TWI552548B - Integration of a variety of different systems architecture and methods - Google Patents

Description

Architecture and method for integrating multiple dissimilar systems

The present invention relates to a system for managing integration and monitoring; in particular, it relates to an architecture and method for integrating multiple disparate systems, in particular, in a smart network, a plurality of dissimilar systems are separately targeted for one project. Defined as an upper-level integrated application system, a middle-level gateway system and a lower-level automation system with sequential project vertical management procedures, project level backup procedures, project first gateway monitoring and single login (SINGLE-SIGN-ON , SSO) integrated service procedures, project second gateway monitoring and backup integration service procedures, using a dynamic delivery network service technology for management integration, rapid integration of integrated services under a project purpose and its backup services.

In the pre-patent information transmission and service integration system and information transmission and service integration method (Publication No.: 201025948), the main system includes an interface registration repository, a device gateway, a service gateway and its transmission. The method of information, wherein the information transmission device is coupled to a device gateway and receives or transmits information through the device gateway. And the device gateway device is established between the service gateway device according to the service type definition of one of the information transmission devices. The service processing logic of information transmission, however, the information transmission equipment becomes more intelligent and the functions of integration are more and more. Therefore, an information transmission equipment may not only provide a single service, that is, it will have multiple sets of service type definitions, so if According to a similar patent method, a device gateway will not be able to determine the service type definition of the information transmission device to establish service processing logic for information transmission with the service gateway. If the method of the present invention is used, the concept of the project can be used to flexibly amplify a plurality of service type definitions of an information transmission device, and can be established between the device gateways and the service gateways through different project objectives. Service processing logic for information transfer.

The prior art of the patent describes an integrated system comprising an interface registration repository, a device gateway, a service gateway structure and a method for transmitting information, wherein the device gateway and the service gateway are integrated through the comparison. The interface registers the interface information in the repository to dynamically transmit information to the gateway of the destination. However, the disadvantage of this mechanism is that the information transmission device is coupled to a device gateway device. If the device gateway device fails, the information transmission device cannot be transmitted or received through another device gateway device. Will be completely interrupted. The present invention provides a method for the lower layer system (if the comparison is similar to the patent for the information transmission device), after the first middle layer system fails, the second middle layer system can take over the transmission or reception of information (if the comparison and This similar patent is a device gateway device, and the information transmission equipment can continue to provide services.

In the patent pre-incident event automation integration system (Publication No.: 200947361), an event automation integration system that integrates the trigger events of the building environment is provided to provide unified monitoring of monitoring events of various monitoring systems in specific buildings, and to assist managers. Can be managed through a management center. However, the similar patent lacks a monitoring mechanism of the management center. If the management center fails, the manager needs to monitor the monitoring system in each building one by one. A good design. However, if the present invention is used, when the first management center fails, various monitoring systems in the building can still be managed through the second management center, and the manager can monitor events of various monitoring systems in the building through the upper integrated application system. Conduct unified monitoring.

The patent predecessor describes an event automation integration system that integrates trigger events of a building environment to provide unified monitoring of various monitoring events within a specific building, and to assist managers in unified management through a management center. However, with the rise of property management companies, the management of buildings will usually be carried out by property management companies, and the property management companies have their own specific downstream manufacturers to handle the monitoring and maintenance of all electrical and mechanical equipment in the building. The structure proposed by the patent will lack an integrated application system for the management center monitoring event of all buildings. The downstream cooperative manufacturers of the property management company need to send relevant management personnel to monitor the events in the management centers of various places. Management, this will have the disadvantage of increasing labor costs. By using the present invention, the downstream cooperative manufacturers of the property management company can monitor the event monitoring information reported by all the middle-level systems (or the management center if the patent is similar to the original one) in the upper-level integrated application system, thereby saving Labor costs to solve the problem of human use.

It can be seen that there are still many shortcomings in the above-mentioned methods of use, which is not a good design, but 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 this invention.

