CN102905279A - Method and device for matching remote-end control unit serial numbers with antenna sector numbers - Google Patents

Abstract

The embodiment of the invention discloses a method and a device for matching remote-end control unit serial numbers with antenna sector numbers, and relates to the technical field of communication. The method comprises the steps of: reading the serial numbers of a remote-end control unit RCU (Remote Control Unit) of an antenna, and matching the serial numbers with the antenna sector numbers according to a predetermined sequence; selecting a signal variation reference point for the antenna; controlling the RCU to adjust an inclination angle respect to the matched antenna, and detecting the variation of a signal of each signal variation reference point at the same time; and matching serial numbers of the RCU with the antenna sector numbers again according to signal variation conditions. The method and the device disclosed by the embodiment of the invention are applicable to tunable antennas.

Description

Matching process and the device of Remote Control Unit sequence number and antenna sector number

Technical field

The present invention relates to communication technical field, particularly matching process and the device of a kind of Remote Control Unit sequence number and antenna sector number.

Background technology

Along with the Large scale construction of global communications network and the maturation of electrical tilt antenna technology, increasing operator brings into use electrical tilt antenna.The advantage of electrical tilt antenna is to make attendant and network optimization personnel just can realize accurate adjustment to Downtilt significantly reducing operation maintenance cost in machine room, increases work efficiency.(English full name is Remote Control Unit to electrical tilt antenna by antenna and Remote Control Unit, be abbreviated as RCU) form, the two links to each other by drive link, RCU moves by the rotation drive drive link of the gear of its internal drive structure, and then the multichannel phase shifter of drive antenna inside, thereby the angle of declination of change antenna.

During the electrical tilt antenna stated in the use, the sequence number of each RCU need to be scanned to obtain to the RCU sequence number of its lower electrical tilt antenna in the base station, and then according to the angle of sequence number control antenna.When the mounting design of reality, tend to do as required some adjustment, for example, when tower is installed on radio-frequency module, in order to save stube cable, the RCU of electrical tilt antenna can be carried out cascade, be about to a RCU and link to each other with radio-frequency module, other RCU link to each other with previous RCU step by step; Perhaps, the corresponding a plurality of fan antennas of radio-frequency module, if but this radio-frequency module only has an electric transfer mouth time spent, is merely able to a RCU is linked to each other with radio-frequency module, and also need the RCU of electrical tilt antenna is carried out cascade this moment.

In realizing process of the present invention, find that there are the following problems at least in the prior art: when the RCU of electrical tilt antenna carries out cascade, because it is at random that the RCU sequence number reports order, can't learn that each sequence number and which antenna and antenna sector are complementary, therefore need to manually go near-end to copy, affect delivery cost and project progress.

Summary of the invention

Embodiments of the invention provide matching process and the device of a kind of Remote Control Unit sequence number and antenna sector number, can solve under the scene of RCU cascade, can't mate by far-end the problem of the corresponding relation of the sequence number of RCU and antenna sector, increase work efficiency, reduce cost.

First aspect provides the matching process of a kind of Remote Control Unit sequence number and antenna sector number, comprising:

The sequence number of the Remote Control Unit RCU of reading antenna, and mate the sector number of described sequence number and described antenna by preset order;

Be described Antenna selection signal intensity reference point;

Control the inclination angle of the antenna of described RCU adjusting and its coupling, and detect simultaneously the signal intensity of each described signal intensity reference point;

According to the signal intensity situation sequence number of described RCU and the sector number of described antenna are mated again.

Wherein, described signal intensity reference point is terminal and/or neighbor cell, and described signal intensity reference point is positioned at the scope of the sector of described antenna.

In the possible implementation of the first, the described sector number that mates described sequence number and described antenna by preset order comprises: described sequence number and described sector number are carried out random fit; Perhaps, both couplings that described sequence number is identical with numeral order in the described sector number together, wherein said sequence number is according to reading the sequencing number consecutively, the sector number of described antenna take direct north as original position according to clockwise number consecutively.

Further, described according to the signal intensity situation sector number of the sequence number of described RCU and described antenna is mated again before, also comprise:

After one of them RCU of control regulates the inclination angle of antenna, judge whether that the signal intensity of signal reference point surpasses change threshold, described change threshold is for the normal fluctuation range of the signal intensity of stipulating described signal reference point;

If there is the signal intensity of signal reference point to surpass change threshold, determine that then the sector number of sector, described signal reference point place is complementary with described RCU.

