WO2019033885A1 - Carrier management method, management terminal, apparatus, system and storage medium - Google Patents

Abstract

The present invention discloses a carrier management method, which is applied to an ODN device, and the ODN device includes a chassis provided with a plurality of fiber ports, and is connected to the fiber connector through a fiber port in the chassis; the method includes Receiving a first operational command carrying an identification of the carrier; the carrier comprising a fiber optic connector and an electronic tag disposed on the fiber optic connector; transmitting a second carrying an identification of the carrier based on the first operational command And operating instructions to the electronic tag on the fiber optic connector to control the carrier output indication information; the indication information is used to indicate location information of the carrier. The invention also discloses a management terminal, a device, a system and a storage medium.

Description

Carrier management method, management terminal, device, system and storage medium

Cross-reference to related applications

The present application is based on a Chinese patent application filed on Jan. 18, 2017, the entire disclosure of which is hereby incorporated by reference.

Technical field

The present invention relates to, but is not limited to, the field of tag identification technology, and in particular, to a carrier management method, a management terminal, a device, a system, and a storage medium.

Background technique

With the development of optical networks, the exponential increase of optical fiber equipment and the dense optical fiber in the optical distribution network (ODN) rack make the management of optical fiber resources more and more difficult.

The ODN fiber management in the related art is to add a paper label to each fiber, and the user looks for the corresponding fiber by watching the paper label. However, the life of the paper label is not long, it is easy to fall off, and it needs to be manually viewed. The length of the inspection is uncertain, and it will cause omission errors. If there are multiple fibers to be tested, the labor cost and time cost are very expensive.

Summary of the invention

In view of this, the embodiments of the present invention are expected to provide a carrier management method, a management terminal, a device, a system, and a storage medium, which can quickly identify a specified optical fiber, and are simple to implement and low in cost.

The technical solution of the embodiment of the present invention is implemented as follows:

The embodiment of the present invention provides a carrier management method, which is applied to an ODN device in an optical distribution network, where the ODN device includes a chassis with multiple fiber ports, and is connected to the optical fiber through a fiber port in the chassis. Connected; the method includes:

Receiving a first operation instruction carrying an identifier of the carrier; the carrier includes a fiber optic connector and an electronic tag disposed on the fiber optic connector;

Transmitting, according to the first operation instruction, a second operation instruction carrying the identifier of the carrier to an electronic tag on the fiber optic connector to control the carrier output indication information; the indication information is used to indicate the carrier Location information.

The embodiment of the present invention further provides an ODN device, where the ODN device includes a chassis that is configured with a plurality of fiber ports, and is connected to the fiber connector through a fiber port in the chassis; the ODN device further includes: a first communication component and controller;

The first communication component is configured to receive a first operation instruction that carries an identifier of the carrier; the carrier includes a fiber optic connector and an electronic tag disposed on the fiber optic connector;

The controller is configured to send, according to the first operation instruction, a second operation instruction carrying an identifier of the carrier to an electronic tag on the optical fiber connector to control the carrier output indication information; The information is used to indicate location information of the carrier.

The embodiment of the present invention further provides a bearer management system, which is applied to an optical distribution network, where the system includes: at least one optical distribution network ODN device, an operation support system OSS, and a plurality of carriers; wherein each of the ODNs The device includes a chassis provided with a plurality of fiber ports, and is connected to the fiber connector through the fiber ports in the chassis; each of the carriers includes a fiber connector and an electronic tag disposed on the fiber connector;

Each of the ODN devices is configured to receive a first operation instruction that is sent by the OSS and carries an identifier of the carrier;

And configured to send a second operation instruction carrying the identifier of the carrier to the carrier based on the first operation instruction;

The carrier is configured to control electronic tag output indication information included by the carrier; the indication information is used to indicate location information of the carrier.

The embodiment of the present invention further provides a bearer management method, which is applied to a bearer management system including at least one ODN device, an OSS, and a plurality of bearers; wherein the ODN device includes a chassis provided with a plurality of fiber ports, and Connected to the fiber optic connector through a fiber port in the chassis; the method includes:

Receiving, by the management terminal, a third operation instruction that is sent by the OSS to carry the identifier of the carrier; wherein the carrier includes an optical fiber connector and an electronic tag disposed on the optical fiber connector;

Transmitting, according to the third operation instruction, a fourth operation instruction carrying the identifier of the carrier to an electronic tag on the optical fiber connector to control the carrier output indication information; the indication information is used to indicate the carrier Location information.

The embodiment of the present invention further provides a management terminal, which is applied to a carrier management system including at least one ODN device, an OSS, and a plurality of carriers; wherein the ODN device includes a chassis provided with a plurality of fiber ports, and passes through The fiber port in the chassis is connected to the fiber connector; the management terminal includes:

a second communication component, configured to receive a third operation instruction of the carrier that is sent by the OSS, where the carrier includes an optical fiber connector and an electronic tag disposed on the optical fiber connector;

The processor is configured to send, according to the third operation instruction, a fourth operation instruction carrying the identifier of the carrier to an electronic tag on the fiber connector to control the carrier output indication information; Instructing the location information of the carrier.

The embodiment of the present invention further provides a storage medium, where the storage medium includes a stored program, wherein the program is executed to execute the carrier management method provided by the embodiment of the present invention.

