CN113949722B - Emergent all-in-one of AODB - Google Patents

Abstract

The invention discloses an AODB emergency all-in-one machine, which belongs to the field of airport flight production operation, and comprises a hardware system, an operation management system based on the hardware system and a monitoring system for monitoring the operation management system and the hardware system, wherein the hardware management system comprises a bearing unit, a power supply unit, a calculation storage unit, a network safety unit and a utility unit, the bearing unit comprises a cabinet, the power supply unit comprises a plurality of rack-mounted UPS (uninterrupted Power supply) and a plurality of rack-mounted PDU (protocol data Unit) for supplying power to each component of equipment, the calculation storage unit comprises a plurality of servers and a plurality of storages matched with the servers, the network safety unit comprises a plurality of network switches and a plurality of firewalls, and the utility unit comprises a plurality of KVM (K-virtual machine) switches, terminal equipment and an audible-visual alarm. The connection is simple, the whole integrated machine can be regarded as a terminal device, and the emergency networking can be completed by one network cable; the networking mode is flexible, a one-to-many emergency backup mode can be formed, and a plurality of sets of all-in-one machines can be connected in series to realize a plurality of sets of emergency or test modes.

Description

Emergent all-in-one of AODB

Technical Field

The invention relates to the technical field of airport flight production and operation, in particular to an AODB emergency integrated machine.

Background

The scale of modern airports is more and more dependent on information systems, the roles of the information systems in the running process of the airports are more and more irreplaceable, and in addition to the popularization of various mobile terminals, any airport guarantee abnormality or fault influence which can be perceived by passengers can be rapidly propagated and spread by a network, so that great negative influence is brought to the airports, and new challenges are brought to the running safety of each information system of the airports.

The flight production operation management system of the airport is one of the most important production systems of the airport, and carries important production services such as airport flight information management, resource allocation, operation command and the like, and has an irreplaceable effect in the production operation process of the airport. If the device fails and cannot operate, the command is not smooth, confusion is generated, and serious safety production accidents are caused.

At present, although most airports have high available schemes of various systems, when partial equipment fails and cannot provide service, the systems can be automatically switched to standby machine operation. While each airport has an emergency plan for each system, the systems of modern airports are complex from past operational experience. The airport system faults often have certain unpredictability, the fault reasons can not be determined in a short time, and some faults can cause global influences, such as networks, machine rooms, cloud platforms, storage, physical links, power supply and the like, or the original backup system of the flight production operation management system can not normally take over operation due to special reasons.

When serious faults occur, airport technical departments are busy in fault investigation and recovery, business departments start various emergency plans to ensure production, no effective support of an information system exists during the production, the efficiency of operation guarantee is reduced, and potential safety hazards exist. Therefore, a real-time emergency backup system of a flight production operation management system is necessary, the system can be independently operated under the worst fault condition as little as possible, and the production guarantee service and real-time operation data of the airport are seamlessly taken over, so that the orderly operation of the airport production command service is guaranteed.

Disclosure of Invention

The invention aims to solve the defects existing in the prior art.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

according to one aspect of the invention, an AODB emergency all-in-one machine is provided.

The utility unit comprises a plurality of protection walls, a plurality of servers and a plurality of storage units, wherein the power supply unit comprises a rack type UPS and a plurality of rack type PDU used for supplying power to each component of equipment, the calculation storage unit comprises a plurality of servers and a plurality of storage units matched with the servers, the network safety unit comprises a plurality of network switches and a plurality of firewalls, and each switch comprises a plurality of KVM switches, terminal equipment and an audible-visual alarm.

Further, the number of rack-mounted PDUs is 4, the number of servers is 3, the number of network switches is 2, and the number of firewalls is 2.

Further, the cabinet is a 24U high-strength server cabinet, net doors are arranged on the front side and the back side of the cabinet, and cabinet drawers are arranged in the cabinet.

Further, the terminal device is a notebook computer provided with a control system, wherein the notebook computer is an associated computer, and the notebook computer is arranged in the cabinet drawer.

Further, the audible and visual alarm and the cabinet are installed in a magnetic attraction mode, and the working voltage of the audible and visual alarm is DC24V and AC200V.

