CN102130944A - Method for monitoring and managing common use self and self-service system - Google Patents

Abstract

The invention provides a method for integrally monitoring and managing a self-service machine and a self-service system at long distance. In the method, a protocol agent technology is adopted to oppositely cross a firewall; a stage division method is adopted to reduce the pressure of each monitoring node; an international air transport association (IATA) standard interface is extended to intensify the monitoring capacity of equipment; remote monitoring management is carried out, according to the order of severity, and cautions are given out aiming at monitored risks and problems through different colors, sounds and prompting messages in combination of mails, short message and other modes; a method for solving the problems remotely is provided to process and solve the risks and the problems in time; the self-service machine and the service data are subjected to statistics analysis so as to provide service analysis criterions of different angles; and the centralized deployment and control is performed to control the software and hardware of the self-service machine in a center.

Description

A kind of method for managing and monitoring to self-service cabinet-type air conditioner and self-aid system

Technical field

The present invention relates to a kind of method for managing and monitoring to self-service cabinet-type air conditioner and self-aid system, be used for long-range unified monitoring and manage self-service cabinet-type air conditioner and self-aid system, method of the present invention adopts stage division, divides to have subtracted the pressure of respectively monitoring node.

Background technology

Along with the extensive popularization of SCM system, more and more important to the management of self-aid system, because the particularity of self-service cabinet-type air conditioner, the general state that all is in no worker monitor requires reliable as much as possible; Add the driving for the demand of the hardware resource that utilizes cabinet-type air conditioner as far as possible, increasing airline Self-Service software can operate on the same cabinet machine, and this just requires each software effectively shared to hardware resource, can not conflict.Need IATA (international boat is assisted) to propose CUSS platform (the self-service cabinet-type air conditioner service of Common Use Self Service) based on these,, share and the managerial problem of software and hardware to be used to solving self-service cabinet-type air conditioner hardware as the middleware between application and the hardware.But this standard has just been done simple description to the remote monitoring of cabinet-type air conditioner and management, only relates to the management of self-service application state, does not have the equipment control measure, also not to the management of cabinet-type air conditioner file.In addition, the self-service platform management interface of IATA is based on corba (Common Object Request Broker Architecture Common Object Request Broker Architecture) technology, and run on 20001 network ports, because network firewall limits, the interface of IATA can't normally move on a lot of airports.

To this, the inventor has proposed a kind of method to self-service cabinet-type air conditioner and self-aid system monitoring and management, expansion as international standard, be used for monitoring and managing self-service cabinet-type air conditioner and self-aid system, making things convenient for the user that the self-service cabinet-type air conditioner and the self-aid system that are distributed in the airport are managed concentratedly, and can penetrate the airport network limits.

At present, product of the same type in the world has IER, IBM, the self-care system that manufacturers such as NCR provide.Existing these systems mainly contain following shortcoming: what have is subject to the airport network firewall, can't use in the actual environment; Have plenty of based on Fat Client, supervisory user quantity and monitoring place are restricted; Though have based on WEB, monitoring capacity is very weak, does not even have control ability; Monitoring effect is not directly perceived; Though what have has certain monitoring capacity, do not dispose and distribution capability, perhaps comparatively not loaded down with trivial details; Also there is a common problem in these systems, system are not carried out differentiated control, cause long-range cabinet-type air conditioner communication cost height, and speed is slow, and extensibility is low.

Summary of the invention

In order to address the above problem, the inventor proposes a kind of monitoring and management method to self-service cabinet-type air conditioner and self-aid system:

To the long-range unified monitoring management method of self-service cabinet-type air conditioner and self-aid system, adopt the agency by agreement technology, oppositely passing fire wall; Adopt stage division simultaneously, divide to have subtracted the pressure of respectively monitoring node; Expand the IATA standard interface, increased the monitoring of tools ability; Remote monitoring and administration, according to the order of severity, with different colors, sound, prompting message, the multiple modes such as mail, note that are aided with are simultaneously warned to the risk that monitors, problem, and long-range method of dealing with problems is provided, risk, problem are in time dealt with; The statistical analysis of cabinet-type air conditioner and business datum provides the business diagnosis foundation of multi-angle for different user; Unified plan and control just can realize the control to the cabinet-type air conditioner software and hardware at the center.