DRAWINGS

1 is a schematic flowchart 1 of a carrier management method according to an embodiment of the present invention;

2 is a schematic structural diagram 1 of a carrier management system according to an embodiment of the present invention;

3 is a schematic structural diagram of a first carrier in an embodiment of the present invention;

4 is a second schematic flowchart of a carrier management method according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram 1 of an ODN device according to an embodiment of the present invention; FIG.

6 is a schematic flowchart 3 of a carrier management method according to an embodiment of the present invention;

FIG. 7 is a second schematic structural diagram of a carrier management system according to an embodiment of the present invention; FIG.

FIG. 8 is a second schematic structural diagram of an ODN device according to an embodiment of the present invention;

9 is a schematic structural diagram 3 of a carrier management system according to an embodiment of the present invention;

FIG. 10 is a schematic diagram showing the structure of a management terminal according to an embodiment of the present invention.

Detailed ways

The present invention will be further described in detail below with reference to the accompanying drawings and embodiments. It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It should be noted that the term “first\second\third” according to the embodiment of the present invention is merely a similar object, and does not represent a specific ordering for an object. It can be understood that “first\second\” The third "can be interchanged in a specific order or order, where permitted." It is to be understood that the "first\second\third" distinguished objects may be interchanged as appropriate to enable the embodiments of the invention described herein to be carried out in a sequence other than those illustrated or described herein.

In the research process, it is found that the intelligent ODN in the related art needs to change the passive ODN into an active ODN, that is, each port has a main control board, and each optical fiber carries an electronic tag (eID, Electronic Identity). After the fiber is inserted into the port, you need to insert the eID into the corresponding port at the same time. However, in this way, on the optical distribution frame (ODF), the main control board is installed behind each port, and a new socket that allows the eID to be plugged in is installed. This method is only suitable for the newly created ODF. Because the new rack can be redesigned to install the main control board and the eID connector, but it is not suitable for the transformation of the old ODF, it changes the usage habits of the existing ODN users, and also needs to insert while inserting the fiber. eID, which increases the workload, also increases the possibility of errors, and only when the fiber is inserted into the ODN rack port, the fiber can be identified and cannot be recognized before it is inserted.

1 is a schematic flowchart of a carrier management method according to an embodiment of the present invention, where the method is applied to an ODN device; FIG. 2 is a schematic structural diagram of a carrier management system according to an embodiment of the present invention, where the bearer management system includes at least one ODN device. OSS, that is, the network management OSS and the plurality of carriers; wherein the ODN device communicates with the network management OSS through the I5 interface, and the communication mode between the ODN device and the OSS adopts wired power line communication (PLC, Power Line Communication) mode, or wireless The 3G/4G standard communication method; the ODN device and the optical fiber connector in the carrier are physically connected through the I1 interface. As shown in FIG. 1 and FIG. 2, the carrier management method in the embodiment of the present invention includes:

Step 101: The ODN device receives a first operation instruction that carries an identifier of the carrier; the carrier includes an optical fiber connector and an electronic tag disposed on the optical fiber connector;

Step 102: Send, according to the first operation instruction, a second operation instruction carrying an identifier of the carrier to an electronic tag on the optical fiber connector to control the carrier output indication information; the indication information is used to indicate The location information of the carrier.

Here, in actual implementation, the first operation instruction may be sent by the network management OSS, or may be sent after the management terminal receives the OSS work order instruction.

The ODN device in the carrier management system includes a chassis provided with a plurality of fiber ports, and is connected to the fiber connector through a fiber port in the chassis.

In an actual application, the identifier of the carrier is a target identifier (TID, Target Identification) of the electronic tag disposed on the fiber connector of the carrier, and is used for uniquely identifying the carrier; wherein the electronic tag It is a radio frequency identification (RFID) tag.

In actual implementation, the carrier further includes a light emitting diode (LED), which may be integrated on the RFID tag, or may be connected as an independent part to the RFID tag; and the RFID tag may be pasted, The plug-in or the like is fixed on the optical fiber connector. FIG. 3 is a schematic structural diagram of the carrier in the embodiment of the present invention.

The ODN device further includes: an electronic tag reader/writer (RFID reader/writer) disposed around the frame and at least one read/write antenna; wherein the read/write antenna is set to be distributed around the frame, and the setting principle is mainly : Does not touch the fiber port area in the middle of the ODF, does not affect the function of the original OFD frame, including the opening or closing of the door.

Correspondingly, after receiving the first operation instruction, the ODN device extracts the identifier of the carrier carried in the first operation instruction, generates a second operation instruction carrying the identifier, and communicates with the electronic tag in the carrier by using an RFID communication manner, and controls the electronic device. The tag reader/writer transmits the second operation instruction to all carriers in the system through the read/write antenna, and the electromagnetic wave activated electronic tag sent by the ODN device receives the second operation instruction, and compares the label of the carrier carried in the second operation instruction. (TID) is the same as the carrier tag (TID) stored by itself, if it is determined that the command is sent to itself, and then the LED of the control carrier outputs light information, that is, controls the LED to emit light to display the location of the carrier, specifically Controlling the corresponding driving power of the LED to supply power to the LED, so that the LED emits light, thereby enabling the user to quickly determine the position of the carrier through the LED that emits light, that is, quickly determine the position of the corresponding fiber connector and the fiber, and specify the inspection and search for the fiber. Optical fiber provides great convenience, and in actual implementation, regardless of whether the fiber is inserted into the port of the ODN device, You can quickly find the specified optical output by controlling vector instructions, but without changing the existing user habits, easy to transform the existing ODN, which greatly improves the user experience.

