CN101207885A - Method and equipment for sending measurement control information - Google Patents
Method and equipment for sending measurement control information Download PDFInfo
- Publication number
- CN101207885A CN101207885A CNA2006101722335A CN200610172233A CN101207885A CN 101207885 A CN101207885 A CN 101207885A CN A2006101722335 A CNA2006101722335 A CN A2006101722335A CN 200610172233 A CN200610172233 A CN 200610172233A CN 101207885 A CN101207885 A CN 101207885A
- Authority
- CN
- China
- Prior art keywords
- control information
- message
- measuring control
- adjacent area
- sib11
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Images
Landscapes
- Mobile Radio Communication Systems (AREA)
Abstract
The invention relates to the wireless communications field, which discloses a method for sending the measure control information and the device thereof; therefore the system message is ensured to be correctly transferred, and the network can at most configure the neighboring. In the invention, if the measure and control information to send includes more than two neighboring types; and the measure control information is sent via at least two system messages. The two system messages used for sending the measure control information can be both SIB11; or can be respectively SIB11 and other predefined messages; wherein, the other predefined message can the exactly the same with the structure of SIB11 message; or substantially the same with the only distinction that in the structure of other predefined messages, the information element of the neighboring type measure control information carried by the SIB11 message is deleted.
Description
Technical field
The present invention relates to wireless communication field, particularly the measuring control information transmission technology.
Background technology
Along with development of science and technology, communication the passed by first generation and the second generation enter period of the third generation.First generation mobile communication system is the cell mobile communication systems of simulation standard, the time be this century middle nineteen seventies to the eighties mid-term; Second generation mobile communication system is a purpose with transporting speech and low-speed data service, therefore is called the narrow-band digital communication system again; Developed into the 3rd mobile communication system (ThirdGeneration Mobile Communications System is called for short " 3G ") at present, target is wideband multimedia communication.
The target of 3G system is: the height consistency in the world wide in the design; Compatible with the fixed network miscellaneous service; High quality-of-service; The little terminal of using in the global range; Has the global roaming ability; Support multimedia function and extensively professional terminal.
The 3G system is huge, a complicated system, in view of structure, mainly comprise 4 main bodys: base station sub-system (Base Station Subsystem, abbreviation " BSS "), network and switching subsystem (Network SwitchSubsystem, abbreviation " NSS "), operation subsystem (Operating SubSystem, be called for short " OSS ") and subscriber equipment (User Equipment is called for short " UE ").Wherein base station sub-system BSS provides relaying between the standing part of mobile communications network and wireless portion, on the one hand BSS directly communicates to connect with the UE realization by wave point, BSS is connected to the mobile services switching centre (Mobile SwitchCenter is called for short " MSC ") of network terminal again on the other hand.
In the 3G system, system message is used for transfer system block of information, by broadcast channel (BroadcastChannel is called for short " BCH ") transmission (except system information block type 10 message of (System Information Blocktype 10 is called for short " SIB10 ")).The size of system message need conform to the transmission block size of the channel that is used to transmit this message.If the system message after encoded is excessive or too small, then need to cut apart accordingly or serial operation.
The agreement regulation if surpassed 226 bits after the system information block encoding, then needs this system message segmentation.And any system message type, can only be divided into 16 sections at most, the size of each section is 222 bits to the maximum.This shows that the maximum length of the system message of any type is restricted.If surpass 16 * 222, i.e. 3552 bits, system message update flow process failure so, and then cause UE correctly to be linked in the 3G network.Because system message is through behind compressed encoding rule (Packed EncodingRules is called for short " the PER ") coding, send to UE again, therefore, can be understood as the code stream maximum length of system message after and can not surpass 3552 bits through the PER coding.
