CN114884815A - Broadband network terminal equipment with wireless upgrading awakening function and upgrading system thereof - Google Patents

Abstract

The invention relates to the technical field of passive optical fiber networks, in particular to broadband network terminal equipment and an upgrading system thereof. The broadband network terminal equipment of the wireless upgrading system has a wireless upgrading awakening function, a power supply module with a wireless charging receiving module is additionally arranged when the broadband network terminal equipment is produced, the communication connection relation between the power supply module and a broadband network terminal equipment control module is configured, the equipment control module is awakened in a wireless charging mode, so that the equipment control module actively uploads original system version information to an upgrading server, the upgrading server receives the original system version information uploaded by the broadband network terminal equipment and downloads corresponding latest version information to the broadband network terminal equipment, the control module of the broadband network terminal equipment replaces the original system version information with the received latest version information so as to realize system version upgrading, and the whole upgrading process does not need to be unpacked, so that the wireless upgrading system is convenient and efficient.

Description

Broadband network terminal equipment with wireless upgrading awakening function and upgrading system thereof

Technical Field

The invention relates to the technical field of broadband networks, in particular to broadband network terminal equipment and an upgrading system thereof.

Background

The current broadband network environment is mainly a Passive Optical Network (PON), which is a network transmission system that transmits data from a single transmission point to a plurality of user endpoints using a point-to-multipoint topology and an optical splitter, where the optical fiber and the splitter are true "passive" components of the PON and network transmission of information can be achieved without external power supply. In addition to passive components, creating a PON network completely requires active termination equipment such as Optical Line Terminals (OLTs) and Optical Network Units (ONUs). An Optical Line Terminal (OLT) is the starting point of a passive optical network, which is connected to a core switch via an ethernet pluggable device, the main function of the OLT being to convert, frame and transmit signals of the PON network. An Optical Network Unit (ONU) is an end-user device.

Taking an ONU (Optical Network Unit, that is, an Optical Network Unit) as an example, ONU equipment is important equipment for implementing a passive Optical Network, and at present, the Network technology is fast to upgrade, and the ONU packages and leaves a factory after burning a system version during production, but when selling, if the system version of the ONU is updated, a user needs to update the system version by himself after purchasing the ONU; if the vendor updates the system version, the vendor needs to unseal the packaged ONU device, then switch on the power supply and the network server to update the system version, and then repackage and sell the ONU device with the updated system version, which is very inconvenient.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a broadband network terminal device convenient for upgrading operation and an upgrading system thereof.

The broadband network terminal equipment with the wireless upgrading awakening function comprises a control module, and a power module and a wireless upgrading interface which are respectively connected with the control module, wherein: the power supply module is provided with a wireless charging receiving module, receives charging through the wireless charging receiving module, and supplies power to the control module; the control module uploads the self-upgrading information to the upgrading server through the wireless upgrading interface and downloads the system upgrading information from the upgrading server, and the control module loads the system upgrading information so as to realize the version upgrading of the broadband network terminal equipment.

The charging device also comprises a wired charging interface connected to the power supply module, and the wired charging interface is used for being connected with an external power supply in a wired mode.

The broadband network terminal equipment comprises one or more of passive optical network terminal equipment, a switch, a router, a wireless access node AP and a wireless access controller AC.

The upgrading information uploaded to the upgrading server by the control module is specifically the original version information of the system of the control module; the system updating information downloaded by the control module from the upgrading server is specifically the difference information of the system new version relative to the system original version.

The system updating information downloaded by the control module from the upgrading server is specifically system new version information; and the step of loading the system updating information by the control module is specifically that the control module replaces the original system version by the new system version.

The system comprises a control module, an upgrading server and a power supply module, wherein the control module is connected with the power supply module, acquires power supply electric quantity through the power supply module, and uploads self upgrading information to the upgrading server when the power supply electric quantity reaches a preset degree.

The power supply module is provided with a charging monitoring module, acquires the current electric quantity through the charging monitoring module, and supplies power to the control module when the current electric quantity reaches a preset degree.

