs to
The particular content of property can be with specific reference to the content in table 1).Energy-conservation, which deactivates policy information, includes one or many in following information
It is individual:Weight before energy-conservation is deactivated when the time delay of energy-conservation deactivation, X2 interface chain rupture when energy-conservation deactivates load-threshold, X2 interface chain rupture
Build the number of retries of X2 connections.
Table 2
In table 2, energy-conservation activation load-threshold(The support of local load-threshold and energy-conservation activation including energy-conservation activation is born
Carry thresholding)It is to be activated with energy-conservation(esActivation)Related policy information, alternatively referred to as saves activation strategy information;Energy-conservation
Deactivate load-threshold(For example save the support load-threshold of deactivation), X2 chain ruptures when energy-conservation deactivate time delay, X2 chain ruptures
Shi Jieneng rebuilds X2 connection link re-establishments number of attempt before deactivating is deactivated with energy-conservation(esDeactivation)Phase
The policy information of pass, also can be collectively referred to as energy-conservation and deactivates policy information.
Lower mask body introduces the hybrid Energy Saving Strategy shown in IRPManager settings table 2(HybridESPolicies)'s
Related content.
(1)The mark of energy-conservation covering support entity(esOverlaidBackupEntityID).IRPManager will be section
The mark that energy cell provides the neighbor cell of basis covering support is sent to IRPAgent, makes the base station under IRPAgent management
(Base station i.e. belonging to energy-saving cell)The active user in energy-saving cell is moved into this before energy-conservation activation manipulation is performed to cover
Cover the cell of support.
(2)IRPManager sets load-threshold policy attribute, that is, is provided for the load-threshold of triggering energy-conservation activation(I.e.
Energy-conservation activation load-threshold)With the load-threshold for triggering energy-conservation deactivation(I.e. energy-conservation deactivates load-threshold).
Specifically, energy-conservation activation load-threshold includes:Save the local load-threshold of activation
(esActivationLocalLoadThreshold)With the support load-threshold of energy-conservation activation
(esActivationBackupLoadThreshold).Wherein, the local load-threshold of energy-conservation activation
(esActivationLocalLoadThreshold)For the load-threshold of the local entity of triggering energy-conservation activation, activation is saved
It is the covering support entity of triggering energy-conservation activation to support load-threshold (esActivationBackupLoadThreshold)(It is small
Area)Load-threshold.Energy-conservation, which deactivates load-threshold, to be included:Save the support load-threshold deactivated
(esDeactivationBackupLoadThreshold), the support load-threshold that the energy-conservation is deactivated is that triggering energy-conservation is deactivated
The load-threshold of covering support entity living.
After above-mentioned load-threshold policy attribute is passed to the base station belonging to energy-saving cell by IRPAgent, the base station root
According to the Energy Saving Algorithm of itself, the local load-threshold of energy-conservation activation is used in energy-conservation activation
(esActivationLocalLoadThreshold)With the support load-threshold of energy-conservation activation
(esActivationBackupLoadThreshold) judgement of energy-conservation activation is carried out.For example:If base station judges that energy-conservation is small
The local load in area be less than above-mentioned local load-threshold, and save covering support cell load covered again smaller than above-mentioned energy-conservation
Load-threshold, i.e. base station is supported then to carry out energy-conservation activation by the load migration of energy-saving cell to energy-conservation covering support cell.
The support load-threshold deactivated in energy-conservation deactivation process using energy-conservation
(esDeactivationBackupLoadThreshold)Carry out the judgement of energy-conservation deactivation.In addition, IRPAgent according to
The local load-threshold for the energy-conservation activation that IRPManager is set can monitor the local load of energy-saving cell in real time and calculate energy-conservation
The low-load cycle (Low-Load Period) of cell, and regularly report IRPManager.IRPManager can basis
Save the low-load cycle of entity cell to set the energy-conservation of the energy-saving cell to come into force the cycle, i.e., allow section in section at what time
Energy base station carries out power-save operation to energy-saving cell.
