TWI400935B - The service application architecture and its working method with power failure - Google Patents

Description

Service application architecture with discontinuous power and its operation method

The invention relates to a service application architecture with a power outage and a working method thereof, in particular to a voice service uninterrupted technology applied to a remote unmanned computer room of a sealed-fiber optical subscriber loop, with active power supply, management technology and B Too network power transmission function to support the emergency call service functions and operations required for telecom popularization services.

How to provide people with emergency call voice service in a large local telephone network has long been a most important issue for the safety of people's personal property; the traditional PSTN is extended to a user's home with a pair of copper cables. The service voice service, and its uninterrupted emergency call service is mainly to use the power transmission capability of a pair of copper cables extending from the computer room to the user's home, to provide the power required by the user's phone from the computer room; And the generator, so even if the user loses power, it can still ensure that the user can still use the telephone voice service in case of emergency to ensure safety or obtain necessary assistance.

At present, in other mobile voice technologies, when the public provides emergency call service voice service, the following problems usually occur: 1. Using the base station's transmitting wave, the base station can overcome the problem that it is difficult to construct copper cables in some areas. The telephone voice service can still be provided by the people in the area. However, the handheld voice devices used by the general public have limited power, so it is impossible to ensure the use of the emergency call voice service in an emergency.

2. Using DLC technology, although this technology can provide remote emergency call service, but still no The method solves the problem of power failure and disconnection of VoIP phones, and the current technology of DLC is only used in the areas where the city is available, and cannot be used in remote areas without utility power.

3. Currently, the home broadband line can be used to provide data, video and VoIP voice services, but the broadband line + VoIP phone can not completely replace the existing analog phone, mainly because the VoIP phone will not be able to provide emergency call service when it loses power. This makes it necessary for users to add another emergency call or to maintain analog phones outside the broadband line. This kind of use is quite inconvenient and uneconomical.

It can be seen that the above-mentioned conventional and current voice service technologies are limited by the VoIP service access device and the user VoIP phone power problem, which is not an effective service operation mode, and needs to be improved.

In view of the shortcomings derived from the above-mentioned conventional methods, the inventor of the present invention has improved and innovated, and after years of painstaking research, he finally succeeded in researching and developing the service application architecture and operation method of this piece with power failure.

The object of the present invention is to provide a service application architecture with a power outage and a working method thereof, which can still use the emergency call service method when the user's phone is in a power outage, mainly relying on the power transmission technology of the unmanned computer room and the autonomous mode. The power supply and management method, so that the specific user's phone can still obtain the power required by the phone from the unmanned computer room, so that the user can still obtain the emergency call service without being affected by the interruption of the mains power or the loss of the power of the phone, effectively solving the remote areas in the past. Unable to provide emergency call service.

The secondary object of the present invention is to provide a service application architecture with a power outage and its operation method, and to utilize this new power outage application service and operation method, which can be derived from The power request of the terminal is checked and judged, thereby preventing the possibility of remote theft of various powers, and effectively solving the functions and effects that the conventional technology cannot achieve.

The service application architecture and its operation method for achieving the above-mentioned inventions are designed according to the relevant international power supply interface specifications. The voice service equipment of the unmanned computer room is obtained by the external autonomous power generation module to maintain the equipment and far. After the power required for the operation of the user's telephone is stored and converted via the internal power of the device, the device is internally designed with a power management search table, and the user terminal transmits the approved instruction packet, format and user information to the remote end via the distribution network. On the equipment room, the unmanned equipment room uses the uploaded user and user terminal information to perform fast authentication and power management of the remote phone. After the authentication, the terminal can obtain the required power according to the needs.

Referring to FIG. 1 , an application architecture diagram of a service application architecture and a method for operating the same is provided. The main components of the service application architecture include: an external active power generation module 100. The external active power generation module 100 is connected to the remote access service system 500 for obtaining power required for maintaining the operation of the device and the remote user's telephone; a service network 200, the service network 200 and the optical network The road 300 is connected. Through the service network 200, the user can receive various voice services. A fiber network 300 is built by the optical cable and is connected to the service network 200 and the remote end. The service system 500 is connected to each other, and the connection between the remote access service system 500 and the service network 200 is performed by the optical fiber network 300, and is mainly used for collecting a plurality of service networks; a power supply certification management module 400, the power supply certification management module 400 has built-in power management rules and a search table to provide power supply and determination of power supply; a remote access service system 500, the remote access service system The 500 is connected to the external active power generation module 100, the optical fiber network 300, the power supply certification management module 400, and the distribution network 600, and the service is built by the remote access service system 500 by optical cable or copper cable. The optical network 300 and the voice/power co-constructed distribution network 600 are integrated to connect the service network 200 and the user's telephone; and the remote access service system 500 is coupled to the external active power generation system 100. The power service access system in the unmanned computer room and the power required by the remote phone are obtained, and the power supply authentication data management module 400 is connected to provide power supply and the determination of the power supply amount.