Further, the operation management system comprises an AODB server with an AODB database, an FOMS main application server for deploying a main application process of flight production operation, an FOMS data synchronization server for deploying an FOMS data special synchronization application service, an Apache middleware server for deploying Apache and Active MQ services and an MQ middleware server for deploying WebSphere MQ services and AODB ADP services, wherein the AODB server is connected with the FOMS data synchronization server through the FOMS main application server, and the AODB server is connected with the FOMS main application server.

Further, the FOMS main application server is connected with an IMF database, and the IMF database comprises a system interface module, wherein the system interface module is used for providing a plurality of system standby interfaces such as IMG, FIDS, PA.

According to another aspect of the invention, a synchronization method of the AODB emergency integrated machine is also provided.

The application message synchronization method of the AODB emergency integrated machine comprises the following steps:

in an emergency test environment, establishing a synchronous environment with application messages twinned in a production environment;

data received in the production environment are checked and analyzed by a database;

rollback is performed when verification fails, and different types of execution data are generated after the data is successfully verified;

and generating communication messages of different ports by the execution data, sending the communication messages to the client or ESB, and distributing the execution result to the twin environment.

Further, the auxiliary data synchronization method of the AODB emergency integrated machine comprises the following steps:

step one: preparing an all-in-one device for application test environment operation;

step two: after the data change is input into a database of a production environment operation system, the data change is input into a data change monitor of the operation system;

step three: in the data change monitor, an execution script or a database log is generated through an ETL tool;

step four: the data obtained in the steps are sent to a database of an application test environment operation system;

step five: and the database of the application test environment running system inputs the data into the data change monitor of the application test environment running system, so that the synchronization is completed.

Furthermore, the two-in-one machine equipment can be connected in series or in parallel, and the same operation management system is arranged between the two-in-one machine equipment.

Compared with the prior art, the invention has the beneficial effects that: the production and emergency test system is operated in double-activity mode, and the emergency system can be operated at any time without the traditional third standby machine or cold standby scheme; the production and emergency system is loosely coupled, the emergency system can be temporarily moved to other uses, and can be connected with a network at any time, so that the data can be immediately restored to synchronization; the data garbage is automatically recovered and cleaned, and garbage data generated during testing or data interruption is automatically cleaned, so that the high efficiency and reliability of the system in an emergency state are ensured; the system is highly integrated, does not depend on external environmental conditions, is provided with various professional equipment and software such as a wired network, a wireless network, a firewall, terminal equipment, UPS and the like, can quickly recover the operation control command function in emergency, and can quickly reconstruct a small emergency command center; all important equipment adopts high-reliability redundant configuration, so that operation risks caused by equipment faults are avoided, and the operation reliability of the system is ensured; the system is provided with a self-monitoring evaluation system, and in a daily state, the self-monitoring equipment state, the system running state and the data synchronization state discover abnormality and immediately alarm; the power consumption is low, the overall working power is not more than 2KW, and the 10A socket of the daily commercial power can be used by plug and play; the connection is simple, the whole integrated machine can be regarded as a terminal device, and the emergency networking can be completed by one network cable; the networking mode is flexible, a one-to-many emergency backup mode can be formed, and a plurality of sets of all-in-one machines can be connected in series to realize a plurality of sets of emergency or test modes.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

FIG. 1 is a schematic diagram of a hardware system of an AODB emergency all-in-one machine provided by the invention;

FIG. 2 is a diagram showing the connection of internal components of the hardware system of the AODB emergency integrated machine according to the present invention;

FIG. 3 is a schematic diagram of an operation management system of the AODB emergency integrated machine according to the present invention;

FIG. 4 is a schematic diagram of an auxiliary data synchronization method of an AODB emergency integrated machine according to the present invention;

FIG. 5 is a logic diagram of an application message synchronization method for an AODB emergency all-in-one machine according to the present invention;

FIG. 6 is a flow chart of steps of an auxiliary data synchronization method of an AODB emergency integrated machine according to the present invention;

FIG. 7 is a schematic diagram of an operational connection of an AODB emergency all-in-one machine according to the present invention;

FIG. 8 is a second schematic diagram of the operation connection of the AODB emergency integrated machine according to the present invention.

In the figure: 1. a cabinet; 2. a rack-mounted UPS; 3. a rack-mounted PDU; 4. an audible and visual alarm; 5. storing; 6. a network switch; 7. a firewall; 8. a KVM switch.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

According to an embodiment of the invention, an AODB emergency all-in-one machine is provided.

