WO2017107667A1 - Method and device for configuring uplink channel processing resource - Google Patents

Abstract

A method and device for configuring an uplink channel processing resource. The method for configuring an uplink channel processing resource comprises: acquiring an uplink measurement value M_S of a low power base station cell and an uplink measurement value M_M of a macro base station cell of the same user; and comparing M_S with M_M, and notifying the macro base station cell to configure an uplink channel processing resource for the user according to the comparison result.

Description

Uplink channel processing resource configuration method and device Technical field

The present disclosure relates to the field of mobile communications, for example, to an uplink channel processing resource configuration method and apparatus.

Background technique

In the current Universal Mobile Telecommunications System (UMTS) heterogeneous network, the problem of uplink interference is often encountered. In the case of a hybrid network of a macro base station cell and a low power base station cell of the same frequency, there are uplink and downlink links. Unbalanced, causing users in the unbalanced area to have large uplink interference to small base stations. The industry is often studying how to reduce uplink interference to small base stations and reduce the transmission power of user equipment (User Equipment, UE), which may lead to Acer. The uplink service quality of the radio link of the station cell is poor, so that there may be no benefit in the soft handover state, and the uplink processing resources of the macro base station cell are also wasted, resulting in a decrease in the uplink resource utilization efficiency of the macro base station cell, affecting the macro base station cell. Upstream business experience.

Summary of the invention

The present disclosure provides a method and an apparatus for configuring an uplink channel processing resource, which can improve uplink resource utilization efficiency of a macro base station cell and improve an uplink service experience of a macro base station cell.

In one aspect, an embodiment of the present disclosure provides a method for configuring an uplink channel processing resource, including:

Uplink measurements M _S cell and the macro base station measured values M _M uplink user acquire the same low power base station cell; and

The M _{S is} compared with the M _M , and the macro base station cell is notified according to the comparison result to configure the uplink channel processing resource for the user.

Optionally, the uplink measurement value may include a Signal to Interference Ratio (SIR), a Received Signal Code Power (RSCP), and an Up Bit Error Ratio (BER).

Optionally, when the uplink measurement value is SIR or RSCP, comparing the M _S with the M _M , and notifying the macro base station cell to configure the uplink channel processing resource for the user according to the comparison result includes:

When 10LogM _S -10LogM _M ≥A, the macro base station notifies the user to stop cell configuring the uplink channel processing resources; and

When 10LogM _S -10LogM _M ≤ B, the macro base station cell is notified to configure the uplink channel processing resource for the user, where A and B are preset thresholds, and A>B.

Optionally, when the uplink measurement value is an uplink BER, the comparing the M _S with the M _M , and notifying the macro base station cell to configure the uplink channel processing resource for the user according to the comparison result includes:

Notifying the macro base station cell to stop configuring uplink channel processing resources for the user when 10LogM _M -10LogM _S ≥A;

When 10LogM _M -10LogM _S ≤ B, the macro base station cell is notified to configure the uplink channel processing resource for the user, where A and B are preset thresholds, and A>B.

Optionally, the uplink channel may include an uplink dedicated physical data channel (DPDCH), an enhanced-dedicated physical data channel (E-DPDCH), and an uplink enhanced dedicated physical control channel ( Enhanced-Dedicated Physical Control Channel, E-DPCCH).

On the other hand, an embodiment of the present disclosure further provides an uplink channel processing resource configuration apparatus, including:

Obtaining module, configured to capture an uplink measured value M _S cell and the macro base station uplink user the same measured value M _M low power base station cell; and

A processing module arranged to compare the M _S and _M M, notifies the macro base station cell according to the comparison result of configuring the uplink channel processing resources to the user.

Optionally, the uplink measurement value may include a signal to interference ratio SIR, a received signal code power RSCP, and an uplink error rate BER.