Here, the communication between the ODN device and the electronic tag in the carrier adopts an RFID communication technology. Since there are multiple carriers in the system in actual implementation, the communication between the ODN device and the carrier is RFID-based contactless. Point-to-multipoint (P2MP, Point to Multiple Point) communication.

According to the above embodiment of the present invention, the first operation instruction is used to control the carrier to realize the indication of the position information of the carrier. Since the carrier includes the fiber connector, the user can quickly find the specific fiber connecting the fiber connector, and even if the fiber is not Plugging in the port also allows it to be quickly found, improving the user experience, making it simple and cost-effective.

4 is a schematic flowchart of a carrier management method according to an embodiment of the present invention; as shown in FIG. 2 and FIG. 4, the carrier management method in the embodiment of the present invention includes:

Step 201: The ODN device receives a first operation instruction that is sent by the OSS and carries an identifier of the carrier.

Here, the first operation instruction is used to instruct the ODN device to locate the carrier.

In the embodiment of the present invention, the ODN device includes a chassis provided with a plurality of fiber ports, and is connected to the fiber connector through a fiber port in the frame; the carrier includes a fiber connector and an electronic device disposed on the fiber connector A tag (ie, an RFID tag); wherein the identifier of the carrier is the TID of the electronic tag disposed on the fiber optic connector of the carrier for uniquely identifying the carrier.

In an embodiment, before the step, the method further includes:

Sending an information acquisition instruction to an electronic tag in the carrier;

Receiving an identifier of the carrier reported by the electronic tag.

Here, in actual implementation, the communication between the ODN device and the carrier is substantially the communication between the ODN device and the electronic tag included in the carrier, and the communication method may adopt the RFID technology; correspondingly, in practical applications, the ODN device further includes: An electronic tag reader/writer and at least one read/write antenna around the chassis;

The ODN device controls the electronic tag reader/writer to send an information acquisition instruction to the electronic tag in the carrier through the at least one read/write antenna, and the electronic tag activated by the electromagnetic wave sent by the ODN device receives the information acquisition instruction, and reports the identifier of the carrier. (ie its own TID) to the ODN device.

Step 202: The ODN device sends a second operation instruction carrying the identifier of the bearer to the bearer based on the first operation instruction.

Here, after receiving the first operation instruction, the ODN device extracts the identifier of the carrier carried in the first operation instruction, generates a second operation instruction carrying the identifier, and controls the electronic tag reader/writer to transmit the carrier by using the read/write antenna. The second operation instruction of the identifier is given to the carrier; specifically, in an actual application, a plurality of read/write antennas are disposed in the ODN device, and distributed around the chassis, so that the signal coverage covers the entire ODN, as a In an implementation manner, one read/write antenna can be turned on each time, and the other read/write antenna is turned on after being turned off until the corresponding electronic tag (ie, the electronic tag corresponding to the carrier identifier carried in the second operation instruction) is found.

It should be noted that the setting principle of the read/write antenna is mainly: the fiber port area in the middle of the ODF is not touched, and the function of the original OFD frame is not affected, including the opening or closing of the door.

Step 203: The carrier outputs indication information indicating the position information of the self based on the second operation instruction.

Here, in practical applications, the carrier further includes an LED, which may be integrated on the electronic tag included in the carrier, or may be connected to the electronic tag as a separate part.

In an actual implementation, after receiving the second operation instruction, the electromagnetic wave activated electronic tag sent by the ODN device compares whether the carrier tag (TID) carried in the second operation instruction is the same as the carrier tag stored by itself, and if the same is determined, The command is sent to itself, and then the control carrier includes LED output light information, that is, controls the LED to emit light to display the position of the carrier, specifically controlling the LED corresponding driving power supply to supply power to the LED, so that the LED emits light.

Step 204: The image acquisition device included in the ODN device control itself performs image acquisition on the carrier to obtain first image information, and locates the carrier based on the first image information.

Here, in actual implementation, the ODN device further includes at least one image collecting device disposed around the frame for assisting positioning of the carrier; wherein the image capturing device may be a camera; the number of image capturing devices may be set. Set according to the actual needs, such as: set a camera in each of the four corners inside the chassis, and set the purpose of multiple, hope to cover all the fiber ports on the entire ODF shelf; as shown in Figure 5 for the ODN device A schematic structural diagram showing an arrangement of an image acquisition device, an electronic tag reader, and a read/write antenna; four cameras are respectively disposed at four corners around the fiber port, and the electronic tag reader is located at the machine One side of the inside of the box.

According to an embodiment of the present invention, in an actual application, before the LED of the carrier is activated, that is, before the LED of the carrier emits light, the method further includes:

Controlling the at least one image acquisition device to perform global image acquisition on the chassis to obtain second image information; that is, collecting an image when the LED is not lit once.

Correspondingly, the carrier is located based on the first image information, including:

Comparing the first image information with the second image information;

Mapping a location indicated by the LED in the first image information to the second image information to determine a fiber port location within the chassis in which the LED is located, and determining a fiber port location within the chassis in which the LED is located The location of the carrier. In this way, the image is accurately positioned by image recognition.