Referring to fig. 1, fig. 2, fig. 7 and fig. 8, an AODB emergency integrated machine includes a hardware system, an operation management system based on the hardware system, and a monitoring system for monitoring the operation management system and the hardware system, where the hardware management system includes a load-bearing unit, a power supply unit, a calculation storage unit, a network safety unit and a utility unit, the load-bearing unit includes a cabinet 1, the power supply unit includes a plurality of rack-mounted UPS2 and a plurality of rack-mounted PDU3 for supplying power to each component of the device, the calculation storage unit includes a plurality of servers, a plurality of storages 5 matched with the servers, the network safety unit includes a plurality of network switches 6 and a plurality of firewalls 7, the utility unit includes a plurality of KVM switches 8, a terminal device and an audible-visual alarm 4, each switch is sequentially connected to a plurality of protection walls, a plurality of servers and a plurality of storages 5, and the switches are connected to antennas.

In one embodiment, the number of rack-mounted PDUs 3 is 4, the number of servers is 3, the number of network switches 6 is 2, and the number of firewalls 7 is 2.

In one embodiment, the cabinet 1 is a 24U high-strength server cabinet 1, the front and the back of the cabinet 1 are provided with net doors, and the interior of the cabinet 1 is provided with cabinet drawers.

In one embodiment, the terminal device is a notebook computer with a control system, wherein the notebook computer is an associated computer, and the notebook computer is placed in the cabinet drawer.

In one embodiment, the audible and visual alarm 4 and the cabinet 1 are magnetically mounted, and the working voltage of the audible and visual alarm 4 is DC24V and AC200V.

Referring to fig. 3, in one embodiment, the operation management system includes an AODB server having an AODB database, a FOMS master application server for deploying a main application process of a flight production operation, a FOMS data synchronization server for deploying a FOMS data-specific synchronization application service, an Apache middleware server for deploying Apache and Active MQ services, and an MQ middleware server for deploying WebSphere MQ services and AODB ADP services, wherein the AODB server is connected to the FOMS data synchronization server through the FOMS master application server, and wherein the AODB server is connected to the FOMS master application server.

Further, the operation management system also provides a configuration mode of an operation data source of the flight information service bus, and the configuration mode comprises the following components:

the system comprises a Message Booker, IMF application software, a Mysql database and a system interface, wherein the Message Booker is used for providing an interface Message processing platform, the system interface is used for providing a plurality of system standby interfaces such as IMG, FIDS, PA and the like, and the Mysql database is used for the configuration of the IMF and a log database.

In one embodiment, the FOMS host application server is connected to an IMF database that includes a system interface module for providing a number of system backup interfaces, such as IMG, FIDS, PA.

Specifically, access to the emergency client and the temporary client can be performed, and wired and wireless access is supported.

In the embodiment of the invention, a synchronization method of the AODB emergency integrated machine is also provided.

Specifically, the method comprises an application message synchronization method for an operation management system of the AODB emergency integrated machine and an auxiliary data synchronization method for the operation management system of the AODB emergency integrated machine.

Furthermore, the application message data synchronization method for the operation management system of the AODB emergency integrated machine can ensure that the emergency environment or the test environment can keep a multi-activity state together with the production environment through application-level message data synchronization, and all applications, clients and message interface buses can synchronously generate and receive messages, so that real-time online and effectiveness of the emergency integrated machine can be ensured in real time, and when an emergency condition is sent, seamless switching and real-time online can be realized, and the method is used for synchronizing the application message data of a core system.

Furthermore, the auxiliary data synchronization method for the operation management system of the AODB emergency integrated machine adopts the traditional ETL mode to periodically synchronize data, ensures that various configurations and production environments of other application databases of the emergency integrated machine are kept consistent, and is used for auxiliary application data synchronization outside a core system.

Referring to fig. 5, an application message data synchronization method for an operation management system of an AODB emergency integrated machine includes the steps of:

step S201: in an emergency test environment, establishing a synchronous environment with application messages twinned in a production environment;

step S203: data received in the production environment are checked and analyzed by a database;

step S205: rollback is performed when verification fails, and different types of execution data are generated after the data is successfully verified;

step S207: and generating communication messages of different ports by the execution data, sending the communication messages to the client or ESB, and distributing the execution result to the twin environment.

