CN102468970B - A kind of network element managing method and system - Google Patents

Abstract

The invention discloses a kind of network element managing method and system, the tension management system NMS that can realize network element device carries out administration of energy conservation to network element device, reaches optimum energy saving standard effect.Described method comprises: preset energy source type attribute at northbound interface and southbound interface respectively; Network management system (nms) inquiry network element (NE) the current energy source type used; When needing the energy source type changing described NE, NMS sends the first energy source type information to EMS, and EMS sends the second energy source type information to described NE, and described NE switches the current energy source type used according to described second energy source type information.Described system comprises: network management system (nms), Element management system (EMS) and network element (NE).The tension management system NMS that can be realized network element device by the inventive method and system carries out administration of energy conservation to network element device, reaches optimum energy saving standard effect.

Description

A kind of network element managing method and system

Technical field

The present invention relates to the management domain of communication network, be specifically related to network element managing method and system in mobile communcations system.

Background technology

In communication system, adopt the mode of multi-zone supervision, equipment is managed, generally be divided into three layers: network management system (NetworkManagementSystem, be called for short NMS), Element management system (ElementManagementSystems is called for short EMS) and network element (NetworkElement is called for short NE).Interface between NMS and EMS is called northbound interface (Itf-N), and the interface between EMS and NE is called southbound interface (Itf-S).

Energy-conservation is the discussion focus of current 3G technology with environmental protection, mainly contains two large research directions: one is the power consumption reducing communication apparatus self by every means, as when business is less, machine utilization is lower, and automatic closed portion parts of equipment or reduce operating power; Two is study the environmental quality how allowing communication apparatus according to surrounding, as far as possible by various to wind energy, solar energy etc. green regenerative energy sources trans-utilization, to reduce carbon emission amount, realizes the renewable of the energy and recycles.Physical equipment in communication system can support various energy resources type, and as solar energy and common electric energy, equipment can carry out the switching of energy source type, adopt different energy source type in different situations, as daytime adopts solar energy, adopt electric energy in the evening, to reach better energy saving standard effect.

At present, the switching of equipment energy source type is undertaken by equipment self, and therefore, NMS cannot the energy-saving effect of assessment apparatus, also cannot be optimized from the energy source type of the angle of the overall situation to equipment use, to reach the energy saving standard effect of total optimization.

Summary of the invention

The technical problem to be solved in the present invention is to provide a kind of network element managing method and system, and the tension management system NMS that can realize network element device carries out administration of energy conservation to network element device, reaches optimum energy saving standard effect.

For solving the problems of the technologies described above, the invention provides a kind of network element managing method, comprising:

Energy source type attribute is preset respectively at northbound interface and southbound interface;

Network management system (nms) inquiry network element (NE) the current energy source type used; When needing the energy source type changing described NE, NMS sends the first energy source type information to EMS, and EMS sends the second energy source type information to described NE, and described NE switches the current energy source type used according to described second energy source type information.

Further, the step that NMS inquires about the current energy source type used of network element device comprises: NMS sends the order of the described NE energy source type of inquiry to EMS, EMS forwards described order to described NE, described NE carries the current energy source type used in energy source type attribute, reports NMS by EMS.

Further, described needs refers to when changing the energy source type of NE, and NMS receives the instruction of switching energy source type and/or energy source type parameter that user or upper layer device send.

Further, after described NMS receives the instruction of switching energy source type and/or energy source type parameter that user or upper layer device send, the energy source type selection algorithm module of described NMS calculates the energy source type expecting that NE switches, the energy source type that the energy source type selection algorithm model choice that described NMS comprises described NMS to the first energy source type information that EMS sends goes out; Described EMS is identical with the content of the first energy source type information to the content of the second energy source type information that NE sends.

Further, after described NMS receives the energy source type parameter that user or upper layer device send, the first energy source type information that described NMS sends to EMS comprises described energy source type parameter; The energy source type selection algorithm module of described EMS calculates the energy source type expecting that NE switches, the energy source type that the energy source type selection algorithm model choice that the second energy source type information sent to described NE comprises described EMS goes out.

