Method, System and Device for Reporting Uplink Pilot Interference

Description

The present application claims the priority of the Chinese patent application:

with the application date of Aug. 6, 2009, the application number of 200910090756.9, and the patent name of “method, system and device for reporting uplink pilot time slot interference”, all content of the priority application is combined into the present application by quoting.

FIELD OF THE PRESENT INVENTION

The present invention relates to the field of wireless communication technology, and more particularly to method, system and device for reporting uplink pilot interference.

BACKGROUND OF THE PRESENT INVENTION

With the development of the third generation mobile telecommunication (3G), the design approach of base station tends to isolate the base band and radio frequency (RF), and the base band radio base station is that the base station with isolated base band and radio frequency. In the base band radio base station system, the distribution mode with base band unit (BBU) and remote RF unit (RRU) is widely used. The application of scene in which a plurality of smart antenna is used in a cell emerges, and even does the application of scene in which both channelizing application and smart antenna are supported in the multichannel of a cell.

For each specific antenna group coverage, we can define a cell portion, which is identified through cell portion ID. Radio network controller (RNC) need to know the cell portion in which the terminal is located, so it can determine the initial launch power of terminal, and allocate specific frequency, slot time, code channel resources and so on. In addition, with the movement of the terminal in the different coverage areas, RNC need to know the position change of the terminal real-time, so as to carry out effective dynamic channel allocation (DCA). It can improve the throughput and resource utilization of the overall system efficiently through the RRM optimization policy.

In the frequency-division duplex (FDD) system, if it supports cell portion, the reports for common measurement of the base station are all based on the cell portion, which is adding report based on cell portion on the basis of the original. It mainly comprises six measurements: transmitted carrier power based on cell portion, received total wide band power based on cell portion, transmitted carrier power of all codes not used for high speed physical downlink shared channel (HS-PDSCH), high-speed shared control channel (HS-SCCH), E-DCH absolute grant channel (E-AGCH), E-DCH HARQ acknowledgement indicator channel (E-HICH) based on cell portion, the power that the high-speed downlink shared channel (HS-DSCH) based on cell portion needs, the bit rate provided by HS-DSCH based on cell portion and receiving scheduling E-DCH power sharing based on cell portion.

In course of implementing the present invention, the inventor finds out there are at least the problems below in the present technology:

There is not corresponding report form which can be used for reporting the TDD system-special dedicated measurement uplink pilot time slot interference in FDD system.

SUMMARY OF THE PRESENT INVENTION

The present invention provides a method, system and device for reporting uplink pilot interference, to realize that the base station measures uplink pilot time slot and transmits it to the radio network controller.

The method for reporting uplink pilot interference provided in embodiments of the present invention, which is applied to TDD system, comprises:

Base station measuring uplink pilot time slot interference based on cell portion;

Said base station transmitting said uplink pilot time slot interference, which carries the home cell portion ID corresponding to said uplink pilot time slot interference, to radio network controller, therefore said radio network controller selecting the transmitting position of said uplink pilot time slot according to said uplink pilot time slot interference and said home cell portion ID.

The TDD system for transmitting uplink pilot time slot interference provided in embodiments of the present invention, comprises:

Base station, is used for measures uplink pilot time slot interference based on cell portion; transmitting said uplink pilot time slot interference, which carries the home cell portion ID corresponding to said uplink pilot time slot interference, to radio network controller;

Radio network controller, is used for receiving said uplink pilot time slot interference measured and transmitted by said base station, and the carried home cell portion ID corresponding to said uplink pilot time slot interference; selecting the transmitting position of said uplink pilot time slot according to the received uplink pilot time slot interference and the home cell portion ID corresponding to said uplink pilot time slot interference; informing the selected transmitting position of said uplink pilot time slot to said base station and terminal.

The base station provided in embodiments of the present invention, which is applied to TDD system, comprises:

Measuring module, is used for measuring uplink pilot time slot interference based on cell portion;

Transmitting module, is used for transmitting said uplink pilot time slot interference measured by said measuring module, which carries the home cell portion ID corresponding to said uplink pilot time slot interference, to radio network controller, therefore said radio network controller selecting the transmitting position of said uplink pilot time slot according to said uplink pilot time slot interference and said home cell portion ID.