(3)The time delay that energy-conservation is deactivated during X2 chain ruptures(esX2LossDeactivationDelay).IRPManager is set
The wait time delay that energy-conservation is deactivated during X2 chain rupture failures.Specifically, saved when IRPManager sets X2 chain ruptures to IRPAgent
The time delay of deactivation(One timer is for example set), IRPAgent by the time delay it is transparent pass to perform energy-conservation base station(I.e.
Base station belonging to energy-saving cell).When occurring X2 chain rupture failures, the base station that the X2 interface was connected originally can not communicate, and receive section
Base station that can be tactful waits the time delay to terminate(For example timer is then)Afterwards, restart the energy-conservation under abnormal conditions and deactivate and live through
Journey, so that it may which the energy-conservation deactivating operation for avoiding any X2 link chain rupture flash alarms of base station from causing is invalid.This strategy category
Property value be 0 when, represent to be immediately performed.
(4)The number of retries of X2 connections is rebuild before energy-conservation is deactivated during X2 chain ruptures(esX2ConnectionRetries).
IRPManager sets the number of retries that X2 connections are rebuild before energy-conservation is deactivated when occurring X2 chain rupture failures.Specifically,
IRPManager sets the number of retries for rebuilding X2 connections to IRPAgent, and IRPAgent holds transparent pass to of the number of retries
The base station of row power-save operation.When occurring X2 chain rupture failures, the base station disconnects with the base station that the X2 interface was connected originally, it is impossible to enter
Row communication, then the base station can perform X2 link re-establishment processes before energy-conservation is deactivated, if after number of retries is reached
The X2 link re-establishments are still failed, and the base station of execution energy-conservation then directly performs energy-conservation deactivation process.
The content of Energy Saving Strategy is described in detail above, IRPManager is described in detail below above-mentioned Energy Saving Strategy is set
Specific method.
As one embodiment, Energy Saving Strategy is included in the energy-saving strategy subclass of network resource management object class.
Specifically, Energy Saving Strategy can be arranged in the energy-saving strategy subclass of network resource management object class by IRPManager.
Concrete methods of realizing can be one new subclass of increase in existing network resource management object class, dedicated for setting section
Can strategy.For example, being base station functions class in existing E-UTRAN network resources model(eNBFunction)And generic cell
Class
(EUtranGenericCell)It is middle by new Energy Saving Strategy subclass(ESPolicies), in above-mentioned table 1 or table 2
Policy attribute is arranged in the Energy Saving Strategy subclass.
As another embodiment, the mark of the energy-conservation covering support entity in Energy Saving Strategy is included in network resource management
In the attribute of object class, energy-conservation activation strategy information and/or energy-conservation in Energy Saving Strategy deactivate policy information and are included in the net
In the special subclass of network resource management object class.Specifically, the energy-conservation in Energy Saving Strategy can be covered and supported by IRPManager
The mark of entity is arranged in the attribute of network resource management object class, by the energy-conservation activation strategy information in Energy Saving Strategy and/
Or energy-conservation deactivates policy information and is arranged in the special subclass of the network resource management object class.Concrete methods of realizing can be
By in table 1 or table 2 energy-conservation covering support entity mark be set directly at now with base station functions class(eNBFunction)
With generic cell class(EUtranGenericCell)Attribute in, now with base station functions class(eNBFunction)With it is logical
Use cell class(EUtranGenericCell)It is middle that new subclass is set, other policy attributes in above-mentioned table 1 or table 2 are arranged on
In the newly-installed subclass.
Present embodiments provide the administration of energy conservation for being respectively used to the hybrid administration of energy conservation framework of centralized administration of energy conservation framework
Method, sets centralized Energy Saving Strategy or hybrid Energy Saving Strategy to IRPAgent by IRPManager, is carried to IRPMAgent
Supply to carry out the information required for base station energy-saving management, so as to meet the administration of energy conservation demand under different network deployment scenarios.
Also, because IRPAgent can pass to base station by Energy Saving Strategy is transparent, therefore enhance effective input of base station energy-saving algorithm.
Described above is to realize administration of energy conservation by way of IRPManager sets Energy Saving Strategy, is explained below
IRPManager carries out administration of energy conservation by way of implicit commands.
For the administration of energy conservation under centralized management framework, it can be sent explicitly to IRPAgent by IRPManager
Activation command is saved to realize.