An architecture and method for integrating multiple dissimilar systems of the present invention Under the purpose of a project, define multiple disparate systems as the architecture of the upper integrated application system, the middle layer gateway system, and the lower layer automation system, and use a dynamic transmission network service technology to carry out the project vertical management procedures and project level preparation. Assistance procedures, project first gateway monitoring and single login (SINGLE-SIGN-ON, SSO) integration service procedures, project second gateway monitoring and backup integration service procedures to complete a project between different systems The information is mutually identified and certified, and then the system monitoring of the middle-level gateway system and the lower-level automation system is provided for a project purpose to ensure that the upper-level integrated application system can stably provide common integrated service information.

At the same time, the permission mechanism of the lower automation system is used to provide different group services under the purpose of a project. The upper layer integrated application system of one of the objectives of the present invention needs to establish a project middle gate identification information according to the purpose of the project to manage the middle gate system under the project purpose, and the middle gate system of the project purpose The project integration system service identification information is established by the project middle-level gateway identification information under the project purpose to manage the lower-level automation system under the project. The purpose of the project is to divide the middle gate system into a first middle gate system and a second middle gate system; the first middle gate system is used to perform the first gate monitoring and single login (SINGLE-SIGN-ON, The SSO) integrated service program and the second middle gate system are used to implement the second gate monitoring and backup integration service procedures. The first middle-level gateway system under the purpose of a project can simultaneously be the first middle-level gateway system or the second middle-level gateway system under other project objectives, but only one first-level middle-level gateway system and one for a project purpose The second middle gate system.

The technology of the present invention has sequential dependencies, and the vertical management procedures for a project purpose must be executed preferentially on top of the horizontal backup procedure, and the first gateway monitoring and single login (SINGLE-SIGN-ON, SSO) integration service must be prioritized. Provided in The second gateway monitoring and backup integration service. The upper-level integrated application system must prioritize the middle-level gateway system, and the middle-level gateway system will control the lower-level automation system. If the middle-level gateway system is not managed by the upper-level integrated application system, the middle-level gateway system cannot manage the lower-level automation system.

The technical features provided by the present invention have the following advantages when compared with other conventional technologies: the architecture and method for integrating multiple dissimilar systems of the present invention are compared with the conventional technologies, and have the advantages of one integration of the system, that is, all integration. . The upper layer integrated application system, the middle layer gateway system and the lower layer automation system of the present invention are distinguished according to the types of services provided by each system under the purpose of a project.

Therefore, a system may be defined as an upper-level integrated application system, a middle-level gateway system or a lower-level automation system to integrate with other external systems for different project purposes, and multiple dissimilar systems under multiple project objectives. Mutual integration will eventually form an integrated organism of a multidimensional tree structure. At the same time, the invention uses a dynamic transmission network service technology to carry out a program vertical management procedure, a project level backup procedure, a project first gateway monitoring and single login (SINGLE-SIGN-ON, SSO) integration service program, project number Two gateway monitoring and backup integration service procedures to solve the problem of integration of different systems with different external systems due to different development platforms, and complete the information under the purpose of the project between different systems. Identification and certification, in turn providing system monitoring of the middle-level gateway system and the underlying automation system for the purpose of the project to ensure that the upper-level integrated application system can stably provide common integration service information.

At the same time, the permission mechanism of the underlying automation system is utilized to provide different group services under the project purpose. The main purpose of the present invention is to provide an integration mechanism of various different dynamic server web pages (ASP) systems with external systems, without changing the system architecture and management of their respective systems. Under the principle of authority, human-machine interface and data access interface, each system can independently develop its own functions, and improve the efficiency of integration of each system with external systems under individual project objectives and the reuse rate of its own services. Enhance the stability of the integrated services provided under the individual project objectives.