The radio network controller provided in embodiments of the present invention, which is applied to TDD system, comprises:

Receiving module, is used for receiving uplink pilot time slot interference and home cell portion ID corresponding to said uplink pilot time slot interference transmitted by base station;

First selecting module, is used for selecting transmitting position of the uplink pilot time slot according to said uplink pilot time slot interference and said home cell portion ID.

Embodiments of the present invention realize the reporting of the TDD system-special dedicated measurement UpPTS interference by mean of base station measuring UpPTS interference and transmitting it to radio network controller, therefore the radio network controller selects the transmits of UpPTS interference according the received UpPTS interference. Certainly, any product for performing embodiments of invention is not necessary to have all advantages mentioned above at the same time.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a flow diagram of a method for transmitting uplink pilot time slot interference of an embodiment of the present invention;

FIG. 2 is a flow diagram of a method for transmitting uplink pilot time slot interference of another embodiment of the present invention;

FIG. 3 is a flow diagram of a method for transmitting uplink pilot time slot interference of another embodiment of the present invention;

FIG. 4 is a flow diagram of a method for transmitting uplink pilot time slot interference of another embodiment of the present invention;

FIG. 5 is a flow diagram of a method for transmitting uplink pilot time slot interference of another embodiment of the present invention;

FIG. 6 is a structure diagram of base station of embodiment of the present invention;

FIG. 7 is a structure diagram of RNC of embodiment of the present invention.

DETAILED DESCRIPTION OF THE EMBODIMENTS OF THE PRESENT INVENTION

To solve the above problems in the present technology, in the embodiments of the present invention, base station measures uplink pilot time slot interference based on cell portion, and transmits said uplink pilot time slot interference, which carries the home cell portion ID corresponding to said uplink pilot time slot interference, to radio network controller, therefore said radio network controller selects the transmitting position of the uplink pilot time slot according to said uplink pilot time slot and said home cell portion ID.

In the following parts, clear and complete descriptions of the technology programs of the present invention are made combined with drawings of the embodiments. It is clear that the embodiments of the present invention described here are only parts of the embodiments of the present invention. Based on the embodiments of the present invention, any other embodiments made by technical personnel of the field in the absence of creative work are all belong to the scope of the patent protection of the invention.

An embodiment of the present invention provides a method for transmitting uplink pilot time slot interference, as shown in FIG. 1, comprising the following steps:

Step 101, base station measures UpPTS interference based on cell portion.

Step 102, base station transmits UpPTS interference, which carries the home cell portion ID corresponding to UpPTS interference, to RNC, therefore the RNC selects the transmitting position of uplink pilot time slot according to UpPTS interference and the home cell portion ID.

Another embodiment of the present invention provides a method for transmitting uplink pilot time slot interference, therein, RNC selects the transmitting position of uplink pilot through mean method, as shown in FIG. 2, comprising the following steps:

Step 201, base station measures UpPTS interference.

For each UpPTS interference measurement position corresponding to uplink time slot, base station measures common measurement UpPTS interference, therein, each uplink time slot can include more than one UpPTS interference measurement position, that is including more than one optional transmitting position of UpPTS.

Specifically, supposing that the cell including n cell portions, each cell portion including m UpPTS interference measurement positions, and the acquired measurement result is Pij, therein, i can be equal to any natural number from 1 to n, indicating the i-th cell portions, and n is the total number of cell portions in service cell; j indicates the j-th UpPTS interference measurement position, and m is the total number of UpPTS interference measurement positions in service cell; so Pij indicates the UpPTS interference measurement of the j-th UpPTS interference measurement position in the i-th cell portion, and there are m*n Pij in total.

Step 202, base station transmits UpPTS interference measurement.

After the base station measures the UpPTS interference, it is necessary to transmit the acquired UpPTS interference measurement Pij to RNC.

Specifically, the process of the base station transmitting UpPTS interference measurement comprising the following steps:

a) Base station sorts the measurement results.

