CN102143516A - Detection method, device and system - Google Patents

Abstract

The invention discloses a detection method, device and system. The detection method comprises the following steps: sending a radio frequency (RF) port query command to a detection unit; receiving an RF port message sent by the detection unit in accordance with the RF port query command; and comparing the RF port message with a preset message of an RF port to be detected so as to determine whether the connection of the RF port is correct. The detection device comprises a sending module, a receiving module and a determination module. The detection system comprises a query unit, the detection unit and a transmission unit. The detection method, device and system can be used to conveniently and quickly detect the connection condition of the RF port of antenna equipment before a primary device is electrified, therefore, the construction time can be shortened, and the maintenance cost is reduced.

Description

Detection method, checkout gear and detection system

Technical field

The present invention relates to the communications field, relate in particular to detection method, checkout gear and detection system in the communications field.

Background technology

In the installation process of the antenna equipment of mobile communication website, occur because the carelessness of engineering construction side causes the prevention at radio-frequency port misconnection with station antenna equipment through regular meeting, for example with reversal connection between reversal connection between the sector of station antenna equipment or main diversity etc.

At present, can switch traffic statistics, promptly add up the cell telephone traffic amount respectively, and whether reversal connection is judged to the sector with station antenna equipment in conjunction with engineering parameter by switching cell according to the minizone.Particularly, can switch traffic statistics according to the minizone, and in conjunction with engineering parameter analyze do not exist the overlapping area of coverage but have the adjacent area of switching to be masked as reverse adjacent area, the adjacent area that has the overlapping area of coverage is the forward adjacent area.If Serving cell A and with the sector reversal connection of website sub-district B, have following rule so between A and the B: the reverse adjacent area of all of A all is the forward adjacent area of B; The reverse adjacent area of all of B all is the forward adjacent area of A, can determine thus with the whether reversal connection of the sector of station antenna equipment.

For example, suppose that A comprises A1 and A2 sector, B comprises B1 and B2 sector, and C comprises C1 and C2 sector, and switching has taken place for A1 and B2, and A1, B2 do not have the overlapping area of coverage, and A2, B2 have the overlapping area of coverage; Switching has taken place in A2 and C1, and A2, C1 do not have the overlapping area of coverage, and A1, C1 have the overlapping area of coverage, can determine A1 and the reversal connection of A2 sector according to above-mentioned rule so.

For the situation of the main diversity reversal connection of antenna equipment, generally can analyze the regularity of distribution of carrier frequency under the sub-district that main diversity level differs greatly according to main diversity level traffic statistics and data configuration, thus main diversity reversal connection situation is judged.

But above-mentioned detection to the prevention at radio-frequency port misconnection must just can be finished after whole system powers on, and can't detect when fixing up an aerial wire equipment, and solve with prevention at radio-frequency port misconnection problems such as the sector reversal connection of station antenna equipment or main diversity reversal connections.And carry out the prevention at radio-frequency port misconnection and detect after system powers on, one side is longer detection time, on the other hand, in case detect the prevention at radio-frequency port misconnection, need to link up in many ways and could solve, all be very big waste to human and material resources, cause follow-up maintenance cost to increase claim for eot.

Summary of the invention

For this reason, the embodiment of the invention provides a kind of detection method, checkout gear and detection system, and the prevention at radio-frequency port that can make things convenient for and detect quickly antenna equipment before main equipment powers on connects situation.

On the one hand, the embodiment of the invention provides a kind of detection method, and this detection method comprises: send the prevention at radio-frequency port querying command to detecting unit; Receive the prevention at radio-frequency port information that this detecting unit sends according to this prevention at radio-frequency port querying command; Compare by presupposed information, determine whether the connection of this prevention at radio-frequency port is correct this prevention at radio-frequency port information and prevention at radio-frequency port to be detected.

On the other hand, the embodiment of the invention provides a kind of detection method, and this detection method comprises: receive the prevention at radio-frequency port querying command that query unit sends; According to this prevention at radio-frequency port querying command, antenna equipment is detected and obtains prevention at radio-frequency port information; Send this prevention at radio-frequency port information to this query unit,, determine whether this prevention at radio-frequency port correctly connects so that this query unit compares by the presupposed information with this prevention at radio-frequency port information and prevention at radio-frequency port to be detected.