The architecture of the present invention refers to defining a plurality of dissimilar systems as an architecture of an upper integrated application system, a middle layer gateway system, and a lower layer automation system under a project purpose, and using a dynamic transmission network service technology to perform project verticalization. Management procedures, project level backup procedures, project first gateway monitoring and SSO integration service procedures, project second gateway monitoring and backup integration service procedures to achieve mutual identification of information under the purpose of a project between dissimilar systems And certification, and then provide system monitoring of the middle-level gateway system and the lower-level automation system for a project purpose to ensure that the upper-level integrated application system can stably provide common integration service information, and at the same time utilize the authority mechanism of the lower-level automation system to provide a project. Different group services under the purpose.

In the framework of the present invention, the upper integrated application system, the middle layer gateway system, and the lower layer automation system are differentiated according to the types of services provided by each system under the purpose of a project, so one system may be in different projects. The purpose is to be defined as an upper-level integrated application system, a middle-level gateway system or a lower-level automation system to integrate with other external systems, and to use the various dynamic server pages (ASP) of the present invention to rely on multiple systems. The integration of multiple dissimilar systems under the project goal will eventually form an integrated organism with a multi-dimensional tree structure, so as to improve the dynamic servo web page (ASP) system for individual project and external systems. Integration efficiency and reuse of its own services.

In addition to the architecture of the present invention, a dynamic transport network service technology refers to a system delivery interface of a source system based on a system interface of a destination system. The network service description language file disclosed by the information parses the service endpoint address, the service connection mode, and the service interface name of the service receiving module of the destination system, and then dynamically combines the service receiving module defined by the destination system. The message packet format is encapsulated in the message packet format by the transmission module of the source system and transmitted to the service receiving module interface of the destination system.

1‧‧‧Upper Integrated Application System

2‧‧‧ Middle Gate System

21‧‧‧ Middle Gate System 1

N2n‧‧‧ middle gate system n2n

3‧‧‧Underline automation system

101‧‧‧External first transmission module

102‧‧‧External second transmission module

103‧‧‧External first receiving module

104‧‧‧External second receiving module

105‧‧‧External display module

106‧‧‧External monitoring module

211‧‧‧External first transmission module

212‧‧‧External second transmission module

213‧‧‧External first receiving module

214‧‧‧External second receiving module

215‧‧‧External Login Module

2n1‧‧‧External first transmission module

2n2‧‧‧External second transmission module

2n3‧‧‧External first receiving module

2n4‧‧‧External second receiving module

2n5‧‧‧External Login Module

4001‧‧‧ project first middle gate identification code

5001‧‧‧ Generated the first integrated service code for the underlying automation system

11001~11006, 12001~12005, 13001~13002‧‧‧ Process steps

4002‧‧‧Special second middle gate identification code

4003‧‧‧Special backup medium-level gateway identification code

5002‧‧‧ Generated the second integrated service code for the underlying automation system

5003‧‧‧Generation of the underlying automation system backup integrated service code

21001~21005, 22001~22003, 23001~23003, 24001~24003‧‧‧ Process steps

7001‧‧‧System first monitoring start notification message

7002‧‧‧System first monitoring cycle message

7003‧‧‧System first monitoring cycle results message

7004‧‧‧System first monitoring cycle summary results

31001~31009, 32001~32006, 33001~33003‧‧‧ Process steps

6001‧‧‧Project First Integrated System Equipment Service Information

6004‧‧‧Project First Integrated System Permission Group Information

6005‧‧‧Project Authorized Group Service

8001‧‧‧Single login to the lower automation system account information

8002‧‧‧Individual login to the lower automation system project authority information

41001~41003, 42001~42008, 43001~43008‧‧‧ Process steps

9001‧‧‧Second monitoring start notification message

9002‧‧‧System second monitoring cycle message

9003‧‧‧Second monitoring cycle results of individual systems

9004‧‧‧System second monitoring cycle summary results

51001~51009, 52001~52006, 53001~53003‧‧‧ Process steps

Please refer to the detailed description of the present invention and the accompanying drawings, and the technical contents of the present invention and its effects can be further understood; the related drawings are:

Figure 1 is a schematic illustration of the architecture of a plurality of distinct systems incorporating the present invention.

