CN106792950A - A kind of super-intensive network transfer method, base station, UE and network element - Google Patents

Abstract

The present invention provides a kind of super-intensive network transfer method, base station, UE and network element, and the method includes：Monitor and receive the information of the available Data Units of user equipment to report；If the information of the available Data Units meets preset Data Units change condition, cell change message is produced, and be sent to corresponding network element.The user rate decline that super-intensive network frequent switching is brought can be solved by the present invention, time delay increases, and alleviates the processing pressure of base station equipment signaling, reduces base station design cost.

Description

A kind of super-intensive network transfer method, base station, UE and network element

Technical field

The present invention relates to wireless communication field, in particular to a kind of super-intensive network (Ultra-Density Network, abbreviation UDN) transmission method, base station, UE and network element.

Background technology

With forth generation GSM (4th Generation Mobile Communication System, Abbreviation 4G) enter scale commercial stage, towards the year two thousand twenty and the 5th Generation Mobile Communication System (5th in future Generation Mobile Communication System, abbreviation 5G) turn into global development focus.

Generation Mobile Communication System propulsion group (the International Mobile of ternational Mobile Telecommunications 2020 the 5th Telecommunications-20205G, abbreviation IMT-2020 (5G)) propose, 5G needs to have and compares 4G Performance higher, supports the Consumer's Experience speed of 0.1~1Gbps, every square kilometre 1,000,000 of connection number Density, the end-to-end time delay of Millisecond, every square kilometre of flux density of tens of Tbps, per hour 500Km The peak rate of mobility above and tens of Gbps.Wherein, Consumer's Experience speed, connection number density It is three most basic performance indications of 5G with time delay.

UDN realizes channeling by increasing base station deployment density, is capable of achieving the huge of channeling efficiency Lifting, considers frequency interferences, site resource and lower deployment cost, and super-intensive networking can be in hot localised points Realize hundred times of capacity boosts of magnitude in region；But due to the densification of network, mobile management can be brought Unprecedented impact.Compared with 300~500M of 4G dense urbans station spacing, hundreds times are obtained Capacity boost, 5G station spacings are very likely narrowed down within 30M (rice), and ideally UE (is used Family equipment) often move 15M or so and will occur once to switch, and in fact due to wireless signal refraction, The characteristics such as reflection, scattering cause wireless signal to fluctuate extremely frequently, and UE cuts each second in a network when the time comes Changing for several times will be extremely common, and existing Long Term Evolution (Long-Term Evolution, abbreviation LTE) Hand-off process uses direct-cut operation, and one side frequent switching flow interrupt will necessarily reduce Consumer's Experience speed, On the other hand substantial amounts of hand off signaling can bring baptism to the disposal ability of micro-base station equipment.

The content of the invention

The technical problem to be solved in the present invention is to provide a kind of super-intensive network transfer method, base station, UE And network element, to solve the problems, such as switch data Transmission caused by cell splitting.

In order to solve the above-mentioned technical problem, the invention provides a kind of super-intensive network transfer method, including：

Monitor and receive the information of the available Data Units of user equipment to report；

If the information of the available Data Units meets preset Data Units change condition, produce small Area changes message, and is sent to corresponding network element.

Further, the above method also has following feature：The preset Data Units change condition bag Include following one or more：

The load-threshold of the load less than or equal to the Data Units of available Data Units；

Number of users thresholding of the corresponding number of users in available Data Units less than or equal to the Data Units；

The load of the load more than available Data Units of Serving cell；

The corresponding number of users of Serving cell is more than the corresponding number of users in available Data Units.

Further, the above method also has following feature：The generation cell change message, and send To corresponding network element, including：

Routing update message is produced, super-intensive network core net is issued；

Message is changed in generating source Data Units, and source data cell change message is sent respectively into user Equipment, source data cell and target data cell.

Further, the above method also has following feature：It is described that the source data cell is changed into message User equipment is sent respectively to, is also included：

The configuration information of the target data cell data transmission is sent in the user equipment.