A distribution network 600, the distribution network 600 is constructed by using a copper cable to distribute the telecommunications service and power co-constructed by the remote access service system to the user equipment, and can obtain the required operation of the phone through authentication communication. Power, through this sub-packaged voice network, can connect to digital video phone 700, VoIP phone 800 and IP PBX 900 devices that are different from traditional analog phones.

By combining the above components, a service application architecture with power outages can be formed. The architecture is applied to the VoIP voice service access network, which is different from the traditional voice service network architecture, and a new generation voice service network. The road can extend the traditional voice service through digital and opticalization and improve the performance of the original PSTN voice network service, and can provide diversified value-added services.

Please refer to FIG. 2 , which is a schematic diagram of a remote unmanned computer room module layout for a service application architecture and a working method thereof, and a voice access service system 500 is built in the remote unmanned computer room. As can be seen, the system comprises: an active power input interface module 510, the active power input interface module 510 and The external active power generation module 100 is connected to input power into the system; a user authentication processing module 520, the user authentication processing module 520 controls the storage in the system according to the user terminal and the system's feeding requirements. The power modulation module 530 is connected to the power storage module 540 and the voice and terminal power distribution module 550, and can modulate the power stored in the power storage module 540 and The voice and terminal power distribution module 550 outputs; a power storage module 540, the power storage module 540 is connected to the active power input interface module 510, can store the input power; a voice and terminal power distribution The access module 550 is connected to the power modulation module 530. After being modulated by the power modulation module 530, the power is outputted for use by the remote user's phone to construct A remote voice access service system with uninterrupted service.

Please refer to FIG. 3, which is a schematic diagram of the operation mode of the service application architecture and the remote power supply method of the invention, and the remote power supply is divided into a user authentication processing mechanism and a power modulation mechanism. The process of the user authentication processing mechanism of the remote power supply is as follows: Step 1: Firstly, the terminal end communication program 521 of the user authentication processing module 520 is used to establish a connection with the voice and terminal power distribution module 550. Obtaining user authentication information; Step 2: The received user authentication information packet is interpreted by the packet interpreter 522; Step 3: The interpreted terminal and user authentication information is then submitted to the management retrieval processing program 523. Check the form to obtain information on the power supply and the amount of power supplied; Step 4: After the authentication and extraction of the terminal power demand information, the authentication and terminal power demand information is subjected to information encoding processing 524; Step 5: The encoded user information is sent to the power modulation module 530.

After being processed by the user authentication processing mechanism, the information is sent to the power modulation mechanism for processing, and the step of the remote power supply power modulation mechanism is as follows: Step 1: Received by the B-side communication main control program 531 of the power modulation module 530 The user terminal power distribution information packet sent by the user authentication processing module 520; step 2: the user terminal power distribution information packet is interpreted by the packet interpreter 532; step 3: after interpretation, and then delivered to the power output The control program 533 drives the voice and terminal power distribution modules through the internal interface to perform power management scheduling and power distribution functions.

The service application architecture and the operation method thereof provided by the invention have the following advantages when compared with other conventional technologies: 1. The invention can provide the telecommunication service required under the remote outdoor unmanned aircraft room architecture. Stable operation can effectively manage power and reduce power design and maintenance needs.

2. The invention can solve the power generation and distribution management mechanism between the remote unmanned computer room and the management system, so that the design of the backup battery originally required for the user telephone to maintain the emergency call can be cancelled, and the phone design can be lighter and more economical. In addition to sex, it can further eliminate the difficulty of frequent maintenance of the phone battery.

3. In addition to the telephone, the present invention can also provide effective power supply integration for other user terminal equipment, so that various telecommunication services can be protected from the power outage, thereby achieving more effective operational stability.

4. With the implementation of the present invention, the design of the services required to support telecommunications has full flexibility of customization and expansion. Any new power generation system can be quickly integrated and re-connected between new and old power systems through expansion or new interfaces, without the investment of new equipment or system development.

5. In addition, the invention can effectively solve the problem of improper tampering at the user end occurring in the traditional analog voice network.

The detailed description of the preferred embodiments of the present invention is intended to be limited to the scope of the invention, and is not intended to limit the scope of the invention. The patent scope of this case.

To sum up, this case is not only innovative in terms of technical thinking, but also able to enhance the above-mentioned multiple functions compared with conventional articles. It should be submitted in accordance with the law in accordance with the statutory invention patents that fully meet the novelty and progressiveness, and you are requested to approve this article. Invention patent application, in order to invent invention, to the sense of virtue.