Further, after described NMS receives the energy source type parameter that user or upper layer device send, the first energy source type information that described NMS sends to EMS comprises described energy source type parameter; The second energy source type information that described EMS sends to NE comprises described energy source type parameter; The step that described NE switches the current energy source type used according to described second energy source type information comprises: the energy source type selection algorithm module of described NE calculates the energy source type expecting to switch, and current energy source type is switched to the energy source type that the energy source type selection algorithm model choice of described NE goes out.

For solving the problems of the technologies described above, present invention also offers a kind of management system of network element device, comprising: network management system (nms), Element management system (EMS) and network element (NE), wherein:

Described NMS, for inquiring about the current energy source type used of NE; And for when needing the energy source type changing described NE, send the first energy source type information to EMS;

Described EMS, for sending the second energy source type information to described NE;

Described NE, for switching the current energy source type used according to described second energy source type information.

Further, described NMS comprises the first module and the second module, wherein: described first module, for sending the order of the described NE energy source type of inquiry to EMS; Described second module, for when needing the energy source type changing described NE, sends the first energy source type information to EMS; Described EMS is also for forwarding described order to described NE, and the content for being reported by described NE is transmitted to described NMS; Described NE also for carrying the current energy source type used in energy source type attribute, reports to described EMS.

Further, described needs refers to when changing the energy source type of NE, and NMS receives the instruction of switching energy source type and/or energy source type parameter that user or upper layer device send.

Further, described NMS comprises energy source type selection algorithm module, and it, for after the switching energy source type instruction that receives user or upper layer device and send and/or energy source type parameter, calculates the energy source type expecting that NE switches; The energy source type that the energy source type selection algorithm model choice that described NMS comprises described NMS to the first energy source type information that EMS sends goes out; Described EMS is identical with the content of the first energy source type information to the content of the second energy source type information that NE sends.

Further, the first energy source type information that described NMS sends to EMS comprises described energy source type parameter; Described EMS comprises energy source type selection algorithm module, and it is for calculating the energy source type expecting that NE switches; The energy source type that the energy source type selection algorithm model choice that described EMS comprises described EMS to the second energy source type information that described NE sends goes out.

Further, the first energy source type information that described NMS sends to EMS comprises described energy source type parameter; The second energy source type information that described EMS sends to NE comprises described energy source type parameter;

Described NE comprises energy source type selection algorithm module and energy source type handover module, wherein: described energy source type selection algorithm module, for calculating the energy source type expecting to switch; Described energy source type handover module, for the energy source type being switched to by current energy source type the energy source type selection algorithm model choice of described NE to go out.

Adopt the present embodiment method and system, by adding the attribute of the energy source type of the current use of network element device at northbound interface, make the tension management system NMS of equipment can obtain the energy source type information of the current employing of network element device, thus can assess the energy-saving effect of network element device.NMS can also arrange the energy source type of the current employing of network element device simultaneously, control network element equipment switches between different energy source type, from the angle of the overall situation, the energy source type that network element device uses is optimized, reaches the energy saving standard effect of total optimization.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide a further understanding of the present invention, and forms a part of the present invention, and schematic description and description of the present invention, for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 is for management system increases the schematic diagram of a device attribute;

Fig. 2 is the flow chart directly being arranged energy source type by northbound interface;

Fig. 3 is for management system increases the schematic diagram of two device attributes;

Fig. 4 is the flow chart that energy source type selection algorithm module arranges energy source type when being positioned at EMS;

Fig. 5 is that EMS adopts the flow chart arranging energy source type during priority selection algorithm;

Fig. 6 is the flow chart that energy source type selection algorithm module arranges energy source type when being positioned at NE.

Embodiment

In the prior art, due to the information not about the energy source type of network element device in the tension management system NMS of network element device, which kind of energy source type what therefore do not know the current employing of equipment is, also just cannot the energy-saving effect of assessment apparatus, cannot be optimized from the energy source type of the angle of the overall situation to equipment use, to reach the energy saving standard effect of total optimization.

For solving the problems of the technologies described above, the invention provides following scheme:

Energy source type attribute is preset respectively at northbound interface and southbound interface;

NMS inquires about the current energy source type used of network element device; When needing the energy source type changing this network element device, NMS sends the first energy source type information to EMS, and EMS sends the second energy source type information to described NE, and described NE switches the current energy source type used according to described second energy source type information.