Of the present inventionly be: to using monitoring in the IATA standard and administration module is transformed to the monitoring of self-service cabinet-type air conditioner and self-aid system and the operation principle of management method, corba link block with self-aid system is advanced on the cabinet-type air conditioner, corba is connected occur in cabinet-type air conditioner this locality, so just avoided the conflict of port and airport fire compartment wall; Expansion reach module in addition, make it by socket protocol (socket) can and cabinet-type air conditioner management system (Kiosk Management System is called for short KMS), the communication of CUSS platform, so just can be according to the fire compartment wall flexible arrangement on airport; Can be implemented in the software and hardware running status of remote monitoring cabinet-type air conditioner in this way.Simultaneously, the reach module has had the ability of carrying out the KMS particular command, these orders have covered SMI (System Management Interface the is called for short SMI) standard of IATA, and can also carry out other orders, as batch processing etc., so just effectively expand the managerial ability of KMS, reached the function of management cabinet-type air conditioner software and hardware.In addition, for the state of monitoring hardware equipment, need this part ability of CUSS platform extension, promptly when capturing device events, the portion of making a copy for gets final product to Agent.

Monitoring and management method to self-service cabinet-type air conditioner and self-aid system of the present invention comprises the steps:

Step 1: realize the CUSS platform extension, device events is sent to Agent by the socket port; View proxy module (Agent) is done in realization, is IATA standard corba interface conversion the function of self-defining socket interface; Realize cabinet-type air conditioner management server (KMS), can the application and the equipment of cabinet-type air conditioner be managed, and have the ability of differentiated control.

Step 2: Agent monitors the CUSS platform and KMS starts, and initiates the request of landing by socket to KMS.

Step 3: KMS receives request, sends a series of orders of landing the CUSS platform to Agent.

Step 4: Agent is after CUSS platform and KMS land successfully respectively, and CUSS platform extension module just can send connection request to Agent by socket, changes and send to KMS by Agent, whole communication successful connection.

Step 5: CUSS platform extension module by socket to Agent transmitting apparatus incident.

Step 6: the CUSS platform sends application affairs by corba to Agent by IATA standard SMI interface.

Step 7: Agent is converted to the socket incident to the application affairs from the corba port.

Step 8: Agent sends the Socket server end of socket incident to KMS.

Step 9: Socket server-side processes incident is saved in database to event content.

Step 10: the KMS of subordinate server timed sending relevant information is given higher level KMS server.

Step 11: the KMS of the superior and the subordinate can show the user to the application of cabinet-type air conditioner and device events by WEB server separately on browser.

According to monitoring and the management method to self-service cabinet-type air conditioner and self-aid system of the present invention, wherein, CUSS platform extension module can be by in equipment control interface (DCI) module of CUSS platform in the step 1, the equipment state variation is sent out, realize a socket client in addition, device events is sent to Agent by this client.In this case, between CUSS platform and the Agent be the relation of socket client and server.

Agency by agreement modules A gent possesses following ability:

A), send the socket incident to service end as a socket client

B) as a corba client, mode with IATA standard SMI interface is visited the CUSS platform, for the CUSS platform, Agent will be one and operate in local system service supplier management system (IATA System provider managcr is called for short SPM).

C) has the ability of moving local errorlevel

D) has windows desktop control ability

E) socket and corba service end running state monitoring ability

F), receive the socket incident that this machine CUSS platform sends as a Socket server end.

Cabinet-type air conditioner management server KMS comprises two parts, a Socket server end, a Web server.

The socket server possesses following function:

A) handle the request of landing of Agent, and be the long connection of Agent maintenance

B) handle the event information that Agent sends,,, and be kept in the database these event classifications according to the configuration of cabinet-type air conditioner in the database.Simultaneously, application affairs and application state sign indicating number are carried out correspondence, device events and equipment state sign indicating number are carried out correspondence,, calculate the conditional code of cabinet-type air conditioner according to application state sign indicating number and equipment state sign indicating number.These conditional codes are kept in the internal memory.

C) send order to Agent, require Agent to carry out and land the CUSS platform, carry out functions such as errorlevel.

Web server mainly contains following function:

A) system monitoring comprises the monitoring of sub-web server (KMS), cabinet-type air conditioner, application and equipment.

B) user management.

C) system management comprises management such as airline, sub-KMS, cabinet-type air conditioner group, IP mandate.