In practical applications, the carrier is often connected to another carrier through an optical fiber. Correspondingly, after the ODN device locates the carrier, the method further includes:

The ODN device of the other side carrier obtains the identifier of the carrier and the fiber port position corresponding to the identifier of the other carrier;

And controlling, according to the identifier of the another carrier, the indication information indicating the location information of the other carrier to connect the another carrier to the corresponding ODN based on the indication information and the fiber port location corresponding to the carrier device.

Here, the ODN device acquires the identifier (TID1) of the carrier corresponding to the identifier (TID2) of another carrier and its location; specifically, it may acquire the electronic tag of the other side of the optical fiber corresponding to the TID2 of the electronic tag stored by itself. TID1 and its fiber port location, or obtain the TID1 corresponding to TID2 and its fiber port location from the OSS.

Controlling, by the another carrier, indication information indicating location information of the other carrier; specifically, including:

The ODN device on the other carrier side controls its own electronic tag reader to send the TID2 command through the read/write antenna, so that the electronic tag corresponding to TID2 controls its own LED illumination, indicating the position of the carrier corresponding to TID2, so that the staff can The carrier corresponding to the TID2 is quickly found, and then the carrier corresponding to the TID2 is plugged to the corresponding fiber port position of the ODN device on the other carrier side based on the fiber port position of the carrier corresponding to the TID1.

Step 205: The ODN device establishes a mapping relationship between the identifier of the bearer and the location of the bearer, and sends the mapping relationship to the OSS to implement management of the bearer and its location relationship.

Here, a mapping relationship between the identifier of the carrier and the location of the carrier is established, that is, the TID of the electronic tag and its location (the location of the fiber port) are bound.

Based on the foregoing embodiments of the present invention, in an actual application, after receiving the mapping information of the TID and the location relationship of the electronic tag reported by the ODN device, the OSS, in order to facilitate the subsequent fiber management and optical fiber search of the worker, The label is named, that is, the electronic label is given another identifier - User ID (UID), such as: the electronic label is located in a certain room, a certain facility, a certain port; that is, where the electronic label is used before.

The OSS sends an identifier editing instruction carrying the UID associated with the identifier (TID) of the bearer to the ODN device, and the ODN device writes the associated UID to the electronic tag corresponding to the identifier of the bearer based on the identifier editing instruction; Specifically, the ODN device controls the electronic tag reader to transmit the radio frequency signal through the read/write antenna, and writes the UID into the electronic tag corresponding to the TID to complete the UID naming.

In practical applications, the worker first inserts multiple carriers into the fiber port of the ODN device, that is, inserts multiple fiber connectors connected to the fiber into the fiber port of the ODN device, because each fiber connector is provided with an electron. Labels, each electronic label has its own TID. Therefore, the TID of the electronic label can identify the carrier on which it is located. When the optical fiber is plugged in, the ODN device controls each electronic label to perform TID reporting, and then the reported TID information is re-informed. It is sent to the OSS to manage the carrier, and then the electronic tag (carrier) is located based on each TID (to know the location of the fiber port where it is located). After the positioning of the carrier is completed, the ODN device reports the correspondence between the TID of the electronic tag and its location to the OSS, so that the staff can name the UID of the carrier, and then the OSS will carry the TID of the electronic tag and the corresponding UID editing command. The ODN device, the ODN device, in turn writes the UID to the electronic tag corresponding to the TID.

In actual implementation, one end of a fiber jumper has a fiber connector, and the carrier is connected to another carrier through the fiber. After the fiber connector on the fiber side is inserted, the other end of the fiber is also connected. The optical fiber connector is inserted into the corresponding optical fiber port of another ODN device; first, the ODN device acquires the identifier of another carrier corresponding to the identifier (TID) of the carrier, and then sends an instruction carrying the TID2 to control the electronic tag output indication corresponding to the TID2. The information, that is, the electronic tag corresponding to TID2 controls the LED corresponding to its own illumination, so that the staff quickly finds the carrier (fiber connector) corresponding to TID2, and the carrier position (fiber port position) corresponding to TID1 is known, and then works. The person can insert the carrier corresponding to the TID2 into the corresponding fiber port position of the other ODN device according to the port position, so that all the carriers on the other side of the fiber are plugged in the other ODN device. Further, the ODN device on the other side can perform the determination (positioning) of the fiber port position on the other side carrier, and perform binding and reporting of the carrier identifier, the carrier position correspondence relationship, and performing the carrier on the other side. The naming of the UID, etc., is performed in the same way as the process on the opposite side, and will not be described again.

In the subsequent device work process, if there is a problem with a certain fiber (regardless of whether the fiber is inserted into the corresponding fiber port), simply illuminate its corresponding electronic tag (ie, control the LED on the electronic tag), When the existing shape and working mode of the ODN device are maintained, the worker can quickly find the faulty fiber and perform maintenance.

It should be noted that, in some embodiments, the bearer management system may further include a management terminal. After completing the connection between the bearer and the ODN device, the management terminal may send an operation instruction for carrying the TID/UID of the electronic tag to the carrier, to The carrier is controlled to control its own LED illumination based on the operation instruction, thereby enabling the worker to conveniently and quickly perform fiber search and maintenance, thereby reducing the manual misoperation rate and improving the work efficiency.