On the one hand, the embodiment of the invention provides a kind of checkout gear again, and this checkout gear comprises: sending module, receiver module and determination module, and wherein this sending module is used for sending the prevention at radio-frequency port querying command to detecting unit; This receiver module is used to receive the prevention at radio-frequency port information that this detecting unit sends according to this prevention at radio-frequency port querying command; This determination module is used for comparing by the presupposed information with this prevention at radio-frequency port information and prevention at radio-frequency port to be detected, determines whether the connection of this prevention at radio-frequency port is correct.

On the one hand, the embodiment of the invention provides a kind of checkout gear again, and this checkout gear comprises: receiver module, acquisition module and sending module, and wherein this receiver module is used to receive the prevention at radio-frequency port querying command that query unit sends; This acquisition module is used for according to this prevention at radio-frequency port querying command antenna equipment being detected and obtain prevention at radio-frequency port information; This sending module is used for sending this prevention at radio-frequency port information to this query unit, so that this query unit compares by the presupposed information with this prevention at radio-frequency port information and prevention at radio-frequency port to be detected, determines whether this prevention at radio-frequency port correctly connects.

Again on the one hand, the embodiment of the invention provides a kind of detection system, this detection system comprises: query unit, detecting unit and transmission unit, wherein this query unit is used for sending the prevention at radio-frequency port querying command to this detecting unit, and, determine whether this prevention at radio-frequency port correctly connects by the prevention at radio-frequency port information of this detecting unit feedback and the presupposed information of prevention at radio-frequency port to be detected are compared; This detecting unit is used for according to this prevention at radio-frequency port querying command antenna equipment being inquired about, and after obtaining prevention at radio-frequency port information, being sent this prevention at radio-frequency port information to this query unit after the prevention at radio-frequency port querying command that receives this query unit transmission; This transmission unit is used for the transfer of data between this query unit and this detecting unit.

Based on technique scheme, the detection method of the embodiment of the invention, checkout gear and detection system, by obtaining prevention at radio-frequency port information, and compare by presupposed information with prevention at radio-frequency port information and prevention at radio-frequency port to be detected, whether the connection of determining this prevention at radio-frequency port is correct, thereby can be before main equipment powers on, convenient and quickly the prevention at radio-frequency port connection situation of antenna equipment is detected, can shorten the engineering time thus, reduce maintenance cost.

Description of drawings

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

Fig. 1 is the indicative flowchart according to the detection method of the embodiment of the invention.

Fig. 2 is the indicative flowchart of detection method according to another embodiment of the present invention.

Fig. 3 is the indicative flowchart of detection method according to yet another embodiment of the invention.

Fig. 4 is the schematic block diagram according to the checkout gear of the embodiment of the invention.

Fig. 5 is the schematic block diagram of checkout gear according to another embodiment of the present invention.

Fig. 6 is the schematic block diagram of checkout gear according to yet another embodiment of the invention.

Fig. 7 is the schematic block diagram according to the detection system of the embodiment of the invention.

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 is a part of embodiment of the present invention, rather than whole embodiment.Based on the embodiment among the present invention, the every other embodiment that those of ordinary skills are obtained under the prerequisite of not making creative work should belong to the scope of protection of the invention.

Fig. 1 shows the indicative flowchart according to the detection method 100 of the embodiment of the invention.As shown in Figure 1, this detection method 100 comprises:

S110 sends the prevention at radio-frequency port querying command to detecting unit;

S120 receives the prevention at radio-frequency port information that this detecting unit sends according to this prevention at radio-frequency port querying command;

S130 compares by the presupposed information with this prevention at radio-frequency port information and prevention at radio-frequency port to be detected, determines whether the connection of this prevention at radio-frequency port is correct.

Detection method according to the embodiment of the invention, in installation, debugging, use or the maintenance process of the antenna equipment of mobile communication website, for the prevention at radio-frequency port connection situation with station antenna equipment is detected, the query unit that is positioned at ground can send the prevention at radio-frequency port querying command to detecting unit, and this prevention at radio-frequency port querying command is used for the order detecting unit appointment prevention at radio-frequency port of antenna equipment is detected.This detecting unit detects prevention at radio-frequency port according to this prevention at radio-frequency port querying command, and after obtaining prevention at radio-frequency port information, this prevention at radio-frequency port information is sent to query unit, query unit compares by the presupposed information with this prevention at radio-frequency port information and prevention at radio-frequency port to be detected, determines whether the connection of this prevention at radio-frequency port is correct.