D) statistical query comprises applied statistics, cabinet-type air conditioner statistics, device statistics.

E) log query comprises Operation Log, and daily record is used in system journal, device log, inquiries such as upgrading daily record.

Referring to Fig. 5 KMS functional block diagram.

According to monitoring and the management method to self-service cabinet-type air conditioner and self-aid system of the present invention, wherein, realize the module of two timer access socket and corba port in the step 2 at Agent, operation conditions by these two module monitors Socket server ends and CUSS platform, any one party starts, and Agent can initiate to land the socket server operation, for the login of socket server, follow self-defining login mechanism (as with the IP+ cipher authentication), send the login request.

According to monitoring and the management method to self-service cabinet-type air conditioner and self-aid system of the present invention, wherein, the socket service processing login request of step 3 KMS if Agent is legal (can verify by the IP+ password), just sends the request of landing the CUSS platform to Agent.Land for the CUSS platform, Agent must follow the IATA standard, by level, and components, generateEvent, queryEvent, registerEvent, waitEvent serial of methods (these methods all are the function level methods of IATA standard code).Because the CUSS platform lands by a series of IATA standard interfaces and realizes, so have repeatedly communication between Socket server end and the Agent.After landing successfully, Agent just can collect the application affairs of CUSS platform.Add that step 1 CUSS platform sends to the device events of Agent, Agent has just finished the collection work of whole cabinet-type air conditioner application and device events, and Agent can be transmitted to the socket server to these incidents.

According to monitoring and the management method to self-service cabinet-type air conditioner and self-aid system of the present invention, wherein, step 5 CUSS platform is issued the incident of Agent and is used the socket incident, and this incident can directly send to KMS by Agent.

According to monitoring and the management method to self-service cabinet-type air conditioner and self-aid system of the present invention, wherein, what step 6 CUSS platform was issued Agent is the corba incident of IATA standard, and concrete can be with reference to the IATA document.This incident can not be directly socket interface by Agent send to KMS.

According to monitoring and the management method to self-service cabinet-type air conditioner and self-aid system of the present invention, wherein, the corba incident that the desired Agent of step 7 sends step 6 is converted to the socket incident, here only need be Apply Names, application state extracts from the corba incident and gets final product, and does not need to change all data in the corba event object.

According to monitoring and the management method to self-service cabinet-type air conditioner and self-aid system of the present invention, wherein, the Socket server end must use the long mechanism that connects to be connected the only in this way effectively restriction of firewall-penetrating with Agent in the step 9.

According to monitoring and the management method to self-service cabinet-type air conditioner and self-aid system of the present invention, wherein, sending relevant information in the step 10 mainly is the running status of all cabinet-type air conditioners of this KMS management, and comprising: whether this KMS is connected with Agent, cabinet-type air conditioner is used running status, cabinet-type air conditioner equipment running status.

According to monitoring and the management method to self-service cabinet-type air conditioner and self-aid system of the present invention, wherein, the socket communication of using in the above each step, all follow with a kind of communications protocol, the content of transmission includes but not limited to: message header, type of message, message identifier, message trigger method name, triggering method parameter type, the triggering method content of parameter, the triggering method return value, batch processing message feedback information sequence number, batch processing message feedback information content, the CUSS platform status information, end of message sign etc.

Description of drawings

With reference to following accompanying drawing with easy to understand the present invention more:

Fig. 1 should for the present invention to the monitoring of self-service cabinet-type air conditioner and self-aid system and the overview flow chart of management method;

Figure 2 shows that method for managing and monitoring technical pattern block diagram;

Figure 3 shows that KMS system and cabinet-type air conditioner schematic diagram;

Figure 4 shows that KMS differentiated control schematic diagram;

Figure 5 shows that KMS functional module block diagram;

Figure 6 shows that KMS and Agent communication schematic block diagram.

Embodiment

The hardware that the inventive method relates to is formed the cabinet-type air conditioner management server (Airport KMS is called for short sub-KMS) that is installed in the airport; Be installed in the ftp server (Airport FTP is called for short AFTP) on airport,, also can comprise the cabinet-type air conditioner management server (Root KMS is called for short father KMS) at the center of being installed in if multi-zone supervision is arranged; Be installed in the ftp server (Root FTP is called for short RFTP) at center, above hardware need increase newly on the airport.The self-service cabinet-type air conditioner (Kiosk) that is installed in the airport is to need monitored equipment, can be installed in the value rack platform on airport before.Whole deployment architecture such as Fig. 3 are shown in 4.

