CN102170675A - Method for controlling access time and core network control entity - Google Patents

Abstract

The invention discloses a method for controlling access time and a core network control entity, belonging to the technical field of mobile communication. The method comprises the following steps: the access time of an MD (Machine Type Communication Device) is set by the core network control entity; and the access time is transmitted to an MTC (Machine Type Communication) server by the core network control entity, and then the access time is transmitted to the MD, so that the MD is communicated with the MTC server in the access time. The core network control entity comprises a setting module and a transmission module. In the invention, the access time is respectively transmitted to the MD and the MTC server by the core network control entity, the controllability on the access time of the MD by the network operator can be strengthened , the tansparency and independence of the network control to the upper layer application can be ensured, the expandability is good, the control to the access time of the MD can be realized without modifying the upper layer application, and the condition that the access of the MD is disordered due to the time deviation between the application layer of the MTC server and a provider network can be avoided.

Description

Control method and the core net controlled entity of turn-on time

Technical field

The present invention relates to the mobile communication technology field, particularly a kind of method and core net controlled entity of controlling turn-on time.

Background technology

M2M (Machine-to-Machine, machinery compartment) communication is meant the employing wireless mobile communication technology, realizes carrying out between machine and machine, machine and the people data communication and mutual a series of technology and the general name of technical combinations.In order to satisfy the M2M communicating requirement well, 3GPP (3rd Generation Partnership Project, third generation partner program) generic service demand and the special services demand of MTC (Machine Type Communications, the machine class communication) network architecture, MTC have been defined.The MTC network architecture is made up of network, MD (MTC Device, machine class communication equipment) and the MTC Server (the machine class communication server) of operator.Wherein, MTC Server can be positioned within the network of operator or outside.The generic service demand of MTC comprises: aspects such as address, sign, charging, safety and telemanagement.The special services demand of MTC comprises: time controlled (Time Controlled), Hypomobility, time tolerance, only support PS numeric field data, off-line indication, based on MTC characteristic of group or the like.

Wherein, the time controlled characteristic of MTC is meant that MD only communicates by letter with MTC Server in predefined turn-on time, this communication comprises and is attached to network, transmission/reception data etc., and in other times, cannot communicate by letter, thereby avoid transmitting unnecessary signaling and data message with MTC Server.Be generally a time period this turn-on time, can be pre-defined by Virtual network operator, and can adjust according to predefined rule by Virtual network operator.Virtual network operator can be notified to adjusted turn-on time MD and MTC Server after adjusting turn-on time, makes MD after receiving this turn-on time, according to communicating this turn-on time and MTC server.

At existing UMTS (Universal Mobile Telecommunications System, global system for mobile communications) and LTE (Long Term Evolution, Long Term Evolution) in the system, Virtual network operator will be indicated (the Application Provider to AP predefined turn-on time earlier, application provider), as MTC Server; AP will inform the application layer of MD turn-on time by application layer again; The application layer of MD realizes the MD control of turn-on time, thereby guarantee that MD only communicates with MTC Server in turn-on time according to initiating access/service request this turn-on time.

But, said method need be communicated by letter by application layer, and need to revise the function and the flow process of each application, comprise application on the MD and the application on the MTC Server, could realize the MD control of turn-on time, be a kind of and the tightly coupled implementation method of application layer, can not keep the transparency and the independence of network control, be not with good expansibility upper layer application.In addition, because the application layer of MTC Server is safeguarded clock by this locality, may with the clock life period deviation of the carrier network that transmission service is provided, therefore, may cause MD will have the turn-on time that allows as network the turn-on time of deviation, and initiate access/service request, take place thereby cause MD to insert chaotic situation.

Summary of the invention

In order to solve prior art problems, the embodiment of the invention provides a kind of method and core net controlled entity of controlling turn-on time.Described technical scheme is as follows:

A kind of method of controlling turn-on time, described method comprises:

The core net controlled entity is set the turn-on time of machine class communication equipment MD;

Described core net controlled entity will send to machine class communication MTC server described turn-on time, and sent to described MD described turn-on time, makes described MD communicate with described MTC server in described turn-on time.

The core net controlled entity was set after the turn-on time of machine class communication equipment MD, also comprised:

Described core net controlled entity increases parameter turn-on time in the context of described MD, preserve described turn-on time.