When the base station get the UpPTS interference measurement Pij of each UpPTS interference measurement position in each cell portion, sorting the Pij, and the sorting principle may be sorting the Pij according to the value of Pij, and also may be sorting the Pij according to the cell portion ID corresponding to the Pij.

b) Base station transmits UpPTS interference measurement.

Base station transmits the sorted UpPTS interference measurement Pij of each UpPTS interference measurement position of each cell portion in the step a) to RNC, of which the transmitting format is shown in Table 1.

TABLE 1

transmitting format of UpPTS interference

Cell Portions List

>Cell Portion ID

>UpPTS interference value

Therein, UpPTS interference value is the value of UpPTS interference measured by the base station, and cell portion ID is used for identifying each cell portion. As shown in Table 1, when reporting UpPTS interference, the base station carries the ID of the cell portion to which the UpPTS interference is belong in the report, and RNC can know which cell each UpPTS interference is belong to through the cell portion ID.

Step 203, RNC determines the transmitting position of UpPTS of service cell according to the mean method.

After the RNC receives all the UpPTS interference measurement Pij sent by the base station, RNC determines the transmitting position of UpPTS of service cell according to the received measurement result of each UpPTS interference measurement position of each cell portion, and takes the UpPTS interference measurement position with minimum Pij value (that is the minimum interference) as the transmitting position of UpPTS to transmit UpPTS, to ensure the access success rate of UpPTS.

There are multiple methods for determining the transmitting position through the measurement result of each UpPTS interference measurement position in each cell portion, such as mean method, direct exclusive method, and also can be the method that combining the load of business with the above two methods.

It takes the mean method for example to illustrate the technical programs in the embodiment of the present invention.

Specifically, the process that the RNC determines the transmitting position of UpPTS of service cell according to the received measurement result of each UpPTS interference measurement position of each cell portion comprises the following steps:

(1) Calculating the mean of UpPTS interference of each cell portion.

RNC receives all the UpPTS interference measurement Pij sent by the base station in step 201, and calculates the mean of the UpPTS interference measurement Pij of the same UpPTS interference measurement position in different cell portions, supposing it is Paver, j, therein, Paver, j indicates the mean of UpPTS interference measurement of the j-th UpPTS interference measurement position of the m cell portions in the cell.

(2) Selecting the transmitting position of UpPTS.

Selecting the minimum mean of UpPTS interference measurement Paver, min according to the acquired mean of UpPTS interference measurement of different UpPTS interference measurement position Paver, j in the above step (1), and the UpPTS interference measurement position corresponding to the Paver, min is the transmitting position of UpPTS of service cell, and the transmitting position of UpPTS of all the cell portions in the cell is the same.

Step 204, RNC informs the selected transmitting position of UpPTS to the base station and terminal.

Through the above selection, RNC determines the transmitting position of UpPTS. Then, RNC informs the selected transmitting position of UpPTS to the base station and terminal. When the RNC informs the transmitting position of UpPTS to the base station, it mainly uses the method that carrying the transmitting position of UpPTS in the following four higher layers signaling: COMMON TRANSPORT CHANNEL RECONFIGURATION REQUEST, AUDIT RESPONSE, COMMON MEASUREMENT INITIATION REQUEST and RESOURCE STATUS INDICATION.

Another embodiment of the present invention provides a method for transmitting UpPTS interference, therein, RNC selects the transmitting position of uplink pilot through exclusive method, as shown in FIG. 3, comprising the following steps:

Step 301, base station measures UpPTS interference.

For each UpPTS interference measurement position corresponding to uplink time slot, base station measures the common measurement UpPTS interference based on cell portion.

Specifically, supposing that there are n cell portions in the cell, each portion including m UpPTS interference measurement positions, and the acquired measurement result is Pij, therein, i can be equal to any natural number from 1 to n, indicating the i-th cell portion, and n is the total number of cell portions in service cell; j indicates the j-th UpPTS interference measurement position, and m is the total number of UpPTS interference measurement positions in service cell; so Pij indicates the UpPTS interference measurement of the j-th UpPTS interference measurement position in the i-th cell portion, and there are m*n Pij in total.

Step 302, base station transmits UpPTS interference measurement.