Self-service cabinet-type air conditioner, airport cabinet-type air conditioner management server, airport ftp server can be visited in the network of same airport each other.Airport cabinet-type air conditioner management server and center cabinet-type air conditioner management server carry out communication by network between the airport, can visit mutually.

Self-service platform (CUSS) on the self-service cabinet-type air conditioner sends to airport cabinet-type air conditioner management server to equipment on the cabinet-type air conditioner and application state by the Agent on the cabinet-type air conditioner.Airport cabinet-type air conditioner management server sends to center cabinet-type air conditioner management server to the information of institute's linchpin cabinet-type air conditioner through gathering.

Our following concrete environment is how the example explanation uses the inventive method that cabinet-type air conditioner is monitored and managed.

The environment explanation:

There is many cabinets machine on the airport, and wherein the hardware environment of a cabinet machine (name is called KIOSK27) is: an automatic ticket is arranged and ATB (the Automatic Ticketing and Boarding) printer of boarding; A magnetic card reader; Whether cabinet-type air conditioner is divided into lower cabinet body, have an inductor to discern the cabinet door respectively and open; A boarding card inductor is used for determining whether boarding card is sufficient.The software environment of cabinet-type air conditioner is a windows operating system, and based on the platform of IATA CUSS1.0 standard, a value machine is used.In platform, to ATB printer definition title SMKBPrinter; The inductor define name is UpDoorSensor to calling; To Xiamen inductor define name is DownDoorSensor; To the magnetic card reader define name is CardReader; To boarding card inductor define name is MediaSensor; Value machine Apply Names is defined as ANGELCUSSCA.

There is ready-made ftp server on the airport.

Referring to Fig. 1, specify and how to realize the cabinet-type air conditioner in the above-mentioned airport environment is monitored and managed.

Step 1, realization CUSS platform extension send to Agent to device events by the socket port; Realizing agency by agreement module (Agent), is IATA standard corba interface conversion the function of self-defining socket interface; Realize cabinet-type air conditioner management server (KMS), can the application and the equipment of cabinet-type air conditioner be managed, and have the ability of differentiated control.

CUSS platform extension module can send out the equipment state variation by in equipment control interface (DCI) module of CUSS platform, realizes a socket client in addition, by this client device events is sent to Agent.In this case, between CUSS platform and the Agent be the relation of socket client and server.Because socket connects this machine that occurs in, the socket port only otherwise with the current program conflict that is moving, can set one arbitrarily, such as 40000.

Referring to Fig. 2, agency by agreement modules A gent possesses following ability:

A), send the socket incident to service end as a socket client

B) as a corba client, mode with IATA standard SMI interface is visited the CUSS platform, for the CUSS platform, Agent will be one and operate in local system service supplier management system (IATA System provider manager is called for short SPM).

C) has the ability of moving local errorlevel

D) have windows desktop control ability, this technology only can realize on the windows operating system of supporting many desktops technology.

E) socket and corba service end running state monitoring ability utilize the module of two timer access socket and corba port to realize.

F), receive the socket incident that this machine CUSS platform sends as a Socket server end.

Cabinet-type air conditioner management server KMS comprises two parts, a Socket server end, a Web server.

The socket server possesses following function:

A) handle the request of landing of Agent, and be the long connection of Agent maintenance

B) handle the event information that Agent sends,,, and be kept in the database these event classifications according to the configuration of cabinet-type air conditioner in the database.Simultaneously, application affairs and application state sign indicating number are carried out correspondence, device events and equipment state sign indicating number are carried out correspondence,, calculate the conditional code of cabinet-type air conditioner according to application state sign indicating number and equipment state sign indicating number.These conditional codes are kept in the internal memory.

C) send order to Agent, require Agent to carry out and land the CUSS platform, carry out functions such as errorlevel.

Web server mainly contains following function:

A) system monitoring comprises the monitoring of sub-web server (KMS), cabinet-type air conditioner, application and equipment.

B) user management.

C) system management comprises management such as airline, sub-KMS, cabinet-type air conditioner group, IP mandate.

D) statistical query comprises applied statistics, cabinet-type air conditioner statistics, device statistics.