Optionally, the described sector number of the sequence number of described RCU and described antenna the coupling again according to the signal intensity situation, comprise:

When the matching relationship of the true matching relationship between the sequence number of the sector number of described antenna and described RCU and preset order is consistent, with the matching relationship of described preset order as final matching relationship;

When the matching relationship of the true matching relationship between the sequence number of the sector number of described antenna and described RCU and preset order is inconsistent, the described sector number of the sequence numbers match of described RCU is revised as the correct sector number that obtains after the measurement.

Further, before the signal intensity of each described signal intensity reference point of described detection, also comprise:

Start minimum road test MDT task and/or neighboring area signal scan task, described MDT task is used for measuring the change in signal strength that described terminal receives, and described neighboring area signal scan task is used for measuring the change in signal strength of described neighbor cell.

Second aspect provides the coalignment of a kind of Remote Control Unit sequence number and antenna sector number, comprising:

The sequence number read module is used for the sequence number of the Remote Control Unit RCU of reading antenna, and mates the sector number of described sequence number and described antenna by preset order;

Reference point is chosen module, is used to described Antenna selection signal intensity reference point;

The control detection module, described RCU regulates and the inclination angle of the antenna of its coupling for controlling, and detects simultaneously the signal intensity of each described signal intensity reference point;

Matching module is used for according to the signal intensity situation sequence number of described RCU and the sector number of described antenna being mated again.

Wherein, described signal intensity reference point is terminal and/or neighbor cell, and described signal intensity reference point is positioned at the scope of the sector of described antenna.

In the possible implementation of the first, described reader also is used for: described sequence number and described sector number are carried out random fit; Perhaps, both couplings that described sequence number is identical with numeral order in the described sector number together, wherein said sequence number is according to reading the sequencing number consecutively, the sector number of described antenna take direct north as original position according to clockwise number consecutively.

Further, described control detection module also comprises:

Judging unit is used for after one of them RCU of control regulates the inclination angle of antenna, judges whether that the signal intensity of signal reference point surpasses change threshold, and described change threshold is for the normal fluctuation range of the signal intensity of stipulating described signal reference point;

Determining unit is used for when the signal intensity that the signal reference point is arranged during above change threshold, and the sector number of determining sector, described signal reference point place is that the sequence number with described RCU is complementary.

Optionally, described matching module comprises:

The first matching unit is used for when the matching relationship of the true matching relationship between the sequence number of the sector number of described antenna and described RCU and preset order is consistent, with the matching relationship of described preset order as final matching relationship; The second matching unit, be used for when the matching relationship of the true matching relationship between the sequence number of the sector number of described antenna and described RCU and preset order is inconsistent, the described sector number of the sequence numbers match of described RCU is revised as the correct sector number that obtains after the measurement.

Further, also comprise:

The task start module, be used for starting minimum road test MDT task and/or neighboring area signal scan task, described MDT task is used for measuring the change in signal strength that described terminal receives, and described neighboring area signal scan task is used for measuring the change in signal strength of described neighbor cell.

The third aspect provides the coalignment of a kind of Remote Control Unit sequence number and antenna sector number, comprising:

Reader is used for the sequence number of the Remote Control Unit RCU of reading antenna, and mates the sector number of described sequence number and described antenna by preset order;

Chooser is used to described Antenna selection signal intensity reference point;

Detector, described RCU regulates and the inclination angle of the antenna of its coupling for controlling, and detects simultaneously the signal intensity of each described signal intensity reference point;

Processor is used for according to the signal intensity situation sequence number of described RCU and the sector number of described antenna being mated again.

Wherein, described signal intensity reference point is terminal and/or neighbor cell, and described signal intensity reference point is positioned at the scope of the sector of described antenna.

In the possible implementation of the first, described reader also is used for: described sequence number and described sector number are carried out random fit; Perhaps, both couplings that described sequence number is identical with numeral order in the described sector number together, wherein said sequence number is according to reading the sequencing number consecutively, the sector number of described antenna take direct north as original position according to clockwise number consecutively.