The process of activation is saved as shown in figure 3, including herein below.
301, IRPMAnager send energy-conservation activation command to IRPAgent, it is desirable to which the IRPAgent is in one or more energy-conservations
Entity(Base station or cell)Initiate comprising energy-conservation entity identification in energy-conservation activation, the energy-conservation activation command, also comprising following
One or more of information:Energy-conservation when power-save operation type, energy-conservation activation time delay, oam system chain rupture is deactivated
The number of retries of reconstruction operation maintaining-managing system connection before energy-conservation is deactivated when time delay living, oam system chain rupture.
Specifically, above-mentioned energy-conservation entity identification includes:The mark of energy-saving base station, or energy-saving cell mark, or multiple energy-saving base stations
Group mark, or the group of multiple energy-saving cells are identified.It is or multiple when above-mentioned energy-conservation entity identification identifies for the group of multiple energy-saving base stations
During the group mark of energy-saving cell, IRPAgent parses the group mark of the multiple energy-saving base station, the mark of obtain energy-conservation base station;Or
The group mark of the multiple energy-saving cell is parsed, the mark of multiple energy-saving cells is obtained.Alternatively, above-mentioned energy-conservation covering support is real
The mark of body may also include:Geographic region mark, tracking area identification, the group mark or the group of multiple tracking areas of multiple geographic areas
Mark.
As shown in table 3, it is energy-conservation activation command activateES particular content.
By setting energy-conservation activation time delay that power-save operation can be prevented to network performance and business matter in energy-conservation activation command
Amount produces the influence acutely shaken, and can also avoid occurring table tennis energy saving effect.By setting operation dimension in energy-conservation activation command
Energy-conservation during shield management system chain rupture, which deactivates time delay, can avoid the energy-conservation that oam system chain rupture flash alarm is caused
Deactivating operation is invalid.
Table 3
302, above-mentioned IRPManager receives the energy-conservation activation result that above-mentioned IRPAgent is sent.In the energy-conservation activation result
Implementing result comprising energy-conservation entity identifier and energy-conservation activation.Particular content is as shown in table 4.
Table 4
The application that the present embodiment is provided, sends energy-conservation activation command to IRPAgent by IRPManager and joins in order
Energy Saving Strategy information is carried in number, the administration of energy conservation under centralized architecture is realized, makes administration of energy conservation process more direct, simpler.
As shown in figure 4, being a kind of energy-saving management system provided in an embodiment of the present invention, the energy-saving management system 40 includes collection
IRPAgent500 is acted on behalf of into reference point management entity IRPManager400 and integrated reference point., should during implementing
Energy-saving management system can be oam system(Such as OAM systems).
As one embodiment, as shown in figure 5, above-mentioned IRPManager400 can be specially IRPManager400 ', bag
Include:Setting unit 410 and transmitting element 420.
Specifically, above-mentioned setting unit 410 sets in Energy Saving Strategy, the Energy Saving Strategy and included:Energy-conservation covering support entity
Mark, also comprising energy-conservation activation strategy information and/or energy-conservation deactivate policy information;Above-mentioned transmitting element 420 is to integrated ginseng
Examination point acts on behalf of IRPAgent500 and sends above-mentioned Energy Saving Strategy, and the Energy Saving Strategy is used to carry out administration of energy conservation to base station.
In above-mentioned Energy Saving Strategy, the mark of energy-conservation covering support entity includes:Covering support is provided for energy-conservation entity
The mark of entity, or multiple base stations of covering support or the group mark of multiple cells are provided for energy-conservation entity.For example, energy-conservation is covered
Covering support entity is:Base station B1 and base station B2, IRPManager400(Or IRPManager400 ')Cell mark can be directly provided
Know:B1 and B2, or the B group marks for being denoted as base station B1 and base station B2 are supplied to IRPAgent500, IRPAgent500 root again
Specific energy-conservation covering support base station B1 and base station B2 is parsed according to a group mark A.When energy-conservation entity identification is multiple energy-saving base stations
Group mark, or multiple energy-saving cells group mark when, IRPAgent500 parses the group mark of the multiple energy-saving base station, obtains
Obtain the mark of energy-saving base station;Or the group mark of the multiple energy-saving cell of parsing, obtain the mark of multiple energy-saving cells.