Preferably, the interface that NMS sends the first energy source type information to EMS can be utilize existing interface, or by newly-increased energy source type interface.Similarly, the interface that EMS sends the second energy source type information to this NE can be adopt existing interface, or adopts newly-increased energy source type interface.

Above-mentioned energy source type attribute, in the upstream direction (NE-EMS-NMS), this attribute is for representing the current energy source type used of NE, and namely NE can utilize this attribute to report oneself current energy source type used to NMS; In the downstream direction (NMS-EMS-NE), this attribute can be used for NMS and arranges the energy source type expecting that NE switches, thus can control the operation of multiple-energy-source type equipment.For this reason, need to increase this energy source type attribute at northbound interface, need on NE, increase this energy source type attribute simultaneously.

The step that NMS inquires about the current energy source type used of network element device comprises: NMS calls the energy source type of this network element device of energy source type interface polls of EMS, EMS calls the energy source type of this network element device of energy source type interface polls of network element device, network element device carries the current energy source type used in energy source type attribute, reports NMS by EMS.

Need to refer to during the energy source type changing this network element device, NMS receives the instruction of switching energy source type and/or energy source type parameter that user or upper layer device send.

By arranging man-machine interface at NMS, the energy source type expecting that NE switches is inputted for operating personnel, or, in NMS, increase by an energy source type selection algorithm module, the energy source type current according to each NE of its management, be optimized from the energy source type of angle to the current use of each NE of the overall situation, the energy source type that each NE of Lookup protocol switches, to reach the energy saving standard effect of total optimization; Or, this energy source type selection algorithm module can also use in conjunction with man-machine interface, relevant parameter (can be such as the energy-saving effect parameter expecting to reach) is inputted for operating personnel, the relevant parameter that energy source type selection algorithm module inputs according to operating personnel calculates, export the optimum energy source type that NE should use, the energy source type of NE switching is set according to the result calculated.

Now, the energy source type that NMS switches to the expectation NE obtained after the first energy source type information that EMS sends comprises calculating, the content of the second energy source type information that described EMS sends to network element device is with the first energy source type information, and the current energy source type used is switched to the energy source type of NMS setting by this network element device according to described second energy source type information.

Above-mentioned energy source type selection algorithm module, except being positioned at except NMS, can also being positioned at EMS, or being positioned at NE.Which network layer is energy source type selection algorithm module be positioned at, and just arranges the current energy source type of network element device at this level.After the energy source type of network element device is successfully modified, current energy source type attribute can be sent and change and inform NMS.

When energy source type selection algorithm module is positioned at EMS, the first energy source type information that NMS sends to EMS comprises energy source type parameter, after described EMS receives described energy source type parameter, carried out the calculating of energy source type by energy source type selection algorithm module wherein, the second energy source type information sent to NE is the energy source type that after calculating, the expectation NE that obtains switches.

When energy source type selection algorithm module is positioned at NE, the first energy source type information that NMS sends to EMS comprises energy source type parameter, EMS forwards this energy source type parameter to NE, namely the content of the second energy source type information is identical with the content of the first energy source type information, after NE receives energy source type parameter, carried out the calculating of energy source type by energy source type selection algorithm module wherein, obtain the object energy source type switched.

Be described in further detail below in conjunction with the enforcement of accompanying drawing to technical scheme.It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combination in any mutually.

Embodiment 1

As shown in Figure 1, device attribute is increased at northbound interface and southbound interface respectively: energy source type.

As shown in Figure 2, directly the handling process of energy source type is set by northbound interface as follows:

Step 101, user arranges the object energy source type switching NE and switch by the man-machine interface on NMS;

Step 102, the energy source type interface that NMS calls EMS arranges energy source type;

Step 103, the energy source type interface that EMS calls NE arranges the current energy source type of NE;

Step 104, it is the energy source type that NMS is arranged that NE switches current energy source type;

Step 105, NE returns handover success result to EMS;

Step 106, it is the current energy source type of NE that EMS revises energy source type;

Step 107, EMS sends current energy source type change notice to NMS;

Step 108EMS returns handover success result to NMS

Step 107 and step 108 order adjustable.

Step 109, it is NE current energy source type that NMS revises energy source type;

Step 110, NMS points out user to arrange energy source type success.