6 is a schematic flowchart of a carrier management method in an optical distribution network according to an embodiment of the present invention, and FIG. 7 is a schematic structural diagram of a carrier management system according to an embodiment of the present invention, where the bearer management system includes two or more An ODN device, an OSS, a management terminal, and a plurality of carriers; wherein, the ODN device communicates with the network management OSS through the I5 interface, and the communication mode between the ODN device and the OSS adopts a wired PLC mode or a wireless 3G/4G standard. Communication mode; the optical fiber connector in the ODN device and the carrier is physically connected through the I1 interface, and the communication interface I7 between the management terminal and the carrier is a communication interface conforming to the ISO/IEC 18000-6 international standard or GB/T29768-2013 national standard, management The communication interface between the terminal and the OSS is an I6 interface, which can be wired or wireless, such as data communication through 3G or 4G. As shown in FIG. 6 and FIG. 7, the carrier management method in the embodiment of the present invention includes:

Step 301: The management terminal receives a third operation instruction that is sent by the OSS and carries the identifier of the carrier.

Here, the OSS can directly issue a work order instruction to the management terminal through an I6 interface with the management terminal, and the third operation instruction is used to instruct the ODN device to locate the carrier.

In the embodiment of the present invention, the ODN device includes a chassis provided with a plurality of fiber ports, and is connected to the fiber connector through a fiber port in the frame; the carrier includes a fiber connector and an electronic device disposed on the fiber connector A tag (ie, an RFID tag); wherein the identifier of the carrier is the TID of the electronic tag disposed on the fiber optic connector of the carrier for uniquely identifying the carrier.

Step 302: The management terminal sends a fourth operation instruction carrying the identifier of the bearer to the carrier according to the third operation instruction.

In actual implementation, the communication between the management terminal and the carrier uses RFID communication technology. Since there are multiple carriers in the system, the communication between the management terminal and the carrier is a non-contact point-to-multipoint based on RFID ( P2MP, Point to Multiple Point) communication method. Correspondingly, the management terminal is provided with an electronic tag reader/writer and a read/write antenna. In actual implementation, after receiving the third operation instruction, the management terminal extracts the identifier (TID) of the carrier carried in the third operation instruction, and generates the carrier. The fourth operation instruction of the identifier controls the electronic tag reader/writer of the electronic device to send the fourth operation instruction carrying the identifier of the carrier to the carrier through the read/write antenna; here, the communication between the management terminal and the carrier is substantially the management terminal Communication with the electronic tag included in the carrier.

Step 303: The carrier activates its own LED based on the fourth operation instruction.

Here, in practical applications, the carrier further includes an LED, which may be integrated on the electronic tag included in the carrier, or may be connected to the electronic tag as a separate part.

In an actual implementation, after receiving the fourth operation instruction, the electromagnetic wave activated electronic tag sent by the management terminal compares whether the carrier tag (TID) carried in the fourth operation instruction is the same as the carrier tag stored by itself, and if the same is determined, The command is sent to itself, and then activates the LED included in the carrier, that is, outputs the light information, that is, controls the LED to emit light to display the position of the carrier, specifically, the driving power corresponding to the control LED supplies power to the LED, so that the LED emits light.

Step 304: The management terminal controls the camera included in the control to perform image acquisition on the carrier, obtains first image information, and locates the carrier based on the first image information.

Here, in actual implementation, the management terminal further includes a camera for performing image acquisition on the carrier inside the frame of the ODN device before and after activation of the LED of the carrier, that is, before the LED of the carrier is activated, that is, Before the LED of the carrier emits light, the method further includes:

The management terminal controls its own camera to perform global image acquisition on the chassis to obtain second image information; that is, an image when the LED is not lit once.

Correspondingly, the carrier is located based on the first image information, including:

The management terminal compares the first image information with the second image information;

Mapping a location indicated by the LED in the first image information to the second image information to determine a fiber port location within the chassis in which the LED is located, and determining a fiber port location within the chassis in which the LED is located The location of the carrier. In this way, the image is accurately positioned by image recognition.

According to the above embodiment of the present invention, the carrier-based electronic tag controls the carrier output indication information (indicating the carrier location information), and the technical feature of port location positioning of the carrier based on the indication information can accurately and quickly determine the optical fiber. The connection, as well as the accurate identification of the identification of the electronic tag and the corresponding port location information, enable the user to manage the fiber resources more conveniently and quickly without changing the user's habits, thereby greatly improving the user experience.

The present embodiment provides an ODN device. As shown in FIG. 8 , the ODN device includes a chassis 11 configured with a plurality of fiber ports, and is connected to the fiber connector through a fiber port in the chassis; The ODN device further includes: a first communication component 12 and a controller 13;

The first communication component 12 is configured to receive a first operation instruction that carries an identifier of the carrier; the carrier includes a fiber optic connector and an electronic tag disposed on the fiber optic connector;

The controller 13 is configured to send, according to the first operation instruction, a second operation instruction carrying an identifier of the carrier to an electronic tag on the fiber connector to control the carrier output indication information; The indication information is used to indicate location information of the carrier.

In an embodiment, the ODN device further includes an electronic tag reader/writer 14 and at least one read/write antenna 15 disposed around the chassis, the carrier further comprising a light emitting diode LED;

The controller 13 is further configured to control the electronic tag reader/writer to send a second operation instruction carrying the identifier of the carrier through the at least one read/write antenna to enable an electronic tag on the optical fiber connector The LED is activated upon receipt of the second operational command to display the location of the carrier.

In an embodiment, the ODN device further includes at least one camera 16 disposed around the chassis;

The controller 13 is further configured to control the at least one camera to perform image acquisition on the carrier to obtain first image information;

The carrier is positioned based on the first image information to determine the location of the carrier.

