CN101217801B - A same frequency interference selection method applied in N frequency point networking system - Google Patents

Abstract

The invention provides a method used for selecting an identical interference cell in an N-frequency point networking system, comprising the steps that a terminal receives a broadcast message or measurement control message which is sent by a receiving network and stores an identical frequency cell list and different frequency cell list wherein, the terminal compares a cell parameter identifier in the identical frequency cell list and that in the different frequency cell list and takes the measurement results of the main frequency points correspondingly in the corresponding different frequency cell list as the measurement results of the identical frequency interference cells in the identical frequency cell list which have the same cell parameter identifier with the different frequency cell list, thus reducing the probability of missing of identical frequency interference cell which is caused by inaccurate measurement because the identical frequency auxiliary frequency point has no pilot signals. The network end configures the identical frequency measurement and different frequency measurement at the same time, as the measurement to the auxiliary frequency point in the identical frequency list of identical frequency interference removing algorithm is reduced, the working quantity of the terminal measurement is reduced; meanwhile, the identical frequency interference cell can be selected more exactly.

Description

A kind of method that is used for the selection inter-frequency interference cell of N frequency point networking system

Technical field

The present invention relates to moving communicating field, particularly remove the co-channel interference signal, is exactly a kind of method of selecting inter-frequency interference cell in the communication system that adopts the N frequency point networking specifically.

Background technology

In mobile communication system, can produce very big interference if be in other users' that work on the identical frequency signal to active user's signal with the receiver that bigger power arrives the active user, thereby influence the demodulation performance of active user's signal.In order to reduce this co-channel interference as far as possible, receiver generally can use the algorithm of removing the co-channel interference signal to improve the demodulation performance of receiver.A prerequisite of this algorithm is exactly to obtain the concrete parameter of inter-frequency interference cell and these cell signal power are measured.Current mobile communication system generally all can or be measured in the control messages the contiguous alien frequencies and the parameter of co-frequency cell are informed terminal in broadcast, terminal is selected the bigger sub-district of power as the input of removing the co-channel interference algorithm to measuring with the pilot channel of the sub-district in the tabulation frequently.

Adopt the communication system of N frequency point networking to be meant that all or part cell base station in the mobile communication system carries out the transmitting-receiving of signal on a plurality of frequencies, one of them is the dominant frequency point, and all the other are auxilliary frequency, and broadcast message and pilot channel only send on dominant frequency point.The dominant frequency point of each sub-district with assist frequency and adopt identical cell parameter identifier (Cell Parameters ID).

After N frequency point networking technology is introduced, each sub-district during broadcast is tabulated with the co-frequency cell of measuring control messages and alien-frequency district is tabulated is equivalent to a working frequency points of a sub-district in the real network, and the relation of frequency or alien frequencies is with respect to the working frequency points of portable terminal together.System for the N frequency point networking, the main frequency point information that both may comprise some adjacent sub-district in the co-frequency cell tabulation of broadcast and measurement control messages, the auxilliary frequency point information that also may comprise some sub-district, owing on auxilliary frequency, do not send pilot frequency information, terminal can't correctly obtain the power of this sub-district when measuring, can cause the situation that the generation leakage is selected to the measurement of inter-frequency interference cell is inaccurate, make that the interfered cell input of removing the co-channel interference algorithm is inaccurate, thereby influence the receiver demodulation performance.

See figures.1.and.2, Fig. 1 is the cell configuration schematic diagram of the communication system of employing N frequency point networking; As shown in Figure 1, a portable terminal (UE) is resident or to be operated in cell parameter identifier (Cell ParameterID) be 5 No. 5 sub-districts, as shown in Figure 1, around No. 5 sub-districts, exist No. 0, and No. 7, No. 8, No. 9, No. 15, No. 127.The working frequency points of terminal No. 5 sub-districts is f3, and these contiguous sub-districts send information and can produce interference to the received signal of terminal around it.Because UE is positioned at the position near 7,9, No. 15 sub-districts, system is according to optimized Algorithm, and selected 7,9, No. 15 sub-districts are the adjacent cell that need measure; And in N frequency point networking technology, because pilot signal or broadcast message are not launched at auxilliary frequency in these contiguous sub-districts, so terminal does not receive the information in pilot signal or the broadcast message, thereby cause terminal when measuring, can't obtain the power of this sub-district, but in real work, very big interference may be caused to the terminal information reception in the information of auxilliary frequency emission in these sub-districts, usually because this cell operation does not launch pilot signal on auxilliary frequency or the broadcast message terminal can't obtain this sub-district some metrical informations at auxilliary frequency, when considering the interference of removing inter-frequency interference cell, it is leaked choosing, make that the interfered cell input of removing the co-channel interference algorithm is inaccurate, thereby influence the receiver demodulation performance.