Further, the above method also has following feature：The configuration information include following one or It is multinomial：

Physical area sign, cell-radio network are indicated temporarily, cell reference signals, power information, letter The instruction of road quality, dispatch request, semi-static scheduling resources, detection reference signal.

Further, the above method also has following feature：The monitoring simultaneously receives user equipment to report The information of available Data Units, including：

The available of user equipment to report is monitored and received by the link between this cell and user equipment The information of Data Units.

Further, the above method also has following feature：The described chain between cell and user equipment Road includes：The link between link and Data Units and user equipment between this cell and Data Units.

In order to solve the above problems, present invention also offers a kind of base station, wherein, including：

Monitor module, for monitoring and receive user equipment to report available Data Units information；

Control module, if meeting preset Data Units change for the information of the available Data Units Condition, then produce cell change message, and be sent to corresponding network element.

Further, above-mentioned base station also has following feature：

The control module, produces cell change message, and is sent to corresponding network element, including：Produce Routing update message, issues super-intensive network core net；Message is changed in generating source Data Units, will be described Source data cell change message is sent respectively to user equipment, source data cell and target data cell.

Further, above-mentioned base station also has following feature：

The control module, is additionally operable to be sent in the target data cell transmission number to the user equipment According to configuration information, the configuration information include following one or more：

Physical area sign, cell-radio network are indicated temporarily, cell reference signals, power information, letter The instruction of road quality, dispatch request, semi-static scheduling resources, detection reference signal.

In order to solve the above problems, present invention also offers a kind of super-intensive network transfer method, including：

User equipment will monitor that the information of available Data Units is sent to control cell；

The user equipment receives the cell change message of the control cell, carries out the change of Data Units More process.

Further, the above method also has following feature：The user equipment carries out the change of Data Units More process, including：

The user equipment is being specified in sequential, stops at the data transfer in source data cell, is started Carry out data transmission in target data cell.

In order to solve the above problems, present invention also offers a kind of user equipment, wherein, including：

Monitoring modular, the information for will monitor available Data Units is sent to control cell；

Change module, the cell for receiving the control cell changes message, carries out Data Units Exception processes.

Further, above-mentioned user equipment also has following feature：

The change module, the exception processes for carrying out Data Units include：Specifying in sequential, stopping at Data transfer in source data cell, beginning carries out data transmission in target data cell.

In order to solve the above problems, present invention also offers a kind of super-intensive network transfer method, including：

Monitor and receive the cell change message that control cell sends；

Changing message according to the cell carries out cell exception processes.

In order to solve the above problems, present invention also offers a kind of network element, wherein, including：

Monitor module, for monitoring and receive control cell send cell change message；

Change module, cell exception processes are carried out for changing message according to the cell.

Further, said network element also has following feature：

The network element includes any one following：Super-intensive network core network element, source data cell base station With target data cell base station.

To sum up, the present invention provides a kind of super-intensive network transfer method, base station, UE and network element, can be with The user rate decline that super-intensive network frequent switching is brought is solved, time delay increases, and alleviates base station equipment letter The processing pressure of order, reduces base station design cost.

Brief description of the drawings

Accompanying drawing described herein is used for providing a further understanding of the present invention, constitutes of the application Point, schematic description and description of the invention is used to explain the present invention, does not constitute to of the invention Improper restriction.In the accompanying drawings：

Fig. 1 is a kind of flow of super-intensive network transfer method of the control cell side of the embodiment of the present invention Figure；

Fig. 2 is a kind of flow chart of super-intensive network transfer method of the UE sides of the embodiment of the present invention；

Fig. 3 is the flow chart of the super-intensive network transfer method of the embodiment of the present invention one；

Fig. 4 is the schematic diagram of the Transmission system of the super-intensive network of the embodiment of the present invention one；

Fig. 5 is the schematic diagram of the Transmission system of the super-intensive network of the embodiment of the present invention two；

Fig. 6 is a kind of schematic diagram of base station of the embodiment of the present invention；

Fig. 7 is the schematic diagram of the UE of the embodiment of the present invention；

Fig. 8 is the schematic diagram of the network element of the embodiment of the present invention.

