CN1708166A - Blind hand off method from wideband code division multiple access system to worldwide mobile communication system - Google Patents
Blind hand off method from wideband code division multiple access system to worldwide mobile communication system Download PDFInfo
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Abstract
The present invention discloses one method of blind switching from WCDMA to GSM. The method includes: for radio network controller to designate the priority of GSM zone adjacent to WCDMA subzone in advance; to create referenced candidate set based on the active set included WCDMA subzone; to create switched target GSM subzone retrying candidate set with the intersection set of GSM zone adjacent to all the WCDMA subzone in the referenced candidate set and based on the priority of GSM zone in the intersection set; and to return the subzones in target GSM subzone retrying candidate set successively to the kernel network and the user equipment to treating the switching from the user equipment to the subzones in target GSM subzone retrying candidate set. The present invention has the priority attribute capable of raising the flexibility in practical application and the controllability on algorithm, full utilization of available GSM network resource and reduced switching delay.
Description
Technical field
The present invention relates to the handoff technique between mobile communication system, particularly a kind of blind switching method from broadband CDMA system (WCDMA) to global system for mobile communications (GSM).
Background technology
GSM is a kind of time division multiple access communication technology, is widely used at present in second generation mobile communication (2G) network system, and has formed the mobile commercial network of global coverage maximum.
WCDMA is a kind of spread spectrum technic, is mainly used in military communication in the early stage.Because the performance of a series of brilliances such as it has the frequency efficiency height, antijamming capability is strong, network capacity is big, security performance is good, support wideband multimedia, mobile telephone power consumption is low and transmitting power is little, in the commercial communication field, especially in 3G (Third Generation) Moblie (3G) network system, obtained to pay close attention to widely and use at present.
For the utilance that improves frequency spectrum resource and the capacity of whole system, the radio-frequency power of base station is limited within certain cell range in the existing cell mobile communication systems.Enter the another one sub-district when travelling carriage leaves a sub-district, the signal of the original sub-district that travelling carriage receives inevitable more and more a little less than, and the signal that enters the sub-district that it receives will be more and more stronger.In order to keep the communication quality of travelling carriage, will switch to the stronger base station of signal that newly enters by original base station to continuing of travelling carriage, the notion of switching in Here it is the cell mobile communication systems.
Owing to formed the complete GSM commercial network of coverage at present, build the comprehensive benefit of 3G network from operator, will require utilization as much as possible to have network, will can be switched in the GSM network system by the business of 2G network support in the 3G network business.
From the mode that realizes, the switching from WCDMA to GSM can be divided into based on the switching and the blind switching of measuring.Switching in the prior art from WCDMA to GSM is based on measurement.
See also Fig. 1, Fig. 1 is the schematic diagram of subscriber equipment (UE) place subdistrict position.WCDMA-cell is the WCDMA system cell, and GSM-cell is the gsm system sub-district, and UE is arranged in the common factor of WCDMA-cell 1,2 and GSM-cell 1.When UE moved to as shown in Figure 1 position, the switch step in the prior art from WCDMA to GSM was as follows:
1, radio network controller (RNC) issues the Target cell tabulation of switching; Suppose that the optimum subdistrict that current active is concentrated is WCDMA-cell 1, then the Target cell of Qie Huaning is the GSM adjacent area of WCDMA-cell 1: GSM-cell 1,2,3,6,7;
Active set be UE with the network service process in, the sub-district of service is provided for the UE in the conversation in the WCDMA system simultaneously, the number of cells in the active set can be 1 or a plurality of; Optimum subdistrict is the best sub-district of pilot signal quality that UE measures in the active set; Sub-district among Fig. 1 in the hypothesis active set is WCDMA-cell 1 and WCDMA-cell 2, and optimum subdistrict is WCDMA-cell 1;
2, the signal quality of UE measurement target sub-district GSM-cell 1,2,3,6,7;
3, UE reports the measurement report of Target cell GSM-cell 1,2,3,6,7;
4, the measurement report that reports according to UE, RNC selects the Target cell of switching, such as GSM-cell 1 or GSM-cell 6, attempts switching;
If 5 handoff failures then return the measurement report of waiting for UE and trigger switching next time.