The system that receives tabulates for the co-frequency cell tabulation and the alien-frequency district of its configuration broadcast that terminal sends from network or the measurement control order, General System can be according to its predetermined optimized Algorithm, for this terminal configuration the co-frequency cell tabulation and the alien-frequency district of one predetermined configurations tabulate.Both comprised that the dominant frequency point that the terminal works frequency is identical therewith also comprised the identical auxilliary frequency of working frequency points therewith in the co-frequency cell tabulation, the alien-frequency district tabulation includes only the dominant frequency point inequality with working frequency points.

From Fig. 2 A as can be seen, the dominant frequency point f3 of No. 5 sub-districts, it is transmitting system information on time slot 0, can transmitting downstream on the descending pilot frequency time slot of special time slot synchronization code signal.The business information of other operational terminal of emission on other time slot; Auxilliary frequency f1, on the f2, it does not send signal on time slot 0 and special time slot, only the business information of other operational terminal of emission on other time slot.

As can be seen, the dominant frequency point of No. 7 sub-districts is f1 from Fig. 2 B, and it is transmitting system information on time slot 0, can the transmitting downstream synchronization code signal on the descending pilot frequency time slot of special time slot.The business information of other operational terminal of emission on other time slot; Auxilliary frequency f2, on the f3, it does not send signal on time slot 0 and special time slot, only the business information of other operational terminal of emission on other time slot.

With respect to being positioned at No. 5 sub-districts and being operated in the terminal UE (f3 that f3 goes up a certain descending time slot (as descending time slot 5), 5), when other terminal works being arranged in No. 7 sub-districts when it assists the same descending time slot (as descending time slot 5) of frequency f3, then formed one with respect to (f3,5) inter-frequency interference cell (f3,7); When the same descending time slot that has other terminal works at its dominant frequency f1 in No. 7 sub-districts (as descending time slot 5), then formed an alien frequencies interfered cell (f1,7) with respect to (f3,5).

From Fig. 2 C as can be seen, the dominant frequency point of No. 15 sub-districts is f2, and it is transmitting system information on time slot 0, can the transmitting downstream synchronization code signal on the descending pilot frequency time slot of special time slot.The business information of other operational terminal of emission on other time slot; Auxilliary frequency f1, on the f3, it does not send signal on time slot 0 and special time slot, only the business information of other operational terminal of emission on other time slot.

With respect to being positioned at No. 5 sub-districts and being operated in the terminal UE (f3 that f3 goes up a certain descending time slot (as descending time slot 5), 5), when terminal works being arranged in No. 15 sub-districts when it assists the same descending time slot (as descending time slot 5) of frequency f3, then formed one with respect to (f3,5) inter-frequency interference cell (f3,15); When the same descending time slot that has other terminal works at its dominant frequency f2 in No. 15 sub-districts (as descending time slot 5), then formed an alien frequencies interfered cell (f2,5) with respect to (f3,5).

As can be seen, the dominant frequency point of No. 9 sub-districts is f3 from Fig. 2 D, and it is transmitting system information on time slot 0, can the transmitting downstream synchronization code signal on the descending pilot frequency time slot of special time slot.The business information of other operational terminal of emission on other time slot; Auxilliary frequency f1, on the f2, it does not send signal on time slot 0 and special time slot, only the business information of other operational terminal of emission on other time slot.