100‧‧‧External Active Power Generation Module

200‧‧‧Service Network

300‧‧‧Fiber network

400‧‧‧Power certification data management module

500‧‧‧Remote access service system

600‧‧‧Distribution Network

700‧‧‧Video Phone

800‧‧‧ VoIP phone

900‧‧‧IP PBX

510‧‧‧Active Power Input Interface Module

520‧‧‧User Authentication Processing Module

530‧‧‧Power Modulation Module

540‧‧‧Power storage module

550‧‧‧Voice and terminal distribution module

521‧‧‧A terminal communication master program

522‧‧‧Package Interpreter

523‧‧‧Management search handler

524‧‧‧Information coding processing

531‧‧‧By-side communication master program

532‧‧‧Package Interpreter

533‧‧‧Power Output Control Program

FIG. 1 is an application architecture diagram of a service application architecture with a power outage and a method for operating the same according to the present invention; FIG. 2 is a layout diagram of a remote unmanned computer room module with a service application architecture and a method for operating the same according to the present invention. And FIG. 3 is a schematic diagram of the operation mode of the remote power supply method of the service application architecture and the operation method thereof with the power outage.

100‧‧‧External Active Power Generation Module

200‧‧‧Service Network

300‧‧‧Fiber network

400‧‧‧Power certification data management module

500‧‧‧Remote access service system

600‧‧‧Distribution Network

700‧‧‧Video Phone

800‧‧‧ VoIP phone

900‧‧‧IP PBX

Claims (7)

A service application architecture with power outages, comprising: a service network, the service network is connected to a fiber network, through which the user can receive various voice services; The optical fiber network is connected to the service network and the remote access service system, and the connection between the remote access service system and the service network is mainly used for the plurality of service networks. a remote access service system that interfaces with an external active power generation module, a fiber optic network, a power supply authentication management module, and a distribution network, through which the remote access service is provided The system, which is built by fiber optic cable or copper cable, integrates the optical fiber network and the voice/power co-constructed distribution network to connect the service network and the user's phone; in addition, the remote access service system will be externally active. The power generation system is connected to obtain the power required by the voice service access system and the remote phone in the unmanned computer room, and is connected to the power supply certification data management module to provide power supply and the determination of the power supply amount; The active power generation module is connected to the remote access service system for obtaining power required for maintaining the operation of the device and the remote user's phone; and a power supply authentication data management module, The power supply certification management module has a built-in power supply management rule and a search form to provide power supply and determination of power supply; a distribution network for distributing the telecom service and power co-constructed by the remote access service system User equipment. For example, the service application architecture with the power outage is described in the first application of the patent scope, wherein the remote access service system is a voice and terminal power distribution access module, and an active power input interface. The surface module, the power storage module, the user authentication processing module and the power modulation module are combined to achieve the power management required by the device and the power distribution function of the user terminal. For example, the service application architecture with the power outage is described in the second application of the patent scope, wherein the voice and terminal power distribution access module and the user terminal perform the power supply authentication information transmission interface to provide the 10/100BaseT Ethernet network. The road interface is mainly. For example, the service application architecture with the power outage is described in claim 2, wherein the power modulation module is responsible for the related operation processing of the power required by the user terminal and the system, and provides a device control coordination mechanism. For example, the service application architecture with the power outage is described in claim 2, wherein the user terminal authentication module is responsible for establishing a user terminal management table and related retrieval and authentication mechanisms. For example, the service application architecture with the power outage is described in claim 2, wherein the active power input interface module has the main function of connecting different active power generation devices and providing input of the generated power. With storage. A service operation method with a power outage, an active power acquisition system and a service device are set up via a remote telecommunication room or a chassis, and then communicated through the telecommunication room to the data communication network between the users to distribute the power required by the user equipment. The process of the steps is as follows: Step 1: User authentication processing mechanism for processing the authentication of the terminal power supply requirements, including: a: connecting the communication main control program of the user authentication processing module with the voice and terminal power distribution module, Obtain user authentication information; b: Receive the user authentication information packet and interpret it by the packet interpreter; c: Interpret the terminal and user authentication information and then submit it to the management retrieval processing program for checking the table. To obtain information on power supply and power supply; d: to encode and process terminal power demand information for information encoding; e: to send encoded user information to power modulation module; Step 2: Power modulation mechanism, For processing power supply modulation, the method includes: f: the communication master module of the power modulation module receives the user terminal power distribution information packet sent by the user authentication processing module; g: hands over the user terminal power distribution information packet to the package interpretation The device is interpreted; h: the power output control program drives the voice and terminal power distribution module through the internal interface for power management scheduling and power distribution.