Specific embodiment

To make the object, technical solutions and advantages of the present invention become more apparent, below in conjunction with accompanying drawing Embodiments of the invention are described in detail.It should be noted that in the case where not conflicting, this Shen Please in embodiment and the feature in embodiment can mutually be combined.

With IMT2020 (5G) to unit area link number and flux density requirement it is clear and definite：I.e., often Square kilometres 1,000,000 connection number density, the end-to-end time delay of Millisecond, every square kilometre of tens of Tbps Flux density；Hyperfrequency Microcell, persistently divides cell, and the most direct of this target is reached by turning into Effective measures.However, the switch data that the continuous division zone of cell comes interrupts, will cause flow and link close Degree index is difficult to (cell splitting will occur negative gain to a certain extent), while can also cause milli The end-to-end time delay of second level almost turns into impossible (existing LTE switch datas interrupt time delay minimum 50ms)； In addition, cell infinitely divides a large amount of signalings of generation also by so that micro-base station equipment cost is in geometry number Increase.

In the present embodiment, in super-intensive network, all control signaling treatment are provided by a specific cell, Referred to herein as control cell (Control Cell, abbreviation Ccell)；Data transport service is by numerous small The super-intensive network that area is constituted is provided, referred to herein as Data Units (Data Cell, abbreviation Dcell). Wherein, the Ccell overlay areas include N number of DCell overlay areas, N>=1.

User equipment (User Equipment, abbreviation UE) needs to keep and Ccell and Dcell simultaneously Wireless connection.

UE monitorings can provide the Dcell of service for it, and monitored results are reported into Ccell.

By after cell alteration of judgment, need to such as change the Dcell of the UE, then Ccell will be changed and tied Ccell Fruit notifies UE, source Dcell, target Dcell, and notifies UE in target Dcell transmission data institute simultaneously Whole configuration informations, the configuration information are needed to include part or all of content：

Cell designation class：PCI (Physical Cell Index, physical area sign), CRNTI (Cell Radio Network Temporal Index, cell-radio network is indicated temporarily), cell reference signals And power information etc.；

It is semi-statically configured resource：CQI (Channel Quality Indicator, channel quality is indicated), SR (Schedule Request, dispatch request), SPS (Semi-persistent Schedule, semi-static tune Degree) resource, SRS (Sounding Reference Signal, detection reference signal) etc..

Source Dcell, target Dcell and UE after information is received, are specified according to Ccell message informings Moment completes service cell updating.

Fig. 1 is a kind of flow of super-intensive network transfer method of the control cell side of the embodiment of the present invention Figure, as shown in figure 1, the method for the present embodiment includes：

Step 11, the information of the available Data Units monitored and receive user equipment to report；

If step 12, the information of the available Data Units meet preset Data Units change condition, Cell change message is then produced, and is sent to corresponding network element.

Fig. 2 is a kind of flow chart of super-intensive network transfer method of the UE sides of the embodiment of the present invention, such as Shown in Fig. 2, the method for the present embodiment includes：

Step 21, UE will monitor that the information of available Data Units is sent to control cell；

Step 22, UE receive the cell change message of the control cell, carry out the change of Data Units More process.

Can thoroughly be solved during switch data is transmitted caused by cell splitting by the method for the embodiment of the present invention Disconnected problem, is that cell infinitely division is cleared away the obstacles；So that IMT2020 (5G) Millisecond end-to-end time delay mesh Mark is possibly realized；Thoroughly solve the problems, such as that cell persistently divides caused Microcell signaling storm.

The method of the present invention is described in detail below by way of two embodiments.

Embodiment one

As shown in figure 3, the method for the present embodiment comprises the following steps：

Step 101, prerequisite：UE access Ccell, Ccell for UE be assigned with it is one or several Individual Dcell provides data transport service for the UE, and the link between UE and Dcell is designated as Duu mouthfuls, Link between UE and Ccell is designated as Cuu mouthfuls, and the link between Dcell and Ccell is designated as DC mouthfuls； Wherein, Ccell overlay areas include one or more Dcell, and Ccell coverages are generally relatively wide, do not belong to In UDN categories, the treatment of its mobility is not in this patent discussion.