After the base station measures the UpPTS interference, it is necessary to transmit the acquired UpPTS interference measurement Pij to RNC.

Specifically, the process of the base station transmitting UpPTS interference measurement comprising the following steps:

a) Base station sorts the measurement results.

b) Base station transmits UpPTS interference measurement.

Base station transmits the sorted UpPTS interference measurement Pij of each UpPTS interference measurement position in each cell portion in the step a) to RNC, of which the transmitting format is shown in Table 2.

TABLE 2

transmitting format of UpPTS interference

Cell Portions List

>Cell Portion ID

>UpPTS interference value

Therein, UpPTS interference value is the value of UpPTS interference measured by the base station, and cell portion ID is used for identifying each cell portion. As shown in Table 2, when reporting UpPTS interference, the base station carries the ID of the cell portion to which the UpPTS interference is belong in the report message, and RNC can know which cell each UpPTS interference is belong to through the cell portion ID.

Step 303, RNC determines the transmitting position of UpPTS of service cell according to the direct exclusive method.

There are multiple methods for determining the transmitting position through the measurement result of each UpPTS interference measurement position of each cell portion, such as mean method, direct exclusive method, and also can be the method that combining the load of business with the above two method.

It takes the direct exclusive method for example to illustrate the technical programs in the embodiment of the present invention.

(1) Sorting the UpPTS interference measurement results.

RNC receives all the UpPTS interference measurement Pij sent by the base station in step 301, and sorts the Pij according to the value of the Pij, the sort order can be ascending or descending.

(2) Selecting the transmitting position of UpPTS.

Selecting the Pij with the maximum value from the sorted UpPTS interference measurement Pij in the above step (1), excluding the UpPTS interference measurement position corresponding to the Pij, repeating this step, until acquired the last remaining UpPTS interference measurement position, determining that the UpPTS interference measurement position is the transmitting position of service cell, and the transmitting position of all the cell portions in the cell is the same.

For example, each of the two UpPTS interference measurement positions corresponds to two UpPTS interference measurements, therein, the two UpPTS interference measurements corresponding to the first UpPTS interference measurement position are P11 and P12; the two UpPTS interference measurements corresponding to the second UpPTS interference measurement position are P21 and P22. The descending order of the four UpPTS interference measurements is P11, P21, P22, P12. Here, one of the two UpPTS interference measurements corresponding to the first UpPTS interference measurement position is the maximum one, and the other one is the minimum one. Selecting the maximum UpPTS interference measurement P11, and excluding the first UpPTS interference measurement position corresponding to P11. Then, there is only the last remaining UpPTS interference measurement position, selecting the UpPTS interference measurement position as the transmitting position of the UpPTS of each cell portion in the cell.

It is necessary to explain that although the above first UpPTS interference measurement position also corresponds to the minimum UpPTS interference measurement P12, the measurement position should still be excluded because of the maximum UpPTS interference measurement P11.

Step 304, RNC informs the selected transmitting position of UpPTS to the base station and terminal.

Through the above selection, RNC determines the transmitting position of UpPTS. Then, RNC informs the selected transmitting position of UpPTS to the base station and terminal. When the RNC informs the transmitting position of UpPTS to the base station, it mainly uses the method that carrying the transmitting position of UpPTS in the following four information element (IE): COMMON TRANSPORT CHANNEL RECONFIGURATION REQUEST, AUDIT RESPONSE, COMMON MEASUREMENT INITIATION REQUEST and RESOURCE STATUS INDICATION.

Another embodiment of the present invention provides a method for reporting UpPTS interference, therein, RNC selects the transmitting position of uplink pilot through mean method combined with load of business, as shown in FIG. 4, comprising the following steps:

Step 401, base station measures UpPTS interference.

To UpPTS interference measurement position corresponding to each uplink time slot, base station measures the common measurement UpPTS interference based on cell portion.

Step 402, base station transmits UpPTS interference measurement.

After the base station measures the UpPTS interference, it is necessary to transmit the acquired UpPTS interference measurement Pij to RNC.

Specifically, the process of the base station transmitting UpPTS interference measurement comprising the following steps:

a) Base station sorts the measurement results.