Further, described detector also comprises:

Determining device is used for after one of them RCU of control regulates the inclination angle of antenna, judges whether that the signal intensity of signal reference point surpasses change threshold, and described change threshold is for the normal fluctuation range of the signal intensity of stipulating described signal reference point; When the signal intensity that the signal reference point is arranged surpassed change threshold, the sector number of determining sector, described signal reference point place was that the sequence number with described RCU is complementary.

Optionally, described preparation implement body is used for: when the matching relationship of the true matching relationship between the sequence number of the sector number of described antenna and described RCU and preset order is consistent, with the matching relationship of described preset order as final matching relationship; When the matching relationship of the true matching relationship between the sequence number of the sector number of described antenna and described RCU and preset order is inconsistent, the described sector number of the sequence numbers match of described RCU is revised as the correct sector number that obtains after the measurement.

Further, also comprise:

Starter is used for starting minimum road test MDT task and/or neighboring area signal scan task, and described MDT task is used for measuring the change in signal strength that described terminal receives, and described neighboring area signal scan task is used for measuring the change in signal strength of described neighbor cell.

Compared with prior art, by utilizing terminal or neighbor cell to be reference, regulate one by one all electrical tilt antennas under the base station, and when regulating aerial angle, the signal intensity degree that sense terminals or neighbor cell receive, according to the signal intensity result who detects, determine the corresponding relation of antenna sector number and RCU sequence number, finish the coupling of the two.Solve in the prior art, when electrical tilt antenna adopts the mode of cascade to dispose, the problem that can't accurately mate the corresponding relation of each antenna sector number and RCU sequence number, increase and accuracy rate that needing to have avoided the staff to go near-end to copy the cost that the RCU sequence number brings reduce, can improve project quality, reduce project cost.

Description of drawings

In order to be illustrated more clearly in the technical scheme in the embodiment of the invention, the below will do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art, apparently, accompanying drawing in the following describes only is some embodiments of the present invention, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain according to these accompanying drawings other accompanying drawing.

The method flow diagram that Fig. 1 provides for the embodiment of the invention one;

The method flow diagram that Fig. 2 provides for the embodiment of the invention two;

The apparatus structure schematic diagram that Fig. 3, Fig. 4 provide for the embodiment of the invention three;

The apparatus structure schematic diagram that Fig. 5, Fig. 6 provide for the embodiment of the invention four.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the invention, the technical scheme in the embodiment of the invention is clearly and completely described, obviously, described embodiment only is the present invention's part embodiment, rather than whole embodiment.Based on the embodiment among the present invention, those of ordinary skills belong to the scope of protection of the invention not making all other embodiment that obtain under the creative work prerequisite.

For the advantage that makes technical solution of the present invention is clearer, below in conjunction with drawings and Examples the present invention is elaborated.

Embodiment one

Present embodiment provides the matching process of a kind of Remote Control Unit sequence number and antenna sector number, and as shown in Figure 1, described method comprises:

101, the sequence number of the Remote Control Unit RCU of reading antenna, and mate the sector number of described sequence number and described antenna by preset order.

102, be described Antenna selection signal intensity reference point.

103, control the inclination angle of the antenna of described RCU adjusting and its coupling, and detect simultaneously the signal intensity of each described signal intensity reference point.

104, according to the signal intensity situation sequence number of described RCU and the sector number of described antenna are mated again.

Wherein, the described sector number that mates described sequence number and described antenna by preset order comprises: described sequence number and described sector number are carried out random fit; Perhaps, both couplings that described sequence number is identical with numeral order in the described sector number together, wherein said sequence number is according to reading the sequencing number consecutively, the sector number of described antenna take direct north as original position according to clockwise number consecutively.

Further, described according to the signal intensity situation sector number of the sequence number of described RCU and described antenna is mated again before, also comprise: after one of them RCU of control regulates the inclination angle of antenna, the signal intensity that judges whether the signal reference point surpasses change threshold, and described change threshold is for the normal fluctuation range of the signal intensity of stipulating described signal reference point; If there is the signal intensity of signal reference point to surpass change threshold, the sector number of then determining sector, described signal reference point place is that the sequence number with described RCU is complementary.