Step 102, Ccell is monitored and is received the available Dcell information that UE is reported by Cuu mouthfuls, such as Shown in Fig. 4, wherein, Cuu possesses following part or all of characteristic：

Cuu mouthfuls of design capacity is less than Duu mouthfuls, only processes signaling because of Cuu mouthfuls, its capacity and bandwidth demand All demand is smaller；

Cuu mouthfuls of low-frequency range is extensively covered, low because Ccell coverages are needed comprising one or more Dcell It is good that frequency radio wave spatial is lost low radio characteristics, compared to Duu mouthfuls for, low frequency is more suitable for Cuu mouthfuls；

The Cuu mouthfuls of current LTE network of multiplexing, because of following 5G technologies and the forward compatibility demand of LTE, Cuu mouthfuls can borrow current LTE network for UDN provides signaling covering；

Cuu mouthfuls can be by Dcell transfers, because the wireless coverage of Ccell and Dcell cannot generally accomplish Full weight is folded, and when Dcell coverings are beyond Ccell coverages, Cuu messages number also can be by Dcell Turn, thereby may be ensured that Cuu mouthfuls of covering more than Duu mouthfuls.

Step 103, Ccell is monitored and is received the signaling of the whole UE in its coverage by Cuu mouthfuls Report, this step possesses and includes：

Cuu mouthfuls of source codec, whole UE and signaling are classified；

What whole UE was reported in this Ccell can all use Dcell information.

The information reporting of this step UE judges whether being originally inputted as the treatment of step 104 The basis for needing cell to change, this step is that UE signalings are reported, and 102 is on data available cell information Report.

Step 104, judges whether to need cell to change；

That is, Ccell can all use Dcell information according to what whole UE were reported, and the present embodiment setting Target Dcell changes criterion, selects the whole UE and its target for meeting target Dcell change criterions Dcell, these targets Dcell constitute the target candidate Dcell collection of the UE；Finally, Ccell is for time Target Dcell collection is selected, the part or all of Dcell of candidate Dcell concentrations is selected according to UE business demands amount As final goal Dcell,

Wherein, if UE_i, service Dcell is Dcell_S, and corresponding number of users is Nue_Dcell_S, It is Load_Dcell_S to load；

The n available targets Dcell respectively Dcell_Ti for reporting；Corresponding number of users Nue_Dcell_Ti, It is Load_Dcell_Ti to load；I=1,2 ..., n, n<=N；Then target Dcell changes criterion includes following bar Part or part or all of logical combination：

Load_Dcell_Ti<=Thresh_Load_i, Thresh_Load_i are the load door of Target cell i Limit；

Nue_Dcell_Ti<=Thresh_Nue_i, Thresh_Nue_i are the UE number thresholdings of Target cell i；

Load_Dcell_S<Load_Dcell_Ti；

Nue_Dcell_S<Nue_Dcell_Ti,

If all Target cells are unsatisfactory for above-mentioned condition, without cell change, 102 are gone to step；If All Target cells meet above-mentioned one or more conditions specified, then go to step 105；

Step 105, Cell produces the required entire message of cell change, and issues corresponding network element, respectively After individual related network elements receive message, come into force simultaneously in the sequential of agreement；

Specially：

Routing update message is produced to issue UDN core nets, after UDN core nets receive message, in agreement More new route in sequential；

Generating source Dcell changes message, is respectively issued to UE, source Dcell, final goal Dcell；

After message is received, in scheduled timing, UE is in source Dcell stoppings data transfer, in target Dcell Start data transfer.

Embodiment two

The present embodiment comprises the following steps：

Step 201, is prerequisite, with embodiment one.