Switching in the prior art from WCDMA to GSM is based on measurement, needs the time and measure, and comprises the time delay of signaling update and the time of practical measurement requirement.Under some scene, such as setting up new business when core net (CN) request, but when current area can't be distributed resource requirement, measure the long time that just needs, and can not there be the very long stand-by period time of a Signalling exchange, can't satisfy the requirement of short time like this usually based on the switching mode of measuring.Core net is the framework notion in the WCDMA network, belongs to one of WCDMA network components, and this part and wireless access technology are irrelevant.For another example,, wish certain customers are switched in the GSM sub-district,, tend to cause the bigger system handles load and the loss of Radio Resource if use based on the switching mode of measuring this moment if because the current area load is heavier.
For blind switching mode, UE needn't measure the signal quality of Target cell, is determined whether switching by RNC fully, directly specifies UE to carry out retry in the target GSM sub-district of switching by RNC.In general, RNC can be according to the position at UE place, and whether decision switches, and the speed of switching is very fast.
And the difficult point of blind switching is how to determine the target GSM sub-district of switching, and makes the target GSM sub-district of switching adapt to the move variation that take place of actual application environment because of UE.Because in real network, a WCDMA sub-district often has a plurality of GSM adjacent area, and the moving direction difference of UE needs the target GSM sub-district of switching also different.RNC is difficult to obtain the information of UE moving direction in real network, may occur phenomenons such as call drop in the switching, and success rate for switching is low.Just because of this, under present condition, blind switching also is difficult in the actual network and is applied.
Summary of the invention
In view of this, main purpose of the present invention is to provide a kind of blind switching method from WCDMA to GSM, reduces handover delay and switches the untimely risk of dropped calls that causes.
For achieving the above object, the invention provides a kind of blind switching method from WCDMA to GSM, RNC specifies the priority of the GSM adjacent area of WCDMA sub-district in advance, and this handoff procedure may further comprise the steps at least:
A, according to the WCDMA sub-district that comprises in the active set, generate with reference to Candidate Set;
B, get the common factor with reference to the GSM adjacent area of all WCDMA sub-districts in the Candidate Set, the priority according to GSM sub-district in occuring simultaneously generates the target GSM sub-district retry Candidate Set that switches;
C, return sub-district in the retry Candidate Set of target GSM sub-district to core net (CN) and subscriber equipment (UE) successively, make UE attempt switching to the sub-district in the retry Candidate Set of target GSM sub-district.
In the such scheme, the designation method of the priority of described GSM adjacent area is: the probability that switches to the GSM sub-district according to needs in actual applications or the coverage of GSM sub-district and the coverage registration of WCDMA sub-district are specified, probability is big more or registration is high more, then specifies the priority of corresponding GSM sub-district just high more.
In the such scheme, described steps A comprises:
Optimum subdistrict in A1, the selection active set is put into reference to Candidate Set;
Non-optimum subdistrict in A2, the selection active set is put into reference to Candidate Set;
Whether A3, judgement surpass pre-configured " with reference to the Candidate Set size " with reference to number of cells in the Candidate Set, if surpass then from the reference Candidate Set, " with reference to the Candidate Set size " individual sub-district is as final reference Candidate Set before getting, and then this is exactly final reference Candidate Set with reference to Candidate Set if do not surpass.
In the such scheme, described generation is with reference to before the Candidate Set, RNC is according to calling time on each measurement report that writes down and the corresponding district sign, whether the measurement report of judging sub-district in the non-active set is effective: if measurement report is invalid, then, put into reference to Candidate Set directly with the WCDMA sub-district that comprises in the active set; If measurement report is effective, then obtain the measurement report of sub-district in the non-active set of network terminal buffer memory, and, with the WCDMA sub-district and the mapping value corresponding district that comprise in the active set, put into then with reference to Candidate Set according to the mapping value of measurement report calculation plot signal quality.