Optionally, when the matching relationship of the true matching relationship between the sequence number of the sector number of described antenna and described RCU and preset order is consistent, with the matching relationship of described preset order as final matching relationship;

When the matching relationship of the true matching relationship between the sequence number of the sector number of described antenna and described RCU and preset order is inconsistent, the described sector number of the sequence numbers match of described RCU is revised as the correct sector number that obtains after the measurement.

Wherein, described signal intensity reference point is terminal and/or neighbor cell, and described signal intensity reference point is positioned at the scope of the sector of described antenna.

Further, before the signal intensity of each described signal intensity reference point of described detection, also comprise:

Start minimum road test MDT task and/or neighboring area signal scan task, described MDT task is used for measuring the change in signal strength that described terminal receives, and described neighboring area signal scan task is used for measuring the change in signal strength of described neighbor cell.

Compared with prior art, by utilizing terminal or neighbor cell to be reference, regulate one by one all electrical tilt antennas under the base station, and when regulating aerial angle, the signal intensity degree that sense terminals or neighbor cell receive, according to the signal intensity result who detects, determine the corresponding relation of antenna sector number and RCU sequence number, finish the coupling of the two.Solve in the prior art, when electrical tilt antenna adopts the mode of cascade to dispose, the problem that can't accurately mate the corresponding relation of each antenna sector number and RCU sequence number, increase and accuracy rate that needing to have avoided the staff to go near-end to copy the cost that the RCU sequence number brings reduce, can improve project quality, reduce project cost.

Embodiment two

Present embodiment provides the matching process of a kind of Remote Control Unit sequence number and antenna sector number, and as shown in Figure 2, described method comprises:

201, create the electrical tilt antenna configuration task.

For example, system chooses the base station that need to mate electrical tilt antenna, for this base station creates corresponding configuration task, and behind the establishment configuration task, execution in step 202.

202, start minimum road test MDT task and/or neighboring area signal scan task, choose suitable terminal and/or neighbor cell.

Wherein, the MDT task is used for measuring the variation of the signal strength signal intensity of the terminal reception that is selected, the change in signal strength that the neighboring area signal scan task issues for the antenna that receives of measuring neighbor cell.Optionally, two tasks in this step all are for after measuring aerial angle and adjusting, apart from the change in signal strength at far point place in the antenna, so in actual measurement, choose the two wherein a kind of measurement task get final product.Preferably, preferentially adopt the MDT task, if it is as a reference point to can not find suitable terminal, then adopt the neighboring area signal scan task; Perhaps, the precision of measuring in order to improve signal intensity can use two kinds of tasks to measure simultaneously.

Optionally, the selection of terminal and/or neighbor cell can be before minimum road test MDT task and/or neighboring area signal scan task start by step, also can be after minimum road test MDT task and/or neighboring area signal scan task start.Wherein, the terminal of choosing will be in the middle far point position of the antenna sector middle distance antenna of base station, for example in 3/4ths or farther place of described antenna sector covering radius.If terminal is too near apart from antenna distance, signal intensity can be very not obvious so, detects stable signal apart from too far away can being difficult to again, and can detect the most obvious signal intensity when terminal is in middle far point; When starting the neighboring area signal scan task, choose the neighbor cell in the communication range of base station under the antenna, exchange the relation that antenna sector and RCU sequence number are determined in signal intensity reaction behind the antenna under the integral basis station by measuring this neighbor cell.

203, the sequence number of the RCU of antenna under the base station is read in scanning, and mates the sector number of described sequence number and described antenna by preset order.

Wherein, because the RCU of each antenna is cascade, so when reading the sequence number of RCU, the order that obtains the RCU sequence number is at random, be not correct corresponding with the sector number of antenna, this moment, we were each antenna sector coupling RCU according to the order that reads of RCU sequence number.For example, have three antenna sectors under the base station, be respectively a, b and c, the sector number of antenna put in order for: according to clockwise number consecutively, suppose that putting in order of sector number is a-c take direct north as original position, read three RCU sequence numbers, replace with x, y and z, read order and be x-z, so antenna sector a and x coupling, antenna sector b and y coupling, antenna sector c and z coupling; Perhaps, the RCU sequence number that reads and the sector number of antenna are carried out random fit.