With respect to being positioned at No. 5 sub-districts and being operated in the terminal UE (f3 that f3 goes up a certain descending time slot (as descending time slot 5), 5), when the same descending time slot that has terminal works at its dominant frequency f3 in No. 9 sub-districts (as descending time slot 5), then formed one with respect to (f3,5) inter-frequency interference cell (f3,9).

This terminal resident or that be operated in No. 5 sub-districts can receive broadcast message or the measurement control order that system sends, in its broadcast message or measurement control order, there are the co-frequency cell tabulation and the alien-frequency district tabulation of system configuration, as system be: (f3 for the tabulation of the co-frequency cell of this terminal configuration, 15) (f3,9); The tabulation of alien-frequency district is: (f1,7), (f2,15).Because the frequency f3 in the co-frequency cell (f3,15) does not belong to the dominant frequency point of sub-district 15, therefore, the pilot signal power of this co-frequency cell can't be measured, because this sub-district 15 does not send signal on time slot 0 of assisting frequency f3 and special time slot.

Summary of the invention

The method that the purpose of this invention is to provide a kind of selection inter-frequency interference cell of the N of being used for frequency point networking system, to overcome in the prior art when measuring inter-frequency interference cell because this frequency is auxilliary frequency measures less than this cell signal and produce the problem of selecting with Louing, thereby import for the removal co-channel interference algorithm of receiver provides more accurately.

For realizing above-mentioned purpose of the present invention, the invention provides a kind of method of selecting inter-frequency interference cell, be that this method may further comprise the steps: A. one terminal receives a system information or measurement control order from the network terminal of N frequency point networking; B. analyze this system information or measurement control order, select suitable alien-frequency district and co-frequency cell; C. measure the alien frequencies select and the pilot power of co-frequency cell; D. the power that records is compared with predetermined conditions, the power of eligible sub-district and parameter are input to the algorithm of removing co-channel interference.

Wherein said inter-frequency interference cell comprises dominant frequency point identical with the working frequency points of this terminal and the auxilliary frequency identical with the working frequency points of this terminal.

Wherein said step B is by the terminal cell parameter identifier of sub-district in sub-district and the alien-frequency district tabulation in the co-frequency cell tabulation relatively, and think in the alien-frequency district tabulation tabulate with co-frequency cell in certain sub-district sub-district dominant frequency point of co-frequency cell for this reason that the same cells parameter identifier arranged.

Described step C is the sub-district of finding the dominant frequency point identical with its cell parameter identifier in the co-frequency cell tabulation in the alien-frequency district tabulation, with the measurement result of the measurement result on its dominant frequency point as this co-frequency cell; In the alien-frequency district tabulation, do not find the sub-district identical in the co-frequency cell tabulation, just on this sub-district, measure with its cell parameter identifier.

By above technical scheme provided by the invention as can be seen, the present invention is on the basis of existing inter-frequency interference cell system of selection, find out the dominant frequency point of the same sub-district of auxilliary frequency correspondence in the co-frequency cell tabulation by the cell parameter identifier (Cell Parameters ID) of sub-district during relatively broadcast or the co-frequency cell tabulation of measurement control messages and alien-frequency district are tabulated, and replace the measurement of this auxilliary frequency with the pilot measurement amount of dominant frequency point, reduced because the inter-frequency interference cell that the measurement that does not have pilot signal to cause with frequently auxilliary frequency is forbidden to cause leaks the probability of choosing.Dispose simultaneously in network terminal (most applications of network operation is configuration so) under the situation of common frequency measurement and different-frequency measure, because reduced because with the measurement of going algorithm of interference frequently to auxilliary frequency in the co-frequency cell tabulation, and reduced the workload that terminal is measured, can more accurately select inter-frequency interference cell simultaneously.

Description of drawings

Fig. 1 is for adopting the cell configuration schematic diagram of N frequency point networking system;

Fig. 2 A-Fig. 2 D is the transmission frame schematic diagram that each adjacent cell in the network system shown in Figure 1 is launched; Fig. 2 A is the transmission frame schematic diagram of No. 5 sub-districts at terminal UE place; Fig. 2 B is the transmission frame schematic diagram of No. 7 sub-districts; Fig. 2 C is the transmission frame schematic diagram of No. 15 sub-districts; Fig. 2 D is the transmission frame schematic diagram of No. 9 sub-districts;

Fig. 3 selects the flow chart of inter-frequency interference cell method for the present invention;

Fig. 4 is the substep flow chart of step B among Fig. 3;

Fig. 5 is the flow chart of the object lesson of step B among Fig. 3;

Fig. 6 is the concrete implementation step flow chart of step 109 among Fig. 5.