The system message of (System Information Block type 11 is called for short " SIB11 ") that system information block type is 11 is used for UE and carries out cell selecting.The structure of SIB11 is as shown in table 1, comprises the measuring control information (thickened portion) with frequency, alien frequencies, different system adjacent area.
| Information Element/Group name (information element/group name) | Need (necessity) | Multi | Type and reference (type) | Semantics description (semantic description) |
| SIB 12 Indicator | MP (essential) | Boolean (Boolean type) | TRUE indicates that SIB12 is broadcast in the cell. (for true time is indicated SIB12 at Cell Broadcast CB) | |
| Measurement information elements (metrical information element) | ||||
| FACH measurement occasion info (machine information when FACH measures) | OP (optional) | FACH measurement occasion info 10.3.7.8 | ||
| Measurement control system information | MP (essential) | Measurement control system information |
| Information Element/Group name (information element/group name) | Need (necessity) | Multi | Type and reference (type) | Semantics description (semantic description) |
| (measuring control information) | 10.3.7.47 |
Table 1
The content that measuring control information comprises is as shown in table 2:
| Information element/Group name (information element/group name) | Need (necessity) | Multi | Type and reference (type) | Semantics description (semantic description) |
| Use of HCS (whether layered cell structure uses) | MP (essential) | Enumerated (Not used, used) (enumerate (need not, with)) | Indicates if the serving cell belongs to a HCS structure (whether Serving cell belongs to the layered cell structure indication) | |
| Cell selection and reselection quality measure (cell selecting and gravity treatment mass measurement) | MP (essential) | Enumerated (CPICH Ec/N0, CPICH RSCP) (enumerating (CPICH Ec/N0, CPICH RSCP)) | Choice of measurement (CPICH Ec/N0 or CPICH RSCP)to use as quality measure Q. NOTE:For TDD,each choice of this parameter represents PCCPCH RSCP. | |
| Intra-frequency measurement system | OP (optional) | Intra-frequency measurement system |
| Information (homogeneous-frequency adjacent-domain) | information 10.3.7.40 | |||
| Inter-frequency measurement system information (alien frequencies adjacent area) | OP (optional) | Inter-frequency measurement system information 10.3.7.20 | ||
| Inter-RAT measurement system information (different system adjacent area) | OP (optional) | Inter-RAT measurement system information 10.3.7.31 | ||
| Traffic volume measurement system information (transmission quantity measuring system information) | OP (optional) | Traffic volume measurement system information 10.3.7.73 |
Table 2
For for example, it comprises homogeneous-frequency adjacent-domain tabulation (Intra-frequency cell info list) (thickened portion), and is as shown in table 3 with Intra-frequency measurement system information (homogeneous-frequency adjacent-domain).
| Information Element/Group name (information element/group name) | Need (necessity) | Multi | Type and reference (type) | Semantics description (semantic description) |
| Intra-frequency measurement identity (homogeneous-frequency adjacent-domain is measured sign) | MD (essential) | Measurement identity (measuring sign) 10.3.7.48 | The intra-frequenc y measurement identity has default value 1. (homogeneous-frequency adjacent-domain is measured the default value of sign) |
| Intra-frequency cell info list (homogeneous-frequency adjacent-domain tabulation) | OP (optional) | Intra-frequency cell info list 10.3.7.33 | ||
| Intra-frequency measurement quantity (homogeneous-frequency adjacent-domain measurement quality) | OP (optional) | Intra-frequency measurement quantity 10.3.7.38 | ||
| Intra-frequency reporting quantity for RACH Reporting (the RACH report quality of homogeneous-frequency adjacent-domain) | OP (optional) | Intra-frequency reporting quantity for RACH Reporting 10.3.7.42 | ||
| Maximum number of reported cells on RACH (the largest cell number of reports on the RACH) | OP (optional) | Maximum number of reported cells on RACH 10.3.7.43 | ||
| Reporting information for state CELL_DCH (report information of the CELL_DCH of regulation) | OP (optional) | Reporting information for state CELL_DCH 10.3.7.62 | Note 1 |
Table 3
The structure of homogeneous-frequency adjacent-domain tabulation is as shown in table 4, comprises new homogeneous-frequency adjacent-domain (New intra-frequencycells) (thickened portion).
