CN110875774B - Line quality hanging test method and device and computer storage medium - Google Patents

Abstract

The embodiment of the invention discloses a line quality hanging test method, a device and a computer storage medium, wherein if the distance difference value between the position information of a mobile terminal and the position information of a pre-acquired final-stage optical splitter to be tested does not exceed a preset distance threshold, the field resource information of the final-stage optical splitter to be tested is acquired; the mobile terminal is carried by a hanging person on site; if the field resource information is matched with the pre-acquired resource information of the final-stage optical splitter to be tested, acquiring a field test image of the final-stage optical splitter to be tested, and starting a line quality test of the final-stage optical splitter to be tested; storing the field test image of the final splitter to be tested and the test result of the line quality; the method can effectively prevent the false hanging test phenomenon, ensures the authenticity of the broadband engineering hanging test and the accuracy of the test resource, and simultaneously improves the installation and opening rate of the broadband service.

Description

Line quality hanging test method and device and computer storage medium

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a method and an apparatus for hanging line quality measurement, and a computer storage medium.

Background

With the continuous development and deepening of the internet era, the requirements of people on the bandwidth of the broadband network are higher and higher, and especially the quality assurance at the construction stage of the broadband network is more important. At present, after the construction of a project is completed, most of family broadband project constructors of telecommunication operators use a family broadband project hanging and measuring system to carry out project hanging and measuring; the family broadband project hanging and measuring system provides a project quality control tool for project construction personnel and project acceptance personnel, so that the project construction quality is improved, and the customer service level is also improved.

The current home broadband engineering hanging test system is limited by that a traditional Optical Distribution Network (ODN) is a passive Network and does not have the characteristics of management and maintenance; and the risk of false hanging measurement of engineering construction personnel also exists, and part of the engineering construction personnel carry out false hanging measurement operation in order to improve the engineering construction and acceptance speed, so that hidden troubles are buried for resource management of subsequent family bandwidth and installation service of family broadband business.

Disclosure of Invention

In view of the above, the main objective of the present invention is to provide a method and an apparatus for hanging and testing line quality, and a computer storage medium, which can effectively prevent the occurrence of false hanging and testing phenomena, thereby ensuring the authenticity of hanging and testing broadband engineering and the accuracy of testing resources, reducing the later-stage resource management cost, and improving the installed and open rate of broadband services.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

in a first aspect, an embodiment of the present invention provides a method for hanging and testing line quality, where the method is applied to a mobile terminal having a connection relationship with a last-stage optical splitter to be tested, and the method includes:

if the distance difference between the position information of the mobile terminal and the position information of the pre-acquired final-stage optical splitter to be tested does not exceed a preset distance threshold, acquiring the field resource information of the final-stage optical splitter to be tested; the mobile terminal is carried by a hanging person on site;

if the field resource information is matched with the pre-acquired resource information of the final-stage optical splitter to be tested, acquiring a field test image of the final-stage optical splitter to be tested, and starting a line quality test of the final-stage optical splitter to be tested;

and storing the field test image of the final stage optical splitter to be tested and the test result of the line quality.

In a second aspect, an embodiment of the present invention provides a line quality hanging test device, where the line quality hanging test device is applied to a mobile terminal having a connection relationship with a final splitter to be tested, and the line quality hanging test device includes: a first comparing section, a second comparing section and a holding section; wherein the content of the first and second substances,

the first comparison part is configured to acquire field resource information of the final-stage optical splitter to be tested if a distance difference between position information of the mobile terminal and position information of the pre-acquired final-stage optical splitter to be tested does not exceed a preset distance threshold; the mobile terminal is carried by a hanging person on site;

the second comparison part is configured to acquire a field test image of the final stage optical splitter to be tested and start a line quality test of the final stage optical splitter to be tested if the field resource information matches with the pre-acquired resource information of the final stage optical splitter to be tested;

the storage part is configured to store the field test image of the final splitter to be tested and the test result of the line quality.

In a third aspect, an embodiment of the present invention provides a line quality hanging test device, where the line quality hanging test device includes: a network interface, a memory, and a processor; wherein the content of the first and second substances,

the network interface is used for receiving and sending signals in the process of receiving and sending information with other external network elements;

the memory for storing a computer program operable on the processor;

the processor is configured to, when running the computer program, perform the steps of the method for hanging line quality measurement according to the first aspect.

In a fourth aspect, an embodiment of the present invention provides a computer storage medium storing a line quality hanging test program, where the line quality hanging test program, when executed by at least one processor, implements the steps of the method for hanging test of line quality according to the first aspect.

According to the line quality hanging test method, the line quality hanging test device and the computer storage medium provided by the embodiment of the invention, if the distance difference value between the position information of the mobile terminal and the position information of the pre-acquired final-stage optical splitter to be tested does not exceed a preset distance threshold value, the field resource information of the final-stage optical splitter to be tested is acquired; the mobile terminal is carried by a hanging person on site; if the field resource information is matched with the pre-acquired resource information of the final-stage optical splitter to be tested, acquiring a field test image of the final-stage optical splitter to be tested, and starting a line quality test of the final-stage optical splitter to be tested; storing the field test image of the final splitter to be tested and the test result of the line quality; the phenomenon of false hanging test can be effectively prevented, so that the authenticity of the hanging test of the broadband engineering and the accuracy of the test resources are ensured, the resource management cost in the later period is reduced, and the installation and opening rate of the broadband service is improved.

Drawings

Fig. 1 is a schematic flow chart of a line quality hanging test method according to an embodiment of the present invention;

fig. 2 is a schematic view of an application scenario of a home broadband engineering hanging test system according to an embodiment of the present invention;

fig. 3 is a schematic operation flow diagram of a home broadband engineering hang test system according to an embodiment of the present invention;

fig. 4 is a detailed flowchart of a method for hanging line quality measurement according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a line quality hanging test device according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of another line quality hanging measurement device according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a further apparatus for hanging and measuring line quality according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a further apparatus for hanging and measuring line quality according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of a further apparatus for hanging and measuring line quality according to an embodiment of the present invention;

fig. 10 is a schematic structural diagram of another line quality hanging measurement device according to an embodiment of the present invention;

fig. 11 is a schematic diagram of a specific hardware structure of a line quality suspension testing apparatus according to an embodiment of the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

The home broadband project hanging measurement system is also called as a home broadband project hanging measurement system and is mainly applied to the quality hanging measurement of home broadband services; after the family broadband project is finished, the project hanging test of the family broadband service is carried out, so that the service availability and the line quality are tested; in general, the main steps are as follows:

(1) a hang-up tester connects a test optical modem (optical modem for short) or integrated access equipment at a final-stage optical splitter, and then connects a notebook computer to the optical modem or the integrated access equipment; it should be noted that, if the optical modem is accessed, an external mobile power supply device is required to supply power to the optical modem;

(2) the hanging test personnel logs in a management page of the optical modem, inputs a test pass/LOGID code and confirms that the optical modem is successfully accessed;

(3) carrying out broadband dial-up networking on the notebook computer;

(4) after the dialing internet connection is successful, a browser is used for logging in the home broadband project hanging test system to complete the test of the usability and the line quality of the home broadband internet service.