Wherein, although each antenna sector number all mates with the RCU sequence number, in fact some antenna sectors are arranged not is corresponding with the RCU of coupling, so if carry out antenna adjustments according to matching result, antenna a may occur wanting to regulate, the result has but regulated the situation of antenna b.

204, according to the order that reads of RCU, control successively the inclination angle of the antenna of RCU adjusting and its coupling.

205, according to the change in signal strength of signal reference point, determine the sector of the antenna that described RCU is corresponding.

For example, the change in signal strength of signal reference point can be judged by change threshold, change threshold is used for the normal fluctuation range of the signal intensity of prescribed terminal and/or neighbor cell, generally speaking, signal all can have certain fluctuation range, then belongs to normal variation in the change threshold scope as long as be in; But, when regulating the angle of declination of antenna, comparatively significantly signal intensity can occur along with the angle that antenna is adjusted in signal intensity, for example, terminal for far point in certain, when the angle of declination of antenna is adjusted into 6 when spending by 0 degree, the variation of about 13dB can occur in signal, and this signal intensity value can significantly surpass change threshold.

For example, when regulating RCU, whether the signal that detects the reference point in all antenna sectors has above change threshold, if the signal intensity of the reference point in the sector of antenna sector b surpasses change threshold, so just can determine that the sequence number of RCU and the sector number of antenna sector b mate.Continue successively all RCU to be regulated, finish the coupling of internal antenna sector, base station and RCU.

206, RCU sequence number and antenna sector number are mated again.

For example, through after the step 205, can determine the true matching relationship of each antenna sector in the base station number and RCU sequence number, if be correct by the RCU sequence number of preset order coupling and the sector number of antenna in step 203 before, the two matching relationship need not to make amendment; If be wrong by the RCU sequence number of preset order coupling and the sector number of antenna, then according to the testing result of step 205 sector number of the sequence numbers match of RCU is revised as the sector number of the true coupling that obtains after the measurement.

Further, after finishing for the antenna match of this base station, continue to process next base station, set up new configuration task.

Compared with prior art, by reading first the RCU sequence number, and with the sequence number that reads according to number coupling of the antenna sector under preset order and the base station, again by MDT task and/or adjacent domain scanning task, after certain RCU of control regulates aerial angle, detect the interior terminal of antenna footprint and/or the signal intensity of neighbor cell, sector number and this RCU of sector, signal intensity satisfactory terminal place are matched, by that analogy, finish the coupling of all antenna sectors under the base station number and RCU sequence number.Solve in the prior art, when electrical tilt antenna adopts the mode of cascade to dispose, the problem that can't accurately mate the corresponding relation of each antenna sector number and RCU sequence number, increase and accuracy rate that needing to have avoided the staff to go near-end to copy the cost that the RCU sequence number brings reduce, can improve project quality, reduce project cost.

Embodiment three

Present embodiment provides the coalignment 30 of a kind of Remote Control Unit sequence number and antenna sector number, and as shown in Figure 3, described device 30 comprises:

Sequence number read module 31 is used for the sequence number of the Remote Control Unit RCU of reading antenna, and mates the sector number of described sequence number and described antenna by preset order;

Reference point is chosen module 32, is used to described Antenna selection signal intensity reference point;

Control detection module 33, described RCU regulates and the inclination angle of the antenna of its coupling for controlling, and detects simultaneously the signal intensity of each described signal intensity reference point;

Matching module 34 is used for according to the signal intensity situation sequence number of described RCU and the sector number of described antenna being mated again.

Further, described sequence number read module 31 also is used for:

Described sequence number and described sector number are carried out random fit; Perhaps,

Both couplings that described sequence number is identical with numeral order in the described sector number together, wherein said sequence number is according to reading the sequencing number consecutively, the sector number of described antenna take direct north as original position according to clockwise number consecutively.

Further, as shown in Figure 4, described control detection module 33 can also comprise:

Judging unit 331 is used for after one of them RCU of control regulates the inclination angle of antenna, judges whether that the signal intensity of signal reference point surpasses change threshold, and described change threshold is for the normal fluctuation range of the signal intensity of stipulating described signal reference point; Determining unit 332 is used for when the signal intensity that the signal reference point is arranged during above change threshold, and the sector number of determining sector, described signal reference point place is that the sequence number with described RCU is complementary.

