CN102469485A - Method for controlling centralized registration of large number of UE - Google Patents
Method for controlling centralized registration of large number of UE Download PDFInfo
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- CN102469485A CN102469485A CN201010549898XA CN201010549898A CN102469485A CN 102469485 A CN102469485 A CN 102469485A CN 201010549898X A CN201010549898X A CN 201010549898XA CN 201010549898 A CN201010549898 A CN 201010549898A CN 102469485 A CN102469485 A CN 102469485A
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Abstract
The invention discloses a method for controlling the centralized registration of a large number of UE. The method comprises the steps as follows: a base station eNodeB sends a delay registration related parameter to all subordinate UE through broadcast messages; when needing registration, the UE calculates a delay time D according to the delay registration related parameter and the user identification per se; and after waiting for the time D, the UE asks the eNodeB or a CN for registration. By adopting the method disclosed by the invention, the problem of the centralized registration of a large number of UE can be effectively solved.
Description
Technical field
The present invention relates to moving communicating field, a large amount of UE of particularly a kind of control concentrate process registration.
Background technology
Fig. 1 is the flow chart of subscriber equipment in the prior art (UE) register method.Fig. 1 only illustrates the register method of single UE, and is as shown in Figure 1, and UE passes through login request message to base station (eNodeB) request registration.In GSM; Exist a large amount of UE to concentrate the scene of registration, for example, when eNodeB breaks down back recovery operate as normal; A large amount of UE in its service area will concentrate to eNodeB and register; Again for example, a large amount of UE possibly get into the service area of same eNodeB on the high-speed railway in the very short time period, get into the interior UE of same service area and also will concentrate to eNodeB and register.Wherein, the register method of each UE is all according to enforcement shown in Figure 1.
Yet; When the UE quantity of concentrating registration is very big; Because the interface-free resources of eNodeB is limited; Part UE can not in time register and make registration delays, postpone a period of time after UE also can initiate registration to eNodeB once more, when UE then is regarded as registration failure repeatedly after the number of times summation of eNodeB registration surpasses certain threshold value.On the other hand, a large amount of UE take interface-free resources simultaneously and register to eNodeB, also can cause the network side signaling traffic load overweight, possibly influence other user's regular traffic.It is thus clear that the register method of UE of the prior art can bring problems after being applied in and concentrating the registration scene, prior art does not also propose to solve the effective scheme that a large amount of UE concentrate registration problem.
Summary of the invention
In view of this, the present invention provides a large amount of UE of a kind of control to concentrate process registration, can solve the problem that a large amount of UE concentrate registration effectively.
For solving the problems of the technologies described above, technical scheme of the present invention is achieved in that
The a large amount of UE of a kind of control concentrate process registration, and this method comprises:
A, base station eNodeB are registered relevant parameters through broadcast to all user equipment (UE) transmission lags of its subordinate;
B, when UE needs request registration, UE is according to postponing registration relevant parameter and the ID computing relay duration D of self;
Behind C, the UE stand-by period length D to eNodeB or core net CN request registration.
Before steps A, this method further comprises:
In advance eNodeB is configured, to confirm the moment of eNode execution in step A.
The method of said configuration is:
ENodeB detected himself be in the moment as eNodeB execution in step A moment of concentrating the registration scene, wherein, said concentrated registration scene comprises: recover after the eNodeB fault;
Then further comprise before the steps A:
ENodeB detects himself to be in and concentrates the registration scene.
The method of said configuration is:
Moment of notice of eNodeB being received CN is as moment of eNodeB execution in step A;
Then further comprise before the steps A:
CN postpones the registration relevant parameter to the eNodeB notice, and notice eNodeB execution in step A.
Postponing the registration relevant parameter described in the step B comprises: first postpones registration relevant parameter N and second postpones registration relevant parameter S; Wherein, First postpones the end N bit digital that registration relevant parameter N representes the intercepting ID, and second postpones registration relevant parameter S express time step-length.
ID comprises described in the step B: IMSI International Mobile Subscriber Identity IMSI, travelling carriage comprehensive service digital net number MSISDN or International Mobile Equipment Identity sign indicating number IMEI.