However, when the on-hook testing personnel executes the on-hook testing process of the home broadband engineering, the on-hook testing personnel is limited in that the traditional ODN network is a passive network and does not have the characteristics of management and maintenance; therefore, when the home broadband engineering hanging test system is used for testing, the following two problems still exist at present:

(a) the method comprises the following steps that whether a hanging test person really carries out service hanging test operation under a final-stage optical splitter cannot be confirmed;

(b) whether the resource information of the final-stage optical splitter tested by the hanging test personnel is consistent with that of the final-stage optical splitter in the family broadband engineering hanging test system cannot be confirmed.

In order to solve the above problems, the basic idea of the embodiment of the present invention is: acquiring position information of the hanging measurement personnel; verifying the position information of the hanging measurement personnel with the position information of the pre-acquired final-stage optical splitter to be tested; if the check result is consistent, acquiring two-dimensional code information of the optical cross connecting box corresponding to the final-stage optical splitter to be tested; if the acquired two-dimension code information is matched with the preset two-dimension code information, acquiring a field image of the final-stage optical splitter to be tested through a received photographing instruction; uploading the field image, and starting a line quality test; embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Example one

Referring to fig. 1, a method for hanging line quality is shown, where the method is applied to a mobile terminal having a connection relationship with a final splitter to be tested, and the method may include:

s101: if the distance difference between the position information of the mobile terminal and the position information of the pre-acquired final-stage optical splitter to be tested does not exceed a preset distance threshold, acquiring the field resource information of the final-stage optical splitter to be tested; the mobile terminal is carried by a hanging person on site;

s102: if the field resource information is matched with the pre-acquired resource information of the final-stage optical splitter to be tested, acquiring a field test image of the final-stage optical splitter to be tested, and starting a line quality test of the final-stage optical splitter to be tested;

s103: and storing the field test image of the final stage optical splitter to be tested and the test result of the line quality.

Based on the technical scheme shown in fig. 1, the method is applied to a mobile terminal having a connection relationship with a final stage optical splitter to be tested, and if a distance difference between position information of the mobile terminal and position information of the pre-obtained final stage optical splitter to be tested does not exceed a preset distance threshold, field resource information of the final stage optical splitter to be tested is obtained; the mobile terminal is carried by a hanging person on site; if the field resource information is matched with the pre-acquired resource information of the final-stage optical splitter to be tested, acquiring a field test image of the final-stage optical splitter to be tested, and starting a line quality test of the final-stage optical splitter to be tested; storing the field test image of the final splitter to be tested and the test result of the line quality; the anti-counterfeiting verification is carried out through the position information of the mobile terminal, the field resource information and the field test image, and the false hanging test phenomenon can be effectively prevented, so that the authenticity of the hanging test of the broadband engineering and the accuracy of the test resource are ensured, the resource management cost in the later period is reduced, and the installation and opening rate of the broadband service is improved.

With respect to the technical solution shown in fig. 1, in a possible implementation manner, before the acquiring field resource information of the final splitter to be tested, the method further includes:

receiving the site position information of the final-stage optical splitter to be tested;

establishing a connection with the final splitter to be tested at the site location;

receiving a login instruction, and starting an engineering hanging test application program according to the login instruction;

receiving a selection instruction, and entering a test interface of the final-stage optical splitter to be tested according to the selection instruction;

and after entering a test interface of the final-stage optical splitter to be tested, acquiring the position information of the mobile terminal.

It should be noted that before acquiring the field resource information of the final splitter to be tested, the position information of the mobile terminal itself needs to be acquired; before acquiring the position information of the mobile terminal, firstly acquiring the site position information of the final-stage optical splitter to be tested, then connecting the port of the final-stage optical splitter to be tested at the site position to the wireless optical modem according to the connecting instruction, and then connecting the mobile terminal to the wireless optical modem, so that the mobile terminal is connected with the final-stage optical splitter to be tested at the site position; in addition, in order to enable the mobile terminal to access to the network, a configuration instruction needs to be received, where the configuration instruction is used to configure network parameters, so that the mobile terminal can perform broadband internet access; wherein, the Password/LOGID code required by activating broadband internet access is carried by the on-site hanging and testing personnel; after the mobile terminal can surf the internet, the project hanging test application program can be started according to the login instruction; selecting a final-stage optical splitter to be tested according to a selection instruction and entering a test interface of the final-stage optical splitter to be tested on an engineering hanging test application program interface; after entering a test interface of the final-stage optical splitter to be tested, the position information of the mobile terminal is acquired by an engineering hanging test application program.

It should be further noted that the position information of the mobile terminal itself is obtained, mainly by obtaining the longitude and latitude information of the mobile terminal itself through a positioning system; then, the position information of the mobile terminal can be determined by calling a map application program; the latitude and longitude information of the mobile terminal itself may be obtained through a Global Positioning System (GPS), a BeiDou Navigation Satellite System (BDS), or even through a Galileo Navigation Satellite System (Galileo) and a GLONASS Navigation Satellite System (GLONASS), which is not specifically limited in the embodiments of the present invention.

It can be understood that, for the distance difference between the position information of the mobile terminal itself and the position information of the pre-acquired final stage optical splitter to be tested, not only the position information of the mobile terminal itself but also the pre-stored position information of the final stage optical splitter to be tested need to be acquired; therefore, in the above implementation, in particular, before the acquiring field resource information of the final optical splitter to be tested, the method further includes:

acquiring pre-stored resource information corresponding to at least one final-stage optical splitter, position information corresponding to at least one final-stage optical splitter and an identity corresponding to at least one final-stage optical splitter; the identity identification is correspondingly generated based on the resource information;

establishing a corresponding relation between at least one final-stage optical splitter and resource information, position information and an identity mark;

and acquiring the resource information of the final-stage optical splitter to be tested, the position information of the final-stage optical splitter to be tested and the identity of the final-stage optical splitter to be tested based on the selection instruction and the established corresponding relation between the at least one final-stage optical splitter and the resource information, the position information and the identity.