In the such scheme, the mapping value of described calculation plot signal quality may further comprise the steps:
C1, obtain current system time, calculate the cache-time of each cell measurement value in the measurement report;
C2, abandon the sub-district of cache-time greater than maximum effective time;
C3, cell measurement value, cache-time and linear factor substitution formula " mapping value=cell measurement value-cache-time (s) * linear factor (dB/s) ", calculate the mapping value of current cell signal quality;
C4, abandon the sub-district that mapping value is worse than pre-configured " with reference to the Candidate Set thresholding ";
C5, by the descending rank order mapping value corresponding district of mapping value.
In the such scheme, described the WCDMA sub-district and the mapping value corresponding district that comprise in the active set are put into reference to Candidate Set, be earlier the WCDMA sub-district that comprises in the active set to be put into reference to Candidate Set, and then the mapping value corresponding district is put into reference to Candidate Set successively by the size order of mapping value.
In the such scheme, described step B comprises:
B1, select common factor with reference to the GSM adjacent area of all WCDMA sub-districts in the Candidate Set;
B2, according to the priority of GSM sub-district, determine the selecting sequence of GSM sub-district in the active set optimum subdistrict, according to the selecting sequence of GSM sub-district in the active set optimum subdistrict, the selecting sequence of GSM sub-district in determine occuring simultaneously;
B3, will occur simultaneously by selecting sequence in the GSM sub-district put into target GSM sub-district retry Candidate Set;
B4, judge that whether the number of cells in the retry Candidate Set of target GSM sub-district surpasses pre-configured " GSM sub-district retry Candidate Set size ", if surpass then from the retry Candidate Set of target GSM sub-district, " GSM sub-district retry Candidate Set size " individual GSM sub-district is as the final target GSM sub-district retry Candidate Set that switches before getting, and this target GSM sub-district retry Candidate Set is exactly the final target GSM sub-district retry Candidate Set that switches if do not have to surpass then.
This method further comprises, the type of service that RNC sets up the CN current request before switching is adjudicated: UE present located WCDMA sub-district, if can not distribute enough resources for the type of service that the CN current request is set up, and the type of service that the CN current request is set up, in the GSM network, also can be supported, then carry out blind switching.UE present located WCDMA sub-district though can distribute enough resources for the type of service that the CN current request is set up, wishes the type of service that the CN current request is set up is put into the GSM network system; Then carry out blind switching.
The invention provides a kind of blind switching method from WCDMA to GSM.When from WCDMA to GSM, switching, need not UE the GSM sub-district is measured, reduced the time delay in the handoff procedure widely; RNC generates with reference to Candidate Set according to the WCDMA sub-district that comprises in the active set, gets the common factor with reference to a plurality of GSM adjacent area of WCDMA sub-district in the Candidate Set, generates the target GSM sub-district of switching; Thereby make full use of the existing information of current network, reduce handover delay and switch the untimely risk of dropped calls that causes.
Description of drawings
Fig. 1 is the schematic diagram of subscriber equipment place subdistrict position;
Fig. 2 is the blind switching method flow chart from WCDMA to GSM of a preferred embodiment of the present invention;
Fig. 3 is the flow chart that calculates cell signal quality mapping value in the preferred embodiment shown in Figure 2;
Fig. 4 is the flow chart that generates in the preferred embodiment shown in Figure 2 with reference to Candidate Set;
Fig. 5 is the flow chart that generates the target GSM sub-district retry Candidate Set that switches in the preferred embodiment shown in Figure 2.
Embodiment
For making the purpose, technical solutions and advantages of the present invention clearer, the embodiment that develops simultaneously with reference to the accompanying drawings is to further detailed explanation of the present invention.
RNC is each cell configuration neighboring GSM cell of WCDMA network in advance among the present invention, and specifies the priority of neighboring GSM cell.Convenient for statement herein, suppose the highest priority of 0 representative, the minimum priority of 64 representatives.The corresponding priority in each GSM sub-district, priority is high more, during blind the switching it is selected as the possibility of Target cell just big more.Specify the principle of neighboring GSM cell priority to be: need the probability that switches to the GSM sub-district big more in actual applications, perhaps the coverage registration of the coverage of GSM sub-district and WCDMA sub-district is high more, and then the priority of Dui Ying GSM sub-district is just high more.