Figure 2 is a flow chart of the program vertical flow control program of the method for integrating multiple different systems of the present invention.

Figure 3 is a flow chart of the project level backup procedure of the method for integrating multiple different systems of the present invention.

Figure 4 is a flow chart of the first gateway monitoring service of the project of the method for integrating multiple different systems of the present invention.

FIG. 5 is a flow chart of the first gateway single access (SINGLE-SIGN-ON, SSO) integration service of the method for integrating multiple different systems according to the present invention.

Figure 6 is a flow chart of the second gate monitoring service of the project of the method for integrating multiple different systems of the present invention.

Figure 7 is a flow chart of the second gate redundancy integration service of the project of the method for integrating multiple different systems of the present invention.

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

Hereinafter, the present invention will be further described with reference to the accompanying drawings:

The technical characteristics and innovations of the present invention are in a layered architecture and a management and management process between layers, which define a plurality of different systems as upper-level integrated application systems and middle-level gateways respectively under the purpose of a project. The architecture of the system and the underlying automation system. Under this framework, a system may be defined as an upper-level integrated application system, a middle-level gateway system, or a lower-level automation system to integrate with other external systems for different project purposes, and to comply with multiple project objectives. The integration of multiple distinct systems will eventually form an integrated organism of a multi-dimensional tree structure. This patent also has a sequential project vertical management procedure, project level backup procedure, project first gateway monitoring and single login (SINGLE-SIGN-ON, SSO) integration service program, project second gateway monitoring and preparation The integrated service program uses a dynamic delivery network service technology to integrate the systems under the project purpose, and quickly integrates the integrated services and backup services under the individual project objectives to improve the integration of each system with the external system. Efficiency and the reuse of its own services, and the ability to consistently provide common integration services for individual project purposes.

Please refer to FIG. 1. FIG. 1 is a schematic diagram of the architecture of the integrated multi-dissimilar system of the present invention. As shown in FIG. 1 , the present invention is an architecture and method for integrating multiple dissimilar systems, which mainly defines a plurality of dissimilar systems in an upper integrated application system 1 and a plurality of intermediate gateway systems 2 . Multiple lower layers The architecture of the automation system 3, and the use of a dynamic delivery network service technology for project vertical management procedures, project level backup procedures, project first gateway monitoring and single login (SINGLE-SIGN-ON, SSO) integration services Procedures, project second gateway monitoring and backup integration service procedures to complete the mutual identification and certification of information under the purpose of the project between different systems, and then provide the system of the middle gate system and the lower automation system for the purpose of the project. Monitoring ensures that the upper-level integrated application system can stably provide common integration service information, and utilizes the permission mechanism of the lower-level automation system to provide different group services under the project purpose. Please refer to the system module diagram of FIG. 1 for implementing the dynamic transmission network service technology and other related programs of the present invention.

The upper integrated application system 1 can cooperate with the external first transmission module 101, the external second transmission module 102, the external first receiving module 103, the external second receiving module 104, the external display module 105, and the external monitoring module. The group 106; the middle layer gateway system 21 can cooperate with the external first transmission module 211, the external second transmission module 212, the external first receiving module 213, the external second receiving module 214, and the external login module 215; The middle gate system n 2n can cooperate with the external first transmission module 2n1, the external second transmission module 2n2, the external first receiving module 2n3, the external second receiving module 2n4, and the external login module 2n5; the lower layer automation system One 31 can cooperate with the external transmission module 311, the external receiving module 312, and the external display module 313; the lower automation system m 3m can cooperate with the external transmission module 3m1, the external receiving module 3m2, and the external display module 3m3.

To illustrate the steps of the present invention, the first middle gate system and the second middle gate system are respectively used to represent the middle gate system 21 and the middle gate system 22 in the implementation steps of the present technology. Corresponding characters and identification information of each system are as follows: the identification information of the upper integrated application system 1 is "s1", the identification information of the first middle layer gateway system 21 is "s21", the second middle The identification information of the layer gateway system 22 is "s22", the identification information of the lower layer automation system 3 is "s3", and the identification information of the project purpose is "pa".