Specifically, above-mentioned energy-conservation activation strategy information includes:Power-save operation type and energy-conservation activation time delay, in addition to energy-conservation
Activationary time or energy-conservation activation enable information.Above-mentioned energy-conservation, which deactivates policy information, to be included:Energy-conservation deactivate enable information and/or
Energy-conservation deactivates live time, alternatively, energy-conservation is deactivated when may also include oam system chain rupture time delay, and/or behaviour
The number of retries of reconstruction operation maintaining-managing system connection before energy-conservation is deactivated when making maintaining-managing system chain rupture.Specific strategy belongs to
The content of property refers to table 1.
As another embodiment, above-mentioned energy-conservation activation strategy information includes:Energy-conservation activation load-threshold.Alternatively, the section
Energy activation strategy information may also include power-save operation type.Above-mentioned energy-conservation, which deactivates policy information, includes one in following information
Or it is multiple:Energy-conservation is deactivated when the time delay of energy-conservation deactivation, X2 interface chain rupture when energy-conservation deactivates load-threshold, X2 interface chain rupture
The number of retries of preceding reconstruction X2 connections.Wherein, above-mentioned energy-conservation activation load-threshold includes:Save activation local load-threshold and
The support load-threshold of activation is saved, the local load-threshold of energy-conservation activation is the load of the local entity of triggering energy-conservation activation
Thresholding, the support load-threshold of energy-conservation activation saves the load-threshold of the covering support entity of activation for triggering;Above-mentioned energy-conservation
Deactivating load-threshold includes:The support load-threshold deactivated is saved, the support load-threshold that the energy-conservation is deactivated is triggering
The load-threshold for the covering support entity that energy-conservation is deactivated.The content of specific strategy attribute refers to table 2.
Alternatively, above-mentioned setting unit 410 is additionally operable in Energy Saving Strategy set energy conservation object information.
During implementing, above-mentioned Energy Saving Strategy can be included in the energy-saving strategy of network resource management object class
In subclass, for example, above-mentioned Energy Saving Strategy can be arranged on the private section of network resource management object class by above-mentioned setting unit 410
In the tactful subclass of energy.Or, the mark of the energy-conservation covering support entity in above-mentioned Energy Saving Strategy is included in network resource management pair
As class attribute in, energy-conservation activation strategy information in above-mentioned Energy Saving Strategy and/or energy-conservation deactivate policy information be included in it is upper
In the special subclass for stating network resource management object class, for example, above-mentioned setting unit 410 covers the energy-conservation in above-mentioned Energy Saving Strategy
The mark of lid support entity is arranged in the attribute of network resource management object class, and the energy-conservation in above-mentioned Energy Saving Strategy is activated into plan
Slightly information and/or energy-conservation deactivate policy information and are arranged in the special subclass of above-mentioned network resource management object class.
As another embodiment, as shown in fig. 6, above-mentioned IRPManager400 can be specially IRPManager400 ' ',
Including:Transmitting element 610 and receiving unit 620.
For in centralized administration of energy conservation, above-mentioned transmitting element 610 sends energy-conservation activation command to IRPAgent500,
It is required that above-mentioned IRPAgent500 initiates to include in energy-conservation activation, the energy-conservation activation command in one or more energy-conservation entities
Entity identification is saved, also comprising one or more of following information:Power-save operation type, energy-conservation activation time delay, Operation and Maintenance
Reconstruction operation is safeguarded before energy-conservation is deactivated when energy-conservation during management system chain rupture deactivates time delay, oam system chain rupture
The number of retries of management system connection;Receiving unit 620 receives the energy-conservation activation result that above-mentioned IRPAgent500 is sent.Specifically
The content of policy attribute refers to table 3.
Above-mentioned energy-conservation entity identification includes:The mark of energy-saving base station, or energy-saving cell mark, or multiple energy-saving base stations
Group mark, or the group of multiple energy-saving cells are identified.When group mark of the energy-conservation entity identification for multiple energy-saving base stations, or multiple energy-conservations
During the group mark of cell, IRPAgent500 parses the group mark of the multiple energy-saving base station, the mark of obtain energy-conservation base station;Or
The group mark of the multiple energy-saving cell is parsed, the mark of multiple energy-saving cells is obtained.