In schematic diagram shown in Figure 1, RNC is GSM 6,1,3,2,7 for the GSM adjacent area of WCDMA-cell 1 configuration in advance, and specifies the priority of GSM 6,1,3,2,7 to be respectively 0,1,2,3,4 according to the principle of above-mentioned assigned priority; RNC is GSM-cell 1,3,4,5,6 for the GSM adjacent area of WCDMA-cell 2 configurations in advance, and specifies the priority of GSM-cell 1,3,4,5,6 to be respectively 0,1,2,3,4 according to the principle of above-mentioned assigned priority.
When the present invention is switched at needs, RNC generates with reference to Candidate Set according to the WCDMA sub-district that comprises in the active set, gets the common factor with reference to a plurality of GSM adjacent area of WCDMA sub-district in the Candidate Set, generates the target GSM sub-district of switching, according to the height of target GSM native region priority, UE attempts switching successively.
The measurement report that network terminal buffer memory UE reports, and write down each measurement report on call time and corresponding district sign; The measurement report of buffer memory is that UE stipulates according to agreement 25.33 1, to the same-frequency measure reporting that the WCDMA sub-district is measured in good time, adopts during buffer memory to cover preserving type, and the measurement report that the back is surveyed covers its preceding measurement report.
When UE moves to as shown in Figure 1 position, the RNC of WCDMA network system adjudicates the type of service that the CN current request is set up: UE present located WCDMA sub-district, if can not distribute enough resources for the type of service that the CN current request is set up, and the type of service that the CN current request is set up also can be supported in the GSM network; Perhaps UE present located WCDMA sub-district, though can distribute enough resources for the type of service that the CN current request is set up, but be based on the purpose that maximally utilises existing GSM Internet resources, the type of service that the CN current request is set up in hope is put into the GSM network system, then can carry out blind switching.
See also Fig. 2, Fig. 2 is the blind switching method flow chart from WCDMA to GSM of a preferred embodiment of the present invention, and this method may further comprise the steps at least:
Step 201:RNC generates with reference to Candidate Set according to the WCDMA sub-district that comprises in the active set;
Before generating with reference to Candidate Set, RNC is according to calling time on each measurement report that writes down and the corresponding district sign, whether the measurement report of judging sub-district in the non-active set is effective: if the reason measurement report is invalid because of cache-time is overtime etc., then, generate with reference to Candidate Set directly according to the WCDMA sub-district that comprises in the active set; If measurement report is effective, then obtain the measurement report of sub-district in the non-active set of network terminal buffer memory, and,, generate with reference to Candidate Set then according to WCDMA sub-district that comprises in the active set and mapping value corresponding district according to the mapping value of measurement report calculation plot signal quality;
Step 202: get the common factor with reference to the GSM adjacent area of all WCDMA sub-districts in the Candidate Set, the priority according to GSM sub-district in occuring simultaneously generates the target GSM sub-district retry Candidate Set that switches;
Step 203: return sub-district in the retry Candidate Set of target GSM sub-district to CN and UE successively, make UE attempt switching to the sub-district in the retry Candidate Set of target GSM sub-district.