Embodiment

The present invention is described further below in conjunction with the drawings and specific embodiments.Particularly, select the example that is embodied as of the inter-frequency interference cell measured to describe with the terminal in the mobile communication system of introducing the N frequency point networking.

From Fig. 1, this terminal UE resident or that be operated in No. 5 sub-districts shown in Figure 2 can receive broadcast message or the measurement control order that system sends, in its broadcast message or measurement control order, there are the co-frequency cell tabulation and the alien-frequency district tabulation of system configuration, as system be: (f3 for the tabulation of the co-frequency cell of this terminal configuration, 15) (f3,9); The tabulation of alien-frequency district is: (f1,7), (f2,15).Because the frequency f3 in the co-frequency cell (f3,15) does not belong to the dominant frequency point of sub-district 15, therefore, the power of this co-frequency cell is to measure its pilot signal, because it does not send signal on time slot 0 of assisting frequency f3 and special time slot.So must find a kind of solution, prevent from not leaked choosing and make its co-channel interference that produces owing to there is metrical information because pilot frequency information is not launched in the sub-district on auxilliary frequency.

Core concept of the present invention is: when selecting inter-frequency interference cell to measure, cell parameter identifier (Cell Parameters ID) by sub-district during relatively broadcast or the co-frequency cell tabulation of measurement control messages and alien-frequency district are tabulated, the dominant frequency point of the auxilliary frequency affiliated subdistrict in the co-frequency cell tabulation is found out in the alien-frequency district tabulation, measurement with auxilliary frequency in the measurement replacement co-frequency cell tabulation of dominant frequency point reduces inter-frequency interference cell and leaks situation about selecting.

According to above-mentioned thought of the present invention, referring to Fig. 3, be used for the method that the N frequency point networking is selected inter-frequency interference cell, it mainly comprises the following steps:

A. terminal receives the broadcast of this sub-district or measures control messages, and all sub-districts and the cell parameter in the co-frequency cell tabulation in all sub-districts and cell parameter and the common frequency measurement in the alien-frequency district tabulation in the record different-frequency measure;

B. analyze the cell parameter of co-frequency cell tabulation and alien-frequency district tabulation, select suitable alien-frequency district and co-frequency cell;

C. measure the alien frequencies select and the pilot power of co-frequency cell;

D. the power that records is compared with predetermined conditions, the power of eligible sub-district and parameter are input to the algorithm of removing co-channel interference.

In conjunction with Fig. 3 the method flow diagram that the N of being used for frequency point networking of the present invention is selected inter-frequency interference cell has been described above.

Fig. 4 has then shown the substep flow chart of step B among Fig. 3.Particularly, step B comprises following each substep:

B1. the cell parameter identifier (Cell Parameters ID) of each sub-district in the co-frequency cell tabulation is compared with the cell parameter identifier (Cell Parameters ID) of each sub-district in the alien-frequency district tabulation, if certain sub-district (Cell1) is identical with the cell parameter identifier (Cell Parameters ID) of certain sub-district (Cell2) of alien-frequency district tabulation in the co-frequency cell tabulation, just think that these two sub-districts are actually the dominant frequency point of certain sub-district and assist frequency, because in the TD-SCDMA system, the measuring object of different-frequency measure all is a pilot channel, so the sub-district in the alien-frequency district tabulation is the dominant frequency point of actual each sub-district.So sub-district (Cell2) is the dominant frequency point, sub-district (Cell1) is auxilliary frequency.With all have the sub-district of same cells parameter identifier (Cell Parameters ID) to note with the alien-frequency district tabulation in the co-frequency cell tabulation, and write down corresponding with it alien-frequency district with same cells parameter identifier (Cell Parameters ID).Be designated as cell set A.