In an embodiment, the controller 13 is further configured to control the at least one camera to perform global image acquisition on the chassis to obtain second image information.

And comparing the first image information and the second image information;

Mapping a location indicated by the LED in the first image information to the second image information to determine a fiber port location within a chassis in which the LED is located, and a fiber port in a chassis in which the LED is located The position is the position of the carrier.

In an embodiment, the controller 13 is further configured to establish a mapping relationship between the identifier of the carrier and the location of the carrier;

The mapping relationship is sent to the OSS or the management terminal to implement management of the carrier and its location relationship.

In an embodiment, the first communication component 12 is further configured to receive an identifier editing instruction sent by the OSS or the management terminal; the identifier editing instruction carries a user identifier associated with the identifier of the carrier;

The controller 13 is further configured to write the user identifier into an electronic tag corresponding to the identifier of the carrier based on the identifier editing instruction.

In an embodiment, the controller 13 is further configured to send an information acquisition instruction to the electronic tag in the carrier;

And receiving an identifier of the carrier reported by the electronic tag.

In an embodiment, the ODN device may further include a touch display unit configured to display an operating state thereof and receive an instruction triggered by the user.

In an embodiment, the ODN device may be an active ODN device, that is, the ODN device may further include a power source configured to supply power to components included in the ODN device. In practical applications, the ODN device can be in a powered sleep state and can be woken up when it needs to work.

The present embodiment provides a bearer management system. As shown in FIG. 9, the bearer management system in this embodiment includes: at least one ODN device 21, an OSS 22, and a plurality of carriers 23; wherein each of the ODN devices 21 includes a chassis having a plurality of fiber ports, and connected to the fiber connectors through the fiber ports in the chassis; each of the carriers includes a fiber connector and an electronic tag disposed on the fiber connector;

Each of the ODN devices 21 is configured to receive a first operation instruction that is sent by the OSS and carries an identifier of the carrier 23;

And configured to send a second operation instruction carrying the identifier of the carrier to the carrier 23 based on the first operation instruction;

The carrier 23 is configured to control electronic tag output indication information included in the carrier; the indication information is used to indicate location information of the carrier 23.

In an embodiment, the ODN device 21 further includes an electronic tag reader/writer disposed around the chassis and at least one read/write antenna, the carrier further comprising a light emitting diode LED;

The ODN device 21 is further configured to control the electronic tag reader/writer to send a second operation instruction carrying the identifier of the carrier to the electronic tag through the at least one read/write antenna;

The electronic tag is further configured to activate the LED after receiving the second operation instruction to display a location of the carrier.

In an embodiment, the ODN device 21 further includes at least one camera disposed around the chassis;

The ODN device 21 is further configured to control the at least one camera to perform image collection on the carrier to obtain first image information;

The carrier is positioned based on the first image information to determine the location of the carrier 23.

In an embodiment, the ODN device 21 is further configured to control the at least one camera to perform global image collection on the chassis to obtain second image information.

And configured to compare the first image information and the second image information;

And configured to map a location indicated by the LED in the first image information into the second image information to determine a fiber port location within the chassis in which the LED is located, and to place the LED in the chassis The fiber port location within the location is the location of the carrier.

In an embodiment, the system further includes a management terminal 24;

The ODN device 21 is further configured to receive, by the management terminal 24, a first operation instruction that is sent by the OSS and carries an identifier of the carrier;

And configured to establish a mapping relationship between the identifier of the bearer and the location of the bearer, and send the mapping relationship to the management terminal 24 or the OSS 22.

In an embodiment, the ODN device 21 is further configured to receive an identifier editing instruction sent by the OSS 22 or the management terminal 24; the identifier editing instruction carries a user identifier associated with the identifier of the bearer;

And configured to write the user identifier into an electronic tag corresponding to the identifier of the carrier based on the identifier editing instruction.

In an embodiment, the ODN device 21 is further configured to send an information acquisition instruction to an electronic tag in the carrier;

And configured to receive an identifier of the carrier reported by the electronic tag.

The embodiment provides a management terminal, as shown in FIG. 10, applied to a carrier management system including at least one ODN device, an OSS, and a plurality of carriers; wherein the ODN device includes a machine provided with multiple fiber ports. And the optical fiber port in the chassis is connected to the optical fiber connector; the management terminal in this embodiment includes:

The second communication component 31 is configured to receive a third operation instruction that is sent by the OSS to carry the identifier of the carrier, where the carrier includes an optical fiber connector and an electronic tag disposed on the optical fiber connector;

The processor 32 is configured to send, according to the third operation instruction, a fourth operation instruction carrying the identifier of the carrier to an electronic tag on the fiber connector to control the carrier output indication information; the indication information Used to indicate location information of the carrier.

In an embodiment, the management terminal further includes an electronic tag reader/writer and a read/write antenna;

The processor 32 is further configured to: the electronic tag reader/writer included in the control management terminal sends a fourth operation instruction carrying the identifier of the carrier to the electronic tag on the optical fiber connector by using a read/write antenna included in the management terminal And causing the electronic tag to activate the LED included in the carrier based on the fourth operation instruction, that is, controlling the LED to emit light.

In an embodiment, the management terminal further includes a camera;

The processor 32 is further configured to control the camera to perform image acquisition on the carrier to obtain third image information;

The carrier is positioned based on the third image information to determine the location of the carrier.