When the base station get the UpPTS interference measurement Pij of each UpPTS interference measurement position of each cell portion, sorting the Pij, and the sorting principle may be sorting the Pij according to the value of Pij, and also may be sorting the Pij according to the cell portion ID corresponding to the Pij.

b) Base station transmits UpPTS interference measurement.

TABLE 3

transmitting format of UpPTS interference

Cell Portions List

>Cell Portion ID

>UpPTS interference value

Therein, UpPTS interference value is the value of UpPTS interference measured by the base station, and cell portion ID is used for identifying each cell portion. As shown in Table 2, when reporting UpPTS interference, the base station carries the ID of the cell portion to which the UpPTS interference is belong in the report message, and RNC can know which cell each UpPTS interference is belong to through the cell portion ID.

Step 403, RNC determines the transmitting position of UpPTS of service cell according to the mean method combined with load of business.

It takes the mean method combined with load of business for example to illustrate the technical programs in the embodiment of the present invention.

(1) Excluding the UpPTS interference measurement position corresponding to the uplink time slot with large load of business.

RNC acquires the uplink time slot with large load of business according the load of business allocated to each uplink time slot, and excludes the UpPTS interference measurement position corresponding to the uplink time slot with large load of business.

Specifically, it comprises any of the following two case to exclude the UpPTS interference measurement position corresponding to the uplink time slot with large load of business:

(a) Excluding the UpPTS interference measurement position corresponding to the uplink time slot with largest load of business.

(b) Setting threshold load of business, excluding the UpPTS interference measurement position corresponding to the uplink time slot with load of business beyond the threshold.

(2) Calculating the mean of the UpPTS interference of the UpPTS interference measurement corresponding to the each remaining uplink time slot.

RNC receives all the UpPTS interference measurement Pij sent by the base station in step 401, and excludes the UpPTS interference measurement position corresponding to the uplink time slot excluded in the above (1), and calculates the mean of the UpPTS interference measurement Pij of each UpPTS interference measurement position in the remaining uplink time slot of the different cell portions, supposing it is Paver, j, therein, Paver, j indicates the mean of UpPTS interference measurement of the j-th UpPTS interference measurement position of the m cell portions in the cell.

(3) Selecting the transmitting position of UpPTS.

Selecting the minimum mean of UpPTS interference measurement Paver, min according to the acquired mean of UpPTS interference measurement of UpPTS interference measurement position in the remaining uplink time slot Paver, j in the above step (2), and the UpPTS interference measurement position corresponding to the Paver, min is the transmitting position of UpPTS of service cell, and the transmitting position of UpPTS of all the cell portion in the cell is the same.

Step 404, RNC informs the selected transmitting position of UpPTS to the base station and terminal.

Through the above selection, RNC determines the transmitting position of UpPTS. Then, RNC informs the selected transmitting position of UpPTS to the base station and terminal. When the RNC informs the transmitting position of UpPTS to the base station, it mainly uses the method that carrying the transmitting position of UpPTS in the following four information element (IE): COMMON TRANSPORT CHANNEL RECONFIGURATION REQUEST, AUDIT RESPONSE, COMMON MEASUREMENT INITIATION REQUEST and RESOURCE STATUS INDICATION.

Another embodiment of the present invention provides a method for reporting UpPTS interference, therein, RNC selects the transmitting position of uplink pilot through exclusive method combined with load of business, as shown in FIG. 5, comprising the following steps:

Step 501, base station measures UpPTS interference.

To UpPTS interference measurement position corresponding to each uplink time slot, base station measures the common measurement UpPTS interference based on cell portion.

Step 502, base station transmits UpPTS interference measurement.

After the base station measures the UpPTS interference, it is necessary to transmit the acquired UpPTS interference measurement Pij to RNC.

Specifically, the process of the base station transmitting UpPTS interference measurement comprising the following steps:

a) Base station sorts the measurement results.

b) Base station transmits UpPTS interference measurement.