Step 107 and step 109,110 there is no fixing sequencing, can executed in parallel.

Embodiment 2

As shown in Figure 3, increase by two device attributes at northbound interface: energy source type and energy source type selection algorithm parameter set, the list of the parameter that " energy source type selection algorithm parameter set " attribute representation's energy source type selection algorithm module is used.

As shown in Figure 4, when energy source type selection algorithm module is positioned at EMS, the handling process being arranged energy source type by northbound interface is as follows:

Step 201, user at NMS input energy sources type selecting algorithm parameter collection, the relevant parameter that assignment algorithm is used;

Step 202, the energy source type interface that NMS calls EMS arranges energy source type selection algorithm parameter set, is about to arrange parameter transmission used by energy source type to EMS;

Step 203, the energy source type selection algorithm module of EMS calculates the energy source type of network element device use according to algorithm parameter collection;

Step 204, the energy source type that the energy source type interface that EMS calls NE arranges NE is the energy source type that energy source type selection algorithm model choice goes out;

Step 205, it is the energy source type that energy source type selection algorithm model choice goes out that NE switches current energy source type;

Step 206, NE returns handover success result to EMS;

Step 207, it is the energy source type that energy source type selection algorithm model choice goes out that EMS revises energy source type;

Step 208, EMS sends current energy source type change notice to NMS, comprises amended energy source type in notice;

Step 209, NMS is the energy source type that energy source type selection algorithm model choice goes out according to notice amendment energy source type;

After NMS receives the current energy source type change notice sent at EMS, parse the amended energy source type comprised in notice, arranging energy source type is amended energy source type.

Step 210, EMS returns to NMS and arranges successful result;

Step 211, NMS points out user to arrange the success of energy source type selection algorithm parameter set.

In step 211, NMS just prompting user arranges the success of energy source type selection algorithm parameter set, and the setting of NMS to energy source type receives after the energy source type sent in step 208EMS changes notice at NMS to carry out.Step 209 and step 210,211 there is no fixing sequencing, also can executed in parallel.

Embodiment 3

In the present embodiment, energy source type selection algorithm module is positioned at EMS, and the energy source type selection algorithm that it adopts is priority selection algorithm, and as shown in Figure 5, the handling process being arranged energy source type by northbound interface is as follows:

Step 301, the energy source type selection algorithm parameter set that user is inputted by NMS is: the priority of solar energy is 5, and the priority of electric energy is 3, that is: Type=electric energy & Priority=3#Type=solar energy & Priority=5;

Step 302, the energy source type interface that NMS calls EMS arranges energy source type selection algorithm parameter set, is about to arrange parameter transmission used by energy source type to EMS;

Step 303, the energy source type selection algorithm module of EMS integrates according to algorithm parameter and priority algorithm selects the energy source type of NE use as solar energy;

Step 304, the energy source type that the energy source type interface that EMS calls NE arranges NE is solar energy;

Step 305, it is solar energy that NE switches current energy source type;

Step 306, NE returns handover success result to EMS;

Step 307, it is solar energy that EMS revises energy source type;

Step 308, EMS sends current energy source type change notice to NMS, comprises amended energy source type in notice;

Step 309, NMS is solar energy according to notice amendment energy source type;

Step 310, EMS returns to NMS and arranges successful result;

Step 311, NMS points out user to arrange the success of energy source type selection algorithm parameter set.

Embodiment 4

As shown in Figure 6, when energy source type selection algorithm module is positioned at NE, the handling process being arranged energy source type by northbound interface is as follows:

Step 401, user at NMS input energy sources type selecting algorithm parameter collection, the relevant parameter that assignment algorithm is used;

Step 402, the energy source type interface that NMS calls EMS arranges energy source type selection algorithm parameter set, and the parameter list arranged by user is transferred to EMS;

Step 403, the energy source type interface that EMS calls NE arranges energy source type selection algorithm parameter set, is transferred to NE by parameter list;

Step 404, the energy source type selection algorithm module of NE selects according to receiving parameter list the energy source type that NE should use;

Step 405, it is the energy source type that energy source type selection algorithm model choice goes out that NE switches current energy source type;

Step 406, NE sends current energy source type change notice to EMS, comprises amended energy source type in notice;

Step 407, EMS is the energy source type that energy source type selection algorithm model choice goes out according to notice amendment energy source type;

EMS parses according to the current energy source type change notice received the energy source type that energy source type selection algorithm selects, and arranging current energy source type is the energy source type that energy source type selection algorithm is selected.