Therefore, the detection method of the embodiment of the invention is by obtaining prevention at radio-frequency port information, and compare by presupposed information with prevention at radio-frequency port information and prevention at radio-frequency port to be detected, whether the connection of determining this prevention at radio-frequency port is correct, thereby can be before main equipment powers on, convenient and quickly the prevention at radio-frequency port connection situation of antenna equipment is detected, can shorten the engineering time thus, reduce maintenance cost.

In embodiments of the present invention, the transmitting-receiving of information can be adopted the signal transmission manner between detecting unit and the query unit, be that query unit can comprise to detecting unit transmission prevention at radio-frequency port querying command: query unit sends the prevention at radio-frequency port request signal to this detecting unit, and this prevention at radio-frequency port request signal carries this prevention at radio-frequency port querying command; Query unit receives this detecting unit and can comprise according to the prevention at radio-frequency port information that this prevention at radio-frequency port querying command sends: query unit receives the Query Result signal that this detecting unit sends according to this prevention at radio-frequency port querying command, this prevention at radio-frequency port information of this Query Result signaling bearer.

Particularly, query unit converts the prevention at radio-frequency port querying command to the prevention at radio-frequency port request signal, and issues this prevention at radio-frequency port request signal to detecting unit; After detecting unit is received this prevention at radio-frequency port request signal, carry out the prevention at radio-frequency port querying command of this prevention at radio-frequency port request signal carrying, the prevention at radio-frequency port of antenna equipment is detected, and obtain prevention at radio-frequency port information; Detecting unit sends to query unit after this prevention at radio-frequency port information translation is become the Query Result signal; Query unit compares by the prevention at radio-frequency port information of will carry in this Query Result signal and the presupposed information of prevention at radio-frequency port to be detected, determines whether the connection of this prevention at radio-frequency port is correct.Alternatively, the information that detecting unit and query unit can send sends after being modulated into signal through OOK (On-Off Keying, i.e. binary system on off keying) earlier again, and receives through the signal after the OOK modulation.

In embodiments of the present invention, the transfer of data between detecting unit and the query unit can adopt wireless mode, for example adopts the mode of WIFI, also can adopt wired mode.Alternatively, carry out transfer of data by wireless transfer channel between detecting unit and the query unit.Alternatively, carry out transfer of data by radio frequency feed line or AISG (Antenna Interface Standards Group, i.e. antennal interface standardization body) cable between detecting unit and the query unit.

In embodiments of the present invention, prevention at radio-frequency port information can comprise the azimuth of antenna equipment at this prevention at radio-frequency port place or the prevention at radio-frequency port sign of this prevention at radio-frequency port.Alternatively, this prevention at radio-frequency port information comprises the azimuth of this antenna equipment and the prevention at radio-frequency port sign of this prevention at radio-frequency port.Correspondingly, the presupposed information of prevention at radio-frequency port can comprise the default sector auxiliary information and/or the prevention at radio-frequency port identification information of prevention at radio-frequency port.For example, corresponding relation according to this azimuth information and angle and sector, can determine the pairing sector auxiliary information of this prevention at radio-frequency port, the default sector auxiliary information of this sector auxiliary information and this prevention at radio-frequency port is compared that query unit can be determined whether misconnection of detected prevention at radio-frequency port.For example, by the default prevention at radio-frequency port identification information of the prevention at radio-frequency port of this prevention at radio-frequency port sign with this prevention at radio-frequency port compared, can determine the whether reversal connection of main diversity of prevention at radio-frequency port.

For example, a certain prevention at radio-frequency port should be corresponding with second sector, and still according to the detection method of the embodiment of the invention, the azimuth that detecting unit detects this antenna equipment is 60 °, corresponding first sector of this angle so, query unit is determined the sector reversal connection with station antenna equipment automatically thus.Similarly, according to the corresponding relation of main collection and diversity and port, by the detected prevention at radio-frequency port of detecting unit sign, query unit is by comparative analysis, also can automatically determine the whether reversal connection of main diversity.

Fig. 2 shows the indicative flowchart of detection method 200 according to another embodiment of the present invention.As shown in Figure 2, this detection method 200 is that with the difference of detection method 100 this detection method 200 comprises S210, and query unit is to the detecting unit feed, S220 to S240 in this detection method 200 is similar with the S110 to S130 in the detection method 100, does not repeat them here.Thereby according to the detection method 200 of the embodiment of the invention, whether query unit can power on the control detection unit, powers on just to make detecting unit when needs detect prevention at radio-frequency port.