E) log query comprises Operation Log, and daily record is used in system journal, device log, inquiries such as upgrading daily record.

KMS also needs a local data base to support, and main contents comprise:

A) cabinet-type air conditioner related content: the cabinet-type air conditioner Database Identification, title, IP, the cabinet-type air conditioner Apply Names, the title of equipment on the cabinet-type air conditioner, PORT COM, socket lands password, the current connection status of cabinet-type air conditioner.

B) KMS of the superior and the subordinate related content: the title of the KMS of the superior and the subordinate, IP, PORT COM, socket lands password.

C) device events: cabinet-type air conditioner Database Identification, cabinet-type air conditioner title, device name, equipment state, time.

D) application affairs: cabinet-type air conditioner Database Identification, cabinet-type air conditioner title, Apply Names, application state, time.

Referring to Fig. 5, the KMS functional block diagram.

In this step, the technology that uses comprises the socket communication, moves errorlevel in the program, and building the web server all is the technology of comparative maturity.Windows desktop control technology must realize on the windows operating system of many desktops supporting, such as winXP etc.

Step 2: start Agent, KMS, CUSS platform, Agent monitor the CUSS platform and KMS starts, and initiates the request of landing by socket to KMS.Before starting these modules, need be configured various piece, guarantee ability to communicate.

Airport cabinet-type air conditioner management server (being called KMS1 as name) is disposed, utilize the cabinet-type air conditioner administration module, above-mentioned cabinet-type air conditioner: the Apply Names on title, IP, the cabinet-type air conditioner, the device name on the cabinet-type air conditioner, land password, all be configured in the database.Shown in deployed environment, to ATB printer definition title SMKBPrinter; The inductor define name is UpDoorSensor to calling; To Xiamen inductor define name is DownDoorSensor; To the magnetic card reader define name is CardReader; To boarding card inductor define name is MediaSensor; Value machine Apply Names is defined as ANGELCUSSCA.

The PORT COM of this airport cabinet-type air conditioner management server is decided according to the airport actual environment, such as being 777.If the superior and the subordinate's cabinet-type air conditioner management server is arranged, also need the superior and the subordinate's cabinet-type air conditioner management server is configured: the superior and the subordinate's cabinet-type air conditioner management server title, IP, land password.

Agent is configured, set airport cabinet-type air conditioner management server IP, port, this cabinet-type air conditioner title (KIOSK27), land password.

Start Agent, can be used as servo programe, operate on the cabinet-type air conditioner always.Agent can monitor the operation conditions of Socket server end and CUSS platform by the port monitoring module, any one party starts, Agent can initiate to land the socket server operation, login for socket server, follow self-defining login mechanism (as with the IP+ cipher authentication), send the login request.

After the CUSS platform started, the corba port monitoring module Auto-Sensing corba port of Agent was activated, and Agent is placed on the platform log-on message to the Socket server end and lands the Socket server end module that incident sends to airport cabinet-type air conditioner management server.If this moment, the Socket server end of KMS was not activated, the socket port monitoring program of Agent continues monitoring, starts up to the Socket of KMS server end, initiates the game server incident again.

Step 3, KMS receive request, send a series of orders of landing the CUSS platform to Agent.If Agent is legal (can verify by the IP+ password), just send the request of landing the CUSS platform to Agent.Land for the CUSS platform, Agent must follow the IATA standard, by level, and components, generateEvent, queryEvent, registerEvent, waitEvent serial of methods (these methods all are the function level methods of IATA standard code).Because the CUSS platform lands by a series of IATA standard interfaces and realizes, so have repeatedly communication between Socket server end and the Agent, Agent calls the success of CUSS platform interface each time, and Agent should return incident to this corba, be converted to the socket incident, return to KMS.In order to guarantee the efficient of communication, the command calls between KMS and the Agent adopts asynchronous mode better.

After landing successfully, Agent returns to the socket server together to information such as local directories, begins to collect the application and the device events of CUSS platform simultaneously.

Whole flow process please refer to Fig. 6, all English among the figure, and except getDirectory is the self-defining method of obtaining catalogue, this method is returned the file structure under the CUSS platform working directory.Other all are the functional based methods of IATA regulation, and whole landfall process is followed the IATA standard, is not described in detail in this.