The wireless charging receiving module comprises one or more of an electromagnetic induction module, a magnetic field resonance module and a radio wave module.

The wireless upgrading system of the broadband network terminal equipment comprises the broadband network terminal equipment with the wireless upgrading awakening function and an upgrading server matched with the broadband network terminal equipment; the upgrading server comprises a version processing interface, receives upgrading information uploaded by the broadband network terminal equipment through the version processing interface, and also downloads the system updating information of the latest version of the broadband network terminal equipment to a wireless upgrading interface of the broadband network terminal equipment through the version processing interface; the wireless upgrading system also comprises a wireless charging device which sends a wireless charging signal to the wireless charging receiving module of the power supply module.

The wireless network upgrading system further comprises a wireless middleware, wherein the wireless upgrading interface of the broadband network terminal equipment and the version processing interface of the upgrading server are respectively communicated with the wireless middleware, so that the wireless upgrading interface of the broadband network terminal equipment and the version processing interface of the upgrading server are communicated with each other.

Wherein the wireless middleware comprises one or more of Bluetooth, wifi and zigbee.

The action areas of the wireless middleware and the wireless charging device are overlapped, so that charging and upgrading of ONU equipment placed in the overlapping area are realized.

Has the advantages that: when the broadband network terminal equipment is produced, a power supply module with a wireless charging receiving module is additionally arranged in advance, and the communication connection relation between the power supply module and a broadband network terminal equipment control module is configured, so that for the packaged equipment, the control module of the broadband network terminal equipment can be awakened in a wireless charging mode under the non-unpacked state, the control module actively uploads self upgrading information to an upgrading server through a wireless upgrading interface according to a pre-burnt program, the upgrading server downloads corresponding system upgrading information to the broadband network terminal equipment after receiving the self upgrading information uploaded by the broadband network terminal equipment, and the control module of the broadband network terminal equipment loads the system upgrading information downloaded by the upgrading server so as to realize the version upgrading of the broadband network terminal equipment. The broadband network terminal equipment of the wireless upgrading system has a wireless upgrading awakening function, and the package does not need to be removed in the whole upgrading process, so that the wireless upgrading system is convenient and efficient.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below.

Fig. 1 is a schematic structural diagram of the wireless upgrade system of the broadband network terminal device.

Fig. 2 is a flowchart of an implementation manner of the wireless upgrade wake-up function of the present broadband network terminal device ONU.

Fig. 3 is a flowchart of another implementation manner of the wireless upgrade wake-up function of the present broadband network terminal device ONU.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the broadband network terminal device of this embodiment, taking the ONU device in the passive optical network terminal device as an example, as shown in fig. 1, the wireless upgrade system includes a charging cabinet having a plurality of charging grids 1, each charging grid 1 is provided with an infrared detector 2 and a wireless charging device 3 that are in communication with each other, the infrared detector 2 is in a normally open state, and the wireless charging device 3 is in a sleep state. The two devices of the infrared detector 2 and the wireless charging device 3 respectively work according to a pre-programmed program: the infrared detector 2 detects that an object is put into the charging grid 1, and then actively wakes up the wireless charging device 3. When the object placed in the charging grid 1 is an ONU device 4 with a wireless upgrade wake-up function (each ONU device 4 integrates a wireless charging battery adapted to the wireless charging apparatus 3 during production), each wireless charging apparatus 3 automatically communicates with each ONU device 4 in its signal range after being started. The power supply module of the ONU device 4 has a wireless charging reception module, the wireless charging device 3 sends a wireless charging signal to the power supply module of the ONU device 4, and the power supply module receives the wireless charging signal through the wireless charging reception module to receive charging. In addition, the ONU device further comprises a wired charging interface connected to the power supply module, the wired charging interface for wired connection of an external power supply to: the ONU equipment is directly powered on one hand, and the power module is charged on the other hand. The charging cabinet is used for accommodating a plurality of ONU equipment with wireless charging receiving modules so as to synchronously charge the ONU equipment, the ONU wireless upgrading system is also provided with a Zigbee wireless communication device as a wireless middleware, the charging cabinet is integrally arranged in the wireless signal coverage range of the wireless middleware, a wireless upgrading interface of the ONU equipment and a version processing interface of an upgrading server are respectively communicated with the wireless middleware, so that the wireless upgrading interface and the version processing interface of the upgrading server are communicated with each other, and each ONU equipment 4 in the charging cabinet is respectively communicated with the matched upgrading server through the wireless middleware. The wireless middleware is overlapped with the action areas of all the wireless charging devices, so that the ONU equipment placed in the overlapped area realizes continuous charging and continuous communication with the upgrading server.