In embodiments of the present invention, though the transfer of data between detecting unit and the query unit can adopt wireless mode, also can adopt wired mode, but the detection method according to the embodiment of the invention also can comprise wired and wireless two kinds of modes of transmitting data simultaneously, to guarantee the transfer of data between detecting unit and the query unit.In the case, query unit can send the prevention at radio-frequency port querying command by wireless mode, and by wired mode received RF port information; Certainly, query unit also can send the prevention at radio-frequency port querying command by wired mode, and by wireless mode received RF port information; And when adopting wired mode, can select radio frequency feed line and/or AISG cable.These modifications or replacement all fall within the scope of the invention.

Fig. 3 shows the indicative flowchart of detection method 300 according to yet another embodiment of the invention.As shown in Figure 3, this detection method 300 comprises:

In S310, detecting unit receives the prevention at radio-frequency port querying command that query unit sends.Alternatively, detecting unit receives this prevention at radio-frequency port querying command that this query unit sends by wireless mode, radio frequency feed line or AISG cable.Alternatively, detecting unit receives the prevention at radio-frequency port request signal that this query unit sends, and this prevention at radio-frequency port request signal carries this prevention at radio-frequency port querying command.Particularly, the prevention at radio-frequency port request signal after the detecting unit reception is modulated the prevention at radio-frequency port querying command by OOK.

In S320, detecting unit detects and obtains prevention at radio-frequency port information according to this prevention at radio-frequency port querying command to antenna equipment.Alternatively, this prevention at radio-frequency port information comprises the azimuth of this antenna equipment and/or the prevention at radio-frequency port sign of this prevention at radio-frequency port.

In S330, detecting unit sends this prevention at radio-frequency port information to this query unit, so that this query unit compares by the presupposed information with this prevention at radio-frequency port information and prevention at radio-frequency port to be detected, determines whether this prevention at radio-frequency port correctly connects.Alternatively, detecting unit sends this prevention at radio-frequency port information by wireless mode, radio frequency feed line or AISG cable to this query unit.Alternatively, detecting unit sends Query Result signal, this prevention at radio-frequency port information of this Query Result signaling bearer to this query unit.Particularly, the Query Result signal of detecting unit to the query unit transmission is modulated prevention at radio-frequency port information by OOK after.

The detection method of the embodiment of the invention, by obtaining prevention at radio-frequency port information, and compare by presupposed information with prevention at radio-frequency port information and prevention at radio-frequency port to be detected, whether the connection of determining this prevention at radio-frequency port is correct, thereby can be before main equipment powers on, convenient and quickly the prevention at radio-frequency port connection situation of antenna equipment is detected, can shorten the engineering time thus, reduce maintenance cost.

Checkout gear and detection system according to the embodiment of the invention will be described below.

Fig. 4 shows the schematic block diagram according to the checkout gear 500 of the embodiment of the invention.As shown in Figure 4, this checkout gear 500 comprises: sending module 510, receiver module 520 and determination module 530, and wherein this sending module 510 is used for sending the prevention at radio-frequency port querying command to detecting unit; This receiver module 520 is used to receive the prevention at radio-frequency port information that this detecting unit sends according to this prevention at radio-frequency port querying command; This determination module 530 is used for comparing by the presupposed information with this prevention at radio-frequency port information and prevention at radio-frequency port to be detected, determines whether the connection of this prevention at radio-frequency port is correct.

The checkout gear of the embodiment of the invention, by obtaining prevention at radio-frequency port information, and compare by presupposed information with prevention at radio-frequency port information and prevention at radio-frequency port to be detected, whether the connection of determining this prevention at radio-frequency port is correct, thereby can be before main equipment powers on, convenient and quickly the prevention at radio-frequency port connection situation of antenna equipment is detected, can shorten the engineering time thus, reduce maintenance cost.

Alternatively, as shown in Figure 5, can also comprise according to the checkout gear 500 of the embodiment of the invention: power feeding module 540 is used for to the detecting unit feed.