One of ordinary skill in the art will appreciate that:Realizing all or part of step of above method embodiment can pass through
Programmed instruction related hardware is completed, and foregoing program can be stored in a computer read/write memory medium, the program
Upon execution, the step of including above method embodiment is performed;And foregoing storage medium includes:ROM, RAM, magnetic disc or light
Disk etc. is various can be with the medium of store program codes.
The above embodiments are merely illustrative of the technical solutions of the present invention, rather than being restricted property of the present invention is understood.Although ginseng
The present invention is described in detail according to above-mentioned preferred embodiment, it will be understood by those within the art that:It still may be used
To be modified to technical scheme or equivalent substitution, and this modification or equivalent substitution are without departing from the present invention
The scope of technical scheme.
Claims (9)
1. a kind of administration of energy conservation method in network management system, it is characterised in that including:
Integrated reference point acts on behalf of IRPAgent and receives the Energy Saving Strategy that integrated reference point management entity IRPManager is sent, described
Energy Saving Strategy includes the mark of energy-conservation covering support entity, in addition to energy-conservation activation load-threshold and/or energy-conservation deactivate live load
Thresholding, wherein, the mark of the energy-conservation covering support entity is the mark for the entity that covering support is provided for energy-conservation entity;
The IRPAgent carries out administration of energy conservation according to the Energy Saving Strategy to the base station in affiliated scope.
2. according to the method described in claim 1, it is characterised in that the mark of the energy-conservation covering support entity includes:For section
Energy entity provides the cell of covering support or the mark of base station, or to save the group that entity provides the multiple cells for covering support
Mark or the group of multiple base stations mark.
3. according to the method described in claim 1, it is characterised in that the energy-conservation activation load-threshold includes:Energy-conservation activation
Local load-threshold and the support load-threshold of energy-conservation activation;
The local load-threshold of the energy-conservation activation saves the load-threshold of the local entity of activation for triggering;
The support load-threshold of the energy-conservation activation is that the covering of triggering energy-conservation activation supports the load-threshold of entity.
4. according to the method described in claim 1, it is characterised in that the energy-conservation, which deactivates load-threshold, to be included:Energy-conservation is deactivated
Support load-threshold living;The covering support entity that the support load-threshold that the energy-conservation is deactivated deactivates for triggering energy-conservation
Load-threshold.
5. a kind of integrated reference point acts on behalf of IRPAgent, it is characterised in that including:
For the unit for the Energy Saving Strategy for receiving integrated reference point management entity IRPManager transmissions, the Energy Saving Strategy includes
The mark of energy-conservation covering support entity, in addition to energy-conservation activation load-threshold and/or energy-conservation deactivate load-threshold, wherein, institute
The mark for stating energy-conservation covering support entity is the mark for the entity that covering support is provided for energy-conservation entity;
For according to the Energy Saving Strategy, the unit of administration of energy conservation to be carried out to the base station in affiliated scope.
6. IRPAgent according to claim 5, it is characterised in that the mark of the energy-conservation covering support entity includes:
The cell of covering support or the mark of base station are provided for energy-conservation entity, or the multiple cells for covering support are provided for energy-conservation entity
Or the group mark of multiple base stations.
7. IRPAgent according to claim 5, it is characterised in that the energy-conservation activation load-threshold includes:Energy-conservation swashs
Local load-threshold living and the support load-threshold of energy-conservation activation;
The local load-threshold of the energy-conservation activation saves the load-threshold of the local entity of activation for triggering;
The support load-threshold of the energy-conservation activation is that the covering of triggering energy-conservation activation supports the load-threshold of entity.
8. IRPAgent according to claim 5, it is characterised in that the energy-conservation, which deactivates load-threshold, to be included:Energy-conservation
The support load-threshold of deactivation;The support load-threshold that the energy-conservation is deactivated is real for the covering support that triggering energy-conservation is deactivated
The load-threshold of body.
9. a kind of energy-saving management system, it is characterised in that including:Integrated reference point generation as described in claim any one of 5-8
Manage IRPAgent.
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