Step 201 in Fig. 2 generates with reference to before the Candidate Set, if the measurement report of network terminal buffer memory is effective, the process of the mapping value of calculation plot signal quality as shown in Figure 3, Fig. 3 is the flow chart that calculates cell signal quality mapping value in the preferred embodiment shown in Figure 2, and this flow chart further may further comprise the steps:
Step 301: obtain current system time, the cache-time of each cell measurement value in the measurement report of calculating buffer memory;
Step 302: abandon cache-time greater than the maximum sub-district of effective time, be configurable parameter maximum effective time, can be according to the actual application environment adjustment;
Step 303:, calculate the mapping value of current cell signal quality cell measurement value, cache-time and linear factor substitution formula " mapping value=cell measurement value-cache-time (s) * linear factor (dB/s) ";
Wherein, the cell measurement value is the signal to noise ratio (E of the pilot channel (CPICH) of agreement 25.33 1 regulations
c/ N
0); Linear factor is to be used to estimate the UE measured signal strengths rate of decay in time, and unit is dB/s; The signal fadeout feature of sub-district environment of living in and the translational speed of UE are mainly considered in the configuration of linear factor, move with the speed of 100km/h such as UE, the distance that moved in 2 seconds is about 55m, and the path loss of 50m is-1.92dB in the macrocell model, be the path-loss difference at 400m and 450m place in the macrocell model, linear factor can be similar to and be taken as 1dB/s thus; The macrocell model is calibrated path loss model;
Step 304: abandon the sub-district that mapping value is worse than pre-configured " with reference to the Candidate Set thresholding "; " with reference to the Candidate Set thresholding " is configurable parameter, can be according to the actual application environment adjustment;
Step 305: by the descending rank order mapping value corresponding district of mapping value, wherein top-quality sub-district is represented in first sub-district.
Step 201 among Fig. 2 generates with reference to the process of Candidate Set as shown in Figure 4, and Fig. 4 be that generation is with reference to the flow chart of Candidate Set in the preferred embodiment shown in Figure 2, and this flow chart further may further comprise the steps:
Step 401: select the optimum subdistrict in the active set to put into reference to Candidate Set;
At schematic diagram shown in Figure 1, the optimum subdistrict in the active set is WCDMA-cell1 in the present embodiment, so select WCDMA-cell 1 to put into reference to Candidate Set;
Step 402: select the non-optimum subdistrict in the active set to put into reference to Candidate Set; At schematic diagram shown in Figure 1, select WCDMA-cell 2 to put in the present embodiment with reference to Candidate Set;
Step 403~405: judge with reference to number of cells in the Candidate Set whether surpass pre-configured " with reference to the Candidate Set size ", then get preceding " with reference to the Candidate Set size " individual sub-district as final reference Candidate Set if surpass, then this is exactly final reference Candidate Set with reference to Candidate Set if do not surpass; " with reference to the Candidate Set size " is configurable parameter, can adjust the scope that generates Candidate Set by this parameter.
If the measurement report of network terminal buffer memory is effective, calculate after the mapping value of cell signal quality, also should be before step 403, select corresponding with ordering mapping value sub-district, and by mapping value from high to low in proper order successively will be corresponding with mapping value the sub-district put into reference to Candidate Set;
The process of the target GSM sub-district retry Candidate Set that step 203 generate to be switched among Fig. 2 as shown in Figure 5, Fig. 5 be the flow chart that generates the target GSM sub-district retry Candidate Set of switching in the preferred embodiment shown in Figure 2, this flow chart further may further comprise the steps:
Step 501: select common factor with reference to the GSM adjacent area of all WCDMA sub-districts in the Candidate Set;
In the present embodiment at schematic diagram shown in Figure 1, with reference to 2 two WCDMA sub-districts of WCDMA-cell 1 and WCDMA-cell are arranged in the Candidate Set; The GSM adjacent area of WCDMA-cell 1 is GSM-cell 1,2,3,6,7, and the GSM adjacent area of WCDMA-cell 2 is GSM-cell 1,3,4,5,6, and then the common factor of the GSM adjacent area of WCDMA-cell1 and WCDMA-cell 2 is GSM-cell 1,3,6;
Step 502: according to the selecting sequence of GSM sub-district in the active set optimum subdistrict, the selecting sequence of GSM sub-district in determining to occur simultaneously;