Step 4, Agent are after CUSS platform and KMS land successfully respectively, and CUSS platform extension module just can send connection request to Agent by socket, Socket incident wherein, and Agent can directly be transmitted to KMS; KMS is changed and sent to application affairs from the corba interface by Agent, so far whole communication successful connection.Because the initiator of socket request is Agent, and communication is for long connection, so fire compartment wall can not impact communication.

As described in deployed environment, some equipment faults on cabinet-type air conditioner, as printer SMKBPrinter power down, the CUSS platform can obtain the state change information of printer, at this moment the CUSS platform should pass through local socket event notice Agent, to have printer name SMKBPrinter in the incident, and promise and state POWER_OFF; Simultaneously, because this equipment state also can have influence on the state of application, cause using ANGELCUSSCA and be in unavailable UNAVAILABLE state (this state is an IATA standard state), the CUSS platform can return to Agent to this application state by the call back function registerEvent that stipulates in the IATA standard, have Apply Names ANGELCUSSCA and application state AVAILABLE_UNAVAILABLE in the corba event object, represent this application from available become unavailable.

Step 5, CUSS platform extension module by socket to Agent transmitting apparatus incident.This step will have buffering when realizing, because the communication between CUSS platform and the Agent will be faster than the communication between Agent and the KMS, will guarantee that therefore device events can not lose.

Step 6, CUSS platform send application affairs by corba port registerEvent method to Agent by IATA standard SMI interface.

Step 7, Agent are converted to the socket incident to the application affairs from corba port registerEvent method.Here only need be Apply Names, application state extracts from the corba incident and gets final product, and does not need to change all data in the corba event object.

Step 8, Agent send the Socket server end of socket incident to KMS, have both comprised the application affairs after device events also comprises conversion here.This step is that the socket mechanics of communication that adopts is a mature technology, no longer describes in detail.It should be noted that the buffering that should be noted that both sides here equally.

Step 9, Socket server-side processes incident are saved in database to event content.The Socket server end identifies the event type that needs are handled according to cabinet-type air conditioner title, IP, Apply Names, device name in the incident, utilizes application or equipment state in the incident, more the state of application or equipment in the new database.

Step 10, the KMS of subordinate server timed sending relevant information are given higher level KMS server.

Communication is with reference to Agent and Socket server end communication mechanism between the superior and the subordinate, and the socket telecommunication customer end module that only needs to realize Agent on subordinate's management server gets final product.

Sending relevant information mainly is the running status of all cabinet-type air conditioners of this KMS management, and comprising: whether this KMS is connected with Agent, and cabinet-type air conditioner is used running status, cabinet-type air conditioner equipment running status.

Step 11, the KMS of the superior and the subordinate can by separately the WEB server, on browser, the application of cabinet-type air conditioner and device events are showed the user.The WEB server need load the relevant information of equipment on cabinet-type air conditioner, cabinet-type air conditioner application, the cabinet-type air conditioner from database, these information translation are shown for the information that the user understands easily.

The mode that represents has a variety of, as informing user's cabinet-type air conditioner state by modes such as acousto-optic electricity.The user can see overall condition, applicable cases, the equipment situation of this cabinet-type air conditioner by monitoring interface.As use green cabinet-type air conditioner icon representation communication success, but all there is redness the icon top and the bottom, and expression is used and Device Errors; Enter cabinet-type air conditioner in-depth monitoring interface, can use red icon to represent to use the ANGELCUSSCA fault, the state details are UNAVAILABLE; Can use a red lightning icon representation device powers down, the state details are POWER_OFF.

Utilize the WEB server to show that the information in the local data base has a variety of implementation methods, also comparative maturity is selected the realization technology voluntarily according to number of users in the time of realization.

In order to guarantee implementation efficiency and extensibility, more than the socket communication used in each step, all follow with a kind of communications protocol, the content of transmission includes but not limited to: message header, type of message, message identifier, the message trigger method name, the triggering method parameter type, triggering method content of parameter, triggering method return value, batch processing message feedback information sequence number, batch processing message feedback information content, CUSS platform status information, end of message sign etc.

In addition, in order to realize unified upgrading and management.By the Socket server end, can send various command to specific cabinet-type air conditioner, as restart cabinet-type air conditioner, restart platform, the specific file of upgrading, work such as upgrading particular category.Only need to realize writing these autoexecs, allow the Socket server end send to Agent and get final product.Main logic can comprise: stop cabinet-type air conditioner, start Agent desktop control module, the upgrading catalogue from validity, copy or the overlay file of ftp file in download, checking ftp file to appointment.