B2. will there be the cell set of identical cell parameter identifier (Cell Parameters ID) to note in the co-frequency cell tabulation with the alien-frequency district tabulation.Be designated as cell set B.

B3, terminal select to remove the required sub-district of measuring of co-channel interference algorithm.

According to the method that is used for the selection inter-frequency interference cell of N frequency point networking system of the present invention, step C wherein can specifically describe and be: if the sub-district in the co-frequency cell tabulation belongs to cell set A, then measure the power of the alien-frequency district pilot channel identical with its cell parameter identifier (Cell Parameters ID), and the record measurement result; If the sub-district in the co-frequency cell tabulation belongs to cell set B, then measure the power of this district pilots channel.With of the input of above-mentioned two groups of measurement results while as step D.

Describe the flow chart of the object lesson of step B among Fig. 3 in detail below in conjunction with Fig. 5.

Shown in step 101, if terminal works on the dominant frequency point of sub-district, terminal can be from the broadcast of this sub-district or network terminal send to the co-frequency cell tabulation and the alien-frequency district that obtain adjacent sub-district in the measurement control messages of terminal and tabulate; If terminal works is on auxilliary frequency, terminal can obtain the co-frequency cell tabulation and the alien-frequency district of adjacent sub-district and tabulate from network terminal sends to the measurement control messages of terminal.Each sub-district in the co-frequency cell tabulation all comprises one group of parameter, described parameter comprises cell parameter identifier parameters such as (CellParameters ID), each sub-district in the alien-frequency district tabulation also comprises one group of parameter, described parameter comprises cell parameter identifier (Cell Parameters ID), parameters such as frequency point information.Supposing has M sub-district (for example (f1,7), (f2,15)) with in the tabulation N sub-district (for example (f3,15), (f3,9)) being arranged frequently in the alien frequencies tabulation, and N＞0, and M＞0 enters step 102.

Step 102: for inquiry is provided with two variable n, m, it initially is made as n=1, m=1; Change n, the value of m can travel through co-frequency cell tabulation and alien-frequency district tabulation; The Cell of initialization simultaneously Group1, it is set to sky, enters step 103.

Step 103: the sub-district of n position in co-frequency cell that judgement the is stored tabulation, whether the cell parameter identifier (CellParameters ID) of m position Cell m in the alien-frequency district tabulation that is Cell n and is stored is identical, if identically carry out step 104, if difference carry out step 105.

Step 104: the sub-district is deposited into cell set (Cell Group1) to (Cell n and Cell m), and (this cell set is equivalent to the cell set A described in the step B2, the sub-district is to (f3 in described special case, 15)-(f2,15) being put into cell set (Cell Group1) is among the cell set A), and change step 105 over to.

Step 105: m is added 1, enter step 106.

Step 106: whether judge m greater than M, if greater than M, promptly Cell n compares with the sub-district of all alien-frequency district tabulations, and enter step 107 this moment, otherwise enter step 103.

Step 107: n is added 1, and m is made as 1, reenters step 108.

Step 108: judge n＞N, whether current location has been positioned at the end of co-frequency cell tabulation.If not, then enter step 103; If then enter step 109;

Step 109: this terminal (UE) selects to remove the required sub-district of measuring of co-channel interference algorithm.The sub-district of the sub-district of being stored among the Cell Group1 this moment to disturbing for the auxilliary frequency that needs in the co-channel interference algorithm to measure.

Below in conjunction with Fig. 6 the flow chart of the instantiation of the step 109 among Fig. 5 is described in detail.

Shown in step 201, the location variable in the co-frequency cell tabulation of being stored is made as n, and it initially is made as 1, simultaneously cell set (Cell Group2) is initialized as sky, enter step 202 afterwards;

Step 202: whether the sub-district of judging the Cell n in the co-frequency cell tabulation belongs in the cell set (CellGroup1), corresponding district that to be this sub-district exist in the alien-frequency district tabulation number, if belong to cell set (Cell Group1), then change step 203 over to, otherwise change step 204 over to.

Step 203: the alien-frequency district of the Cell n correspondence in the cell set (Cell Group1) is deposited into cell set (Cell Group2), enters step 205 then.