Described core net controlled entity will send to machine class communication MTC server described turn-on time, comprising:

Described core net controlled entity by and the MTC server between interface, send described turn-on time to described MTC server; Perhaps,

Described core net controlled entity will send to described MTC server described turn-on time by short message way; Perhaps,

Described core net controlled entity will be sent to attaching position register HLR/ home subscriber server/HSS described turn-on time earlier, and described HLR/HSS will be transmitted to described MTC server described turn-on time.

Sent to described MD described turn-on time, comprising:

Described core net controlled entity sends described turn-on time by Non-Access Stratum NAS signaling to MD; Perhaps,

Described core net controlled entity will send to described MD described turn-on time by short message way; Perhaps,

Described core net controlled entity will be sent to the Access Network controlled entity described turn-on time earlier, will be transmitted to described MD described turn-on time through described Access Network controlled entity.

The core net controlled entity is set the turn-on time of machine class communication equipment MD, comprising:

The core net controlled entity is with the turn-on time that is set at described MD signatory turn-on time of MD; Perhaps,

Described core net controlled entity is determined the turn-on time of described MD according to default rule.

The core net controlled entity was set after the turn-on time of machine class communication equipment MD, also comprised:

In described turn-on time, described core net controlled entity allows described MD to be attached to network, and accepts service request, location management and session management that described MD initiates;

In non-described turn-on time, described core net controlled entity allows described MD to be attached to network, but refuses service request, location management and session management that described MD initiates; Perhaps, in non-described turn-on time, do not allow described MD to be attached to network, and refuse service request, location management and session management that described MD initiates.

A kind of core net controlled entity, described core net controlled entity comprises:

Setting module is used to set turn-on time of machine class communication equipment MD;

Sending module is used for and will sends to machine class communication MTC server described turn-on time, and sent to described MD described turn-on time, makes described MD communicate with described MTC server in described turn-on time.

Described core net controlled entity also comprises:

Memory module is used for increasing parameter turn-on time at the context of described MD, preserves the turn-on time that described setting module obtains.

Described sending module comprises:

First transmitting element, be used for by and the MTC server between interface, send described turn-on time to described MTC server; Perhaps, described MTC server will be sent to by short message way described turn-on time; Perhaps, earlier be sent to HLR/HSS described turn-on time, make described HLR/HSS to be transmitted to described MTC server described turn-on time.

Described sending module comprises:

Second transmitting element is used for the signaling by Non-Access Stratum NAS, sends described turn-on time to MD; Perhaps, described MD will be sent to by short message way described turn-on time; Perhaps, earlier be sent to the Access Network controlled entity described turn-on time, make described Access Network controlled entity to be transmitted to described MD described turn-on time.

Described setting module comprises:

Setup unit is used for the turn-on time that is set at described MD signatory turn-on time with MD; Perhaps, determine the turn-on time of described MD according to default rule.

Described core net controlled entity also comprises:

Processing module is used in described turn-on time, allowing described MD to be attached to network after described setting module is set the turn-on time of MD, and accepts service request, location management and session management that described MD initiates; Also be used in non-described turn-on time, allowing described MD to be attached to network, but refuse service request, location management and the session management that described MD initiates; Perhaps, in non-described turn-on time, do not allow described MD to be attached to network, and refuse service request, location management and session management that described MD initiates.

The technical scheme that the embodiment of the invention provides will send to MD and MTC server turn-on time respectively by the core net controlled entity, need not the MTC server and carry out communicating by letter of application layer with MD, kept the transparency and the independence of network control to upper layer application, be with good expansibility, need not to rely on upper layer application and can realize the control of turn-on time MD, also avoided because the application layer of MTC server and the time deviation between the carrier network, and the MD that causes inserts chaotic situation generation, has strengthened Virtual network operator to the MD controllability of turn-on time.

Description of drawings

Fig. 1 is the embodiment of the invention 1 method flow diagram of control turn-on time of providing;

Fig. 2 is the embodiment of the invention 2 method flow diagram of control turn-on time of providing;

Fig. 3 is the embodiment of the invention 3 method applicating flow chart of control turn-on time of providing;

Fig. 4 is the core net controlled entity structure chart that the embodiment of the invention 4 provides.

Embodiment

For making the purpose, technical solutions and advantages of the present invention clearer, embodiment of the present invention is described further in detail below in conjunction with accompanying drawing.