TABLE 4

transmitting format of UpPTS interference

Cell Portions List

>Cell Portion ID

>UpPTS interference value

Therein, UpPTS interference value is the value of UpPTS interference measured by the base station, and cell portion ID is used for identifying each cell portion. As shown in Table 2, when reporting UpPTS interference, the base station carries the ID of the cell portion to which the UpPTS interference is belong in the report message, and RNC can know which cell each UpPTS interference is belong to through the cell portion ID.

Step 503, RNC determines the transmitting position of UpPTS of service cell according to the direct exclusive method combined with load of business.

After the RNC receives all the UpPTS interference measurement Pij sent by the base station, RNC determines the transmitting position of UpPTS of service cell according to the received measurement result of each UpPTS interference measurement position in each cell portion, and takes the UpPTS interference measurement position with minimum Pij value (that is the minimum interference) as the transmitting position of UpPTS to transmit UpPTS, to ensure the access success rate of UpPTS.

It takes the direct exclusive method combined with load of business for example to illustrate the technical proposal in the embodiment of the present invention.

(1) Excluding the UpPTS interference measurement position corresponding to the uplink time slot with large load of business.

(2) Sorting the UpPTS interference measurement results corresponding to UpPTS interference measurement position in the remaining uplink time slot.

RNC receives all the UpPTS interference measurement Pij sent by the base station in step 501, and excludes the UpPTS interference measurement position corresponding to the uplink time slot excluded in the above step (1), and sorts the UpPTS interference measurement results according to UpPTS interference measurement position in the remaining uplink time slot, the sort order can be ascending or descending.

(3) Selecting the transmitting position of UpPTS.

Selecting the Pij with the maximum value from the sorted UpPTS interference measurement Pij of the UpPTS interference measurement position in the remaining uplink time slot in the above step (1), excluding the UpPTS interference measurement position corresponding to the Pij, repeating this step, until acquired the last remaining UpPTS interference measurement position, determining that the UpPTS interference measurement position is the transmitting position of service cell, and the transmitting position of all the cell portions in the cell is the same.

Step 504, RNC informs the selected transmitting position of UpPTS to the base station and terminal.

Through the above selection, RNC determines the transmitting position of UpPTS. Then, RNC informs the selected transmitting position of UpPTS to the base station and terminal. When the RNC informs the transmitting position of UpPTS to the base station, it mainly uses the method that carrying the transmitting position of UpPTS in the following four IE: COMMON TRANSPORT CHANNEL RECONFIGURATION REQUEST, AUDIT RESPONSE, COMMON MEASUREMENT INITIATION REQUEST and RESOURCE STATUS INDICATION.

Embodiments of the present invention provide a TDD system for reporting uplink pilot time slot interference, comprising:

Base station, is used for measures uplink pilot time slot interference based on a cell portion; transmitting UpPTS interference, which carries the home cell portion ID corresponding to UpPTS interference, to RNC, therefore the RNC selecting the transmitting position of said uplink pilot time slot according to said uplink pilot time slot interference and said home cell portion ID.

RNC, is used for receiving UpPTS interference sent by the base station, which is measured and sent by the base station, and carries home cell portion ID corresponding to the UpPTS interference; selecting the transmitting position of the UpPTS according to the received UpPTS interference and the home cell portion ID corresponding to the UpPTS interference; informing the selected transmitting position of the UpPTS to the base station and terminal.

Base station 60 in the system, as shown in FIG. 6, comprises:

Measuring module 61, is used for measuring UpPTS interference based on cell portion;

Transmitting module 62, is used for transmitting the UpPTS interference measured by said measuring module 61, which carries the home cell portion ID corresponding to the UpPTS interference, to the RNC, therefore the RNC selecting the transmitting position of the UpPTS according to the UpPTS interference and said home cell portion ID.

RNC 70 in the system, as shown in FIG. 7, comprises:

Receiving module 71, is used for receiving UpPTS interference and home cell portion ID corresponding to the UpPTS interference transmitted by base station;

First selecting module 72, is used for selecting transmitting position of the uplink pilot time slot according to the UpPTS interference and said home cell portion ID.