In embodiments of the present invention, the transmitting-receiving of information can be adopted the signal transmission manner between detecting unit and the query unit, thereby this sending module 510 also is used for sending the prevention at radio-frequency port request signal to this detecting unit, and this prevention at radio-frequency port request signal carries this prevention at radio-frequency port querying command; This receiver module 520 also is used to receive the Query Result signal that this detecting unit sends according to this prevention at radio-frequency port querying command, this prevention at radio-frequency port information of this Query Result signaling bearer.

In embodiments of the present invention, transfer of data between detecting unit and the query unit can adopt wired and/or wireless mode, thereby sending module 510 can pass through wireless mode and/or radio frequency feed line and/or AISG cable, sends this prevention at radio-frequency port querying command to this detecting unit; Receiver module 520 can receive this prevention at radio-frequency port information that this detecting unit sends by wireless mode and/or radio frequency feed line and/or AISG cable.

In embodiments of the present invention, checkout gear 500 is corresponding to the detecting unit in the method 100 to 300, and above-mentioned and other operation of each module in the checkout gear 500 and/or function are respectively in order to realize the corresponding flow process in the method 100 and 200 among Fig. 1 and Fig. 2, for simplicity, do not repeat them here.

Fig. 6 shows the schematic block diagram of checkout gear 600 according to yet another embodiment of the invention.As shown in Figure 6, this checkout gear 600 comprises: receiver module 610, acquisition module 620 and sending module 630, and wherein this receiver module 610 is used to receive the prevention at radio-frequency port querying command that query unit sends; This acquisition module 620 is used for according to this prevention at radio-frequency port querying command antenna equipment being detected and obtain prevention at radio-frequency port information; This sending module 630 is used for sending this prevention at radio-frequency port information to this query unit, so that this query unit compares by the presupposed information with this prevention at radio-frequency port information and prevention at radio-frequency port to be detected, determines whether this prevention at radio-frequency port correctly connects.

Alternatively, this receiver module 610 also is used to receive the prevention at radio-frequency port request signal that this query unit sends, and this prevention at radio-frequency port request signal carries this prevention at radio-frequency port querying command; This sending module 630 also is used for sending Query Result signal, this prevention at radio-frequency port information of this Query Result signaling bearer to this query unit.

Alternatively, this receiver module 610 receives this prevention at radio-frequency port querying command that this query unit sends by wireless mode and/or radio frequency feed line and/or AISG cable; This sending module 630 sends this prevention at radio-frequency port information by this wireless mode and/or this radio frequency feed line and/or this AISG cable to this query unit.

In embodiments of the present invention, checkout gear 600 is corresponding to the query unit in the method 100 to 300, and above-mentioned and other operation of each module in the checkout gear 600 and/or function for simplicity, do not repeat them here respectively in order to realize the corresponding flow process in the method 300 among Fig. 3.

The checkout gear of the embodiment of the invention, by obtaining prevention at radio-frequency port information, and compare by presupposed information with prevention at radio-frequency port information and prevention at radio-frequency port to be detected, whether the connection of determining this prevention at radio-frequency port is correct, thereby can be before main equipment powers on, convenient and quickly the prevention at radio-frequency port connection situation of antenna equipment is detected, can shorten the engineering time thus, reduce maintenance cost.

Fig. 7 shows the schematic block diagram according to the detection system 700 of the embodiment of the invention.As described in Figure 7, this detection system 700 comprises: query unit 710, detecting unit 720 and transmission unit 730.

This query unit 710 is used for sending the prevention at radio-frequency port querying command to this detecting unit 720, and by the prevention at radio-frequency port information of these detecting unit 720 feedbacks and the presupposed information of prevention at radio-frequency port to be detected are compared, determines whether this prevention at radio-frequency port correctly connects.This query unit 710 can be that this query unit 710 can be given detecting unit 720 feeds for the on-the-spot portable handheld device that uses of engineering construction personnel.

This detecting unit 720 is used for after the prevention at radio-frequency port querying command that receives these query unit 710 transmissions, according to this prevention at radio-frequency port querying command antenna equipment is inquired about, and after obtaining prevention at radio-frequency port information, send this prevention at radio-frequency port information to this query unit 710.This detecting unit 720 can be arranged on the inside of antenna equipment, also can be arranged on the outside of antenna equipment, for example is arranged between antenna equipment and the radio frequency feed line.This detecting unit 720 can also comprise azimuth sensor 721 or prevention at radio-frequency port identification (mrfid) reader 722, and alternatively, this detecting unit 720 can comprise azimuth sensor 721 and prevention at radio-frequency port identification (mrfid) reader 722.