It should be noted that, in the engineering hanging test application program, resource information corresponding to at least one final-stage optical splitter, position information corresponding to at least one final-stage optical splitter, and an identity corresponding to at least one final-stage optical splitter are stored in advance; wherein the resource information corresponding to the at least one last stage optical splitter and the position information corresponding to the at least one last stage optical splitter are both stored in the resource management system; meanwhile, according to the resource information corresponding to at least one final-stage optical splitter, a unique identity can be generated for each final-stage optical splitter; the identity mark can be printed, and in the broadband engineering construction period, the printed identity mark is correspondingly adhered to the outer side of the light cross box corresponding to the final-stage light splitter by engineering constructors, so that subsequent hanging and measuring personnel can visually see the identity mark; before starting the project hanging test, the data information, the position information and the identity marks corresponding to the final-stage optical splitters can be sent to a project hanging test application program by the resource management system; thus, according to the received information, position information and identification corresponding to the last-stage optical splitters, the corresponding relation between at least one last-stage optical splitter and the resource information, the position information and the identification can be established; according to the selection instruction, the resource information of the final-stage optical splitter to be tested, the position information of the final-stage optical splitter to be tested and the identity of the final-stage optical splitter to be tested can be obtained.

It should be further noted that the identity identifier is mainly an identifier used for distinguishing the final splitter, and may be a two-dimensional code, a bar code, or other similar identifiers.

For the technical solution shown in fig. 1, in a possible implementation manner, the method further includes:

and if the distance difference between the position information of the mobile terminal and the position information of the final-stage optical splitter to be tested exceeds a preset distance threshold, continuously receiving the field position information of the final-stage optical splitter to be tested.

It should be noted that the preset distance threshold is a determination value used for measuring whether two pieces of position information are consistent, the preset distance threshold may be 5 meters, 10 meters, even 30 meters, and the like, and is specifically set according to actual needs, which is not limited in the embodiment of the present invention.

After the position information of the mobile terminal and the position information of the final optical splitter to be tested are obtained, the position information of the mobile terminal is compared with the position information of the final optical splitter to be tested, when the distance difference between the position information of the mobile terminal and the position information of the final optical splitter to be tested does not exceed a preset distance threshold, it is indicated that a hanging test person carrying the mobile terminal is positioned near the final optical splitter to be tested, and at the moment, the mobile terminal can obtain the field resource information of the final optical splitter to be tested; when the distance difference between the position information of the mobile terminal and the position information of the final optical splitter to be tested exceeds a preset distance threshold, it is indicated that the hanging test personnel carrying the mobile terminal is not located near the final optical splitter to be tested, and in order to prevent the occurrence of a false hanging test phenomenon, the mobile terminal is not allowed to acquire the field resource information of the final optical splitter to be tested, and the mobile terminal is required to receive the field position information of the final optical splitter to be tested again.

Understandably, when the distance difference between the position information of the mobile terminal and the position information of the final splitter to be tested does not exceed a preset distance threshold, acquiring the field resource information of the final splitter to be tested; for the technical solution shown in fig. 1, in a possible implementation manner, if a distance difference between the position information of the mobile terminal itself and the position information of the pre-obtained final splitter to be tested does not exceed a preset distance threshold, obtaining field resource information of the final splitter to be tested specifically includes:

if the distance difference value between the position information of the mobile terminal and the position information of the pre-acquired final-stage optical splitter to be tested does not exceed a preset distance threshold, acquiring the field identity identification of the final-stage optical splitter to be tested;

receiving a scanning instruction, wherein the scanning instruction is used for indicating to scan the field identity;

and acquiring the field resource information according to the scanning result.

It should be noted that, when the distance difference between the position information of the mobile terminal itself and the position information of the final splitter to be tested does not exceed a preset distance threshold, it is indicated that a hang-up tester carrying the mobile terminal is located near the final splitter to be tested; in the broadband engineering construction period, the printed identification is correspondingly adhered to the outer side of the optical cross-connecting box corresponding to the final-stage optical splitter by engineering constructors, at the moment, a hanging and testing person carrying a mobile terminal can scan the identification adhered to the outer side of the optical cross-connecting box corresponding to the final-stage optical splitter to be tested, and according to the scanning result, the field resource information of the final-stage optical splitter to be tested can be obtained; here, the identity may be a two-dimensional code, a barcode, or other similar identifiers, which is not specifically limited in this embodiment of the present invention.

Understandably, after acquiring the field resource information, matching the field resource information with the pre-acquired resource information of the final splitter to be tested; for the technical solution shown in fig. 1, in a possible implementation manner, the method further includes:

and if the field resource information is not matched with the resource information of the final-stage optical splitter to be tested, continuously receiving the field position information of the final-stage optical splitter to be tested.

It should be noted that, after the field resource information and the resource information of the final optical splitter to be tested are obtained, the field resource information and the resource information of the final optical splitter to be tested are matched, and when the field resource information and the resource information of the final optical splitter to be tested are matched, it is indicated that a hang-up test worker carrying a mobile terminal is located near the final optical splitter to be tested, and at this time, the mobile terminal may perform subsequent steps, such as obtaining a field test image of the final optical splitter to be tested and starting a line quality test of the final optical splitter to be tested; when the field resource information is not matched with the resource information of the final-stage optical splitter to be tested, it is indicated that the obtained identity is wrong because the hanging test personnel carrying the mobile terminal is not located near the final-stage optical splitter to be tested, and in order to prevent the occurrence of the false hanging test phenomenon, the mobile terminal is not allowed to perform subsequent steps of obtaining a field test image of the final-stage optical splitter to be tested and starting a line quality test of the final-stage optical splitter to be tested, and the like, and the mobile terminal is required to receive the field position information of the final-stage optical splitter to be tested again.