First selecting module 72 is specifically used for:

Acquiring the mean of UpPTS of different cell portion corresponding to the UpPTS interference measurement position; selecting UpPTS interference measurement position corresponding to the minimum of the mean as transmitting position of the UpPTS; or,

Sorting the UpPTS interference; excluding the UpPTS interference measurement position corresponding to maximum UpPTS interference in the sequence successively according to the sort result, until remaining the last one UpPTS interference measurement position; selecting the last remaining UpPTS interference measurement position as transmitting position of the UpPTS.

Further comprising:

Second selecting module 73, is used for selecting transmitting position of the UpPTS according to load of business of the uplink time slot in which the UpPTS interference measurement position locates.

Second selecting module 73 is specifically used for:

Excluding UpPTS interference measurement position corresponding to uplink time slot with the maximum load of business; or,

Setting threshold load of business; excluding the UpPTS interference measurement position corresponding to the uplink time slot with load of business beyond the threshold.

Further comprising:

Transmitting module 74, is used for informing the transmitting position to the base station through the ID carrying the transmitting position.

Through the description of the embodiments above, the technical personnel in this field can understand clearly that the present invention can be implemented by hardware or software and necessary current hardware platform. Based on this understanding, the technical program of the present invention can be embodied by a form of software products which can be stored in a nonvolatile storage medium (such as CD-ROM, U disk, mobile hard disk, etc.), including a number of instructions for making a computer device (such as personal computers, servers, or network equipments, etc.) implement the methods described in the embodiments of the present invention.

The descriptions above are just preferred implement ways of the present invention. It should be pointed that, for general technical personnel in this field, some improvement and decorating can be done, which should be as the protection scope of the present invention.