A control module of the ONU device in this embodiment is connected to a wireless upgrade interface, and the control module uploads upgrade information of itself to an upgrade server through the wireless upgrade interface; the upgrading server comprises a version processing interface, receives upgrading information uploaded by the ONU equipment through the version processing interface, and also downloads the system updating information of the latest version of the ONU equipment to the wireless upgrading interface of the ONU equipment through the version processing interface; and the wireless upgrading interface of the ONU equipment downloads the system updating information from the upgrading server and transmits the system updating information to the control module of the ONU equipment, and the control module loads the system updating information so as to realize the version upgrading of the ONU equipment.

The upgrading information uploaded to the upgrading server by the control module is specifically system original version information of the upgrading server, further, the upgrading server is preset with a system comparison function which identifies whether the system new version is consistent with the system original version uploaded by the ONU equipment, if so, the system updating information is not downloaded to the ONU equipment, and if not, the system updating information is not downloaded so as to reduce repeated upgrading operation. In addition, the system comparison function of the server can be changed into upgrading, even if the new version of the system is identified to be consistent with the original version of the system uploaded by the ONU equipment, the system update information is downloaded to the ONU equipment, and therefore the situation that the ONU equipment is in a power-off state for a long time to cause system loopholes is avoided. The system updating information downloaded by the control module from the upgrading server is specifically the difference information of the system new version relative to the system original version, and the control module loading the system updating information is specifically that the control module covers or adds the difference information to the system original version. In addition, the system updating information downloaded by the control module from the upgrading server can be changed into system new version information, and at the moment, the control module directly replaces the original system version with the system new version to complete the operation of loading the system updating information, so that the problem of updating errors possibly occurring in the different information loading mode is solved.

Each ONU device of the wireless upgrade system realizes system upgrade through the operation flow shown in fig. 2. After the ONU finishes starting, uploading system original version information of itself to an upgrade server within a preset time (e.g. 3 min), the upgrade server receiving the system original version information uploaded by an ONU, executing an upgrade judgment task on the ONU, judging whether the system original version information uploaded by the ONU is consistent with the latest system version, if so, executing a left-side solid line in fig. 3, if so, finishing the upgrade process of the ONU by the ONU (in actual operation, it may be preset according to the difference of broadband network terminal devices, whether to continue upgrading under the condition that the system versions are consistent, and if so, executing a right-side dotted line in fig. 3); if the ONU equipment version is inconsistent with the system version updating information, the upgrading server downloads the latest version of the system updating information for the ONU equipment, and the ONU equipment loads the system updating information to realize the upgrading of the system version of the ONU equipment.

The system upgrading process of the ONU equipment of the wireless upgrading system also comprises an upgrading server confirmation step: if the upgrade server does not receive the upgrade operation completion signal notified by the ONU device within a period of time (e.g., 10 minutes) after the latest version information is downloaded to the ONU device, or the upgrade server receives a signal indicating that the ONU device fails to be upgraded, the upgrade server sends an alarm message to start the manual forced upgrade.