Optionally, when the uplink measurement value is SIR or RSCP, the processing module includes:

a first processing unit, configured to notify the macro base station cell to stop configuring uplink channel processing resources for the user when 10LogM _S -10LogM _M ≥A;

The second processing unit is configured to notify the macro base station cell to configure the uplink channel processing resource for the user when the 10LogM _S -10LogM _M ≤ B, where A and B are preset thresholds, and A>B.

Optionally, when the uplink measurement is an uplink BER, the processing module includes:

a third processing unit, configured to notify the macro base station cell stop A to configure an uplink channel processing resource for the user when 10LogM _M -10LogM _S ≥A;

The fourth processing unit is configured to notify the macro base station cell to configure the uplink channel processing resource for the user when the 10LogM _M -10LogM _S ≤ B, where A and B are preset thresholds, and A>B.

Optionally, the uplink channel may include an uplink dedicated physical data channel DPDCH, an uplink enhanced dedicated physical data channel E-DPDCH, and an uplink enhanced dedicated physical control channel E-DPCCH.

In another aspect, embodiments of the present disclosure also provide a non-transitory computer readable storage medium storing computer executable instructions for performing the above method.

In another aspect, embodiments of the present disclosure also provide an electronic device including one or more processors, a memory, and one or more programs, the one or more programs being stored in a memory when being The above method is executed when multiple processors are executed.

In another aspect, embodiments of the present disclosure also provide a computer program product comprising a computer program stored on a non-transitory computer readable storage medium, the computer program comprising program instructions, when the program instructions are executed by a computer, The computer performs the above method.

In the above solution, the uplink received signal quality of the macro base station cell is compared with the uplink received signal quality of the low power base station cell, and according to the comparison result, it is determined whether the macro base station cell needs to consume the uplink channel processing resource, and the uplink resource of the macro base station cell can be improved. Utilize efficiency to improve the uplink service experience of the macro base station cell.

DRAWINGS

1 is a schematic flowchart of a method for configuring an uplink channel processing resource according to an embodiment of the present disclosure;

2 is a structural block diagram of an apparatus for configuring an uplink channel processing resource according to an embodiment of the present disclosure;

3 is a schematic diagram of an uplink channel processing resource configuration in an optional example of the present disclosure;

4 is a schematic diagram of an uplink channel processing resource configuration in an optional example of the present disclosure;

FIG. 5 is a schematic structural diagram of hardware of an electronic device according to an embodiment of the present disclosure.

detailed description

In order to make the technical solutions and advantages of the embodiments of the present disclosure clearer, the related description will be made below in conjunction with the accompanying drawings and alternative embodiments. In the case of no conflict, the features in the following embodiments and embodiments may be Mutual combination.

The embodiments of the present disclosure provide a method and an apparatus for configuring an uplink channel processing resource, which can improve uplink resource utilization efficiency of a macro base station cell and improve an uplink service experience of a macro base station cell.

Embodiment 1

This embodiment provides a method for configuring an uplink channel processing resource. As shown in FIG. 1 , this embodiment includes steps 110 - 120.

In step 110, the measured value M _S obtains the uplink station and the macro cell base station to the same user a low power cell uplink measurement value _M M; and

In step 120, M _{S is} compared with M _M , and the macro base station cell is notified according to the comparison result to configure the uplink channel processing resource for the user.

In this embodiment, comparing the uplink received signal quality of the macro base station cell with the uplink received signal quality of the low power base station cell, and determining whether the macro base station cell needs to consume the uplink channel processing resource according to the comparison result, the technical solution of the embodiment of the present disclosure The uplink resource utilization efficiency of the macro base station cell can be improved, and the uplink service experience of the macro base station cell is improved.

Optionally, the uplink measurement value may include a signal to interference ratio SIR, a received signal code power RSCP, and an uplink error rate BER.

Optionally, when the uplink measurement value is SIR or RSCP, the comparing the M _S with the M _M , and notifying the macro base station cell to configure the uplink channel processing resource for the user according to the comparison result includes:

When 10LogM _S -10LogM _M ≥A, the macro base station notifies the user to stop cell configuring the uplink channel processing resources; and

When 10LogM _S -10LogM _M ≤ B, the macro base station cell is notified to configure the uplink channel processing resource for the user, where A and B are preset thresholds, and A>B.