The method of the duration of computing relay described in step B D comprises:
End N bit digital according to the first delay registration relevant parameter N intercepting ID obtains postponing duration parameters X;
Calculate second and postpone registration relevant parameter S and the product D1 that postpones duration parameters X, with product D1 as postponing duration D.
The method of the duration of computing relay described in step B D comprises:
End N bit digital according to the first delay registration relevant parameter N intercepting ID obtains postponing duration parameters X;
Calculate second and postpone to calculate registration parameter S and the product D1 that postpones duration parameters X;
Calculate 10
N, with 10
NWith second postpone registration relevant parameter S product as long delay duration T, and then the difference of calculating T and D1 obtains difference D2, with difference D2 as delay duration D.
The method of the duration of computing relay described in step B D comprises:
End N bit digital according to the first delay registration relevant parameter N intercepting ID obtains postponing duration parameters X;
Calculate second and postpone registration relevant parameter S and the product D1 that postpones duration parameters X;
Calculate 10
N, with 10
NWith second postpone registration relevant parameter S product as long delay duration T, and then the difference of calculating T and D1 obtains difference D2;
Select D1 or D2 as postponing duration D at random.
It is thus clear that; According to technical scheme provided by the present invention; At first eNodeB registers relevant parameters through broadcast to all UE transmission lags of its subordinate; Secondly, UE is according to postponing registration relevant parameter and the ID computing relay duration D of self, and UE initiates registration to eNodeB after waiting for duration D again.Like this; When the UE quantity of concentrating registration is very big; Because each UE initiatively postpones just to initiate registration to eNodeB behind a period of time D, and, calculate according to the ID that postpones registration relevant parameter and UE self owing to postpone duration D; Therefore the delay duration D of part UE is identical among all UE; The delay duration D of part UE is inequality among all UE, and therefore a large amount of UE register the problem that clashes simultaneously in the prior art with regard to having avoided, and have also avoided UE owing to can not in time registering the registration failure that causes repeatedly.On the other hand, avoided a large amount of UE to take interface-free resources simultaneously and registered, reduced the signaling traffic load of network side to eNodeB.It is thus clear that method provided by the invention can be applied in concentrates the registration scene, has solved the problem that a large amount of UE concentrate registration effectively.
In addition, concentrate under the situation of registration, can think that the end N bit digital in the UE sign is to be evenly distributed in certain scope, the registration of a large amount of UE that therefore can scatter more equably at a large amount of UE.
In addition, the present invention does not influence register method of the prior art, if after using the present invention registration failure takes place still, then handles getting final product by the method for prior art
In addition, the present invention registers relevant parameter and the ID computing relay duration D of self according to postponing, and computational methods are simple, is that UE increases heavy computation burden.
Description of drawings
Fig. 1 is the flow chart of UE register method in the prior art.
Fig. 2 is a kind of flow chart that a large amount of UE concentrate process registration of controlling provided by the present invention.
Embodiment
For making the object of the invention, technical scheme and advantage clearer, below with reference to the accompanying drawing embodiment that develops simultaneously, scheme according to the invention is done to specify further.
Core concept of the present invention is: at first eNodeB registers relevant parameters through broadcast to all UE transmission lags of its subordinate; Secondly; UE is according to postponing registration relevant parameter and the ID computing relay duration D of self, and UE initiates registration to eNodeB after waiting for duration D again.Like this; When the UE quantity of concentrating registration is very big; Because each UE initiatively postpones just to initiate registration to eNodeB or CN behind a period of time D, and, calculate according to the ID that postpones registration relevant parameter and UE self owing to postpone duration D; Therefore the delay duration D of part UE is identical among all UE; The delay duration D of part UE is inequality among all UE, and therefore a large amount of UE register the problem that clashes simultaneously in the prior art with regard to having avoided, and have also avoided UE owing to can not in time registering the registration failure that causes repeatedly.Simultaneously, avoided a large amount of UE to take interface-free resources simultaneously and registered, reduced the signaling traffic load of network side to eNodeB.