Embodiment 1

Referring to Fig. 1, present embodiment provides a kind of method of controlling turn-on time, comprising:

101: the core net controlled entity is set the turn-on time of MD;

102: the core net controlled entity will send to the MTC server this turn-on time, and sent to MD this turn-on time, makes MD communicate with the MTC server in this turn-on time.

Among the arbitrary embodiment of the present invention, the core net controlled entity can be specially: SGSN (Serving General Packet RadioService Support Node, the support node that service universal packet wireless business is engaged in), perhaps be MME (MobilityManagement Entity, mobile management entity).

Among the arbitrary embodiment of the present invention, can be the instantaneous time value turn-on time of MD, also can be a time period, and the embodiment of the invention is not done concrete qualification to this.Communicating by letter between MD and the MTC server includes but not limited to: access/request service, and transmitting data information or the like, the embodiment of the invention is not done concrete qualification to this.The core net controlled entity sends turn-on time to the MTC server, sends turn-on time with the core net controlled entity to MD, can distinguish successively, also can not distinguish successively, carries out simultaneously, and the embodiment of the invention is not done concrete qualification to this.

The said method that present embodiment provides will send to MD and MTC server turn-on time respectively by the core net controlled entity, need not the MTC server and carry out communicating by letter of application layer with MD, kept the transparency and the independence of network control to upper layer application, be with good expansibility, need not to rely on upper layer application and can realize the control of turn-on time MD, also avoided because the application layer of MTC server and the time deviation between the carrier network, and the MD that causes inserts chaotic situation generation, has strengthened Virtual network operator to the MD controllability of turn-on time.

Embodiment 2

Referring to Fig. 2, present embodiment provides a kind of method of controlling turn-on time, comprising:

201: the core net controlled entity is set the turn-on time of MD;

Wherein, the core net controlled entity can obtain the signatory turn-on time of MD earlier, and the turn-on time of will contracting is as turn-on time of MD, in order to follow-up MD and the MTC server issued.

In the present embodiment, be meant that the MTC server is as application provider the signatory turn-on time of MD, the turn-on time of the MD of agreement when signatory with the user of MD, should can be kept at HLR (Home Location Register signatory turn-on time, attaching position register)/the MD context of HSS (Home Subscriber Server, home subscriber server) in.Particularly, can in the MD context, increase by one turn-on time parameter information, as Allowed Access Time, should signatory turn-on time in order to preserve, can certainly adopt the mode that increases other parameter to preserve signatory turn-on time, present embodiment is not done concrete qualification to this.

When the core net controlled entity will be contracted turn-on time during as turn-on time of MD, can pass through the Gr/S6a interface signaling earlier, upgrade (Updae Location) as the position, insert user data (Insert Subscriber Data) etc., obtain this signatory turn-on time from HLR/HSS, will contract then the turn-on time of turn-on time as MD.

In the present embodiment, the core net controlled entity also can be will be contracted turn-on time as turn-on time of MD of giving to be sent and MTC server, but determine turn-on time of MD according to default rule, in order to follow-up MD and the MTC server of sending to.Further, can also be kept in the context of MD the turn-on time of the MD that determines, particularly, can in the context of MD, increase the parameter of using turn-on time, as Allowed Access Time in Use, the turn-on time that is used for preserving the MD that determines.

Wherein, Yu She rule includes but not limited to: the load of network etc., the embodiment of the invention is not done concrete qualification to this.The load of network can be based on the statistical value of different time/spatial dimension, also can be the instantaneous value on time/Spatial Dimension.This time/spatial dimension includes but not limited to: certain period in one day, one day, a week, January, 1 year, a base station (NodeB/eNodeB) scope, SGSN/MME scope, a gateway (Serving GW) scope, a packet data network gateway (PDN GW) scope, a PLMN (Public Land Mobile Network, the public land mobile communications network) scope etc., the embodiment of the invention is not done concrete qualification to this.For example, with 80% as load-threshold,,, then can not be defined as the turn-on time of MD this time period if more than 80% if the load of 8:00 in a day～10:00 network below 80%, then can be defined as this time period the turn-on time of MD.

Above-mentioned time/spatial dimension information can be passed through OAM (Operations, Administration, and Maintenance, oam) system and obtain, and also can realize by other specific method of operator.Load information in the NodeB/eNodeB scope can also obtain by the reciprocal process of Iu/S1 interface signaling.