The command execution module of Agent can be carried out these batch processings, and returns the execution result of batch processing, and the user can monitor the concrete condition of upgrading and management by checking execution result.

Errorlevel is write with the method for Agent intercepting and capturing errorlevel execution result all very ripe, unique it should be noted that sometimes that errorlevel is carried out fruit may be very long, so need compress these execution results, perhaps return the Socket server end in batches.

So far we just use method for managing and monitoring to realize monitoring and management to cabinet-type air conditioner.Can effectively pass through the airport firewall restriction, realize that classification is to work such as cabinet-type air conditioner unified monitoring, deployment, start and stop.

Claims (16)

1. the method for managing and monitoring to self-service cabinet-type air conditioner and self-aid system is characterized in that,

Described method adopts the agency by agreement technology, oppositely passing fire wall;

Adopt stage division, divide to have subtracted the pressure of respectively monitoring node;

Expansion IATA standard interface increases the monitoring of tools ability;

Remote monitoring and administration according to the order of severity,, and is warned in multiple modes such as mail, notes with different colors, sound, prompting message the risk that monitors, problem;

Carry out the statistical analysis of cabinet-type air conditioner and business datum, the business diagnosis foundation of multi-angle is provided for different user; Unified plan and control just realize the control to the cabinet-type air conditioner software and hardware at the center.

2. method for managing and monitoring according to claim 1, comprising:

Application monitoring and administration module in the IATA standard are transformed, the corba link block with self-aid system is advanced on the cabinet-type air conditioner, corba is connected occur in cabinet-type air conditioner this locality, avoid the conflict of port and airport fire compartment wall;

Expansion reach module, make it by socket protocol can and cabinet-type air conditioner management server, the communication of CUSS platform, according to the anti-fire end flexible arrangement on airport, the software and hardware running status of remote monitoring cabinet-type air conditioner;

Described reach module is carried out cabinet-type air conditioner management server particular command, and described order has covered the SMI standard of IATA, has effectively expanded the managerial ability of cabinet-type air conditioner management server, reaches the function of management cabinet-type air conditioner software and hardware;

For the state of monitoring hardware equipment, the CUSS platform is when capturing device events, and it is a to the agency by agreement module to make a copy for.

3. method for managing and monitoring according to claim 1 and 2 comprises the steps:

Step 1: realize the CUSS platform extension, device events is sent to the agency by agreement module by the socket port; Realizing the agency by agreement module, is IATA standard corba interface conversion the function of self-defining socket interface; Realize the cabinet-type air conditioner management server, can the application and the equipment of cabinet-type air conditioner be managed, and have the ability of differentiated control;

Step 2: the agency by agreement module monitors starts to CUSS platform and cabinet-type air conditioner management server, initiates the request of landing by socket to the cabinet-type air conditioner management server;

Step 3: the cabinet-type air conditioner management server receives request, sends a series of orders of landing the CUSS platform to the agency by agreement module;

Step 4: the agency by agreement module is after CUSS platform and cabinet-type air conditioner management server land successfully respectively, CUSS platform extension module just can send connection request to the agency by agreement module by socket, change and send to the cabinet-type air conditioner management server by the agency by agreement module, whole communication successful connection;

Step 5: CUSS platform extension module by socket to agency by agreement module transmitting apparatus incident;

Step 6: the CUSS platform sends application affairs by corba to the agency by agreement module by IATA standard SMI interface;

Step 7: the agency by agreement module is converted to the socket incident to the application affairs from the corba port;

Step 8: the agency by agreement module sends the Socket server end of socket incident to the cabinet-type air conditioner management server;

Step 9: Socket server-side processes incident is saved in database to event content;

Step 10: subordinate's cabinet-type air conditioner management server timed sending relevant information is given higher level's cabinet-type air conditioner management server;

Step 11: the superior and the subordinate's cabinet-type air conditioner management server can show the user to the application of cabinet-type air conditioner and device events by WEB server separately on browser.