Fig. 2 is a kind of flow chart that a large amount of UE concentrate process registration of controlling provided by the present invention.As shown in Figure 2, this method may further comprise the steps:
Step 201, eNodeB registers relevant parameters through broadcast to all UE transmission lags of its subordinate.
Illustrate, suppose that the service area of eNodeB comprises 3 UE:UE1, UE2, UE3, then eNodeB all notifies to UE1, UE2, UE3 through broadcast and postpones the registration relevant parameter.
Above-mentioned service area comprises that the situation of 3 UE is merely and illustrates, and in practical application, when the UE quantity in the service area of eNodeB seldom the time, the concentrated registration scene of then non-the present invention's definition can be carried out according to the method for prior art.
Specifically, when under specific circumstances, eNodeB is just through broadcast transmission lag registration relevant parameter.Also can further comprise before the step 201: in advance eNodeB is configured, to confirm its moment of the UE transmission lag registration relevant parameter in its service range whether.
The method of configuration can for: eNodeB detected himself be in the moment as the UE transmission lag registration relevant parameter of eNodeB in its service range moment of concentrating the registration scene, for example operate as normal is recovered in the eNodeB back of breaking down.When detecting himself to be in, eNodeB concentrates registration scene, eNodeB execution in step 201.
The method of configuration can also for: moment of notice of eNodeB being received core net (CN) is as moment of the UE transmission lag registration relevant parameter of eNodeB in its service range.When eNodeB receives the notice of CN, can comprise the steps: also before step 201 that then CN postpones the registration relevant parameter to the eNodeB notice, and notice eNodeB execution in step 201.
In addition; Postponing the registration relevant parameter can comprise: first postpones registration relevant parameter N and second postpones registration relevant parameter S; Wherein, first postpones the end N bit digital that registration relevant parameter N representes the intercepting ID, and second postpones registration relevant parameter S express time step-length.
Step 202, UE is according to postponing registration relevant parameter and the ID computing relay duration D of self.
Need to prove; Because eNodeB is to all UE transmission lag registration relevant parameters of subordinate in step 201; Some UE among all UE of subordinate possibly not need registration at present; Execution in step 202 just when UE needs request registration, the delay registration relevant parameter that when UE does not need request registration, can only step 201 be received is preserved and is got final product, execution in step 202 again when it need be registered.
Wherein, ID can be IMSI International Mobile Subscriber Identity (IMSI), travelling carriage comprehensive service digital net number (MSISDN) or International Mobile Equipment Identity sign indicating number (IMEI) etc.
The method of several kinds of computing relay duration D is provided below.
First method, first method of computing relay duration D can comprise the steps 2021 with step 2022:
Step 2021, the end N bit digital according to the first delay registration relevant parameter N intercepting ID obtains postponing duration parameters X.
Step 2021 is illustrated, supposes the IMSI=123456789 of current UE, and N=3, then end 3 bit digital of intercepting IMSI obtain postponing duration parameters X=789.
Step 2022 is calculated second and is postponed registration relevant parameter S and the product D1 that postpones duration parameters X, with product D1 as postponing duration D.
Need to prove that the unit that postpones duration D is second.
Step 2022 is illustrated, supposes S=0.05, D1=S*X=0.05*789=39.45 second then is so the delay duration D of current UE is 39.45 seconds.
Second method, second method of computing relay duration D can comprise the steps 3021, step 3022, step 3023:
Step 3021, the end N bit digital according to the first delay registration relevant parameter N intercepting ID obtains postponing duration parameters X.
Step 3021 is illustrated, supposes the IMSI=123456789 of current UE, and N=3, then end 3 bit digital of intercepting IMSI obtain postponing duration parameters X=789.
Step 3022 is calculated second and is postponed registration relevant parameter S and the product D1 that postpones duration parameters X.
Step 3022 is illustrated, supposes S=0.05, then D1=S*X=0.05*789=39.45 second.
Step 3023 calculates 10
N, with 10
NWith second postpone registration relevant parameter S product as long delay duration T, and then the difference of calculating T and D1 obtains difference D2, with difference D2 as delay duration D.