Understandably, when the field resource information is matched with the resource information of the final splitter to be tested, acquiring a field test image of the final splitter to be tested, and starting a line quality test of the final splitter to be tested; for the technical solution shown in fig. 1, in a possible implementation manner, if the field resource information matches with the pre-acquired resource information of the final optical splitter to be tested, acquiring a field test image of the final optical splitter to be tested, and starting a line quality test of the final optical splitter to be tested specifically includes:

if the field resource information is matched with the pre-acquired resource information of the final-stage optical splitter to be tested, starting a camera of the mobile terminal;

receiving a photographing instruction, acquiring a field test image of the final optical splitter to be tested according to the photographing instruction, and starting a line quality test of the final optical splitter to be tested according to the photographing instruction.

It should be noted that, when the field resource information matches with the resource information of the final optical splitter to be tested, the mobile terminal directly calls a photographing function to turn on the camera, receives a photographing instruction, and can obtain a field test image of the final optical splitter to be tested according to the photographing instruction; here, the contents of the field test image include: an optical modem connected to the internet on site, an identification (the content of the identification needs to be clearly visible) attached to the optical cross-connect box, the surrounding environment of the final-stage optical splitter to be tested and the like; it should be noted that the obtained field test image cannot use a photograph, and must be a field test image obtained according to a photographing instruction; in addition, the line quality test of the final-stage optical splitter to be tested is started simultaneously according to the photographing instruction, and the line quality is analyzed.

With respect to the solution shown in fig. 1, in a possible implementation manner, after the starting the line quality test of the final splitter to be tested, the method further includes:

receiving a test result of the line quality;

if the test result meets a preset standard reaching range, ending the hanging test of the line quality;

and if the test result does not meet the preset standard reaching range, prompting engineering construction personnel to carry out rectification treatment on the line.

It should be noted that the preset compliance range is a judgment standard for judging whether the line quality is qualified. After the line quality test of the final-stage optical splitter to be tested is started, a test result of the line quality is correspondingly obtained; comparing the test result with a preset standard reaching range, and when the test result meets the preset standard reaching range, the line quality is qualified, and at the moment, the line quality hanging test of the final-stage optical splitter to be tested can be finished; when the test result does not meet the preset standard reaching range, the quality of the line is unqualified, and the line needs to be rectified and modified by engineering constructors, and at the moment, the engineering constructors can be prompted, and the prompt is used for prompting the engineering constructors to rectify and modify the line in time; and after the rectification is finished, the line quality of the final-stage optical splitter to be tested is hung and tested again.

It should be noted that, after the end of the hanging test of the final spectroscope to be tested, a project acceptance check is also performed. Here, the project acceptance is generally performed after all the final spectrometers to be tested in the same project construction period are completely hung and tested, or may be performed after all the final spectrometers to be tested in a cell are completely hung and tested. In the process of project acceptance, project acceptance personnel check field test images (such as an optical modem connected to the internet on site, an identity label pasted by an optical cross-connect box, the surrounding environment of the final optical splitter to be tested and the like) of the final optical splitter to be tested, and can also check whether field resource information obtained according to the identity label in the field test images is consistent with pre-stored resource information; after the project acceptance is finished, the acceptance result is also stored.

The embodiment provides a method for hanging and testing line quality, which is applied to a mobile terminal having a connection relation with a final-stage optical splitter to be tested, and if a distance difference value between position information of the mobile terminal and position information of the pre-obtained final-stage optical splitter to be tested does not exceed a preset distance threshold, field resource information of the final-stage optical splitter to be tested is obtained; the mobile terminal is carried by a hanging person on site; if the field resource information is matched with the pre-acquired resource information of the final-stage optical splitter to be tested, acquiring a field test image of the final-stage optical splitter to be tested, and starting a line quality test of the final-stage optical splitter to be tested; storing the field test image of the final splitter to be tested and the test result of the line quality; the phenomenon of false hanging test is avoided, so that the authenticity of the hanging test of the broadband engineering and the accuracy of the test resources are ensured, the later-stage resource management cost is reduced, and the installation and opening rate of the broadband service is improved; and the false test condition that the engineering hanging test operation is not carried out on the actual final-stage optical splitter can be effectively prevented, and an optimal control means is provided for strictly controlling the hanging test quality of the broadband engineering.

Example two

Based on the same inventive concept of the foregoing embodiment, referring to fig. 2, an application scenario diagram of a home broadband engineering hanging test system provided by the embodiment of the present invention is shown; in this exemplary application scenario, the home broadband project hang test system includes: a mobile terminal 201, an optical modem 202, a final splitter 203 to be tested, and a server 204. It is understood that the exemplary application scenario shown in fig. 2 does not limit the embodiment of the present invention in any way.

In the exemplary scenario shown in fig. 2, the mobile terminal 201, the optical modem 202, and the final optical splitter 203 to be tested belong to an example of a hardware structure of a hang-up test site, the final optical splitter 203 to be tested is connected to the optical modem 202, the mobile terminal 201 is also connected to the optical modem 202, and then the mobile terminal 201 can have a broadband internet function by configuring network parameters, that is, a network connection is established between the mobile terminal 201 and the server 204; the mobile terminal 201 may include, but is not limited to, a mobile phone, a tablet computer, a personal digital assistant, a mobile station, a mobile unit, a Machine-to-Machine (M2M) terminal, a mobile client, and the like; the optical modem 202 is also called as an optical modem, and the optical modem 202 may also be other integrated access devices, such as a switch, a router, etc.; the server 204 is provided with a home broadband project hanging and testing system and a resource management system; after the mobile terminal 201 establishes network connection with the server 204, the mobile terminal 201 can perform data communication with the home broadband engineering hang test system and the resource management system.

Referring to fig. 3, it shows an operation flow diagram of a home broadband engineering hang test system provided in an embodiment of the present invention; in connection with the exemplary scenario illustrated in fig. 2, the detailed flow may include:

s301: transmitting the engineering data to a resource management system for storage;

s302: generating a two-dimensional code for each final-stage optical splitter;

s303: printing the generated two-dimensional code by engineering personnel;

s304: in the engineering construction period, engineering constructors correspondingly paste the printed two-dimensional code on the outer side of the optical cross connecting box corresponding to the final-stage optical splitter;

s305: pushing the engineering data and the generated two-dimensional code to a home broadband engineering hanging and measuring system;

s306: the hanging person carries the mobile terminal and the activation code;

s307: confirming the site position of the final-stage optical splitter to be tested by a hanging test worker, and connecting the site position with a network through a broadband;

s308: acquiring position information of a mobile terminal;

s309: detecting whether the position information check passes;

s310: when the verification is passed, scanning the on-site two-dimensional code of the final-stage optical splitter to be tested;

s311: acquiring field resource information of the final-stage optical splitter to be tested according to the scanning result;