Step 202, Ccell is monitored and is received the available Dcell information that UE is reported by Cuu mouthfuls, its In, Cuu is connected for logic, and logic connection is divided into two sections of UE to Dcell and Dcell to Ccell, As shown in Figure 5；According to step 201, UE to Dcell is by Duu mouthfuls of link；Dcell to Ccell leads to Cross DC mouthfuls of connection, i.e. the signaling between UE and Ccell is encapsulated as the special logical pipe of signaling, By Duu mouthfuls and DC port transmissions.

Wherein, DC mouthfuls can also use expired air using wireless connection, and the embodiment of the present invention is nothing Line communications field patent, expired air this patent does not do excessive discussion, is illustrated for wireless DC mouthfuls of link It is as follows：

DC mouthfuls possesses following part or all of characteristic：

DC mouthfuls of design capacity is less than Duu mouthfuls, only processes signaling because of DC mouthfuls, its capacity and bandwidth demand All demand is smaller；

DC mouthfuls of low-frequency range is extensively covered, low because Ccell coverages are needed comprising one or more Dcell It is good that frequency radio wave spatial is lost low radio characteristics, compared to Duu mouthfuls for, low frequency is more suitable for DC mouthfuls；

The DC mouthfuls of current LTE network of multiplexing, because of following 5G technologies and the forward compatibility demand of LTE, DC mouthfuls can borrow current LTE network for UDN provides signaling covering.

Step 203, Ccell is monitored and received by Cuu mouthfuls, the letter of the whole UE in its coverage Order is reported, with embodiment one；

Step 204, judges whether to need cell to change, with embodiment one；

Step 205, Cell produces the required entire message of cell change, and issues corresponding network element, respectively After individual related network elements receive message, come into force simultaneously in the sequential of agreement, with embodiment one.

Fig. 6 is a kind of schematic diagram of base station of the embodiment of the present invention, as shown in fig. 6, the base of the present embodiment Station includes：

Monitor module, for monitoring and receive user equipment to report available Data Units information；

Control module, if meeting preset Data Units change for the information of the available Data Units Condition, then produce cell change message, and be sent to corresponding network element.

In a preferred embodiment, the control module, produces cell change message, and be sent to correspondence Network element, including：Routing update message is produced, super-intensive network core net is issued；Produce source data small Area changes message, and source data cell change message is sent respectively into user equipment, source data cell With target data cell.

In a preferred embodiment, the control module, it may also be used for be sent in institute to the user equipment The configuration information of target data cell data transmission is stated, the configuration information includes following one or more：

PCI, CRNTI, cell reference signals, power information, CQI, SR, SPS, SRS.

Fig. 7 is the schematic diagram of the UE of the embodiment of the present invention, as shown in fig. 7, the UE bags of the present embodiment Include：

Monitoring modular, the information for will monitor available Data Units is sent to control cell；

Change module, the cell for receiving the control cell changes message, carries out Data Units Exception processes.

In a preferred embodiment, the change module, the exception processes for carrying out Data Units include： Specify in sequential, stop at the data transfer in source data cell, beginning is carried out in target data cell Data transfer.

Fig. 8 is the schematic diagram of the network element of the embodiment of the present invention, as shown in figure 8, the network element bag of the present embodiment Include：

Monitor module, for monitoring and receive control cell send cell change message；

Change module, cell exception processes are carried out for changing message according to the cell.

The network element includes：Super-intensive network core network element, source data cell base station and target data are small Area base station.

One of ordinary skill in the art will appreciate that all or part of step in the above method can be by program To instruct related hardware to complete, described program can be stored in computer-readable recording medium, such as read-only Memory, disk or CD etc..Alternatively, all or part of step of above-described embodiment can also be used One or more integrated circuits are realized.Correspondingly, each module/unit in above-described embodiment can be used The form of hardware is realized, it would however also be possible to employ the form of software function module is realized.The present invention is not restricted to appoint The combination of the hardware and software of what particular form.

The preferred embodiments of the present invention are these are only, certainly, the present invention can also there are other various embodiments, In the case of without departing substantially from spirit of the invention and its essence, those of ordinary skill in the art work as can be according to this Various corresponding changes and deformation are made in invention, but these corresponding changes and deformation should all belong to the present invention Appended scope of the claims.