Step 3023 is illustrated, supposes 10
N=10
3=1000, T=S*10 then
N=0.05*1000=50 second, so long delay duration T is 50 seconds, and D2=T-D1=50-39.45=10.55 second, so the delay duration D of current UE is 10.55 seconds.
It is thus clear that, postpone in first method of duration D in aforementioned calculation, for all UE of same eNodeB subordinate, because each UE is identical through the delay registration relevant parameter that broadcast receives, therefore, the X of institute's intercepting is big more, and it is big more then to postpone duration D; But, postponing in second method of duration D in aforementioned calculation, the X of institute's intercepting is big more, and it is more little then to postpone duration D.
In practical application; Can not limit UE necessarily with D1 as postponing duration D, do not limit yet UE necessarily with D2 as postponing duration D, UE also can be at random with D1 or D2 as postponing duration D; That is to say, from D1 or D2, select a conduct to postpone duration D at random and all can.
Step 203, UE waits for, waits for that duration equals the delay duration D that is calculated.
Step 204, UE passes through login request message to eNodeB or CN request registration.
Can find out through step 203 and step 204, initiate registration to eNodeB or CN again behind the current UE length time of delay D.
So far, this flow process finishes.
To sum up; In the present invention, at first eNodeB registers relevant parameters through broadcast to all UE transmission lags of its subordinate, secondly; UE is according to postponing registration relevant parameter and the ID computing relay duration D of self, and UE initiates registration to eNodeB after waiting for duration D again.Like this, when the UE quantity of concentrating registration is very big, because each UE initiatively postpones just to initiate registration to eNodeB behind a period of time D; And; Owing to postpone duration D is to calculate according to the ID that postpones registration relevant parameter and UE self, and this just is equivalent to according to the ID that postpones registration relevant parameter and UE self all UE have been divided into some batches, for example; The delay duration of the UE that the N bit digital at end is identical is identical; Can the UE that the N bit digital at end is identical regard as and to belong to same batch, so each UE is equivalent to be divided in corresponding batch, each batch all has its corresponding delay duration D; A large amount of UE register the problem that clashes simultaneously in the prior art with regard to having avoided for this, have also avoided UE owing to can not in time registering the registration failure that causes repeatedly.Simultaneously, avoided a large amount of UE to take interface-free resources simultaneously and registered, reduced the signaling traffic load of network side to eNodeB.It is thus clear that method provided by the invention can be applied in concentrates the registration scene, has solved the problem that a large amount of UE concentrate registration effectively.
In addition, concentrate under the situation of registration, can think that the end N bit digital in the UE sign is to be evenly distributed in certain scope, the registration of a large amount of UE that therefore can scatter more equably at a large amount of UE.
In addition, the present invention does not influence register method of the prior art, if after using the present invention, registration failure takes place still, then handles getting final product by the method for prior art
In addition, the present invention registers relevant parameter and the ID computing relay duration D of self according to postponing, and computational methods are simple, is that UE increases heavy computation burden.
The above is merely preferred embodiment of the present invention, is not to be used to limit protection scope of the present invention.All within spirit of the present invention and principle, any modification of being done, be equal to replacement, improvement etc., all should be included within protection scope of the present invention.
Claims (9)
1. a large amount of UE of control concentrate process registration, it is characterized in that this method comprises:
A, base station eNodeB are registered relevant parameters through broadcast to all user equipment (UE) transmission lags of its subordinate;
B, when UE needs request registration, UE is according to postponing registration relevant parameter and the ID computing relay duration D of self;
Behind C, the UE stand-by period length D to eNodeB or core net CN request registration.
2. method according to claim 1 is characterized in that, before steps A, this method further comprises:
In advance eNodeB is configured, to confirm the moment of eNode execution in step A.
3. method according to claim 2 is characterized in that, the method for said configuration is:
ENodeB detected himself be in the moment as eNodeB execution in step A moment of concentrating the registration scene, wherein, said concentrated registration scene comprises: recover after the eNodeB fault;
Then further comprise before the steps A:
ENodeB detects himself to be in and concentrates the registration scene.