Described according to preamble, according to the height of priority, its selecting sequence is GSM-cell 6,1,3 to common factor GSM-cell 1,3,6 in WCDMA-cell 1, and according to the height of priority, its selecting sequence is GSM-cell 1,3,6 in WCDMA-cell 2; And the selecting sequence of GSM sub-district should be determined according to the selecting sequence of GSM sub-district in the active set optimum subdistrict in occuring simultaneously in occuring simultaneously, WCDMA-cell 1 is the optimum subdistrict in the active set, so the selecting sequence of GSM-cell 1,3,6 should be determined according to the selecting sequence of GSM-cell 1,3,6 in WCDMA-cell 1 in occuring simultaneously: promptly the selecting sequence of GSM-cell 1,3,6 is GSM-cell 6,1,3;
Step 503: target GSM sub-district retry Candidate Set is put in the GSM sub-district in will occuring simultaneously by selecting sequence; At schematic diagram shown in Figure 1, GSM-cell 6,1,3 is put into target GSM sub-district retry Candidate Set successively in the present embodiment;
Step 504~506: judge whether the number of cells in the retry Candidate Set of target GSM sub-district surpasses pre-configured " GSM sub-district retry Candidate Set size ", if as the final target GSM sub-district retry Candidate Set that switches, this target GSM sub-district retry Candidate Set is exactly the final target GSM sub-district retry Candidate Set that switches as if not having to surpass then above " GSM sub-district retry Candidate Set size " individual GSM sub-district before just getting; " GSM sub-district retry Candidate Set size " is configurable parameter, can adjust the scope that generates Candidate Set by this parameter;
At schematic diagram shown in Figure 1, the number of supposing maximum switching target small area collection is 3 in the present embodiment, and the set that the GSM-cell 6,1,3 that then occurs simultaneously forms is the target GSM sub-district retry Candidate Set of switching.
In the present embodiment at schematic diagram shown in Figure 1, generate after the target GSM sub-district retry Candidate Set that switches, selecting sequence according to GSM-cell 6,1,3 in the retry Candidate Set of target GSM sub-district, at first select GSM-cell 6 as the Target cell that switches, return GSM-cell6 by signaling to CN and UE, make UE attempt switching to GSM-cell 6; If handoff failure in GSM-cell 6 returns GSM-cell 1 as the Target cell that switches by signaling to CN and UE again, make UE attempt switching to GSM-cell 1, and the like, up to handover success or till all failing.
The invention provides a kind of blind switching method from WCDMA to GSM.When from WCDMA to GSM, switching, need not UE the GSM sub-district is measured, reduced the time delay in the handoff procedure widely; RNC generates with reference to Candidate Set according to the WCDMA sub-district that comprises in the active set, gets the common factor with reference to a plurality of GSM adjacent area of WCDMA sub-district in the Candidate Set, generates the target GSM sub-district of switching; Priority attribute among the present invention improves operating personnel's application flexibility and to the controllability of algorithm in real network; The present invention makes full use of existing GSM Internet resources, reduces handover delay, switches the untimely risk of dropped calls that causes thereby reduce.
Above-described specific embodiment; purpose of the present invention, technical scheme and beneficial effect are further described; institute is understood that; the above only is specific embodiments of the invention; be not limited to the present invention; within the spirit and principles in the present invention all, any modification of being made, be equal to replacement, improvement etc., all should be included within protection scope of the present invention.
Claims (9)
1, a kind of blind switching method from broadband CDMA system WCDMA to global system for mobile communications GSM is characterized in that, radio network controller (RNC) is specified the priority of the GSM adjacent area of WCDMA sub-district in advance, and this handoff procedure may further comprise the steps at least:
A, according to the WCDMA sub-district that comprises in the active set, generate with reference to Candidate Set;
B, get the common factor with reference to the GSM adjacent area of all WCDMA sub-districts in the Candidate Set, the priority according to GSM sub-district in occuring simultaneously generates the target GSM sub-district retry Candidate Set that switches;
C, return sub-district in the retry Candidate Set of target GSM sub-district to core net CN and user equipment (UE) successively, make UE attempt switching to the sub-district in the retry Candidate Set of target GSM sub-district.
2, blind switching method according to claim 1, the designation method that it is characterized in that the priority of described GSM adjacent area is: the probability that switches to the GSM sub-district according to needs in actual applications or the coverage of GSM sub-district and the coverage registration of WCDMA sub-district are specified, probability is big more or registration is high more, then specifies the priority of corresponding GSM sub-district just high more.