202: the core net controlled entity will send to the MTC server turn-on time that configure;

Particularly, can adopt in following three kinds of modes any to realize:

1) the core net controlled entity by and the MTC server between interface, send above-mentioned turn-on time to the MTC server;

2) the core net controlled entity will send to the MTC server above-mentioned turn-on time by short message way;

3) the core net controlled entity will be sent to HLR/HSS this turn-on time by the Gr/S6a interface earlier, will be transmitted to the MTC server this turn-on time through HLR/HSS.In this repeating process, HLR/HSS can increase the parameter of using turn-on time as required in the MD of this locality context, as Allowed Access Time in Use, be used for preserving above-mentioned turn-on time.

The 203:MTC server is preserved this turn-on time after receiving the turn-on time of core net controlled entity transmission.

Further, after preserving this turn-on time, the MTC server can also be carried out other operation, includes but not limited to: determine MD turn-on time, safeguard MD state, send indication to the user (Subscriber or MTC User) of MTC server, transmitted data time of prompting MD or the like.

204: the core net controlled entity will send to MD above-mentioned turn-on time;

Particularly, can adopt in following three kinds of modes any to realize:

1) the core net controlled entity sends above-mentioned turn-on time by NAS (Non-Access Stratum, Non-Access Stratum) signaling to MD; This NAS signaling includes but not limited to: adhere to successfully (Attach Accept)/adhere to failure (Attach Reject), RAU (Routing Area Update, routing region updating)/and TAU (Tracking Area Update, tracking area update) Accept, RAU/TAU Reject or the like; Particularly, can in the NAS signaling, increase new field, be used for carrying above-mentioned turn-on time;

2) the core net controlled entity will send to MD above-mentioned turn-on time by short message way;

3) the core net controlled entity will be sent to the Access Network controlled entity above-mentioned turn-on time by the interface between core net controlled entity and Access Network controlled entity earlier, will be transmitted to MD this turn-on time through the Access Network controlled entity.

Interface between core net controlled entity and Access Network controlled entity includes but not limited to: Iu/S1-AP interface or the like.The Access Network controlled entity can be specially: the base station, and as RNC (Radio Network Controller, radio network controller), eNode.Air interface between Access Network controlled entity and MD comprises but is not limited to: Uu/LTE-Uu interface or the like.

205:MD receives the above-mentioned turn-on time that the core net controlled entity sends, and increases parameter turn-on time in local context, as Allowed Access Time, is used to preserve the turn-on time of receiving, and communicates with the MTC server in this turn-on time.

Further, after MD receives above-mentioned turn-on time, can also carry out other operation, include but not limited to: determine turn-on time; In this turn-on time, initiate access/service request, as Attach process, Service Request process or other location managements or session management procedure or the like to network; In the non-access time, be attached to network, but do not initiate service request procedure and other location managements or session management procedure or the like.

In the present embodiment, the core net controlled entity can send above-mentioned turn-on time earlier to the MTC server, and the back sends turn-on time to MD; Also can send turn-on time earlier to MD, the back sends turn-on time to the MTC server; Can also send this turn-on time simultaneously to MTC server and MD.

In the present embodiment, further, the core net controlled entity can be carried out following multiple operation after the turn-on time of setting MD:

1) in turn-on time, allow MD to be attached to network at MD, and accept service request and other location managements or session management procedure that MD initiates, as: Attach, Service Request, RAU/TAU process etc.;

2) in the non-access time, allow MD to be attached to network at MD, but service request (ServiceRequest process etc.) and some unnecessary location management or session management procedure that refusal MD initiates;

3) in the non-access time, do not allow MD to be attached to network at MD, and service request and some unnecessary location management or session management procedure of refusal MD initiation.

Wherein, be above-mentioned 2 in two kinds of operations of MD in the non-access time) and 3) be or relation, the core net controlled entity can be chosen one as required wantonly, the embodiment of the invention is not done concrete qualification to this.