| Information Element/Group name (information element/group name) | Need (necessity) | Multi | Type and reference (type) | Semantics description (semantic description) |
| CHOICE Intra-frequency cell removal | OP (optional) | Absence of this IE is equivalent to choice ″Remove no |
| (the same frequency district that selection removes) | Intra-frequency cells ". (not having the homogeneous-frequency adjacent-domain that this information element is equivalent to not remove) | |||
| >Remove all intra-frequency cells (removing all homogeneous-frequency adjacent-domains) | No data (free of data) | |||
| >Remove some intra-frequency cells (removing the part homogeneous-frequency adjacent-domain) | ||||
| >>Removed intra-frequency cells (removing homogeneous-frequency adjacent-domain) | MP (essential) | 1 to <maxCel lMeas> | ||
| The Intra-frequency cell id of>>>(homogeneous-frequency adjacent-domain sign) | MP (essential) | Integer(0.. <maxCellMea s>-1) | ||
| >Remove no intra-frequency cells (homogeneous-frequency adjacent-domain that does not remove) | ||||
| New intra-frequency cells (new homogeneous-frequency adjacent-domain) | OP (optional) | 1 to <maxCel lMeas> | This information element must be present when " Intra-frequency cell info list " is included in the system information (this information element must exist when relating to the homogeneous-frequency adjacent-domain tabulation in the system information) | |
| >Intra-frequency cell id (homogeneous-frequency adjacent-domain sign) | OP (optional) | Integer(0.. <maxCellMea |
| s>-1) | ||||
| >Cell info | MP (essential) | Cell info 10.3.7.2 | This IE must be included for the serving cell when the IE " Intra frequency cell info list " is included in System Information Block type 11. (this information element must be related in Serving cell when relating to the homogeneous-frequency adjacent-domain tabulation among the SIB11) | |
| Cells for measurement (sub-district of measurement) | CV-BCHopt | 1 to <maxCel 1Meas> | ||
| >Intra-frequency cell id (homogeneous-frequency adjacent-domain sign) | MP (essential) | Integer(0.. <maxCellMea s>-1) |
Table 4
Wherein, the number number scope of new homogeneous-frequency adjacent-domain is 1 to<maxCellMeas 〉, the maximum number of maxCellMeas is 32.That is to say, can comprise the measuring control information of 32 homogeneous-frequency adjacent-domains among the SIB11 at most.The measuring control information that can comprise equally, 32 alien frequencies adjacent areas among the SIB11 at most; The measuring control information of 32 different system adjacent areas does not repeat them here.
But because system message is by length restriction, in case the length of encoded back system message surpasses 3552 bits, then this message can't correctly be transmitted, and causes the more new technological process failure of system message.And SIB11 is provided with by man-machine interface by radio network controller, and the operator only follows homogeneous-frequency adjacent-domain, alien frequencies adjacent area, different system adjacent area and is no more than 32 agreement regulation separately when being provided with.If the same frequency among the SIB11, the number of alien frequencies and different system adjacent area all reaches maximum number 32, and then therefore the SIB11 length of carrying out behind the PER coding will, will cause the more new technological process failure of system message considerably beyond 3552.
On the other hand because the complexity of PER coding rule, the operator when the adjacent area number is set, can't know be set to what adjacent areas after, the code stream length behind the coding can satisfy the requirement less than 3552 bits.Therefore after the operator is provided with homogeneous-frequency adjacent-domain, alien frequencies adjacent area, different system adjacent area, can't know that system message update will successfully still fail, will cause the stable inadequately problem of system.
Summary of the invention
The technical problem underlying that each execution mode of the present invention will solve provides a kind of measuring control information sending method and equipment thereof, makes that system message can guarantee correctly to be transmitted, and network side configuring adjacent cell as much as possible.
For solving the problems of the technologies described above, embodiments of the present invention provide a kind of measuring control information sending method, comprise following steps:
If the adjacent area type that measuring control information to be sent comprises greater than 2 kinds, then sends this measuring control information by at least 2 system messages.