This transmission unit 730 is used for the transfer of data between this query unit 710 and this detecting unit 720.This transmission unit 730 can comprise wireless transport module, is used for carrying out transfer of data by wireless mode between query unit 710 and the detecting unit 720.Alternatively, this transmission unit 730 comprises radio frequency feed line and/or AISG cable, is used for carrying out transfer of data by wired mode between query unit 710 and the detecting unit 720.Alternatively, carry out transfer of data by wired and/or wireless mode between query unit 710 and the detecting unit 720.

In embodiments of the present invention, query unit 710 and detecting unit 720 can correspond respectively to checkout gear 500 and the checkout gear 600 among Fig. 4 to Fig. 6, and above-mentioned and other operation of each module in the detection system 700 and/or function are respectively in order to realize the corresponding flow process in the method 100 to 300 among Fig. 1 to Fig. 3, for simplicity, do not repeat them here.

The detection system of the embodiment of the invention, by obtaining prevention at radio-frequency port information, and compare by presupposed information with prevention at radio-frequency port information and prevention at radio-frequency port to be detected, whether the connection of determining this prevention at radio-frequency port is correct, thereby can be before main equipment powers on, convenient and quickly the prevention at radio-frequency port connection situation of antenna equipment is detected, can shorten the engineering time thus, reduce maintenance cost.

Those of ordinary skills can recognize, in conjunction with various method steps of describing among the embodiment disclosed herein and unit, can realize with electronic hardware, computer software or the combination of the two, for the interchangeability of hardware and software clearly is described, step and the composition of each embodiment described prevailingly according to function in the above description.These functions still are that software mode is carried out with hardware actually, depend on the application-specific and the design constraint of technical scheme.Those of ordinary skills can use distinct methods to realize described function to each specific should being used for, but this realization should not thought and exceeds scope of the present invention.

In conjunction with the software program that the method or the step of embodiment description disclosed herein can use hardware, processor to carry out, perhaps the combination of the two is implemented.Software program can place the storage medium of any other form known in random asccess memory (RAM), internal memory, read-only memory (ROM), electrically programmable ROM, electrically erasable ROM, register, hard disk, moveable magnetic disc, CD-ROM or the technical field.

Although by with reference to the accompanying drawings and mode in conjunction with the preferred embodiments the present invention is described in detail, the present invention is not limited to this.Under the prerequisite that does not break away from spirit of the present invention and essence, those of ordinary skills can carry out the modification or the replacement of various equivalences to embodiments of the invention, and these modifications or replacement all should be in covering scopes of the present invention.

Claims (16)

1. a detection method is characterized in that, comprising:

Send the prevention at radio-frequency port querying command to detecting unit;

Receive the prevention at radio-frequency port information that described detecting unit sends according to described prevention at radio-frequency port querying command;

Compare by presupposed information, determine whether the connection of described prevention at radio-frequency port is correct described prevention at radio-frequency port information and prevention at radio-frequency port to be detected.

2. detection method according to claim 1 is characterized in that, before sending the prevention at radio-frequency port querying command to detecting unit, described detection method also comprises:

To described detecting unit feed.

3. detection method according to claim 1, it is characterized in that, described to detecting unit transmission prevention at radio-frequency port querying command, comprising: send the prevention at radio-frequency port request signal to described detecting unit, described prevention at radio-frequency port request signal carries described prevention at radio-frequency port querying command;

The prevention at radio-frequency port information that the described detecting unit of described reception sends according to described prevention at radio-frequency port querying command, comprise: receive the Query Result signal that described detecting unit sends according to described prevention at radio-frequency port querying command, the described prevention at radio-frequency port information of described Query Result signaling bearer.

4. detection method according to claim 1 is characterized in that, and is described to detecting unit transmission prevention at radio-frequency port querying command, comprising: send described prevention at radio-frequency port querying command by wireless mode, radio frequency feed line or AISG cable to described detecting unit;

The described detecting unit of described reception comprises according to the prevention at radio-frequency port information that described prevention at radio-frequency port querying command sends: receive the described prevention at radio-frequency port information that described detecting unit sends by described wireless mode, described radio frequency feed line or described AISG cable.