Further, as shown in Figure 4, described matching module 34 comprises also and being used for:

The first matching unit 341 is used for when the matching relationship of the true matching relationship between the sequence number of the sector number of described antenna and described RCU and preset order is consistent, with the matching relationship of described preset order as final matching relationship;

The second matching unit 342, be used for when the matching relationship of the true matching relationship between the sequence number of the sector number of described antenna and described RCU and preset order is inconsistent, the described sector number of the sequence numbers match of described RCU is revised as the correct sector number that obtains after the measurement.

Wherein, described signal intensity reference point is terminal and/or neighbor cell, and described signal intensity reference point is positioned at the scope of the sector of described antenna.

Further, as shown in Figure 4, described device 30 can also comprise:

Task start module 35, be used for starting minimum road test MDT task and/or neighboring area signal scan task, described MDT task is used for measuring the change in signal strength that described terminal receives, and described neighboring area signal scan task is used for measuring the change in signal strength of described neighbor cell.

Compared with prior art, by utilizing terminal or neighbor cell to be reference, regulate one by one all electrical tilt antennas under the base station, and when regulating aerial angle, the signal intensity degree that sense terminals or neighbor cell receive, according to the signal intensity result who detects, determine the corresponding relation of antenna sector number and RCU sequence number, finish the coupling of the two.Solve in the prior art, when electrical tilt antenna adopts the mode of cascade to dispose, the problem that can't accurately mate the corresponding relation of each antenna sector number and RCU sequence number, increase and accuracy rate that needing to have avoided the staff to go near-end to copy the cost that the RCU sequence number brings reduce, can improve project quality, reduce project cost.

Embodiment four

Present embodiment provides the coalignment 40 of a kind of Remote Control Unit sequence number and antenna sector number, and as shown in Figure 5, described device 40 comprises:

Reader 41 is used for the sequence number of the Remote Control Unit RCU of reading antenna, and mates the sector number of described sequence number and described antenna by preset order;

Chooser 42 is used to described Antenna selection signal intensity reference point;

Detector 43, described RCU regulates and the inclination angle of the antenna of its coupling for controlling, and detects simultaneously the signal intensity of each described signal intensity reference point;

Processor 44 is used for according to the signal intensity situation sequence number of described RCU and the sector number of described antenna being mated again.

Further, described reader 41 also is used for:

Described sequence number and described sector number are carried out random fit; Perhaps,

Both couplings that described sequence number is identical with numeral order in the described sector number together, wherein said sequence number is according to reading the sequencing number consecutively, the sector number of described antenna take direct north as original position according to clockwise number consecutively.

Further, as shown in Figure 6, described detector 43 can also comprise:

Determining device 431 is used for after one of them RCU of control regulates the inclination angle of antenna, judges whether that the signal intensity of signal reference point surpasses change threshold, and described change threshold is for the normal fluctuation range of the signal intensity of stipulating described signal reference point; When the signal intensity that the signal reference point is arranged surpassed change threshold, the sector number of determining sector, described signal reference point place was that the sequence number with described RCU is complementary.

Further, described processor 44 also is used for:

When the matching relationship of the true matching relationship between the sequence number of the sector number of described antenna and described RCU and preset order is consistent, with the matching relationship of described preset order as final matching relationship;

When the matching relationship of the true matching relationship between the sequence number of the sector number of described antenna and described RCU and preset order is inconsistent, the described sector number of the sequence numbers match of described RCU is revised as the correct sector number that obtains after the measurement.

Wherein, described signal intensity reference point is terminal and/or neighbor cell, and described signal intensity reference point is positioned at the scope of the sector of described antenna.

Further, as shown in Figure 6, described device 40 can also comprise:

Starter 45 is used for starting minimum road test MDT task and/or neighboring area signal scan task, and described MDT task is used for measuring the change in signal strength that described terminal receives, and described neighboring area signal scan task is used for measuring the change in signal strength of described neighbor cell.

Compared with prior art, by utilizing terminal or neighbor cell to be reference, regulate one by one all electrical tilt antennas under the base station, and when regulating aerial angle, the signal intensity degree that sense terminals or neighbor cell receive, according to the signal intensity result who detects, determine the corresponding relation of antenna sector number and RCU sequence number, finish the coupling of the two.Solve in the prior art, when electrical tilt antenna adopts the mode of cascade to dispose, the problem that can't accurately mate the corresponding relation of each antenna sector number and RCU sequence number, increase and accuracy rate that needing to have avoided the staff to go near-end to copy the cost that the RCU sequence number brings reduce, can improve project quality, reduce project cost.