Step 204: after Cell n is deposited into cell set (Cell Group2), enter step 205.

Step 205: n adds 1 with variable, enters step 206;

Step 206: whether judge n greater than N, promptly judge whether to have looked for all to remove the sub-district of the required measurement of co-channel interference algorithm.If n greater than N, is transferred to step 207, otherwise change step 202 over to.

Step 207: with the sub-district of sub-districts all in the cell set (CellGroup2) as the required measurement of removal co-channel interference algorithm.In described special case, comprise (f2,15), (f3,9) in this cell set (CellGroup2) the most at last.

After above-mentioned steps, finally drawn the cell set (CellGroup2) of the sub-district that comprises that all need be measured.Next, all sub-districts in the above-mentioned cell set (CellGroup2) are measured step C promptly recited above.And the power that records compared with predetermined conditions, the power and the parameter of eligible sub-district is input to the algorithm of removing co-channel interference, step D promptly recited above.

By above technical scheme provided by the invention as can be seen, the present invention is on the basis of existing inter-frequency interference cell system of selection, find out the dominant frequency point of assisting the same sub-district of frequency correspondence in the co-frequency cell tabulation by the cell parameter identifier (Cell Parameters ID) that co-frequency cell is tabulated and alien-frequency district is tabulated that compares broadcast or measure in the control messages, and replace the measurement of this auxilliary frequency with the pilot measurement of dominant frequency point, reduced because the inter-frequency interference cell that the measurement that does not have pilot signal to cause with frequently auxilliary frequency is forbidden to cause leaks the probability of choosing.Dispose simultaneously in network terminal (most applications of network operation is configuration so) under the situation of different-frequency measure,, and reduced the workload that terminal is measured because reduced because with the measurement of going algorithm of interference frequently to auxilliary frequency in the co-frequency cell tabulation.

More than specifically described the present invention by embodiment, but those of ordinary skills know, the present invention has many distortion and variation and does not break away from spirit of the present invention, wishes that appended claim comprises these distortion and variation and do not break away from spirit of the present invention.

Claims (4)

1. method that is used for the selection inter-frequency interference cell of N frequency point networking system is characterized in that this method may further comprise the steps:

A. to receive the resident or work sub-district of institute be that the co-frequency cell of its configuration is tabulated and alien-frequency district is tabulated to terminal;

B. analyze described co-frequency cell tabulation and alien-frequency district tabulation, select the alien-frequency district and the co-frequency cell that need measurement;

C. measure the alien-frequency district of the needs measurement of selecting and the pilot power of co-frequency cell;

D. the pilot power that records is compared with predetermined conditions, the power of eligible sub-district and parameter are input to the algorithm of removing co-channel interference;

Wherein, described step B comprises:

B1: find out the sub-district that co-frequency cell tabulation and alien-frequency district have same cells parameter identifier mark in tabulating, with this sub-district to charging to cell set A;

B2: find out the sub-district that does not have same cells parameter identifier mark in the co-frequency cell tabulation with the alien-frequency district tabulation, cell set B is charged in this sub-district;

B3: terminal selects to remove the required sub-district of measuring of co-channel interference algorithm;

Wherein, step B3 is specially:

Terminal judges successively whether the sub-district in the co-frequency cell tabulation belongs to described cell set A, will belong to the alien-frequency district of sub-district correspondence of described cell set A and the sub-district that do not belong to described cell set A as the required sub-district of measuring of removal co-channel interference algorithm.

2. the method for selection inter-frequency interference cell according to claim 1 is characterized in that: described co-frequency cell tabulation and alien-frequency district tabulation are comprised in the broadcast message.

3. the method for selection inter-frequency interference cell according to claim 1 is characterized in that: described co-frequency cell tabulation and alien-frequency district tabulation are comprised in measures in the control messages.

4. the method for selection inter-frequency interference cell according to claim 1, it is characterized in that: described step C is: if the sub-district in the co-frequency cell tabulation belongs to cell set A, then measure the power of the alien-frequency district pilot channel identical with its cell parameter identifier, and the record measurement result; If the sub-district in the co-frequency cell tabulation belongs to cell set B, then measure the power of this district pilots channel.

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