5. detection method according to claim 1 is characterized in that, described prevention at radio-frequency port information comprises the azimuth of antenna equipment at described prevention at radio-frequency port place and/or the prevention at radio-frequency port sign of described prevention at radio-frequency port.

6. a detection method is characterized in that, comprising:

Receive the prevention at radio-frequency port querying command that query unit sends;

According to described prevention at radio-frequency port querying command, antenna equipment is detected and obtains prevention at radio-frequency port information;

Send described prevention at radio-frequency port information to described query unit,, determine whether described prevention at radio-frequency port correctly connects so that described query unit compares by the presupposed information with described prevention at radio-frequency port information and prevention at radio-frequency port to be detected.

7. detection method according to claim 6, it is characterized in that, the prevention at radio-frequency port querying command that described reception query unit sends comprises: receive the prevention at radio-frequency port request signal that described query unit sends, described prevention at radio-frequency port request signal carries described prevention at radio-frequency port querying command;

Describedly send described prevention at radio-frequency port information, comprising: send Query Result signal, the described prevention at radio-frequency port information of described Query Result signaling bearer to described query unit to described query unit.

8. detection method according to claim 6, it is characterized in that, the prevention at radio-frequency port querying command that described reception query unit sends comprises: receive the described prevention at radio-frequency port querying command that described query unit sends by wireless mode, radio frequency feed line or AISG cable;

Describedly send described prevention at radio-frequency port information, comprising: send described prevention at radio-frequency port information to described query unit by described wireless mode, described radio frequency feed line or described AISG cable to described query unit.

9. a checkout gear is characterized in that, comprising:

Sending module is used for sending the prevention at radio-frequency port querying command to detecting unit;

Receiver module is used to receive the prevention at radio-frequency port information that described detecting unit sends according to described prevention at radio-frequency port querying command;

Determination module is used for comparing by the presupposed information with described prevention at radio-frequency port information and prevention at radio-frequency port to be detected, determines whether the connection of described prevention at radio-frequency port is correct.

10. checkout gear according to claim 9 is characterized in that, described checkout gear also comprises:

Power feeding module is used for to described detecting unit feed.

11. checkout gear according to claim 9 is characterized in that, described sending module also is used for sending the prevention at radio-frequency port request signal to described detecting unit, and described prevention at radio-frequency port request signal carries described prevention at radio-frequency port querying command;

Described receiver module also is used to receive the Query Result signal that described detecting unit sends according to described prevention at radio-frequency port querying command, the described prevention at radio-frequency port information of described Query Result signaling bearer.

12. a checkout gear is characterized in that, comprising:

Receiver module is used to receive the prevention at radio-frequency port querying command that query unit sends;

Acquisition module is used for according to described prevention at radio-frequency port querying command antenna equipment being detected and obtain prevention at radio-frequency port information;

Sending module is used for sending described prevention at radio-frequency port information to described query unit, so that described query unit compares by the presupposed information with described prevention at radio-frequency port information and prevention at radio-frequency port to be detected, determines whether described prevention at radio-frequency port correctly connects.

13. checkout gear according to claim 12 is characterized in that, described receiver module also is used to receive the prevention at radio-frequency port request signal that described query unit sends, and described prevention at radio-frequency port request signal carries described prevention at radio-frequency port querying command;

Described sending module also is used for sending Query Result signal, the described prevention at radio-frequency port information of described Query Result signaling bearer to described query unit.

14. a detection system is characterized in that, comprising: query unit, detecting unit and transmission unit, wherein,

Described query unit is used for sending the prevention at radio-frequency port querying command to described detecting unit, and by the prevention at radio-frequency port information of described detecting unit feedback and the presupposed information of prevention at radio-frequency port to be detected are compared, determines whether described prevention at radio-frequency port correctly connects;

Described detecting unit is used for after the prevention at radio-frequency port querying command that receives described query unit transmission, according to described prevention at radio-frequency port querying command antenna equipment is inquired about, and after obtaining prevention at radio-frequency port information, send described prevention at radio-frequency port information to described query unit;

Described transmission unit is used for the transfer of data between described query unit and the described detecting unit.

15. detection system according to claim 14 is characterized in that, described transmission unit comprises wireless transport module, radio frequency feed line or AISG cable.

16. detection system according to claim 14 is characterized in that, described detecting unit comprises azimuth sensor and/or prevention at radio-frequency port identification (mrfid) reader.

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