The above-mentioned embodiment of the method that provides can be provided the coalignment of the Remote Control Unit sequence number that the embodiment of the invention provides and antenna sector number, and concrete function realizes seeing also the explanation in the embodiment of the method, does not repeat them here.Matching process and the device of the Remote Control Unit sequence number that the embodiment of the invention provides and antenna sector number go for electrical tilt antenna, but are not limited only to this.

One of ordinary skill in the art will appreciate that all or part of flow process that realizes in above-described embodiment method, to come the relevant hardware of instruction to finish by computer program, described program can be stored in the computer read/write memory medium, this program can comprise the flow process such as the embodiment of above-mentioned each side method when carrying out.Wherein, described storage medium can be magnetic disc, CD, read-only store-memory body (Read-Only Memory, ROM) or store-memory body (Random Access Memory, RAM) etc. at random.

The above; be the specific embodiment of the present invention only, but protection scope of the present invention is not limited to this, anyly is familiar with those skilled in the art in the technical scope that the present invention discloses; the variation that can expect easily or replacement all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection range of claim.

Claims (18)

1. the matching process of a Remote Control Unit sequence number and antenna sector number is characterized in that, comprising:

The sequence number of the Remote Control Unit RCU of reading antenna, and mate the sector number of described sequence number and described antenna by preset order;

Be described Antenna selection signal intensity reference point;

Control the inclination angle of the antenna of described RCU adjusting and its coupling, and detect simultaneously the signal intensity of each described signal intensity reference point;

According to the signal intensity situation sequence number of described RCU and the sector number of described antenna are mated again.

2. method according to claim 1 is characterized in that, the described sector number that mates described sequence number and described antenna by preset order comprises:

Described sequence number and described sector number are carried out random fit; Perhaps,

Both couplings that described sequence number is identical with numeral order in the described sector number together, wherein said sequence number is according to reading the sequencing number consecutively, the sector number of described antenna take direct north as original position according to clockwise number consecutively.

3. method according to claim 1 and 2 is characterized in that, described according to the signal intensity situation sector number of the sequence number of described RCU and described antenna is mated again before, also comprise:

After one of them RCU of control regulates the inclination angle of antenna, judge whether that the signal intensity of signal reference point surpasses change threshold, described change threshold is for the normal fluctuation range of the signal intensity of stipulating described signal reference point;

If there is the signal intensity of signal reference point to surpass change threshold, the sector number of then determining sector, described signal reference point place is that the sequence number with described RCU is complementary.

4. method according to claim 3 is characterized in that, the described sector number of the sequence number of described RCU and described antenna the coupling again according to the signal intensity situation comprises:

When the matching relationship of the true matching relationship between the sequence number of the sector number of described antenna and described RCU and preset order is consistent, with the matching relationship of described preset order as final matching relationship;

When the matching relationship of the true matching relationship between the sequence number of the sector number of described antenna and described RCU and preset order is inconsistent, the described sector number of the sequence numbers match of described RCU is revised as the correct sector number that obtains after the measurement.

5. method according to claim 1 is characterized in that, described signal intensity reference point is terminal and/or neighbor cell, and described signal intensity reference point is positioned at the scope of the sector of described antenna.

6. method according to claim 5 is characterized in that, also comprises before the signal intensity of each described signal intensity reference point of described detection:

Start minimum road test MDT task and/or neighboring area signal scan task, described MDT task is used for measuring the change in signal strength that described terminal receives, and described neighboring area signal scan task is used for measuring the change in signal strength of described neighbor cell.

7. the coalignment of a Remote Control Unit sequence number and antenna sector number is characterized in that, comprising:

The sequence number read module is used for the sequence number of the Remote Control Unit RCU of reading antenna, and mates the sector number of described sequence number and described antenna by preset order;

Reference point is chosen module, is used to described Antenna selection signal intensity reference point;

The control detection module, described RCU regulates and the inclination angle of the antenna of its coupling for controlling, and detects simultaneously the signal intensity of each described signal intensity reference point;

Matching module is used for according to the signal intensity situation sequence number of described RCU and the sector number of described antenna being mated again.