Referring to fig. 4 and 6, an auxiliary data synchronization method for an operation management system of an AODB emergency integrated machine includes the steps of:

step S101: preparing an all-in-one device for application test environment operation;

step S103: after the data change is input into a database of a production environment operation system, the data change is input into a data change monitor of the operation system;

step S105: in the data change monitor, an execution script or a database log is generated through an ETL tool;

step S107: the data obtained in the steps are sent to a database of an application test environment operation system;

step S109: and the database of the application test environment running system inputs the data into the data change monitor of the application test environment running system, so that the synchronization is completed.

Specifically, the two-in-one machine devices can be connected in series or in parallel, and the same operation management system is installed between the two-in-one machine devices.

In the embodiment of the invention, a zabbix system is adopted for system monitoring of equipment software and hardware, and is used for monitoring the running states of the equipment software and hardware parts, and an running platform of the equipment is composed of an X86 server, shared storage and VMware computing virtualization, so that the elasticity and the expandability of an infrastructure and an application are realized.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (3)

1. The synchronization method of the AODB emergency integrated machine is characterized by comprising an application message synchronization method for an operation management system of the AODB emergency integrated machine, wherein:

the AODB emergency integrated machine comprises a hardware system, an operation management system based on the hardware system and a monitoring system for monitoring the operation management system and the hardware system, wherein the hardware management system comprises a bearing unit, a power supply unit, a calculation storage unit, a network safety unit and a utility unit, the bearing unit comprises a cabinet (1), the power supply unit comprises a plurality of rack-mounted UPS (2) and a plurality of rack-mounted PDU (3) which are used for supplying power to each component of equipment, the calculation storage unit comprises a plurality of servers and a plurality of storages (5) matched with the servers, the network safety unit comprises a plurality of network switches (6) and a plurality of firewalls (7), the utility unit comprises a plurality of KVM switches (8), terminal equipment and an acousto-optic alarm (4), each switch is sequentially connected with a plurality of protection walls, a plurality of servers and a plurality of storages (5), and the switches are connected with antennas;

the cabinet (1) is a 24U high-strength server cabinet (1), net doors are arranged on the front surface and the back surface of the cabinet (1), and cabinet drawers are arranged in the cabinet (1);

the terminal equipment is a notebook computer provided with a control system;

the audible and visual alarm (4) and the cabinet (1) are magnetically-attracted, and the working voltage of the audible and visual alarm (4) is DC24V and AC200V;

the operation management system comprises an AODB server with an AODB database, an FOMS main application server for deploying a flight production operation application process, an FOMS data synchronization server for deploying an FOMS data special synchronization application service, an Apache middleware server for deploying Apache and Active MQ services and an MQ middleware server for deploying WebSphere MQ services and AODB ADP services, wherein the AODB server is connected with the FOMS data synchronization server through the FOMS main application server, and the AODB server is connected with the FOMS main application server;

the FOMS main application server is connected with an IMF database, and the IMF database comprises a system interface module which is used for providing IMG, FIDS, PA a plurality of system standby interfaces;

the small emergency command center is quickly built, the AODB emergency integrated system can receive the network at any time, the data is immediately recovered and synchronized, the system does not depend on external environment conditions, and the system is provided with a wired network and a wireless network, so that emergency networking is completed at any time;

the synchronization method comprises the following steps:

in an emergency test environment, establishing a synchronous environment with application messages twinned in a production environment;

data received in the production environment are checked and analyzed by a database;

rollback is performed when verification fails, and different types of execution data are generated after the data is successfully verified;

and generating communication messages of different ports by the execution data, sending the communication messages to the client or ESB, and distributing the execution result to the twin environment.

2. The synchronization method of an AODB emergency integrated machine according to claim 1, further comprising an auxiliary data synchronization method for an operation management system of the AODB emergency integrated machine, comprising the steps of:

step one: preparing an all-in-one device for application test environment operation;

step two: after the data change is input into a database of a production environment operation system, the data change is input into a data change monitor of the operation system;

step three: in the data change monitor, an execution script or a database log is generated through an ETL tool;

step four: the data obtained in the steps are sent to a database of an application test environment operation system;

step five: and the database of the application test environment running system inputs the data into the data change monitor of the application test environment running system, so that the synchronization is completed.

3. The synchronization method of the AODB emergency integrated machine according to claim 1 or 2, wherein two-by-two integrated machine equipment are connected in series or in parallel, and the same operation management system is installed between the two-by-two integrated machine equipment.