3, blind switching method according to claim 1 is characterized in that described steps A comprises:
Optimum subdistrict in A1, the selection active set is put into reference to Candidate Set;
Non-optimum subdistrict in A2, the selection active set is put into reference to Candidate Set;
Whether A3, judgement surpass pre-configured " with reference to the Candidate Set size " with reference to number of cells in the Candidate Set, if surpass then from the reference Candidate Set, " with reference to the Candidate Set size " individual sub-district is as final reference Candidate Set before getting, and then this is exactly final reference Candidate Set with reference to Candidate Set if do not surpass.
4, blind switching method according to claim 1, it is characterized in that, before described generation is with reference to Candidate Set, RNC is according to calling time on each measurement report that writes down and the corresponding district sign, whether the measurement report of judging sub-district in the non-active set is effective: if measurement report is invalid, then, put into reference to Candidate Set directly with the WCDMA sub-district that comprises in the active set; If measurement report is effective, then obtain the measurement report of sub-district in the non-active set of network terminal buffer memory, and, with the WCDMA sub-district and the mapping value corresponding district that comprise in the active set, put into then with reference to Candidate Set according to the mapping value of measurement report calculation plot signal quality.
5, blind switching method according to claim 4 is characterized in that the mapping value of described calculation plot signal quality may further comprise the steps:
C1, obtain current system time, calculate the cache-time of each cell measurement value in the measurement report;
C2, abandon the sub-district of cache-time greater than maximum effective time;
C3, cell measurement value, cache-time and linear factor substitution formula " mapping value=cell measurement value-cache-time (s) * linear factor (dB/s) ", calculate the mapping value of current cell signal quality;
C4, abandon the sub-district that mapping value is worse than pre-configured " with reference to the Candidate Set thresholding ";
C5, by the descending rank order mapping value corresponding district of mapping value.
6, according to claim 4 or 5 described blind switching methods, it is characterized in that described the WCDMA sub-district and the mapping value corresponding district that comprise in the active set being put into reference to Candidate Set, be earlier the WCDMA sub-district that comprises in the active set to be put into reference to Candidate Set, and then the mapping value corresponding district is put into reference to Candidate Set successively by the size order of mapping value.
7, blind switching method according to claim 1 is characterized in that described step B comprises:
B1, select common factor with reference to the GSM adjacent area of all WCDMA sub-districts in the Candidate Set;
B2, according to the priority of GSM sub-district, determine the selecting sequence of GSM sub-district in the active set optimum subdistrict, according to the selecting sequence of GSM sub-district in the active set optimum subdistrict, the selecting sequence of GSM sub-district in determine occuring simultaneously;
B3, will occur simultaneously by selecting sequence in the GSM sub-district put into target GSM sub-district retry Candidate Set;
B4, judge that whether the number of cells in the retry Candidate Set of target GSM sub-district surpasses pre-configured " GSM sub-district retry Candidate Set size ", if surpass then from the retry Candidate Set of target GSM sub-district, " GSM sub-district retry Candidate Set size " individual GSM sub-district is as the final target GSM sub-district retry Candidate Set that switches before getting, and this target GSM sub-district retry Candidate Set is exactly the final target GSM sub-district retry Candidate Set that switches if do not have to surpass then.
8, blind switching method according to claim 1, it is characterized in that this method further comprises, the type of service that RNC sets up the CN current request before switching is adjudicated: UE present located WCDMA sub-district, if can not distribute enough resources for the type of service that the CN current request is set up, and the type of service that the CN current request is set up, in the GSM network, also can be supported, then carry out blind switching.
9, blind switching method according to claim 1, it is characterized in that this method further comprises, the type of service that RNC sets up the CN current request before switching is adjudicated: UE present located WCDMA sub-district, though can distribute enough resources for the type of service that the CN current request is set up, but wish the type of service that the CN current request is set up is put into the GSM network system, then carry out blind switching.