Here, the processor 32 is further configured to control a camera included in the management terminal to perform global image collection on the chassis to obtain second image information.

And comparing the first image information and the second image information;

Mapping a location indicated by the LED in the first image information to the second image information to determine a fiber port location within a chassis in which the LED is located, and a fiber port in a chassis in which the LED is located The position is the position of the carrier.

The embodiment of the present invention further provides a storage medium, where the storage medium includes a stored program, wherein the program management method provided by the embodiment of the present invention is executed when the program is running.

It can be understood by those skilled in the art that all or part of the steps of implementing the above method embodiments may be completed by hardware related to program instructions, and the foregoing program may be stored in a computer readable storage medium, and the program is executed when executed. The foregoing storage medium includes: a mobile storage device, a random access memory (RAM), a read-only memory (ROM), a magnetic disk, or an optical disk. A medium that can store program code.

The above is only a specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of changes or substitutions within the technical scope of the present invention. It should be covered by the scope of the present invention.

Claims (28)

A carrier management method is applied to an ODN device, where the ODN device includes a chassis provided with a plurality of fiber ports, and is connected to the fiber connector through a fiber port in the chassis; the method includes: Receiving a first operation instruction carrying an identifier of the carrier; the carrier includes a fiber optic connector and an electronic tag disposed on the fiber optic connector; Transmitting, according to the first operation instruction, a second operation instruction carrying the identifier of the carrier to an electronic tag on the fiber optic connector to control the carrier output indication information; the indication information is used to indicate the carrier Location information. The method of claim 1, wherein the ODN device further comprises: an electronic tag reader/writer disposed around the chassis and at least one read/write antenna, the carrier further comprising a light emitting diode LED; Transmitting the second operation instruction carrying the identifier of the carrier to the electronic tag on the optical fiber connector to control the carrier output indication information, including: Controlling, by the at least one read/write antenna, a second operation instruction carrying an identifier of the carrier, so that the electronic tag on the optical fiber connector receives the second operation instruction The LED is activated to show the location of the carrier. The method of claim 2, wherein the ODN device further comprises at least one image acquisition device disposed around the chassis; the method further comprising: Controlling, by the at least one image collection device, image acquisition of the carrier to obtain first image information; The carrier is positioned based on the first image information to determine the location of the carrier. The method of claim 3, wherein before the LED is activated, the method further comprises: Controlling the at least one image collection device to perform global image acquisition on the chassis to obtain second image information; Correspondingly, the positioning the carrier based on the first image information to determine a location of the carrier comprises: Comparing the first image information and the second image information; Mapping a location indicated by the LED in the first image information to the second image information to determine a fiber port location within a chassis in which the LED is located, and a fiber port in a chassis in which the LED is located The position is the position of the carrier. The method of claim 4 wherein the method further comprises: Establishing a mapping relationship between the identifier of the carrier and the location of the carrier; The mapping relationship is sent to the operation support system OSS or the management terminal to implement management of the carrier and its location relationship. The method according to claim 5, wherein after the sending the mapping relationship to the OSS or the management terminal, the method further includes: Receiving an identifier editing instruction sent by the OSS or the management terminal; the identifier editing instruction carries a user identifier UID associated with the identifier of the carrier; And writing the UID to an electronic tag corresponding to the identifier of the carrier based on the identifier editing instruction. The method according to any one of claims 1 to 6, wherein before the receiving the first operation instruction carrying the identifier of the carrier, the method further comprises: Sending an information acquisition instruction to an electronic tag in the carrier; Receiving an identifier of the carrier reported by the electronic tag. An optical distribution network ODN device, the ODN device includes a chassis provided with a plurality of fiber ports, and is connected to the fiber connector through a fiber port in the chassis; the ODN device further includes: a first communication component And controller; The first communication component is configured to receive a first operation instruction that carries an identifier of the carrier; the carrier includes a fiber optic connector and an electronic tag disposed on the fiber optic connector; The controller is configured to send, according to the first operation instruction, a second operation instruction carrying an identifier of the carrier to an electronic tag on the optical fiber connector to control the carrier output indication information; The information is used to indicate location information of the carrier. The ODN device of claim 8, wherein the ODN device further comprises an electronic tag reader/writer disposed around the chassis and at least one read/write antenna, the carrier further comprising a light emitting diode LED; The controller is further configured to control the electronic tag reader/writer to send a second operation instruction carrying the identifier of the carrier through the at least one read/write antenna, so as to receive an electronic tag on the optical fiber connector The LED is activated after the second operational command to display the location of the carrier. The ODN device of claim 9, wherein the ODN device further comprises at least one camera disposed around the chassis; The controller is further configured to control the at least one camera to perform image acquisition on the carrier to obtain first image information; The carrier is positioned based on the first image information to determine the location of the carrier. The ODN device according to claim 10, wherein The controller is further configured to control the at least one camera to perform global image acquisition on the chassis to obtain second image information; And comparing the first image information and the second image information; Mapping a location indicated by the LED in the first image information to the second image information to determine a fiber port location within a chassis in which the LED is located, and a fiber port in a chassis in which the LED is located The position is the position of the carrier. The ODN device according to claim 11, wherein The controller is further configured to establish a mapping relationship between an identifier of the carrier and a location of the carrier; The mapping relationship is sent to the operation support system OSS or the management terminal to implement management of the carrier and its location relationship. The ODN device according to claim 