s312: detecting whether the field resource information check passes;

s313: when the verification is passed, acquiring a field test image of the final-stage optical splitter to be tested, and starting a line quality test of the final-stage optical splitter to be tested;

s314: when the verification fails, the on-site position of the final-stage optical splitter to be tested is wrong, and the on-site position of the final-stage optical splitter to be tested is confirmed again by a hanging test worker;

s315: storing the obtained field test image;

s316: obtaining a test result of the line quality;

s317: judging whether the test result meets a preset standard reaching range or not;

s318: if the test result meets the preset standard reaching range, the project acceptance personnel performs acceptance, and the acceptance at least comprises the inspection of the project acceptance personnel on the field test image;

s319: if the test result does not meet the preset standard reaching range, prompting engineering construction personnel to modify the line, and performing line quality hanging test again according to the modified line;

s320: judging whether the acceptance result meets the preset acceptance standard or not;

s321: if the acceptance result meets the preset acceptance standard, sending the acceptance result to a resource management system for storage;

s322: and if the acceptance result does not meet the preset acceptance standard, prompting the hanging and testing personnel to carry out hanging and testing of the line quality again.

For example, taking the application scenario shown in fig. 2 as an example, when performing broadband engineering construction, engineering construction personnel will enter engineering data into the resource management system for storage; wherein the engineering data includes resource information of at least one final-stage optical splitter and position information corresponding to the at least one final-stage optical splitter; then, according to the recorded resource information of the at least one final-stage optical splitter, generating an identity mark, such as a two-dimensional code, for the optical cross connecting box corresponding to each final-stage optical splitter; therefore, in the subsequent broadband engineering construction period, the two-dimensional code printed by the engineering personnel is correspondingly pasted on the outer side of the optical cross-connecting box corresponding to the final-stage optical splitter, and the pasting position is favorable for the subsequent hanging and testing personnel to scan the two-dimensional code; before the broadband project is hung and tested, the data management system can push the relevant project data of the family broadband project to be hung and tested to the family broadband project hanging and testing system, and the family broadband project hanging and testing system can obtain the two-dimensional code distributed to the light cross box corresponding to each final-stage light splitter. Before the on-hook test is started, the on-hook test personnel can carry the mobile terminal and activate the Password or LOGID code required by broadband internet access, firstly, the on-hook test personnel confirms the site position of the final-stage optical splitter to be tested, the on-hook test personnel is connected to the port of the final-stage optical splitter to be tested through the optical modem, then, the mobile terminal is connected with the optical modem, and the mobile terminal can carry out broadband internet access through configuring network parameters; at this time, the on-hook testing personnel logs in the home broadband project on-hook testing system, information of a final-stage optical splitter to be tested, which needs to be on-hook tested, is selected on a system page and enters a testing page of the final-stage optical splitter to be tested, at this time, the home broadband project on-hook testing system can acquire position information of the mobile terminal, and as the mobile terminal is carried by the on-site on-hook testing personnel, longitude and latitude information of the current position of the on-hook testing personnel is acquired, and the current position information of the on-hook testing personnel can be acquired by calling a map interface; comparing and checking the position information with the position information of the final-stage optical splitter to be tested in the home broadband engineering hanging test system, if the position information does not pass the checking, indicating that the hanging test personnel is not at the position of the final-stage optical splitter to be tested currently, and avoiding false hanging test, wherein the hanging test personnel can not perform corresponding operation in the home broadband engineering hanging test system; if the verification is passed, the fact that the on-hook testing personnel is located at the position of the final-stage optical splitter to be tested currently is indicated, the on-hook testing personnel can perform subsequent corresponding operations, for example, a home broadband engineering on-hook testing system is used for scanning a two-dimensional code on an on-site optical cross box, and on-site resource information of the final-stage optical splitter to be tested is obtained according to a scanning result; matching and checking the field resource information and the resource information in the home broadband engineering hanging test system, if the matching result is inconsistent, namely the check is not passed, the field position error of the final-stage optical splitter to be tested is explained, the subsequent corresponding operation is not allowed, and at the moment, the hanging test personnel needs to re-confirm the field position of the final-stage optical splitter to be tested; if the matching results are consistent, namely the verification is passed, the on-site position of the final-stage optical splitter to be tested is correct, and at the moment, the hanging test personnel can perform subsequent corresponding operations, such as opening a camera, and the on-site test image of the final-stage optical splitter to be tested can be obtained through the photographing operation of the hanging test personnel; here, the contents of the field test image include: an optical modem connected to the internet on site, an identification (the content of the identification needs to be clearly visible) attached to the optical cross-connect box, the surrounding environment of the final-stage optical splitter to be tested and the like; the obtained field test image can not use the photo, and must be the field test image obtained according to the photographing instruction, and then the field image is uploaded to the family broadband project hanging test system to be used as the basis for the subsequent resource information verification and hanging test management; at the moment of receiving the photographing instruction, the home broadband engineering hanging test system also starts a line quality test, including acquiring and analyzing line quality information to obtain a test result of the line quality; comparing the test result with a preset standard reaching range, and when the test result does not meet the preset standard reaching range, indicating that the line quality is unqualified, requiring an engineering constructor to carry out rectification treatment on the line, and carrying out hanging test on the line quality again according to the rectified line; when the test result meets the preset standard reaching range, the line quality is qualified, and the line quality hanging test of the final-stage optical splitter to be tested can be finished; if the project acceptance requirement is met, the acceptance personnel also need to accept the home broadband project, the acceptance interior comprises the acceptance personnel to check whether the field test image meets the standard or not, and check whether field resource information acquired according to the two-dimensional code in the field test image is consistent with resource information in the home broadband project hanging test system or not; after the project acceptance is finished, the acceptance personnel can upload the acceptance results to the resource management system for storage.