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Cited By (7)
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CN100466822C (en) * | 2006-11-27 | 2009-03-04 | 华为技术有限公司 | Method and apparatus for selecting target cell |
CN101072436B (en) * | 2007-03-29 | 2012-02-29 | 北京邮电大学 | Two-hop cellular relay network switching method for base station integrated control |
WO2013034051A1 (en) * | 2011-09-08 | 2013-03-14 | 中兴通讯股份有限公司 | Method and system for processing measurement report, radio network controller, user equipment |
WO2016141651A1 (en) * | 2015-03-09 | 2016-09-15 | 中兴通讯股份有限公司 | Blind handover or blind redirection method and apparatus in mobile communications system |
CN110876167A (en) * | 2018-08-29 | 2020-03-10 | 中国移动通信集团山西有限公司 | Method, device, equipment and medium for determining pilot frequency load balancing threshold |
CN111050352A (en) * | 2019-12-27 | 2020-04-21 | 京信通信系统(中国)有限公司 | Terminal mobility interoperation method and network equipment |
WO2022214094A1 (en) * | 2021-04-09 | 2022-10-13 | 华为技术有限公司 | Network handover method and apparatus |
Family Cites Families (5)
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US6201969B1 (en) * | 1998-06-02 | 2001-03-13 | Lucent Technologies Inc. | Control of handoff in CDMA cellular systems |
US7072656B2 (en) * | 1999-03-16 | 2006-07-04 | Telefonaktiebolaget Lm Ericsson (Publ) | Handover in a shared radio access network environment using subscriber-dependent neighbor cell lists |
CN1148096C (en) * | 2000-03-02 | 2004-04-28 | 上海大唐移动通信设备有限公司 | Switching method based on native region priority for mobile communication system |
US6836471B2 (en) * | 2001-02-02 | 2004-12-28 | Nokia Mobile Phones Ltd. | Method and system for inter-operator handover between WCDMA and GSM |
DE10228885B4 (en) * | 2002-06-27 | 2006-09-21 | T-Mobile Deutschland Gmbh | Method for performing a blind handover for inter-system and inter-frequency handover in mobile communication systems |
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Cited By (11)
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CN100466822C (en) * | 2006-11-27 | 2009-03-04 | 华为技术有限公司 | Method and apparatus for selecting target cell |
CN101072436B (en) * | 2007-03-29 | 2012-02-29 | 北京邮电大学 | Two-hop cellular relay network switching method for base station integrated control |
WO2013034051A1 (en) * | 2011-09-08 | 2013-03-14 | 中兴通讯股份有限公司 | Method and system for processing measurement report, radio network controller, user equipment |
CN103002496A (en) * | 2011-09-08 | 2013-03-27 | 中兴通讯股份有限公司 | Measurement report processing method, measurement report processing RNC (radio network controller) and measurement report processing system |
CN103002496B (en) * | 2011-09-08 | 2017-08-25 | 中兴通讯股份有限公司 | measurement report processing method, RNC and system |
WO2016141651A1 (en) * | 2015-03-09 | 2016-09-15 | 中兴通讯股份有限公司 | Blind handover or blind redirection method and apparatus in mobile communications system |
CN110876167A (en) * | 2018-08-29 | 2020-03-10 | 中国移动通信集团山西有限公司 | Method, device, equipment and medium for determining pilot frequency load balancing threshold |
CN110876167B (en) * | 2018-08-29 | 2022-02-01 | 中国移动通信集团山西有限公司 | Method, device, equipment and medium for determining pilot frequency load balancing threshold |
CN111050352A (en) * | 2019-12-27 | 2020-04-21 | 京信通信系统(中国)有限公司 | Terminal mobility interoperation method and network equipment |
CN111050352B (en) * | 2019-12-27 | 2022-02-25 | 京信网络系统股份有限公司 | Terminal mobility interoperation method and network equipment |
WO2022214094A1 (en) * | 2021-04-09 | 2022-10-13 | 华为技术有限公司 | Network handover method and apparatus |
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