4. method according to claim 2 is characterized in that, the method for said configuration is:
Moment of notice of eNodeB being received CN is as moment of eNodeB execution in step A;
Then further comprise before the steps A:
CN postpones the registration relevant parameter to the eNodeB notice, and notice eNodeB execution in step A.
5. according to claim 3 or 4 described methods; It is characterized in that; Postponing the registration relevant parameter described in the step B comprises: first postpones registration relevant parameter N and second postpones registration relevant parameter S; Wherein, first postpones the end N bit digital that registration relevant parameter N representes the intercepting ID, and second postpones registration relevant parameter S express time step-length.
6. method according to claim 5 is characterized in that ID comprises described in the step B: IMSI International Mobile Subscriber Identity IMSI, travelling carriage comprehensive service digital net number MSISDN or International Mobile Equipment Identity sign indicating number IMEI.
7. method according to claim 6 is characterized in that, the method for the duration of computing relay described in step B D comprises:
End N bit digital according to the first delay registration relevant parameter N intercepting ID obtains postponing duration parameters X;
Calculate second and postpone registration relevant parameter S and the product D1 that postpones duration parameters X, with product D1 as postponing duration D.
8. method according to claim 6 is characterized in that, the method for the duration of computing relay described in step B D comprises:
End N bit digital according to the first delay registration relevant parameter N intercepting ID obtains postponing duration parameters X;
Calculate second and postpone to calculate registration parameter S and the product D1 that postpones duration parameters X;
Calculate 10
N, with 10
NWith second postpone registration relevant parameter S product as long delay duration T, and then the difference of calculating T and D1 obtains difference D2, with difference D2 as delay duration D.
9. method according to claim 6 is characterized in that, the method for the duration of computing relay described in step B D comprises:
End N bit digital according to the first delay registration relevant parameter N intercepting ID obtains postponing duration parameters X;
Calculate second and postpone registration relevant parameter S and the product D1 that postpones duration parameters X;
Calculate 10
N, with 10
NWith second postpone registration relevant parameter S product as long delay duration T, and then the difference of calculating T and D1 obtains difference D2;
Select D1 or D2 as postponing duration D at random.
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| CN201010549898.XA CN102469485B (en) | 2010-11-18 | 2010-11-18 | Method for controlling centralized registration of large number of UE |
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| CN201010549898.XA CN102469485B (en) | 2010-11-18 | 2010-11-18 | Method for controlling centralized registration of large number of UE |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107729158A (en) * | 2017-09-20 | 2018-02-23 | 惠州Tcl移动通信有限公司 | A kind of method, storage medium and the electronic equipment of simplified application program Register |
Citations (3)
| Publication number | Priority date | Publication date | Assignee | Title |
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| CN1817006A (en) * | 2003-08-26 | 2006-08-09 | 泰克诺沃斯公司 | Method and apparatus for registering multiple remote nodes in an Ethernet passive optical network |
| EP1821560B1 (en) * | 2006-02-17 | 2008-07-16 | Research In Motion Limited | Providing inner-cell registration of access terminal in a radio communication system |
| CN101267598A (en) * | 2002-08-07 | 2008-09-17 | 高通股份有限公司 | Registration in a broadcast communications system |
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2010
- 2010-11-18 CN CN201010549898.XA patent/CN102469485B/en not_active Expired - Fee Related
Patent Citations (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101267598A (en) * | 2002-08-07 | 2008-09-17 | 高通股份有限公司 | Registration in a broadcast communications system |
| CN1817006A (en) * | 2003-08-26 | 2006-08-09 | 泰克诺沃斯公司 | Method and apparatus for registering multiple remote nodes in an Ethernet passive optical network |
| EP1821560B1 (en) * | 2006-02-17 | 2008-07-16 | Research In Motion Limited | Providing inner-cell registration of access terminal in a radio communication system |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107729158A (en) * | 2017-09-20 | 2018-02-23 | 惠州Tcl移动通信有限公司 | A kind of method, storage medium and the electronic equipment of simplified application program Register |
| CN107729158B (en) * | 2017-09-20 | 2022-01-11 | 惠州Tcl移动通信有限公司 | Method for simplifying application program register, storage medium and electronic equipment |
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| CN102469485B (en) | 2014-05-07 |
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