For the line quality hanging test operation performed by a hanging test person to the field position of the final splitter to be tested, the specific operation flow refers to fig. 4, which shows a detailed flow example of the line quality hanging test method provided by the embodiment of the present invention; the detailed process comprises the following steps:

s401: receiving field position information of a final-stage optical splitter to be tested;

s402: establishing connection with the final-stage optical splitter to be tested at the site position, and connecting the final-stage optical splitter to the network through a broadband;

s403: acquiring position information of a mobile terminal;

s404: detecting whether the verification of the position information passes;

s405: when the verification result passes, scanning the on-site two-dimensional code of the final-stage optical splitter to be tested;

s406: acquiring field resource information of the final-stage optical splitter to be tested according to the scanning result;

s407: detecting whether the check of the field resource information passes;

s408: when the verification result passes, opening a camera, receiving a photographing instruction, and acquiring a field test image of the final stage optical splitter to be tested according to the photographing instruction;

s409: starting a line quality test of the final-stage optical splitter to be tested according to the photographing instruction, and obtaining a test result of the line quality;

s410: judging whether the test result meets a preset standard reaching range or not;

s411: if the test result meets a preset standard reaching range, ending the hanging test of the line quality;

s412: and if the test result does not meet the preset standard reaching range, prompting engineering construction personnel to carry out rectification treatment on the line.

It should be noted that, regarding step S404, when the verification passes, step S405 is executed; when the verification is failed, returning to execute the step S401; for step S407, when the check passes, step S408 is performed; when the verification fails, returning to execute the step S401; with respect to step S412, after the rectification process is completed, the process still returns to step S402, and the line quality hang test of the final splitter to be tested is restarted.

For example, taking the application scenario shown in fig. 2 as an example, in combination with the above example, for a hitching test worker to go to the site to perform a line quality test on a final splitter to be tested, the hitching test worker needs to confirm site location information of the final splitter to be tested, then the hitching test worker carries a mobile terminal and goes to the site with a Password or LOGID code that needs to be used for activating broadband internet access, and the mobile terminal can perform broadband internet access by connecting with an optical modem and configuring network parameters; at this time, a hanging test person logs in a family broadband project hanging test system, selects information of a final-stage optical splitter to be tested to be hung on a system page, enters a test page of the final-stage optical splitter to be tested, at this time, the family broadband project hanging test system can acquire position information of a mobile terminal, namely position information of the hanging test person, verifies the position information, assumes that a preset distance threshold is 10 meters, and when a distance difference value between the position information of the hanging test person and the position information of the pre-acquired final-stage optical splitter to be tested exceeds 10 meters, it is stated that the hanging test person carrying the mobile terminal is not located near the final-stage optical splitter to be tested, a verification result is not passed, and in order to avoid false hanging test, at this time, the hanging test person cannot perform corresponding operation in the family broadband project hanging test system; when the distance difference between the position information of the hanging and testing personnel and the position information of the pre-obtained final-stage optical splitter to be tested does not exceed 10 meters, it is indicated that the hanging and testing personnel carrying the mobile terminal is located near the final-stage optical splitter to be tested, the verification result is passed, the hanging and testing personnel can perform subsequent corresponding operations, for example, a family broadband engineering hanging and testing system is used for scanning a two-dimensional code on a field optical cross box, and the field resource information of the final-stage optical splitter to be tested is obtained according to the scanning result; matching and checking the field resource information and the resource information in the home broadband engineering hanging test system, if the matching result is inconsistent, namely the checking result is failed, the field position error of the final-stage optical splitter to be tested is explained, the subsequent corresponding operation is not allowed, and at the moment, the hanging test personnel needs to re-confirm the field position of the final-stage optical splitter to be tested; if the matching result is consistent, that is, the verification result is passed, the on-hook testing personnel can perform subsequent corresponding operations, such as opening a camera, and can acquire a field test image of the final-stage optical splitter to be tested through the photographing operation of the on-hook testing personnel; here, the contents of the field test image include: an optical modem connected to the internet on site, an identification (the content of the identification needs to be clearly visible) attached to the optical cross-connect box, the surrounding environment of the final-stage optical splitter to be tested and the like; the obtained field test image cannot use the photo, and must be the field test image obtained according to the photographing instruction, and then the field image is uploaded to the home broadband project hanging test system; meanwhile, the home broadband engineering hanging test system also starts a line quality test, including acquiring and analyzing line quality information to obtain a test result of the line quality; when the test result does not meet the preset standard reaching range, the quality of the line is unqualified, engineering construction personnel are required to modify the line, and the line quality hanging test is carried out again according to the modified line; and when the test result meets the preset standard reaching range, the line quality is qualified, and the line quality hanging test of the last-stage optical splitter can be finished so as to carry out the line quality hanging test of the next last-stage optical splitter.

Through the embodiment, the specific implementation of the embodiment is elaborated in detail, and it can be seen that through the technical scheme of the embodiment, the authenticity of the test process and the test result is strictly ensured, and the occurrence of the false hanging test phenomenon is avoided, so that the authenticity of the broadband engineering hanging test and the accuracy of the test resources are ensured, the resource management cost in the later period is reduced, the installed open rate of the broadband service is improved, the false test condition that the engineering hanging test operation is not performed in the actual final-stage optical splitter can be effectively prevented, and the optimal management and control means is provided for strictly managing and controlling the hanging test quality of the broadband engineering.

EXAMPLE III

Based on the same inventive concept of the foregoing embodiment, referring to fig. 5, a composition of a line quality hanging test device 50 provided by an embodiment of the present invention is shown, where the line quality hanging test device 50 is applied to a mobile terminal having a connection relationship with a final splitter to be tested, and the line quality hanging test device 50 includes: a first comparing portion 501, a second comparing portion 502, and a holding portion 503; wherein the content of the first and second substances,

the first comparing part 501 is configured to obtain field resource information of the final stage optical splitter to be tested if a distance difference between the position information of the mobile terminal and the position information of the pre-obtained final stage optical splitter to be tested does not exceed a preset distance threshold; the mobile terminal is carried by a hanging person on site;

the second comparing part 502 is configured to acquire a field test image of the final splitter to be tested and start a line quality test of the final splitter to be tested if the field resource information matches with the pre-acquired resource information of the final splitter to be tested;

the storing part 503 is configured to store the field test image of the final splitter to be tested and the test result of the line quality.

In the above solution, referring to fig. 6, the line quality suspension measurement apparatus 50 further includes a first obtaining part 504 configured to:

receiving the site position information of the final-stage optical splitter to be tested;

establishing a connection with the final splitter to be tested at the site location;

receiving a login instruction, and starting an engineering hanging test application program according to the login instruction;

receiving a selection instruction, and entering a test interface of the final-stage optical splitter to be tested according to the selection instruction;

and after entering a test interface of the final-stage optical splitter to be tested, acquiring the position information of the mobile terminal.