8. device according to claim 7 is characterized in that, described sequence number read module also is used for:

Described sequence number and described sector number are carried out random fit; Perhaps,

Both couplings that described sequence number is identical with numeral order in the described sector number together, wherein said sequence number is according to reading the sequencing number consecutively, the sector number of described antenna take direct north as original position according to clockwise number consecutively.

9. according to claim 7 or 8 described devices, it is characterized in that described control detection module comprises:

Judging unit is used for after one of them RCU of control regulates the inclination angle of antenna, judges whether that the signal intensity of signal reference point surpasses change threshold, and described change threshold is for the normal fluctuation range of the signal intensity of stipulating described signal reference point;

Determining unit is used for when the signal intensity that the signal reference point is arranged during above change threshold, and the sector number of determining sector, described signal reference point place is that the sequence number with described RCU is complementary.

10. device according to claim 9 is characterized in that, described matching module comprises:

The first matching unit is used for when the matching relationship of the true matching relationship between the sequence number of the sector number of described antenna and described RCU and preset order is consistent, with the matching relationship of described preset order as final matching relationship;

The second matching unit, be used for when the matching relationship of the true matching relationship between the sequence number of the sector number of described antenna and described RCU and preset order is inconsistent, the described sector number of the sequence numbers match of described RCU is revised as the correct sector number that obtains after the measurement.

11. device according to claim 7 is characterized in that, described signal intensity reference point is terminal and/or neighbor cell, and described signal intensity reference point is positioned at the scope of the sector of described antenna.

12. device according to claim 11 is characterized in that, also comprises:

The task start module, be used for starting minimum road test MDT task and/or neighboring area signal scan task, described MDT task is used for measuring the change in signal strength that described terminal receives, and described neighboring area signal scan task is used for measuring the change in signal strength of described neighbor cell.

13. the coalignment of a Remote Control Unit sequence number and antenna sector number is characterized in that, comprising:

Reader is used for the sequence number of the Remote Control Unit RCU of reading antenna, and mates the sector number of described sequence number and described antenna by preset order;

Chooser is used to described Antenna selection signal intensity reference point;

Detector, described RCU regulates and the inclination angle of the antenna of its coupling for controlling, and detects simultaneously the signal intensity of each described signal intensity reference point;

Processor is used for according to the signal intensity situation sequence number of described RCU and the sector number of described antenna being mated again.

14. device according to claim 13 is characterized in that, described reader also is used for:

Described sequence number and described sector number are carried out random fit; Perhaps,

Both couplings that described sequence number is identical with numeral order in the described sector number together, wherein said sequence number is according to reading the sequencing number consecutively, the sector number of described antenna take direct north as original position according to clockwise number consecutively.

15. according to claim 13 or 14 described devices, it is characterized in that described detector comprises:

Determining device is used for after one of them RCU of control regulates the inclination angle of antenna, judges whether that the signal intensity of signal reference point surpasses change threshold, and described change threshold is for the normal fluctuation range of the signal intensity of stipulating described signal reference point; When the signal intensity that the signal reference point is arranged surpassed change threshold, the sector number of determining sector, described signal reference point place was that the sequence number with described RCU is complementary.

16. device according to claim 15 is characterized in that, described preparation implement body is used for:

When the matching relationship of the true matching relationship between the sequence number of the sector number of described antenna and described RCU and preset order is consistent, with the matching relationship of described preset order as final matching relationship;

When the matching relationship of the true matching relationship between the sequence number of the sector number of described antenna and described RCU and preset order is inconsistent, the described sector number of the sequence numbers match of described RCU is revised as the correct sector number that obtains after the measurement.

17. device according to claim 13 is characterized in that, described signal intensity reference point is terminal and/or neighbor cell, and described signal intensity reference point is positioned at the scope of the sector of described antenna.

18. device according to claim 17 is characterized in that, also comprises:

Starter is used for starting minimum road test MDT task and/or neighboring area signal scan task, and described MDT task is used for measuring the change in signal strength that described terminal receives, and described neighboring area signal scan task is used for measuring the change in signal strength of described neighbor cell.

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