Step 408, EMS sends current energy source type change notice to NMS, comprises the energy source type that energy source type selection algorithm is selected in notice;

Step 409, NMS is the energy source type that energy source type selection algorithm model choice goes out according to notice amendment energy source type;

NMS parses according to the current energy source type change notice received the energy source type that energy source type selection algorithm selects, and arranging current energy source type is the energy source type that energy source type selection algorithm is selected.

Step 410, NE returns to EMS and arranges energy source type selection algorithm parameter set successful result;

Step 411, EMS returns to NMS and arranges energy source type selection algorithm parameter set successful result;

Step 412, NMS points out user to arrange the success of energy source type selection algorithm parameter set.

In step 412, NMS just prompting user arranges the success of energy source type selection algorithm parameter set, and the setting of current energy source type carries out after NMS receives the current energy source type change notice of EMS transmission.Step 407,408 and 409 and step 410,411,412 there is no fixing sequencing, also can executed in parallel.

Embodiment 5

Realize the management system of said method, comprising: NMS, EMS and NE, wherein:

Described NMS, for inquiring about the current energy source type used of NE; And for when needing the energy source type changing described NE, send the first energy source type information to EMS;

Described EMS, for sending the second energy source type information to described NE;

Described NE, for switching the current energy source type used according to described second energy source type information.

Preferably, described NMS comprises the first module and the second module, wherein: described first module, for sending the order of the described NE energy source type of inquiry to EMS; Described second module, for when needing the energy source type changing described NE, sends the first energy source type information to EMS;

Described EMS is also for forwarding described order to described NE, and the content for being reported by described NE is transmitted to described NMS;

Described NE also for carrying the current energy source type used in energy source type attribute, reports to described EMS.

Implementation one:

Described NMS comprises energy source type selection algorithm module, and it, for after the switching energy source type instruction that receives user or upper layer device and send and/or energy source type parameter, calculates the energy source type expecting that NE switches;

The energy source type that the energy source type selection algorithm model choice that described NMS comprises described NMS to the first energy source type information that EMS sends goes out;

Described EMS is identical with the content of the first energy source type information to the content of the second energy source type information that NE sends.

Implementation two:

The first energy source type information that described NMS sends to EMS comprises described energy source type parameter;

Described EMS comprises energy source type selection algorithm module, and it is for calculating the energy source type expecting that NE switches; The energy source type that the energy source type selection algorithm model choice that described EMS comprises described EMS to the second energy source type information that described NE sends goes out.

Implementation three:

The first energy source type information that described NMS sends to EMS comprises described energy source type parameter;

The second energy source type information that described EMS sends to NE comprises described energy source type parameter;

Described NE comprises energy source type selection algorithm module and energy source type handover module, wherein:

Described energy source type selection algorithm module, for calculating the energy source type expecting to switch;

Described energy source type handover module, for the energy source type being switched to by current energy source type the energy source type selection algorithm model choice of described NE to go out.

The all or part of step that one of ordinary skill in the art will appreciate that in said method is carried out instruction related hardware by program and is completed, and described program can be stored in computer-readable recording medium, as read-only memory, disk or CD etc.Alternatively, all or part of step of above-described embodiment also can use one or more integrated circuit to realize.Correspondingly, each module in above-described embodiment can adopt the form of hardware to realize, and the form of software function module also can be adopted to realize.The present invention is not restricted to the combination of the hardware and software of any particular form.

Certainly; the present invention also can have other various embodiments; when not deviating from the present invention's spirit and essence thereof; those of ordinary skill in the art are when making various corresponding change and distortion according to the present invention, but these change accordingly and are out of shape the protection range that all should belong to the claim appended by the present invention.