In the above solution, referring to fig. 7, the line quality suspension measurement apparatus 50 further includes a second obtaining part 505 configured to:

acquiring pre-stored resource information corresponding to at least one final-stage optical splitter, position information corresponding to at least one final-stage optical splitter and an identity corresponding to at least one final-stage optical splitter; the identity identification is correspondingly generated based on the resource information;

establishing a corresponding relation between at least one final-stage optical splitter and resource information, position information and an identity mark;

and acquiring the resource information of the final-stage optical splitter to be tested, the position information of the final-stage optical splitter to be tested and the identity of the final-stage optical splitter to be tested based on the selection instruction and the established corresponding relation between the at least one final-stage optical splitter and the resource information, the position information and the identity.

In the above solution, referring to fig. 8, the line quality suspension measurement apparatus 50 further includes a first receiving part 506 configured to:

and if the distance difference between the position information of the mobile terminal and the position information of the final-stage optical splitter to be tested exceeds a preset distance threshold, continuously receiving the field position information of the final-stage optical splitter to be tested.

In the above scheme, the first comparing part 501 is specifically configured to:

if the distance difference value between the position information of the mobile terminal and the position information of the pre-acquired final-stage optical splitter to be tested does not exceed a preset distance threshold, acquiring the field identity identification of the final-stage optical splitter to be tested;

receiving a scanning instruction, wherein the scanning instruction is used for indicating to scan the field identity;

and acquiring the field resource information according to the scanning result.

In the above solution, referring to fig. 9, the line quality hang-up measurement apparatus 50 further includes a second receiving part 507 configured to:

and if the field resource information is not matched with the resource information of the final-stage optical splitter to be tested, continuously receiving the field position information of the final-stage optical splitter to be tested.

In the above scheme, the second comparing part 502 is specifically configured to:

if the field resource information is matched with the pre-acquired resource information of the final-stage optical splitter to be tested, starting a camera of the mobile terminal;

receiving a photographing instruction, acquiring a field test image of the final optical splitter to be tested according to the photographing instruction, and starting a line quality test of the final optical splitter to be tested according to the photographing instruction.

In the above solution, referring to fig. 10, the line quality suspension measurement apparatus 50 further includes a third receiving part 508 configured to:

receiving a test result of the line quality;

if the test result meets a preset standard reaching range, ending the hanging test of the line quality;

and if the test result does not meet the preset standard reaching range, prompting engineering construction personnel to carry out rectification treatment on the line.

It is understood that in this embodiment, "part" may be part of a circuit, part of a processor, part of a program or software, etc., and may also be a unit, and may also be a module or a non-modular.

In addition, each component in the embodiment may be integrated in one processing unit, or each unit may exist alone physically, or two or more units are integrated in one unit. The integrated unit can be realized in a form of hardware or a form of a software functional module.

Based on the understanding that the technical solution of the present embodiment essentially or a part contributing to the prior art, or all or part of the technical solution may be embodied in the form of a software product stored in a storage medium, and include several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) or a processor (processor) to execute all or part of the steps of the method of the present embodiment. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

Accordingly, the present embodiments provide a computer storage medium storing a line quality hang test program, which when executed by at least one processor implements the steps of the method of line quality hang test described in one of the above embodiments.

Based on the above-mentioned composition of the line quality hanging test apparatus 50 and the computer storage medium, referring to fig. 11, it shows a specific hardware structure of the line quality hanging test apparatus 50 provided in the embodiment of the present application, which may include: a network interface 1101, a memory 1102, and a processor 1103; the various components are coupled together by a bus system 1104. It is understood that the bus system 1104 is used to enable communications among the components for connection. The bus system 1104 includes a power bus, a control bus, and a status signal bus in addition to the data bus. For clarity of illustration, however, the various buses are designated as the bus system 1104 in FIG. 11. The network interface 1101 is configured to receive and transmit signals in a process of receiving and transmitting information with other external network elements;

a memory 1102 for storing a computer program operable on the processor 1103;

a processor 1103 configured to, when running the computer program, perform:

if the distance difference between the position information of the mobile terminal and the position information of the pre-acquired final-stage optical splitter to be tested does not exceed a preset distance threshold, acquiring the field resource information of the final-stage optical splitter to be tested; the mobile terminal is carried by a hanging person on site;

if the field resource information is matched with the pre-acquired resource information of the final-stage optical splitter to be tested, acquiring a field test image of the final-stage optical splitter to be tested, and starting a line quality test of the final-stage optical splitter to be tested;

and storing the field test image of the final stage optical splitter to be tested and the test result of the line quality.

It will be appreciated that the memory 1102 in the subject embodiment can be either volatile memory or nonvolatile memory, or can include both volatile and nonvolatile memory. The non-volatile Memory may be a Read-Only Memory (ROM), a Programmable ROM (PROM), an Erasable PROM (EPROM), an Electrically Erasable PROM (EEPROM), or a flash Memory. Volatile Memory can be Random Access Memory (RAM), which acts as external cache Memory. By way of illustration and not limitation, many forms of RAM are available, such as Static random access memory (Static RAM, SRAM), Dynamic Random Access Memory (DRAM), Synchronous Dynamic random access memory (Synchronous DRAM, SDRAM), Double Data Rate Synchronous Dynamic random access memory (ddr Data Rate SDRAM, ddr SDRAM), Enhanced Synchronous SDRAM (ESDRAM), Synchlink DRAM (SLDRAM), and Direct Rambus RAM (DRRAM). The memory 1102 of the systems and methods described herein is intended to comprise, without being limited to, these and any other suitable types of memory.

The processor 1103 may be an integrated circuit chip having signal processing capability. In implementation, the steps of the above method may be performed by integrated logic circuits of hardware or instructions in software form in the processor 1103. The Processor 1103 may be a general-purpose Processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), an off-the-shelf Programmable Gate Array (FPGA) or other Programmable logic device, discrete Gate or transistor logic device, or discrete hardware components. The various methods, steps, and logic blocks disclosed in the embodiments of the present application may be implemented or performed. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like. The steps of the method disclosed in connection with the embodiments of the present application may be directly implemented by a hardware decoding processor, or implemented by a combination of hardware and software modules in the decoding processor. The software module may be located in ram, flash memory, rom, prom, or eprom, registers, etc. storage media as is well known in the art. The storage medium is located in the memory 1102, and the processor 1103 reads the information in the memory 1102 and performs the steps of the method in combination with the hardware.