Embodiments of the present invention also provide a kind of measuring control information transmitting apparatus, comprise:
Judge module is used to judge that whether adjacent area type that measuring control information to be sent comprises is greater than 2 kinds;
Sending module is used for when judge module judges that adjacent area type that measuring control information to be sent comprises is greater than 2 kinds measuring control information being sent by at least 2 system messages.
Each execution mode of the present invention compared with prior art, the main distinction and effect thereof are:
If the adjacent area type that measuring control information to be sent comprises greater than 2 kinds, then sends this measuring control information by at least 2 system messages.Because the encoded back of system message maximum must not surpass 3552 bits, if surpassed 3552 bits, then this system message is with bust this.Therefore, when adjacent area type that measuring control information comprises during greater than 2 kinds, share information by a plurality of system messages, guaranteed that the length of system message after encoded is less than 3552 bits, thereby make system message correctly to transmit, and, also need not the configuration of adjacent area is limited, and can configuring adjacent cell as much as possible.
2 system messages that are used to send measuring control information can be SIB11; Also can be respectively SIB11 and predefined other message.Wherein, predefined other message can be identical with the structure of SIB11 message; Also can be basic identical, difference only is in the structure of this predefined other message, the information element of the adjacent area categorical measures control information that deletion is used to represent that this SIB11 message is carried.For the present invention program provides multiple specific implementation.
Description of drawings
Fig. 1 is the measuring control information sending method flow chart according to first embodiment of the invention;
Fig. 2 is the measuring control information sending method flow chart according to third embodiment of the invention.
Embodiment
For making the purpose, technical solutions and advantages of the present invention clearer, the present invention is described in further detail below in conjunction with accompanying drawing.
In an embodiment of the present invention, when adjacent area type that measuring control information to be sent comprises during, this measuring control information is sent to UE by at least 2 system messages greater than 2 kinds.2 system messages can be respectively SIB11 and predefined other message; Also can be SIB11.
Below first execution mode of the present invention is elaborated, present embodiment relates to the measuring control information sending method, in the present embodiment, when adjacent area type that measuring control information to be sent comprises during greater than 2 kinds, send measuring control information by SIB11 and predefined other message, idiographic flow as shown in Figure 1.
In step 110, network side judges that whether adjacent area type that measuring control information to be sent comprises is greater than 2 kinds.Wherein, the adjacent area type is homogeneous-frequency adjacent-domain type, alien frequencies adjacent area type or different system adjacent area type.If the adjacent area type that measuring control information to be sent comprises then enters step 120 greater than 2 kinds, otherwise enters step 140, measuring control information to be sent by system message SIB11, is sent to UE.
In step 120, network side is shared the measuring control information of part type adjacent area by predefined other message.Such as, the adjacent area type that measuring control information comprises has homogeneous-frequency adjacent-domain, alien frequencies adjacent area and different system adjacent area, then carried the measuring control information of alien frequencies adjacent area by predefined other message, SIB11 only is used to send the measuring control information of homogeneous-frequency adjacent-domain and the measuring control information of different system adjacent area.Predefined other message can be the extra a kind of system message type SIB11bis that increases, and is used for carrying the measuring control information of alien frequencies adjacent area specially, does not carry the measuring control information of homogeneous-frequency adjacent-domain and different system adjacent area.
Be not difficult to find, because SIB11bis has shared the former part control information that should transmit in SIB11, therefore, even with frequently, when the number of alien frequencies and different system adjacent area all reaches 32, no matter be SIB11 or SIB11bis, the length after encoding has guaranteed the correct transmission of system message still all less than 3552 bits.And, because the measuring control information of alien frequencies adjacent area is carried by SIB11bis, therefore need not all types of neighbor cell configuration is limited, that is to say that with frequently, the number of alien frequencies and different system adjacent area can surpass 32 respectively, with configuring adjacent cell as much as possible.