11, wherein The first communication component is further configured to receive an identifier editing instruction sent by the OSS or the management terminal; the identifier editing instruction carries a user identifier associated with the identifier of the carrier; The controller is further configured to write the user identifier into an electronic tag corresponding to the identifier of the carrier based on the identifier editing instruction. The ODN device according to any one of claims 8 to 13, wherein The controller is further configured to send an information acquisition instruction to the electronic tag in the carrier; And receiving an identifier of the carrier reported by the electronic tag. A carrier management system, comprising: at least one optical distribution network ODN device, an operation support system OSS, and a plurality of carriers; wherein each of the ODN devices includes a chassis provided with a plurality of fiber ports, and passes through The fiber ports in the frame are connected to the fiber connectors; each of the carriers includes a fiber connector and an electronic tag disposed on the fiber connector; Each of the ODN devices is configured to receive a first operation instruction that is sent by the OSS and carries an identifier of the carrier; And configured to send a second operation instruction carrying the identifier of the carrier to the carrier based on the first operation instruction; The carrier is configured to control electronic tag output indication information included by the carrier; the indication information is used to indicate location information of the carrier. The system of claim 15, wherein the ODN device further comprises an electronic tag reader/writer disposed around the chassis and at least one read/write antenna, the carrier further comprising a light emitting diode LED; The ODN device is further configured to control the electronic tag reader/writer to send the second operation instruction carrying the identifier of the carrier to the electronic tag through the at least one read/write antenna; The electronic tag is further configured to activate the LED after receiving the second operation instruction to display a location of the carrier. The system of claim 16 wherein said ODN device further comprises at least one camera disposed about said frame; The ODN device is further configured to control the at least one camera to perform image collection on the carrier to obtain first image information; The carrier is positioned based on the first image information to determine the location of the carrier. The system of claim 17 wherein The ODN device is further configured to control the at least one camera to perform global image collection on the chassis to obtain second image information; And configured to compare the first image information and the second image information; And configured to map a location indicated by the LED in the first image information into the second image information to determine a fiber port location within the chassis in which the LED is located, and to place the LED in the chassis The fiber port location within the location is the location of the carrier. The system of claim 18, wherein the system further comprises a management terminal; The ODN device is further configured to receive, by using the management terminal, a first operation instruction that is sent by the OSS and carries an identifier of the carrier; And configured to establish a mapping relationship between the identifier of the bearer and a location of the bearer, and send the mapping relationship to the management terminal or the OSS. The system of claim 19, wherein The ODN device is further configured to receive an identifier editing instruction sent by the OSS or the management terminal; the identifier editing instruction carries a user identifier associated with the identifier of the bearer; And configured to write the user identifier into an electronic tag corresponding to the identifier of the carrier based on the identifier editing instruction. A system according to any one of claims 15 to 20, wherein The ODN device is further configured to send an information acquisition instruction to an electronic tag in the carrier; And configured to receive an identifier of the carrier reported by the electronic tag. A carrier management method is applied to a carrier management system including at least one optical distribution network ODN device, an operation support system OSS, and a plurality of carriers; wherein the ODN device includes a chassis provided with a plurality of fiber ports, and passes The fiber port in the chassis is connected to the fiber connector; the method includes: Receiving, by the management terminal, a third operation instruction that is sent by the OSS to carry the identifier of the carrier; wherein the carrier includes an optical fiber connector and an electronic tag disposed on the optical fiber connector; Transmitting, according to the third operation instruction, a fourth operation instruction carrying the identifier of the carrier to an electronic tag on the optical fiber connector to control the carrier output indication information; the indication information is used to indicate the carrier Location information. The method of claim 22, wherein the transmitting the fourth operational command carrying the identification of the carrier to the electronic tag on the fiber optic connector comprises: The electronic tag reader/writer included in the control management terminal transmits a fourth operation instruction carrying the identifier of the carrier to the electronic tag on the optical fiber connector through the included read/write antenna. The method of claim 23, wherein the method further comprises: Controlling, by the camera included in the management terminal, performing image acquisition on the carrier to obtain third image information; The carrier is positioned based on the third image information to determine the location of the carrier. A management terminal is applied to a carrier management system including at least one optical distribution network ODN device, an operation support system OSS, and a plurality of carriers; wherein the ODN device includes a chassis provided with a plurality of fiber ports, and passes through the chassis The fiber port in the chassis is connected to the fiber connector; the management terminal includes: a second communication component, configured to receive a third operation instruction of the carrier that is sent by the OSS, where the carrier includes an optical fiber connector and an electronic tag disposed on the optical fiber connector; The processor is configured to send, according to the third operation instruction, a fourth operation instruction carrying the identifier of the carrier to an electronic tag on the fiber connector to control the carrier output indication information; Instructing the location information of the carrier. The management terminal according to claim 25, wherein the management terminal further comprises an electronic tag reader/writer and a read/write antenna; The processor is further configured to control the electronic tag reader/writer included in the management terminal to send a fourth operation instruction carrying the identifier of the carrier to the electronic tag on the optical fiber connector by using a read/write antenna included in the management terminal. The management terminal according to claim 25, wherein the management terminal further comprises a camera; The processor is further configured to control the camera to perform image acquisition on the carrier to obtain third image information; The carrier is positioned based on the third image information to determine the location of the carrier. A storage medium, the storage medium comprising a stored program, wherein the program runtime executes the carrier management method according to any one of claims 1 to 7.

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