It is to be understood that the embodiments described herein may be implemented in hardware, software, firmware, middleware, microcode, or any combination thereof. For a hardware implementation, the Processing units may be implemented within one or more Application Specific Integrated Circuits (ASICs), Digital Signal Processors (DSPs), Digital Signal Processing Devices (DSPDs), Programmable Logic Devices (PLDs), Field Programmable Gate Arrays (FPGAs), general purpose processors, controllers, micro-controllers, microprocessors, other electronic units configured to perform the functions described herein, or a combination thereof.

For a software implementation, the techniques described herein may be implemented with modules (e.g., procedures, functions, and so on) that perform the functions described herein. The software codes may be stored in a memory and executed by a processor. The memory may be implemented within the processor or external to the processor.

Optionally, as another embodiment, the processor 1103 is further configured to, when running the computer program, perform the steps of the method for line quality suspension measurement according to the first embodiment.

Optionally, an embodiment of the present application further provides a mobile terminal, where the mobile terminal is installed with a client of a home broadband engineering hanging test system, and the mobile terminal at least includes the line quality hanging test device 50 according to any one of the foregoing embodiments.

It should be noted that: the technical solutions described in the embodiments of the present application can be arbitrarily combined without conflict.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. A method for hanging and testing the quality of a line is characterized in that the method is applied to a mobile terminal which is connected with a final-stage optical splitter to be tested, and the method comprises the following steps:

if the distance difference between the position information of the mobile terminal and the position information of the pre-acquired final-stage optical splitter to be tested does not exceed a preset distance threshold, acquiring the field resource information of the final-stage optical splitter to be tested; the mobile terminal is carried by a hanging person on site;

if the field resource information is matched with the pre-acquired resource information of the final-stage optical splitter to be tested, acquiring a field test image of the final-stage optical splitter to be tested, and starting a line quality test of the final-stage optical splitter to be tested;

storing the field test image of the final splitter to be tested and the test result of the line quality;

and if the distance difference between the position information of the mobile terminal and the position information of the final-stage optical splitter to be tested exceeds a preset distance threshold, continuously receiving the field position information of the final-stage optical splitter to be tested.

2. The method of claim 1, wherein prior to said obtaining field resource information for the final splitter under test, the method further comprises:

receiving the site position information of the final-stage optical splitter to be tested;

establishing connection with the final splitter to be tested at the site position;

receiving a login instruction, and starting an engineering hanging test application program according to the login instruction;

receiving a selection instruction, and entering a test interface of the final-stage optical splitter to be tested according to the selection instruction;

and after entering a test interface of the final-stage optical splitter to be tested, acquiring the position information of the mobile terminal.

3. The method of claim 2, wherein prior to said obtaining field resource information for the final splitter under test, the method further comprises:

acquiring pre-stored resource information corresponding to at least one final-stage optical splitter, position information corresponding to at least one final-stage optical splitter and an identity corresponding to at least one final-stage optical splitter; the identity identification is correspondingly generated based on the resource information;

establishing a corresponding relation between at least one final-stage optical splitter and resource information, position information and an identity mark;

and acquiring the resource information of the final-stage optical splitter to be tested, the position information of the final-stage optical splitter to be tested and the identity of the final-stage optical splitter to be tested based on the selection instruction and the established corresponding relation between the at least one final-stage optical splitter and the resource information, the position information and the identity.

4. The method according to claim 1, wherein if a distance difference between the position information of the mobile terminal itself and the position information of the pre-acquired final splitter to be tested does not exceed a preset distance threshold, acquiring field resource information of the final splitter to be tested specifically comprises:

if the distance difference value between the position information of the mobile terminal and the position information of the pre-acquired final-stage optical splitter to be tested does not exceed a preset distance threshold, acquiring the field identity identification of the final-stage optical splitter to be tested;

receiving a scanning instruction, wherein the scanning instruction is used for indicating to scan the field identity;

and acquiring the field resource information according to the scanning result.

5. The method of claim 2, further comprising:

and if the field resource information is not matched with the resource information of the final-stage optical splitter to be tested, continuously receiving the field position information of the final-stage optical splitter to be tested.

6. The method according to claim 1, wherein if the field resource information matches with the pre-acquired resource information of the final optical splitter to be tested, acquiring a field test image of the final optical splitter to be tested, and initiating a line quality test of the final optical splitter to be tested, specifically comprising:

if the field resource information is matched with the pre-acquired resource information of the final-stage optical splitter to be tested, starting a camera of the mobile terminal;

receiving a photographing instruction, acquiring a field test image of the final optical splitter to be tested according to the photographing instruction, and starting a line quality test of the final optical splitter to be tested according to the photographing instruction.

7. The method of claim 1, wherein after said initiating a line quality test of said final splitter to be tested, said method further comprises:

receiving a test result of the line quality;

if the test result meets a preset standard reaching range, ending the hanging test of the line quality;

and if the test result does not meet the preset standard reaching range, prompting engineering construction personnel to carry out rectification treatment on the line.

8. The utility model provides a line quality hangs and surveys device, its characterized in that, line quality hangs and surveys device is applied to the mobile terminal who has the relation of connection with the last spectroscope that awaits measuring, line quality hangs and surveys device includes: a first comparing section, a second comparing section and a holding section; wherein the content of the first and second substances,

the first comparison part is configured to acquire field resource information of the final-stage optical splitter to be tested if a distance difference between position information of the mobile terminal and position information of the pre-acquired final-stage optical splitter to be tested does not exceed a preset distance threshold; the mobile terminal is carried by a hanging person on site;

the second comparison part is configured to acquire a field test image of the final stage optical splitter to be tested and start a line quality test of the final stage optical splitter to be tested if the field resource information matches with the pre-acquired resource information of the final stage optical splitter to be tested;

the storage part is configured to store the field test image of the final splitter to be tested and the test result of the line quality;

the first comparison part is further configured to continue to receive the field position information of the final optical splitter to be tested if a distance difference between the position information of the mobile terminal and the position information of the final optical splitter to be tested exceeds a preset distance threshold.

9. A line quality hang test device, characterized in that, line quality hang test device includes: a network interface, a memory, and a processor; wherein the content of the first and second substances,

the network interface is used for receiving and sending signals in the process of receiving and sending information with other external network elements;

the memory for storing a computer program operable on the processor;

the processor, when executing the computer program, is configured to perform the steps of the method of line quality hang measurement according to any of claims 1 to 7.

10. A computer storage medium storing a line quality hanging program that, when executed by at least one processor, performs the steps of the method of line quality hanging according to any one of claims 1 to 7.

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