In the present embodiment, the structure of SIB11bis and the structure of SIB11 are identical, this SIB11bis is when carrying out the PER coding, because homogeneous-frequency adjacent-domain and different system neighboring BS information do not dispose, so just can not comprise these information in the PER code stream, that is to say, under the situation of not changing the existing protocol data structure, reduce code stream length by disposing less measuring control information, the length that guarantees coding back SIB11bis makes that less than 3552 bits present embodiment is easy to realize.
Then, enter step 130, network side sends to UE with SIB11bis and SIB11.Specifically, network side will be handed down to UE by the BCH transmission channel through SIB11bis and the SIB11 behind the PER coding.If will surpass 226 bits through SIB11bis or the SIB11 behind the PER coding, then need and will surpass the SIB11bis or the SIB11 segmentation of 226 bits, the size of each section is 222 bits to the maximum.
Need to prove, what present embodiment was shared with SIB11bis is that the measuring control information of alien frequencies adjacent area among the SIB11 is that example describes, certainly, what SIB11bis carried also can be the measuring control information of homogeneous-frequency adjacent-domain among the SIB11, SIB11 only is used to send the measuring control information of alien frequencies adjacent area and the measuring control information of different system adjacent area, the measuring control information of not carrying homogeneous-frequency adjacent-domain; Or what SIB11bis carried is the measuring control information of different system adjacent area among the SIB11, and what SIB11 transmitted is the measuring control information of alien frequencies adjacent area and the measuring control information of homogeneous-frequency adjacent-domain, does not carry the measuring control information of different system adjacent area.Perhaps, what SIB11bis shared is the measuring control information of two kinds of adjacent area types among the SIB11, and SIB11 only is used to send the measuring control information of a kind of adjacent area of residue type, and method and present embodiment are identical, do not enumerate one by one at this.
Second execution mode of the present invention relates to the measuring control information sending method, the present embodiment and first execution mode are roughly the same, its difference only is, in the first embodiment, the structure of sharing the structure of SIB11bis of measuring control information of part type adjacent area and SIB11 is identical, and in the present embodiment, structure and the SIB11 of SIB11bis are basic identical, but slightly have any different, its difference only is, deletion is used to represent that is to say that by the information element of the measuring control information of the part type adjacent area of SIB11 transmission only the part at measuring control information institute content is slightly different with SIB11 for SIB11bis in SIB11bis.Such as, what SIB11bis shared is the measuring control information of alien frequencies adjacent area among the SIB11, what transmit among the SIB11 is the measuring control information of homogeneous-frequency adjacent-domain and the measuring control information of different system adjacent area, so, the content that measuring control information comprises among the SIB11bis is as shown in table 5, has deleted homogeneous-frequency adjacent-domain and different system neighboring BS information (thickened portion).
| Information element/Group name (information element/group name) | Need (necessity) | Multi | Type and reference (type) | Semanticsdescription (semantic description) |
| Use of HCS (whether layered cell structure uses) | MP (essential) | Enumerated (Not used, used) (enumerate (need not, with)) | Indicates if theserving cellbelongs to aHCS structure (whether Serving cell belongs to the layered cell structure indication) | |
| Cell selection and reselection quality | MP (essential) | Enumerated(CPICH Ec/N0,CPICH RSCP) | Choice ofmeasurement |
| Measure (cell selecting and gravity treatment mass measurement) | (enumerating (CPICH Ec/N0, CPICH RSCP)) | (CPICH Ec/N0or CPICHRSCP)to use asquality measureQ.NOTE:ForTDD,each choiceof this parameterrepresentsPCCPCH RSCP. | ||
| Intra-frequency measurement system information (homogeneous-frequency adjacent-domain) | OP (optional) | Intra-frequency measurement system information 10.3.7.40 | Deletion | |
| Inter-frequency measurement system information (alien frequencies adjacent area) | OP (optional) | Inter-frequency measurement system information 10.3.7.20 | ||
| Inter-RAT measurement system information (different system adjacent area) | OP (optional) | Inter-RAT measurement system information 10.3.7.31 | Deletion | |
| Traffic volume measurement system information (transmission quantity measuring system information) | OP (optional) | Traffic volume measurement system information 10.3.7.73 |
Table 5
The 3rd execution mode of the present invention relates to the measuring control information sending method, in the present embodiment, when adjacent area type that measuring control information to be sent comprises during greater than 2 kinds, sends measuring control information by 2 SIB11, and idiographic flow as shown in Figure 2.