In the present embodiment, can be absolute time the turn-on time of MD, as GMT 19:30 on January 1st, 2010, also can be relative time, as after specifying signaling transmitting time 5 hours etc.When adopting absolute time, MD, MTC server and core net controlled entity need the deadline synchronous before this method is handled, this process can be passed through the NAS signaling: EMM Information, NTP modes such as (Network Time Protocol, NTP (Network Time Protocol)) realizes.In this case, the core net controlled entity sends can be carried out simultaneously to MD and MTC server turn-on time, also can successively carry out.When adopting relative time, then the core net controlled entity need send turn-on time simultaneously to MD and MTC server, perhaps when sending turn-on time, stamp identical timestamp, after guaranteeing that MD and MTC server are received, obtain identical time starting point, pick up counting from this time starting point, thereby guaranteed time synchronized.

The said method that present embodiment provides will send to MD and MTC server turn-on time respectively by the core net controlled entity, need not the MTC server and carry out communicating by letter of application layer with MD, kept the transparency and the independence of network control to upper layer application, be with good expansibility, need not to rely on upper layer application and can realize the control of turn-on time MD, also avoided because the application layer of MTC server and the time deviation between the carrier network, and the MD that causes inserts chaotic situation generation, has strengthened Virtual network operator to the MD controllability of turn-on time.

Embodiment 3

Referring to Fig. 3, present embodiment is applied as example with the intelligent meter data recording of UMTS and LTE system, specifies the control process of turn-on time.

User Subscriber and signatory requirement of Virtual network operator of supposing MD A provide data transport service by network for MD A at every month No. 1, and this MD A can be water meter, ammeter, gas meter, flow meter, industrial table etc., and the embodiment of the invention is not done concrete qualification to this.Wherein, be the absolute time value signatory turn-on time, and HLR/HSS will contract turn-on time in the context that is stored in A turn-on time in the parameter.The control procedure of turn-on time is specific as follows:

301:MD A start back sends the request of Attach Request signaling to SGSN/MME and is attached to network.

After 302:SGSN/MME receives this signaling, handle according to the Attach process, it is mutual with HLR/HSS by Update Location operation, thereby the CAMEL-Subscription-Information that obtains MD A also therefrom extracts signatory turn-on time, as Allowed AccessTime parameter.And SGSN/MME knows that according to the moon statistics that the OAM system provides network 18:00 every day～20:00 load reaches more than 70%, and the strategy according to operator determines can not provide data, services for the user of MDA in this time period simultaneously.Therefore, SGSN/MME will be defined as turn-on time of MD A within every month No. 1 time range except that 18:00～20:00, and with turn-on time of being kept at the contextual use of MDA this turn-on time in the information, as AllowedAccess Time in Use parameter.

303:SGSN/MME is according to the turn-on time that redefines, MD A is carried out corresponding operation, and comprising: in this turn-on time, SGSN/MME accepts the request of MD A and provides services on the Internet for it, and in the other times scope, the SGSN/MME refusal provides service for MD A.

304:SGSN/MME proceeds to handle to the request of adhering to of MD A according to the Attach process, if all processing all complete successfully, then SGSN/MME sends to MD A and accepts to adhere to Attach Accept signaling, and carries therein above-mentioned definite turn-on time; If because of certain reason causes handling failure, then SGSN/MME sends to MD A and refuses to adhere to the AttachReject signaling, and carries therein above-mentioned definite turn-on time.Thereby finish the notification procedure of SGSN/MME to the turn-on time of MD A.

After MD A receives Allowed Access Time in Use parameter turn-on time, with its be saved to local turn-on time information such as Allowed Access Time in.If adhere to successfully, MD A can initiate location management or session management procedure as required in this turn-on time.If adhere to failure, MD A can according to the Allowed Access Time parameter of local maintenance turn-on time section initiate attaching process once more.

After the MTC server is received Allowed Access Time in Use parameter turn-on time, it is preserved in the information that most MD A safeguards.According to this turn-on time, the MTC server can be safeguarded the operating state of MDA.For example, when MTC User in the non-access time period during to data that MTC server lookup MD A gathers, the MTC server can send the information of " current MDA is unreachable, please inquires about " to MTC User in every month No. 1 time range except that 18:00～20:00.

305: if adhere to successfully, SGSN/MME is sent to HLR/HSS by the Gr/S6a interface with parameter turn-on time that Allowed Access Time in Use is preserved, HLR/HSS receives back this information of preservation in the context of MD A, as increase Allowed Access Time in Use information and store, so that the turn-on time that MTC server lookup MD A uses.Then, HLR/HSS by and the MTC server between interface Allowed Access Time in Use parameter information is sent to the MTC server.If the attaching process failure, according to practical situations, this step can be carried out also and can not carry out.