In addition, instead of setting the system comparison function on the ONU device (so that the ONU device upgrade function can also be implemented on the upgrade server of the wireless upgrade system not configured with this embodiment), each ONU device of the ONU wireless upgrade system executes the automatic upgrade procedure as shown in fig. 3. After the ONU equipment is started, executing a wireless communication task (such as Zigbee), inquiring whether the upgrade server has data to send within a certain time (such as preset time 1 min), and after receiving the inquiry of the ONU equipment, downloading the latest system version to a specified path in the inquiry information of the ONU equipment by the upgrade server. And the ONU equipment automatically detects and judges whether the latest system version information downloaded by the upgrade server is consistent with the current system original version information of the ONU equipment, if the latest system version information downloaded by the upgrade server is inconsistent with the current system original version information of the ONU equipment, the ONU equipment starts automatic upgrade, and loads the latest system version downloaded by the upgrade server.

The wireless charging receiving module and the wireless charging device are matched with an electromagnetic induction module, a magnetic field resonance module or a radio wave module.

Wherein, wireless middleware can be changed into other wireless communication devices such as bluetooth or wifi by zigbee.

The wireless upgrade system of broadband network terminal equipment of the embodiment comprises the above ONU with wireless upgrade wake-up function and an upgrade server matched with the ONU, when the ONU equipment is produced, a power supply module with a wireless charging receiving module is additionally arranged, and the communication connection relationship between the power supply module and the ONU equipment control module is configured, the control module of the ONU equipment can be awakened in a wireless charging mode, so that the control module actively uploads original system version information to the upgrading server through the wireless upgrading interface, the upgrading server receives the original system version information uploaded by the ONU equipment and then downloads corresponding latest version information to the ONU equipment, the control module of the ONU equipment replaces original system version information with the received latest version information so as to realize system version upgrading, and the package is not required to be removed in the whole upgrading process, so that the ONU equipment is convenient and efficient.

In the prior art, generally, in the process of performing an upgrade operation on ONU equipment, an upgrade file of system software (including an operating system kernel file of the ONU and a user application program file) is copied to a memory of the ONU through a network or a serial port, then the ONU performs simple integrity check on the upgrade file, such as error-free check, and finally writes new system software into FLASH. The existing G/EPON system generally upgrades ONU equipment through OMCI/OAM upgrading or FTP directly, but the upgrading mode is generally a wired upgrading mode. In this embodiment, the upgrade server transmits the upgrade file to the ONU in a wireless manner, in order to avoid transmission interruption, the control module of the ONU device 4 is further connected with an electric quantity detection module, the control module acquires the electric quantity of the power supply through the electric quantity detection module, the control module receives charging through the wireless charging receiving module to reach the preset electric quantity (such as 30%) if the power supply module is to be charged through the wireless charging receiving module, the control module uploads the upgrade information of itself to the upgrade server through the wireless upgrade interface, so that it is ensured that the upgrade process is not interrupted due to insufficient electric quantity. Further, the power module has a charging monitoring module to monitor the charging progress of the power module itself, and specifically, the power module obtains the current electric quantity through the charging monitoring module, and the power module supplies power to the control module of the ONU device 4 when the current electric quantity reaches a preset level, and if the current electric quantity reaches 30% of the total electric quantity, the control module is awakened. Further, the ONU equipment completes the upgrade operation and informs the upgrade server, and the upgrade server interrupts the wireless communication with the ONU equipment when confirming that the ONU equipment completes the upgrade.

In another embodiment, the wireless charging receiving module and the wireless charging device are paired magnetic field resonance type wireless charging components. The charging cabinet may instead be a plurality of wireless charging primary coils arranged at a distance within a space (e.g., a charging room), a cart or box or the like may be used to transport a plurality of non-unpackaged ONU devices together into the space, and then magnetic field resonance type wireless charging may be initiated. Also deployed within this space is a Zigbee wireless environment that communicates with the upgrade server. The ZigBee protocol stack of the Zigbee wireless environment is semi-open and free, and has low power consumption, a large amount of networking nodes and convenient use. In this embodiment, a star topology structure of Zigbee is adopted, a Zigbee gateway is used as a router, an upgrade server is used as a coordinator, and an ONU device is a terminal node. The ONU equipment with the wireless upgrading wake-up function and the ONU wireless upgrading system thereof can place the whole case of ONU equipment into a charging room together without unsealing and packaging to carry out wireless upgrading, and the problem of upgrading interruption is not needed to worry through an automatic charging wake-up method, thereby saving a large amount of unsealing time and wired resources and being extremely easy to operate and manage.