In step 210, network side judges that whether adjacent area type that measuring control information to be sent comprises is greater than 2 kinds.Wherein, the adjacent area type is homogeneous-frequency adjacent-domain type, alien frequencies adjacent area type or different system adjacent area type.If the adjacent area type that measuring control information to be sent comprises then enters step 220 in 2 kinds, otherwise enters step 240, measuring control information to be sent by system message SIB11, is sent to UE.
In step 220, network side carries measuring control information by 2 SIB11.Such as, the adjacent area type that measuring control information comprises has homogeneous-frequency adjacent-domain, alien frequencies adjacent area and different system adjacent area, then carried the measuring control information of alien frequencies adjacent area by a SIB11, another SIB11 only is used to send the measuring control information of homogeneous-frequency adjacent-domain and the measuring control information of different system adjacent area.
Be not difficult to find, come the transmission measurement control information by 2 SIB11, therefore, even, when the number of alien frequencies and different system adjacent area all reaches 32, no matter be which SIB11 with frequently, length after encoding all will guarantee the correct transmission of system message less than 3552 bits.And, need not all types of neighbor cell configuration is limited, that is to say that with frequently, the number of alien frequencies and different system adjacent area can surpass 32 respectively, with configuring adjacent cell as much as possible.
Then, enter step 230, network side sends to UE with 2 SIB11.Specifically, network side will be handed down to UE by the BCH transmission channel through 2 SIB11 behind the PER coding.If will surpass 226 bits through the SIB11 behind the PER coding, then need and will surpass the SIB11 segmentation of 226 bits, the size of each section is 222 bits to the maximum.
The 4th execution mode of the present invention relates to the measuring control information transmitting apparatus, comprises judge module, is used to judge that whether adjacent area type that measuring control information to be sent comprises is greater than 2 kinds; And sending module, be used for when this judge module judges that adjacent area type that measuring control information to be sent comprises is greater than 2 kinds, this measuring control information is sent by at least 2 system messages, when judging that adjacent area type that measuring control information to be sent comprises is less than or equal to 2 kinds, then this measuring control information is sent by 1 system message.Wherein, the adjacent area type is homogeneous-frequency adjacent-domain type, alien frequencies adjacent area type or different system adjacent area type.
Since there are 2 system messages to share measuring control information jointly, therefore, even with frequently, when the number of alien frequencies and different system adjacent area all reaches maximum number 32, no matter be which system message, the length after encoding still all will guarantee the correct transmission of system message less than 3552 bits, and, need not all types of neighbor cell configuration is limited, that is to say, with frequently, the number of alien frequencies and different system adjacent area can surpass 32 respectively, with configuring adjacent cell as much as possible.
Wherein, 2 system messages can be SIB11; Also can be respectively SIB11 and predefined other message.If 2 system messages are respectively SIB11 and predefined other message, then the structure of this predefined other message can be identical with SIB11, when this predefined other message is encoded, only dispose the measuring control information of the adjacent area type that this message carries, therefore need not to change the existing protocol data structure, reduce code stream length by disposing less measuring control information, make that present embodiment is easy to realize.Predefined other message also can be basic identical with the structure of system message, difference only is in the structure of this predefined other message, the information element of the adjacent area categorical measures control information that deletion is used to represent that this SIB11 carries is for present embodiment provides another kind of concrete implementation.