Claims (17)

1. a kind of super-intensive network transfer method, including：

Monitor and receive the information of the available Data Units of user equipment to report；

If the information of the available Data Units meets preset Data Units change condition, produce small Area changes message, and is sent to corresponding network element.

2. the method for claim 1, it is characterised in that：The preset Data Units change bar Part includes following one or more：

The load-threshold of the load less than or equal to the Data Units of available Data Units；

Number of users thresholding of the corresponding number of users in available Data Units less than or equal to the Data Units；

The load of the load more than available Data Units of Serving cell；

The corresponding number of users of Serving cell is more than the corresponding number of users in available Data Units.

3. the method for claim 1, it is characterised in that：The generation cell change message, and Corresponding network element is sent to, including：

Routing update message is produced, super-intensive network core net is issued；

Message is changed in generating source Data Units, and source data cell change message is sent respectively into user Equipment, source data cell and target data cell.

4. method as claimed in claim 3, it is characterised in that：It is described to change the source data cell Message is sent respectively to user equipment, also includes：

The configuration information of the target data cell data transmission is sent in the user equipment.

5. method as claimed in claim 4, it is characterised in that：The configuration information includes following one Item is multinomial：

Physical area sign, cell-radio network are indicated temporarily, cell reference signals, power information, letter The instruction of road quality, dispatch request, semi-static scheduling resources, detection reference signal.

6. the method as described in claim any one of 1-5, it is characterised in that：The monitoring simultaneously receives use The information of the available Data Units that family equipment is reported, including：

The available of user equipment to report is monitored and received by the link between this cell and user equipment The information of Data Units.

7. method as claimed in claim 6, it is characterised in that：

The described link between cell and user equipment includes：Link between this cell and Data Units Link and Data Units and user equipment between.

8. a kind of base station, it is characterised in that including：

Monitor module, for monitoring and receive user equipment to report available Data Units information；

Control module, if meeting preset Data Units change for the information of the available Data Units Condition, then produce cell change message, and be sent to corresponding network element.

9. base station as claimed in claim 8, it is characterised in that：

The control module, produces cell change message, and is sent to corresponding network element, including：Produce Routing update message, issues super-intensive network core net；Message is changed in generating source Data Units, will be described Source data cell change message is sent respectively to user equipment, source data cell and target data cell.

10. base station as claimed in claim 9, it is characterised in that：

The control module, is additionally operable to be sent in the target data cell transmission number to the user equipment According to configuration information, the configuration information include following one or more：

Physical area sign, cell-radio network are indicated temporarily, cell reference signals, power information, letter The instruction of road quality, dispatch request, semi-static scheduling resources, detection reference signal.

A kind of 11. super-intensive network transfer methods, including：

User equipment will monitor that the information of available Data Units is sent to control cell；

The user equipment receives the cell change message of the control cell, carries out the change of Data Units More process.

12. methods as claimed in claim 11, it is characterised in that it is small that the user equipment carries out data The exception processes in area, including：

The user equipment is being specified in sequential, stops at the data transfer in source data cell, is started Carry out data transmission in target data cell.

A kind of 13. user equipmenies, it is characterised in that including：

Monitoring modular, the information for will monitor available Data Units is sent to control cell；

Change module, the cell for receiving the control cell changes message, carries out Data Units Exception processes.

14. user equipmenies as claimed in claim 13, it is characterised in that

The change module, the exception processes for carrying out Data Units include：Specifying in sequential, stopping at Data transfer in source data cell, beginning carries out data transmission in target data cell.

A kind of 15. super-intensive network transfer methods, including：

Monitor and receive the cell change message that control cell sends；

Changing message according to the cell carries out cell exception processes.

A kind of 16. network elements, it is characterised in that including：

Monitor module, for monitoring and receive control cell send cell change message；

Change module, cell exception processes are carried out for changing message according to the cell.

17. network elements as claimed in claim 16, it is characterised in that

The network element includes any one following：Super-intensive network core network element, source data cell base station With target data cell base station.