The said method that present embodiment provides will send to MD and MTC server turn-on time respectively by the core net controlled entity, need not the MTC server and carry out communicating by letter of application layer with MD, kept the transparency and the independence of network control to upper layer application, be with good expansibility, need not to rely on upper layer application and can realize the control of turn-on time MD, also avoided because the application layer of MTC server and the time deviation between the carrier network, and the MD that causes inserts chaotic situation generation, has strengthened Virtual network operator to the MD controllability of turn-on time.

Embodiment 4

Referring to Fig. 4, present embodiment provides a kind of core net controlled entity, comprising:

Setting module 401 is used to set turn-on time of MD;

Sending module 402 is used for and will sends to the MTC server turn-on time, and will send to MD turn-on time, makes MD communicate with the MTC server in turn-on time.

In the present embodiment, the core net controlled entity can also comprise:

Memory module is used for increasing the turn-on time that parameter preservation turn-on time setting module obtains at the context of MD.

In the present embodiment, sending module 402 can comprise:

First transmitting element, be used for by and the MTC server between interface, send turn-on time to the MTC server; Perhaps, will send to the MTC server turn-on time by short message way; Perhaps, will be sent to HLR/HSS turn-on time earlier, and make HLR/HSS will be transmitted to the MTC server turn-on time.

In the present embodiment, sending module 402 can comprise:

Second transmitting element is used for the signaling by Non-Access Stratum NAS, sends turn-on time to MD; Perhaps, will send to MD turn-on time by short message way; Perhaps, will be sent to the Access Network controlled entity turn-on time earlier, and make the Access Network controlled entity will be transmitted to MD turn-on time.

Arbitrary core net controlled entity in the present embodiment, setting module 401 can comprise:

Setup unit is used for the turn-on time that is set at MD signatory turn-on time with MD; Perhaps, determine the turn-on time of MD according to default rule.

Arbitrary core net controlled entity in the present embodiment can also comprise:

Processing module is used for after setting module 401 is set the turn-on time of MD, in this turn-on time, allows MD to be attached to network, and accepts service request, location management and session management that MD initiates; Also be used for should allowing MD to be attached to network in turn-on time non-, but service request, location management and session management that refusal MD initiates; Perhaps, should not allow MD to be attached to network in turn-on time non-, and service request, location management and the session management of refusal MD initiation.

The core net controlled entity that present embodiment provides specifically can be SGSN/MME, belongs to same design with method embodiment, and its specific implementation process sees method embodiment for details, repeats no more here.

The above-mentioned core net controlled entity that present embodiment provides will send to MD and MTC server turn-on time respectively, need not the MTC server and carry out communicating by letter of application layer with MD, kept the transparency and the independence of network control to upper layer application, be with good expansibility, need not to rely on upper layer application and can realize the control of turn-on time MD, also avoided because the application layer of MTC server and the time deviation between the carrier network, and the MD that causes inserts chaotic situation generation, has strengthened Virtual network operator to the MD controllability of turn-on time.

Need to prove at last, one of ordinary skill in the art will appreciate that all or part of flow process that realizes in the foregoing description method, be to instruct relevant hardware to finish by computer program, described program can be stored in the computer read/write memory medium, this program can comprise the flow process as the embodiment of above-mentioned each side method when carrying out.Wherein, described storage medium can be magnetic disc, CD, read-only storage memory body (ROM) or stores memory body (RAM) etc. at random.

Each functional unit in the embodiment of the invention can be integrated in the processing module, also can be that the independent physics in each unit exists, and also can be integrated in the module two or more unit.Above-mentioned integrated module both can adopt the form of hardware to realize, also can adopt the form of software function module to realize.If described integrated module realizes with the form of software function module and during as independently production marketing or use, also can be stored in the computer read/write memory medium.The above-mentioned storage medium of mentioning can be a read-only memory, disk or CD etc.Above-mentioned each device or system can carry out the method among the correlation method embodiment.

The above only is preferred embodiment of the present invention, and is in order to restriction the present invention, within the spirit and principles in the present invention not all, any modification of being done, is equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (12)

1. a method of controlling turn-on time is characterized in that, described method comprises:

The core net controlled entity is set the turn-on time of machine class communication equipment MD;

Described core net controlled entity will send to machine class communication MTC server described turn-on time, and sent to described MD described turn-on time, makes described MD communicate with described MTC server in described turn-on time.