Though pass through with reference to some of the preferred embodiment of the invention, the present invention is illustrated and describes, but those of ordinary skill in the art should be understood that and can do various changes to it in the form and details, and without departing from the spirit and scope of the present invention.
Claims (11)
1. a measuring control information sending method is characterized in that, comprises following steps:
If the adjacent area type that measuring control information to be sent comprises greater than 2 kinds, then sends this measuring control information by at least 2 system messages.
2. measuring control information sending method according to claim 1 is characterized in that, described adjacent area type is homogeneous-frequency adjacent-domain type, alien frequencies adjacent area type or different system adjacent area type.
3. measuring control information sending method according to claim 1 and 2 is characterized in that, it is 11 SIB11 message that described system message is system information block type.
4. measuring control information sending method according to claim 1 and 2 is characterized in that, described system message is respectively SIB11 message and predefined other message.
5. measuring control information sending method according to claim 4 is characterized in that, the structure of described predefined other message and described SIB11 message is identical; Perhaps
The structure of described predefined other message and described SIB11 message is basic identical, and difference only is in the structure of this predefined other message, the information element of the adjacent area categorical measures control information that deletion is used to represent that this SIB11 message is carried.
6. measuring control information sending method according to claim 1 and 2 is characterized in that, if the adjacent area type that described measuring control information comprises is less than or equal to 2 kinds, then this measuring control information is sent by 1 system message.
7. a measuring control information transmitting apparatus is characterized in that, comprises:
Judge module is used to judge that whether adjacent area type that measuring control information to be sent comprises is greater than 2 kinds;
Sending module is used for when described judge module judges that adjacent area type that measuring control information to be sent comprises is greater than 2 kinds described measuring control information being sent by at least 2 system messages.
8. measuring control information transmitting apparatus according to claim 7 is characterized in that, described adjacent area type is homogeneous-frequency adjacent-domain type, alien frequencies adjacent area type or different system adjacent area type.
9. according to claim 7 or 8 described measuring control information transmitting apparatus, it is characterized in that it is 11 SIB11 message that described system message is system information block type.
10. according to claim 7 or 8 described measuring control information transmitting apparatus, it is characterized in that described system message is respectively SIB11 message and predefined other message;
The structure of described predefined other message and described SIB11 message is identical; Perhaps
The structure of described predefined other message and described SIB11 message is basic identical, and difference only is in the structure of this predefined other message, the information element of the adjacent area categorical measures control information that deletion is used to represent that this SIB11 message is carried.
11. according to claim 7 or 8 described measuring control information transmitting apparatus, it is characterized in that, when the adjacent area type that described sending module comprises in described judge module judgement measuring control information to be sent is less than or equal to 2 kinds, then described measuring control information is sent by 1 system message.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2006101722335A CN101207885B (en) | 2006-12-22 | 2006-12-22 | Method and equipment for sending measurement control information |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2006101722335A CN101207885B (en) | 2006-12-22 | 2006-12-22 | Method and equipment for sending measurement control information |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN101207885A true CN101207885A (en) | 2008-06-25 |
| CN101207885B CN101207885B (en) | 2011-07-06 |
Family
ID=39567676
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN2006101722335A Active CN101207885B (en) | 2006-12-22 | 2006-12-22 | Method and equipment for sending measurement control information |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN101207885B (en) |
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101925075A (en) * | 2010-08-27 | 2010-12-22 | 新邮通信设备有限公司 | Base station control message sending method |