Claims (10)

1. a network element managing method, comprising:

Energy source type attribute is preset respectively at northbound interface and southbound interface;

Network management system NMS inquires about the current energy source type used of network element NE; When needing the energy source type changing described NE, NMS sends the first energy source type information to Element management system EMS, EMS sends the second energy source type information to described NE, and described NE switches the current energy source type used according to described second energy source type information;

The step that NMS inquires about the current energy source type used of network element device comprises: NMS sends the order of the described NE energy source type of inquiry to EMS, EMS forwards described order to described NE, described NE carries the current energy source type used in energy source type attribute, reports NMS by EMS;

Described NMS or EMS or NE also comprises energy source type selection algorithm module.

2. the method for claim 1, is characterized in that:

Described needs refers to when changing the energy source type of NE, and NMS receives the instruction of switching energy source type and/or energy source type parameter that user or upper layer device send.

3. method as claimed in claim 2, is characterized in that:

After described NMS receives the instruction of switching energy source type and/or energy source type parameter that user or upper layer device send, the energy source type selection algorithm module of described NMS calculates the energy source type expecting that NE switches, the energy source type that the energy source type selection algorithm model choice that described NMS comprises described NMS to the first energy source type information that EMS sends goes out; Described EMS is identical with the content of the first energy source type information to the content of the second energy source type information that NE sends.

4. method as claimed in claim 2, is characterized in that:

After described NMS receives the energy source type parameter that user or upper layer device send, the first energy source type information that described NMS sends to EMS comprises described energy source type parameter; The energy source type selection algorithm module of described EMS calculates the energy source type expecting that NE switches, the energy source type that the energy source type selection algorithm model choice that the second energy source type information sent to described NE comprises described EMS goes out.

5. method as claimed in claim 2, is characterized in that:

After described NMS receives the energy source type parameter that user or upper layer device send, the first energy source type information that described NMS sends to EMS comprises described energy source type parameter; The second energy source type information that described EMS sends to NE comprises described energy source type parameter;

The step that described NE switches the current energy source type used according to described second energy source type information comprises: the energy source type selection algorithm module of described NE calculates the energy source type expecting to switch, and current energy source type is switched to the energy source type that the energy source type selection algorithm model choice of described NE goes out.

6. a management system for network element device, comprising: network management system NMS, Element management system EMS and network element NE, wherein:

Described NMS, for inquiring about the current energy source type used of NE; And for when needing the energy source type changing described NE, send the first energy source type information to EMS;

Described EMS, for sending the second energy source type information to described NE;

Described NE, for switching the current energy source type used according to described second energy source type information;

Described NMS comprises the first module and the second module, wherein:

Described first module, for sending the order of the described NE energy source type of inquiry to EMS;

Described second module, for when needing the energy source type changing described NE, sends the first energy source type information to EMS;

Described EMS is also for forwarding described order to described NE, and the content for being reported by described NE is transmitted to described NMS;

Described NE also for carrying the current energy source type used in energy source type attribute, reports to described EMS;

Described NMS or EMS or NE also comprises energy source type selection algorithm module.

7. system as claimed in claim 6, is characterized in that:

Described needs refers to when changing the energy source type of NE, and NMS receives the instruction of switching energy source type and/or energy source type parameter that user or upper layer device send.

8. system as claimed in claim 7, is characterized in that:

Described NMS comprises energy source type selection algorithm module, and it, for after the switching energy source type instruction that receives user or upper layer device and send and/or energy source type parameter, calculates the energy source type expecting that NE switches;

The energy source type that the energy source type selection algorithm model choice that described NMS comprises described NMS to the first energy source type information that EMS sends goes out;

Described EMS is identical with the content of the first energy source type information to the content of the second energy source type information that NE sends.

9. system as claimed in claim 7, is characterized in that:

The first energy source type information that described NMS sends to EMS comprises described energy source type parameter;

Described EMS comprises energy source type selection algorithm module, and it is for calculating the energy source type expecting that NE switches; The energy source type that the energy source type selection algorithm model choice that described EMS comprises described EMS to the second energy source type information that described NE sends goes out.

10. system as claimed in claim 7, is characterized in that:

The first energy source type information that described NMS sends to EMS comprises described energy source type parameter;

The second energy source type information that described EMS sends to NE comprises described energy source type parameter;

Described NE comprises energy source type selection algorithm module and energy source type handover module, wherein:

Described energy source type selection algorithm module, for calculating the energy source type expecting to switch;

Described energy source type handover module, for the energy source type being switched to by current energy source type the energy source type selection algorithm model choice of described NE to go out.