2. method according to claim 1 is characterized in that, the core net controlled entity was set after the turn-on time of machine class communication equipment MD, also comprised:

Described core net controlled entity increases parameter turn-on time in the context of described MD, preserve described turn-on time.

3. method according to claim 1 is characterized in that, described core net controlled entity will send to machine class communication MTC server described turn-on time, comprising:

Described core net controlled entity by and the MTC server between interface, send described turn-on time to described MTC server; Perhaps,

Described core net controlled entity will send to described MTC server described turn-on time by short message way; Perhaps,

Described core net controlled entity will be sent to attaching position register HLR/ home subscriber server HSS described turn-on time earlier, and described HLR/HSS will be transmitted to described MTC server described turn-on time.

4. method according to claim 1 is characterized in that, sent to described MD described turn-on time, comprising:

Described core net controlled entity sends described turn-on time by Non-Access Stratum NAS signaling to MD; Perhaps,

Described core net controlled entity will send to described MD described turn-on time by short message way; Perhaps,

Described core net controlled entity will be sent to the Access Network controlled entity described turn-on time earlier, and described Access Network controlled entity will be transmitted to described MD described turn-on time.

5. according to the described method of arbitrary claim in the claim 1 to 4, it is characterized in that the core net controlled entity is set the turn-on time of machine class communication equipment MD, comprising:

The core net controlled entity is with the turn-on time that is set at described MD signatory turn-on time of MD; Perhaps,

Described core net controlled entity is determined the turn-on time of described MD according to default rule.

6. according to the described method of arbitrary claim in the claim 1 to 4, it is characterized in that the core net controlled entity was set after the turn-on time of machine class communication equipment MD, also comprised:

In described turn-on time, described core net controlled entity allows described MD to be attached to network, and accepts service request, location management and session management that described MD initiates;

In non-described turn-on time, described core net controlled entity allows described MD to be attached to network, but refuses service request, location management and session management that described MD initiates; Perhaps, in non-described turn-on time, do not allow described MD to be attached to network, and refuse service request, location management and session management that described MD initiates.

7. a core net controlled entity is characterized in that, described core net controlled entity comprises:

Setting module is used to set turn-on time of machine class communication equipment MD;

Sending module is used for and will sends to machine class communication MTC server described turn-on time, and sent to described MD described turn-on time, makes described MD communicate with described MTC server in described turn-on time.

8. core net controlled entity according to claim 7 is characterized in that, described core net controlled entity also comprises:

Memory module is used for increasing parameter turn-on time at the context of described MD, preserves the turn-on time that described setting module obtains.

9. core net controlled entity according to claim 7 is characterized in that, described sending module comprises:

First transmitting element, be used for by and the MTC server between interface, send described turn-on time to described MTC server; Perhaps, described MTC server will be sent to by short message way described turn-on time; Perhaps, will be sent to attaching position register HLR/ home subscriber server HSS described turn-on time earlier, make described HLR/HSS to be transmitted to described MTC server described turn-on time.

10. core net controlled entity according to claim 7 is characterized in that, described sending module comprises:

Second transmitting element is used for the signaling by Non-Access Stratum NAS, sends described turn-on time to MD; Perhaps, described MD will be sent to by short message way described turn-on time; Perhaps, earlier be sent to the Access Network controlled entity described turn-on time, make described Access Network controlled entity to be transmitted to described MD described turn-on time.

11., it is characterized in that described setting module comprises according to the described core net controlled entity of arbitrary claim in the claim 7 to 10:

Setup unit is used for the turn-on time that is set at described MD signatory turn-on time with MD; Perhaps, determine the turn-on time of described MD according to default rule.

12., it is characterized in that described core net controlled entity also comprises according to the described core net controlled entity of arbitrary claim in the claim 7 to 10:

Processing module is used in described turn-on time, allowing described MD to be attached to network after described setting module is set the turn-on time of MD, and accepts service request, location management and session management that described MD initiates; Also be used in non-described turn-on time, allowing described MD to be attached to network, but refuse service request, location management and the session management that described MD initiates; Perhaps, in non-described turn-on time, do not allow described MD to be attached to network, and refuse service request, location management and session management that described MD initiates.

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