Optionally, when the uplink measurement value is an uplink BER, the comparing the M _S with the M _M , and notifying the macro base station cell to configure the uplink channel processing resource for the user according to the comparison result includes:

When 10LogM _M -10LogM _S ≥A, the macro base station notifies the user to stop cell configuring the uplink channel processing resources; and

When 10LogM _M -10LogM _S ≤ B, the macro base station cell is notified to configure the uplink channel processing resource for the user, where A and B are preset thresholds, and A>B.

Optionally, the uplink channel includes an uplink dedicated physical data channel DPDCH and an uplink enhancement special object. The data channel E-DPDCH and the uplink enhanced dedicated physical control channel E-DPCCH.

Embodiment 2

This embodiment provides an apparatus for configuring an uplink channel processing resource. As shown in FIG. 2, the embodiment includes an obtaining module 210 and a processing module 220.

Obtaining module 210, configured to capture an uplink measured value M _M M _S uplink measurements and the macro base station of a cell of the same user of the low power base station cell;

The processing module 220 is configured to compare the M _S and the M _M , and notify the macro base station cell to configure the uplink channel processing resource for the user according to the comparison result.

In this embodiment, the uplink received signal quality of the macro base station cell is compared with the uplink received signal quality of the low power base station cell, and according to the comparison result, it is determined whether the macro base station cell needs to consume the uplink channel processing resource, and the uplink of the macro base station cell can be improved. The resource utilization efficiency improves the uplink service experience of the macro base station cell.

Optionally, the uplink channel processing resource configuration apparatus of this embodiment may be configured in a radio network controller (RNC).

Optionally, the uplink measurement value may include an SIR, an RSCP, and an uplink BER.

Optionally, when the uplink measurement value is SIR or RSCP, the processing module includes:

The first processing unit is configured to notify the macro base station cell to stop configuring the uplink channel processing resource for the user when 10LogM _S -10LogM _M ≥A;

The second processing unit is configured to notify the macro base station cell to configure the uplink channel processing resource for the user when the 10LogM _S -10LogM _M ≤ B, where A and B are preset thresholds, and A>B.

Optionally, when the uplink measurement value is a BER, the processing module includes:

a third processing unit, configured to notify the macro base station cell to stop configuring uplink channel processing resources for the user when 10LogM _M -10LogM _S ≥A;

The fourth processing unit is configured to notify the macro base station cell to configure the uplink channel processing resource for the user when the 10LogM _M -10LogM _S ≤ B, where A and B are preset thresholds, and A>B.

Optionally, the uplink channel may include an uplink DPDCH, an uplink E-DPDCH, and an uplink E-DPCCH.

Embodiment 3

Embodiment, the RNC while receiving low-power base station cells from the same user uplink measurements M _S and macro base station cells uplink measurement value M _M of the present embodiment, the uplink measurements may comprise an uplink dedicated pilot SIR, RSCP and uplink the BER, And calculating a difference between the uplink measurement values of the low power base station cell and the macro base station cell, and notifying whether the macro base station cell needs to be consumed according to the comparison between the difference between the uplink measurement value of the macro base station cell and the low power base station cell and the threshold value. The uplink channel processing resource, wherein the uplink channel may include an uplink DPDCH, an E-DPDCH, and an E-DPCCH.

Alternatively, when the uplink measurement value _{M S,} M M when the RSCP or SIR,

If the 10LogM _S -10LogM _M ≥ A, the RNC determines that the UE enters the uplink service macro-non-merging area, and the RNC notifies the macro base station that the user stops configuring the uplink channel processing resource to receive the processing service, and the macro base station cell does not consume the uplink service for the user. Channel processing resources, and can save the uplink transmission bandwidth of the Iub interface, as shown in Figure 3.