Claims

1. A method for reporting uplink pilot interference, which is applied to TDD system, wherein, comprising: Base station measuring uplink pilot time slot interference based on cell portion;Said base station transmitting said uplink pilot time slot interference, which carries the home cell portion ID corresponding to said uplink pilot time slot interference, to radio network controller, therefore said radio network controller selecting the transmitting position of said uplink pilot time slot according to said uplink pilot time slot interference and said home cell portion ID.
2. The method according to claim 1, wherein, said radio network controller selecting the transmitting position of said uplink pilot time slot according to said uplink pilot time slot interference and said home cell portion ID, comprising: Said radio network controller determining transmitting position of the uplink pilot time slot of service cell according to the measuring result of each uplink pilot time slot interference measurement position in each cell portion, taking the uplink pilot time slot interference measurement position with the minimum measuring result as the transmitting position of the uplink pilot time slot.
3. The method according to claim 2, wherein, said radio network controller taking the uplink pilot time slot interference measurement position with the minimum measuring result as the transmitting position of the uplink pilot time slot, comprising: Said radio network controller acquiring the mean of uplink pilot time slot of different cell portion corresponding to said uplink pilot time slot interference measurement position; said radio network controller selecting uplink pilot time slot interference measurement position corresponding to the minimum of said mean as transmitting position of the uplink pilot time slot; or,Said radio network controller sorting said uplink pilot time slot interference;Said radio network controller excluding the uplink pilot time slot interference measurement position corresponding to maximum uplink pilot time slot interference in the sequence successively according to the sort result, until there is only one uplink pilot time slot interference measurement position; said radio network controller selecting the uplink pilot time slot interference measurement position as transmitting position of the uplink pilot time slot.
4. The method according to claim 3, wherein, before said radio network controller taking the uplink pilot time slot interference measurement position with the minimum measuring result as the transmitting position of the uplink pilot time slot, further comprising: said radio network controller excluding uplink pilot time slot interference measurement position corresponding to uplink time slot with the maximum load of business; or, said radio network controller excluding uplink pilot time slot interference measurement position corresponding to uplink time slot with load of business beyond the threshold load of business; When said radio network controller selects transmitting position of the uplink pilot time slot, removing the uplink pilot time slot interference measurement position corresponding to the excluded uplink time slot, acquiring the mean of uplink pilot time slot interference of different cell portion corresponding to the remaining uplink pilot time slot interference measurement position, selecting the uplink pilot time slot interference measurement position corresponding to the minimum of said mean as transmitting position of the uplink pilot time slot.
5. The method according to claim 3, wherein, before said radio network controller taking the uplink pilot time slot interference measurement position with the minimum measuring result as the transmitting position of the uplink pilot time slot, further comprising: said radio network controller excluding uplink pilot time slot interference measurement position corresponding to uplink time slot with the maximum load of business; When said radio network controller selects transmitting position of the uplink pilot time slot, removing the uplink pilot time slot interference measurement position corresponding to the excluded uplink time slot, sorting the remaining uplink pilot time slot interference, excluding the uplink pilot time slot interference measurement position corresponding to maximum uplink pilot time slot interference in the sequence successively according to the sort result, until remaining the last one uplink pilot time slot interference measurement position, selecting the last remaining uplink pilot time slot interference measurement position as transmitting position of the uplink pilot time slot.
6. The method according to claim 1, wherein, after said radio network controller selecting the transmitting position of said uplink pilot time slot according to said uplink pilot time slot interference and said home cell portion ID, further comprising: Said radio network controller informing said transmitting position to said base station and terminal through the higher layers signaling carrying said transmitting position.
7. A TDD system for transmitting uplink pilot time slot interference, wherein, comprising: Base station, is used for measures uplink pilot time slot interference based on cell portion; transmitting said uplink pilot time slot interference, which carries the home cell portion ID corresponding to said uplink pilot time slot interference, to radio network controller;Radio network controller, is used for receiving said uplink pilot time slot interference measured and transmitted by said base station, and the carried home cell portion ID corresponding to said uplink pilot time slot interference; selecting the transmitting position of said uplink pilot time slot according to the received uplink pilot time slot interference and the home cell portion ID corresponding to said uplink pilot time slot interference; informing the selected transmitting position of said uplink pilot time slot to said base station and terminal.
8. A base station, which is applied to TDD system, wherein, comprising: Measuring module, is used for measuring uplink pilot time slot interference based on cell portion;Transmitting module, is used for transmitting said uplink pilot time slot interference measured by said measuring module, which carries the home cell portion ID corresponding to said uplink pilot time slot interference, to radio network controller, therefore said radio network controller selecting the transmitting position of said uplink pilot time slot according to said uplink pilot time slot interference and said home cell portion ID.
9. A radio network controller, which is applied to TDD system, wherein, comprising: Receiving module, is used for receiving uplink pilot time slot interference and home cell portion ID corresponding to said uplink pilot time slot interference transmitted by base station;First selecting module, is used for selecting transmitting position of the uplink pilot time slot according to said uplink pilot time slot interference and said home cell portion ID.
10. Radio network controller according to claim 9, wherein, said first selecting module is specifically used for: Acquiring the mean of uplink pilot time slot of different cell portion corresponding to said uplink pilot time slot interference measurement position; selecting uplink pilot time slot interference measurement position corresponding to the minimum of said mean as transmitting position of the uplink pilot time slot; or,Sorting said uplink pilot time slot interference; excluding the uplink pilot time slot interference measurement position corresponding to maximum uplink pilot time slot interference in the sequence successively according to the sort result, until remaining the last one uplink pilot time slot interference measurement position; selecting the last remaining uplink pilot time slot interference measurement position as transmitting position of the uplink pilot time slot.
11. Radio network controller according to claim 9, wherein, further comprising: Second selecting module, is used for selecting transmitting position of the uplink pilot time slot according to load of business of the uplink time slot in which said uplink pilot time slot interference measurement position locates.
12. Radio network controller according to claim 11, wherein, said second selecting module is specifically used for: Excluding uplink pilot time slot interference measurement position corresponding to uplink time slot with the maximum load of business; or,Setting threshold load of business; excluding said uplink pilot time slot interference measurement position corresponding to said uplink time slot with load of business beyond said threshold.
13. Radio network controller according to claim 9, wherein, further comprising: Transmitting module, is used for informing said transmitting position to said base station through the ID carrying said transmitting position.

Priority Claims (1)

Number	Date	Country	Kind
200910090756.9	Aug 2009	CN	national

PCT Information

Filing Document	Filing Date	Country	Kind	371c Date
PCT/CN10/75777	8/6/2010	WO	00	1/8/2012

Method, System and Device for Reporting Uplink Pilot Interference

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Priority Claims (1)

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