4. method for managing and monitoring according to claim 3, wherein, in described step 1,

CUSS platform extension module can be by the equipment control interface module at the CUSS platform, the equipment state variation is sent out, realize a socket client in addition, by this client device events is sent to the agency by agreement module, in this case, be the relation of socket client and server between CUSS platform and the agency by agreement module.

5. method for managing and monitoring according to claim 3, wherein, described agency by agreement module:

A), send the socket incident to service end as a socket client;

B) as a corba client, visit the CUSS platform in the mode of IATA standard SMI interface, for the CUSS platform, described agency by agreement module will be one and operate in local system service supplier management system;

C) move local errorlevel;

D) carry out the control of windows desktop;

E) monitoring socket and corba service end operation;

F), receive the socket incident that this machine CUSS platform sends as a Socket server end;

6. method for managing and monitoring according to claim 3, wherein, described cabinet-type air conditioner management server comprises two parts: Socket server and Web server.

7. method for managing and monitoring according to claim 3, wherein, described socket server:

A) request of landing of processing protocol proxy module, and be the long connection of agency by agreement module maintenance;

B) event information that sends of processing protocol proxy module, configuration according to cabinet-type air conditioner in the database, these event classifications, and be kept in the database, simultaneously, application affairs and application state sign indicating number are carried out correspondence, device events and equipment state sign indicating number are carried out correspondence, according to application state sign indicating number and equipment state sign indicating number, calculate the conditional code of cabinet-type air conditioner, be kept in the internal memory;

C) send order to the agency by agreement module, require the agency by agreement module to carry out and land the CUSS platform, carry out functions such as errorlevel;

8. method for managing and monitoring according to claim 3, wherein, described web server:

A) carry out system monitoring, comprise the monitoring of sub-web server, cabinet-type air conditioner, application and equipment;

B) carry out user management;

C) carry out system management, comprise airline, sub-cabinet-type air conditioner management server, cabinet-type air conditioner group, IP empowerment management;

D) carry out statistical query, comprise applied statistics, cabinet-type air conditioner statistics, device statistics;

E) carry out log query, comprise Operation Log, daily record is used in system journal, device log, inquiries such as upgrading daily record.

9. method for managing and monitoring according to claim 3, wherein, described step 2:

Realize the module of two timer access socket and corba port in the agency by agreement module, operation conditions by these two module monitors Socket server ends and CUSS platform, any one party starts, the agency by agreement module all can initiate to land the socket server operation, login for the socket server, follow self-defining login mechanism, send the request of landing.

10. method for managing and monitoring according to claim 3, wherein, described step 3:

The socket service processing of cabinet-type air conditioner management server is landed request, if the agency by agreement module is legal, just sends the request of landing the CUSS platform to the agency by agreement module;

Land for the CUSS platform, the agency by agreement module is followed the IATA standard.

11. method for managing and monitoring according to claim 3, wherein, described step 5:

The CUSS platform is issued the incident of agency by agreement module and is used the socket incident, and this incident can directly send to the cabinet-type air conditioner management server by the agency by agreement module.

12. method for managing and monitoring according to claim 3, wherein, described step 6:

What the CUSS platform was issued the agency by agreement module is the corba incident of IATA standard, described incident can not be directly socket interface by the agency by agreement module send to the cabinet-type air conditioner management server.

13. method for managing and monitoring according to claim 3, wherein, described step 7:

Described handle is converted to the socket incident from the application affairs of corba port, only need extract Apply Names, application state from the corba incident to get final product, and need not to change all data in the corba event object.

14. method for managing and monitoring according to claim 3, wherein, described step 9:

Described Socket server end uses the long mechanism that connects to be connected with the agency by agreement module, the effectively restriction of firewall-penetrating.

15. method for managing and monitoring according to claim 3, wherein, described step 10:

Described relevant information is the running status of all cabinet-type air conditioners of this cabinet-type air conditioner management service management, comprising: whether this cabinet-type air conditioner management server is connected with the agency by agreement module, cabinet-type air conditioner is used running status, cabinet-type air conditioner equipment running status.

16. according to the arbitrary described method for managing and monitoring of claim 3 to 15, wherein, the socket communication of using in described each step, all follow with a kind of communications protocol, the content of transmission comprises: message header, type of message, message identifier, message trigger method name, triggering method parameter type, the triggering method content of parameter, the triggering method return value, batch processing message feedback information sequence number, batch processing message feedback information content, the CUSS platform status information, end of message sign.

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