If 10LogM _S -10LogM _M ≤ B, the RNC determines that the UE enters the uplink service macro-micro-merging area, and the RNC notifies the macro-base station that the user reconfigures the uplink channel processing resource to receive the processing service, as shown in FIG. 4, where the A and B parameters are It can be configured according to actual needs, A>B.

Optionally, when the uplink measurement values M _S and M _M are uplink BERs,

If the 10LogM _M -10LogM _S ≥ A, the RNC determines that the UE enters the uplink service macro-non-merging area, and the RNC informs the macro base station that the user stops configuring the uplink channel processing resource to receive the processing service, and the macro base station cell does not consume the uplink service for the user. Channel processing resources, and can save the uplink transmission bandwidth of the Iub interface, as shown in Figure 3.

If 10LogM _M -10LogM _S ≤ B, the RNC determines that the UE enters the uplink service macro-micro-merging area, and the RNC notifies the macro-base station that the user configures the uplink channel processing resource to receive the processing service, as shown in FIG. 4, where the A and B parameters may be According to actual needs, A>B.

In this embodiment, the macro base station cell and the low-power base station cell uplink received signal quality comparison result are used for detecting and determining, and determining whether the macro base station cell needs to consume the uplink channel processing resource, can improve the uplink resource utilization efficiency of the macro base station cell, and improve the macro base station cell. Upstream business experience.

In an embodiment of the invention, the modules may be implemented in software for execution by a plurality of types of processors. For example, an identified executable code module can comprise one or more physical or logical blocks of computer instructions, which can be constructed, for example, as an object, procedure, or function. Nevertheless, the executable code of the identified modules need not be physically located together, but may include storage Different instructions in different physics, when these instructions are logically combined, the executable code modules constitute the module and achieve the stated purpose of the module.

Alternatively, the executable code module can be a single instruction or a plurality of instructions, and can even be distributed over a plurality of different code segments, distributed among different programs, and distributed across multiple memory devices. As such, operational data may be identified within the modules and may be implemented in any suitable form and organized within any suitable type of data structure. The operational data may be collected as a single data set, or may be distributed at different locations (including on different storage devices), and may at least partially exist as an electronic signal on a system or network.

When the module can be implemented by software, a person skilled in the art can also construct a corresponding hardware circuit to implement a corresponding function, and the hardware circuit can include a Very Large Scale Integration Circuit (VLSI) circuit or a gate array and such as logic. Semiconductors such as chips, transistors, or discrete components. The modules can also be implemented with programmable hardware devices such as field programmable gate arrays, programmable array logic, programmable logic devices, and the like.

In the method embodiments of the present disclosure, the sequence numbers of the different steps are not used to define the order in which the steps are performed.

Embodiment 3

The embodiment further provides a non-transitory computer readable storage medium storing computer executable instructions, which can be used to execute any of the above uplink signal processing resource configuration methods.

Embodiment 4

A hardware structure diagram of an electronic device is also provided in this embodiment. As shown in FIG. 5, the electronic device includes:

A processor 310 and a memory 320; a communication interface 330 and a bus 340 may also be included.

The processor 310, the memory 320, and the communication interface 330 can complete communication with each other through the bus 340. Communication interface 330 can be used for information transmission. The processor 310 can call the logic instructions in the memory 320 to perform the uplink signal processing resource configuration method of the above embodiment.

In addition, the logic instructions in the memory 320 described above may be implemented in the form of a software functional unit and sold or used as a stand-alone product, and may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present disclosure may be embodied in the form of a software product stored in a storage medium, including a plurality of instructions for causing a computer device (which may be a personal computer, a server, or a network) The device or the like) performs all or part of the steps of the method described in the embodiments of the present disclosure. The foregoing storage medium may be a non-transitory storage medium, including: a USB flash drive, a mobile hard disk, a read-only memory (ROM), a random access memory (RAM), a magnetic disk, or an optical disk. A medium that can store program code, or a transitory storage medium.