| RU2503145C2 (en) * | 2009-06-19 | 2013-12-27 | Хуавэй Текнолоджиз Ко., Лтд. | Method, apparatus and system for measurement and reporting relative cell |
| WO2014085981A1 (en) * | 2012-12-04 | 2014-06-12 | Qualcomm Incorporated | Apparatus and method for enhanced mobile power management |
| CN104798408A (en) * | 2012-12-04 | 2015-07-22 | 高通股份有限公司 | Apparatus and method for enhanced mobile power management |
Family Cites Families (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| KR100345237B1 (en) * | 2000-11-27 | 2002-07-25 | 에스케이 텔레콤주식회사 | A method for transmitting system information in IMT-2000 system |
| CN100571086C (en) * | 2003-06-19 | 2009-12-16 | 华为技术有限公司 | System message dynamic dispatching method in a kind of broadband CDMA system |
-
2006
- 2006-12-22 CN CN2006101722335A patent/CN101207885B/en active Active
Cited By (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| RU2503145C2 (en) * | 2009-06-19 | 2013-12-27 | Хуавэй Текнолоджиз Ко., Лтд. | Method, apparatus and system for measurement and reporting relative cell |
| CN101925075A (en) * | 2010-08-27 | 2010-12-22 | 新邮通信设备有限公司 | Base station control message sending method |
| CN101925075B (en) * | 2010-08-27 | 2013-05-22 | 新邮通信设备有限公司 | Base station control message sending method |
| WO2014085981A1 (en) * | 2012-12-04 | 2014-06-12 | Qualcomm Incorporated | Apparatus and method for enhanced mobile power management |
| WO2014086168A1 (en) * | 2012-12-04 | 2014-06-12 | Qualcomm Incorporated | Apparatus and method for enhanced mobile power management |
| CN104798408A (en) * | 2012-12-04 | 2015-07-22 | 高通股份有限公司 | Apparatus and method for enhanced mobile power management |
Also Published As
| Publication number | Publication date |
|---|---|
| CN101207885B (en) | 2011-07-06 |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN102883361B (en) | The method and apparatus of reporting district information and cell mobility parameter adjustment | |
| CN101123818B (en) | A method for acquiring system information by a mobile station in mobile wireless communication system | |
| CN102143554B (en) | Method and system for transmitting/receiving neighboring base-station advertisement messages in a broadband wireless access system | |
| CN101904199B (en) | Uplink carrier handoff and method for path loss based triggering of uplink carrier handoff | |
| US7787880B2 (en) | Radio network controller, a mobile communication system, and a neighbor cell list filtering method | |
| CN102598786B (en) | Switching method between base stations, base stations and communication system | |
| CN103188754B (en) | The method of select target community, node and system | |
| CN102291759B (en) | Receiving capability reporting method and equipment | |
| CN101124841A (en) | Active set update (ASU) with high speed downlink shared channel (HS-DSCH) information | |
| CN104980980A (en) | Method, system and equipment for connection establishment | |
| CN100531254C (en) | Dff-line fault information report method, device and off-line fault reason positioning system | |
| CN103517320A (en) | Cognitive radio system neighbor relation, base station and control method of neighbor relation | |
| CN103501519A (en) | Method to select cell in hierarchical cellular structure based on cell quality | |
| CN101155376B (en) | Measuring control method of multi-carrier wave mobile communication system | |
| CN102244877A (en) | Method and device for updating neighbouring cell relationship list | |
| CN103826258A (en) | Communications apparatus and measurement control method | |
| CN102685783A (en) | Method and device for searching network coverage dead zone in mobile communication network | |
| CN105027620A (en) | Method for switchover, user equipment, base station, and access point | |
| CN101207885B (en) | Method and equipment for sending measurement control information | |
| KR100718007B1 (en) | Method for Handover Between Asynchronous Communication Network and Synchronous Communication Network | |
| CN101360310A (en) | Different system event measurement control method | |
| CN102293034A (en) | Method for receiving information on network configuration | |
| CN113645671A (en) | Pilot frequency measurement method and related equipment | |
| CN109982395B (en) | Method and device for configuring switching parameters | |
| CN101094508A (en) | Starting up method and system of hard cut measurement |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C06 | Publication | ||
| PB01 | Publication | ||
| C10 | Entry into substantive examination | ||
| SE01 | Entry into force of request for substantive examination | ||
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| DD01 | Delivery of document by public notice | ||
| DD01 | Delivery of document by public notice |
Addressee: Xie Mingliang Document name: Notification of Passing Examination on Formalities |