The above-described embodiments of the wireless upgrade system for broadband network terminal devices are only illustrative, and particularly, the ONU devices may be changed to switches, routers, wireless access nodes AP, wireless access controllers AC, or other passive optical network terminal devices. The modules described as separate parts may or may not be physically separate, and parts displayed as modules may or may not be physical modules, may be located in one place, or may be distributed on a plurality of network modules. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

Finally, it should be noted that: the wireless upgrade system of the broadband network terminal device disclosed in the embodiment of the present invention is only a preferred embodiment of the present invention, and is only used for illustrating the technical solution of the present invention, not limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art; the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. Broadband network terminal equipment with wireless upgrading awakens function up, characterized by, including control module and power module and the wireless upgrading interface of being connected with control module respectively, wherein: the power supply module is provided with a wireless charging receiving module, receives charging through the wireless charging receiving module, and supplies power to the control module; the control module uploads the self upgrading information to the upgrading server through the wireless upgrading interface and downloads the system upgrading information from the upgrading server, and the control module loads the system upgrading information so as to realize the version upgrading of the broadband network terminal equipment.

2. The broadband network terminal device with the wireless upgrade wake-up function as claimed in claim 1, further comprising a wired charging interface connected to the power module, the wired charging interface being for wired connection to an external power source.

3. The broadband network termination device with wireless upgrade wake-up function as claimed in claim 1, wherein said broadband network termination device comprises one or more of passive optical network termination device, switch, router, wireless access node AP and wireless access controller AC.

4. The broadband network terminal device with the wireless upgrade wake-up function according to claim 1, further comprising a power detection module connected to the control module, wherein the control module obtains power supply power through the power detection module, and the control module uploads its upgrade information to the upgrade server when the power supply power reaches a predetermined level.

5. The broadband network terminal device with the wireless upgrade wake-up function as claimed in claim 1, wherein the power module has a charging monitoring module, the power module obtains the current power through the charging monitoring module, and the power module supplies power to the control module when the current power reaches a predetermined level.

6. The broadband network terminal device with the wireless upgrade wake-up function as claimed in claim 1, wherein the wireless charging receiving module comprises one or more of an electromagnetic induction module, a magnetic field resonance module and a radio wave module.

7. The wireless upgrading system of the broadband network terminal equipment is characterized by comprising the broadband network terminal equipment with the wireless upgrading awakening function and an upgrading server matched with the broadband network terminal equipment, wherein the broadband network terminal equipment is as claimed in any one of claims 1 to 6; the upgrading server comprises a version processing interface, receives upgrading information uploaded by the broadband network terminal equipment through the version processing interface, and also downloads the system updating information of the latest version of the broadband network terminal equipment to a wireless upgrading interface of the broadband network terminal equipment through the version processing interface; the wireless upgrading system also comprises a wireless charging device which sends a wireless charging signal to the wireless charging receiving module of the power supply module.

8. The wireless upgrade system of broadband network terminal equipment according to claim 7, further comprising a wireless middleware, wherein both the wireless upgrade interface of the broadband network terminal equipment and the version process interface of the upgrade server communicate with the wireless middleware, respectively, thereby enabling both to communicate with each other.

9. The wireless upgrade system of broadband network terminal device of claim 8, wherein said wireless middleware comprises one or more of bluetooth, wifi, zigbee.

10. The wireless upgrading system of broadband network terminal equipment according to claim 8, wherein the action areas of the wireless middleware and the wireless charging device are overlapped, so that the broadband network terminal equipment placed in the overlapped area is charged and upgraded.

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