Finally, it should be understood that those skilled in the art can understand that all or part of the process of implementing the above embodiment method can be completed by executing related hardware by a computer program, and the program can be stored in a non-transitory computer. In reading a storage medium, the program, when executed, may include a flow of an embodiment of the method described above, wherein the computer readable storage medium may be a magnetic disk, an optical disk, a read only memory (ROM), or a random access memory. (RAM), etc.

Industrial applicability

The embodiments of the present disclosure provide a method and an apparatus for configuring an uplink signal processing resource, which can improve the uplink resource utilization efficiency of the macro base station cell and improve the uplink service experience of the macro base station cell.

Claims (11)

1. An uplink channel processing resource configuration method includes:

   Uplink measurements M _S cell and the macro base station measured values M _M uplink user acquire the same low power base station cell; and

   The M _{S is} compared with the M _M , and the macro base station cell is notified according to the comparison result to configure the uplink channel processing resource for the user.
2. The method of claim 1, wherein the uplink measurement comprises: a signal to interference ratio SIR, a received signal code power RSCP, and an uplink error rate BER.
3. The method according to claim 2, wherein when the uplink measurement value is SIR or RSCP, the M _{S is} compared with M _M , and the macro base station cell is notified according to the comparison result to configure an uplink channel processing resource for the user. include:

   Notifying the macro base station cell to stop configuring uplink channel processing resources for the user when 10LogM _S -10LogM _M ≥A;

   When 10LogM _S -10LogM _M ≤ B, the macro base station cell is notified to configure the uplink channel processing resource for the user, where A and B are preset thresholds, and A>B.
4. The method according to claim 2, wherein when the uplink measurement value is a BER, the comparing the M _S with the M _M , and notifying the macro base station cell to configure the uplink channel processing resource for the user according to the comparison result includes:

   Notifying the macro base station cell to stop configuring uplink channel processing resources for the user when 10LogM _M -10LogM _S ≥A;

   When 10LogM _M -10LogM _S ≤ B, the macro base station cell is notified to configure the uplink channel processing resource for the user, where A and B are preset thresholds, and A>B.
5. The method according to any one of claims 1 to 4, wherein the uplink channel comprises an uplink dedicated physical data channel DPDCH, an uplink enhanced dedicated physical data channel E-DPDCH and an uplink enhanced dedicated physical control channel E-DPCCH.
6. An uplink channel processing resource configuration apparatus includes:

   Obtaining module, configured to capture an uplink measured value M _S cell and the macro base station uplink user the same measured value M _M low power base station cell; and

   The processing module is configured to compare the M _S and the M _M , and notify the macro base station cell to configure the uplink channel processing resource for the user according to the comparison result.
7. The apparatus of claim 6, wherein the uplink measurement comprises a signal to interference ratio SIR, a received signal code power RSCP, and an uplink error rate BER.
8. The apparatus according to claim 7, wherein when the uplink measurement value is SIR or RSCP, the processing module includes:

   First processing means arranged, in 10LogM _S -10LogM _M ≥A, the macro base station notifies the user to stop cell configuring the uplink channel processing resources; and

   The second processing unit is configured to notify the macro base station cell to configure the uplink channel processing resource for the user when the 10LogM _S -10LogM _M ≤ B, where A and B are preset thresholds, and A>B.
9. The apparatus according to claim 7, wherein when the uplink measurement value is BER, the processing module comprises:

   a third processing unit, configured to notify the macro base station cell to stop configuring uplink channel processing resources for the user when 10LogM _M -10LogM _S ≥A;

   The fourth processing unit is configured to notify the macro base station cell to configure the uplink channel processing resource for the user when the 10LogM _M -10LogM _S ≤ B, where A and B are preset thresholds, and A>B.
10. The apparatus according to any one of claims 6-9, wherein the uplink channel comprises an uplink dedicated physical data channel DPDCH, an uplink enhanced dedicated physical data channel E-DPDCH, and an uplink enhanced dedicated physical control channel E-DPCCH.
11. A non-transitory computer readable storage medium storing computer executable instructions for performing the method of any of claims 1-5.

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