The dynamic transmission network service technology of the present invention is to analyze the service endpoint of the service receiving module of the destination system by the service delivery module of the source system according to the network service description language file provided by the system interface of the destination system. The address, the service connection mode, and the service interface name are dynamically combined to form a message packet format defined by the service receiving module of the destination system, and the transmission module of the source system encapsulates the transmission content in the message packet format and transmits the message to the destination. The service receiving module interface of the system.

Since the transmission module of the source system dynamically parses and encapsulates the message packet format defined by the receiving module of the destination system according to the network service description language file, when the destination system modifies the message packet defined by the service receiving module The format, source system transport module can still dynamically change the format and content of the transmitted message packet by parsing the network service description language file. Since the service receiving module developed by different systems using different platforms has different network service description files, the network service description language file is dynamically parsed by one of the inventions, and the receiving module for transmitting the content to the destination system is encapsulated. The defined message packet format solves this problem.

Please refer to FIG. 2, which is a flow chart of the program vertical manifold procedure of the method for integrating multiple different systems according to the present invention. As shown in Fig. 2, after the administrator establishes a set of project purpose identification information in the upper integrated application system 1, 11001, the first middle gate identification code 4001, 11002 is generated. The content of the first middle gate identification code 4001 of the project "s1pas21" is the identification information "s1" + project identification information "pa" + source system - first middle gate system 21 from the source system - upper integrated application system 1 The identification information "s21" is composed of. The upper integrated application system 1 external first transmission module 101 is based on the first middle gate of the project The system interface of the system corresponding to the target system identification information "s21" in the track identification code 4001 provides information. The first middle gate identification code 4001 of the project is transmitted to the destination system using the dynamic transmission network service technology described above - the first middle gate System 21, 11003.

After receiving the first middle-layer gateway identification code 4001, the first receiving module 203 of the first middle-level gateway system 21 parses the information content, and extracts the source system identification information “s1” according to the source system. The system interface subscription information of the system corresponding to the identification information is used to authenticate the source system-upper level integrated application system 1, 12002. If the comparison is successful, the first middle-level gateway system 21 can provide the administrator to set the first middle-level gateway system 21 in the project according to the project identification information "pa" in the received first middle-level gateway identification code 4001. Or multiple sets of project first integrated system services to generate one or more sets of underlying automation systems with the first integrated service code 5001, 12003. The first integrated service code 5001 of each group of lower-level automation system will correspond to a group of project identification information of a lower-level automation system 3, so the content of the first integrated service code 5001 of each group of lower-level automation system "s1pas21s3" will be the first project. The middle gate identification code 4001"s1pas21"+ each group of dedicated lower layer automation system 3 identification information "s3" is composed, and the first middle transmission module 201 is externally connected by the first middle layer gateway system 21 according to each group of the exclusive lower layer automation system. 3 The system interface of the system corresponding to the identification information provides information. The first integrated service code 5001 of the lower-level automation system of the project is transmitted to the dedicated lower-level automation system 3, 12004 by using the dynamic transmission network service technology described above.

After receiving the first integrated service code 5001 of the lower-level automation system of the project, the external receiving module 302 of the lower-level automation system 3 parses the information content and extracts the system identification information of the first middle-layer gateway identification code 4001 of the project. S21", and the system corresponding to the system identification information according to the purpose The system interface subscription information is used to authenticate the information source system-first middle level gateway system 21, 13002. If the comparison is successful, the individual underlying automation system 3 of the project can then provide information to the system interface of the system corresponding to the system identification information "s21" of the first integrated service code 5001 of the lower-level automation system. The service technology transmits the project first integrated system equipment service information and the project first integrated system authority group information to the destination system - the first middle gate system 21.

After the first integrated service code 5001 of the lower-level automation system of all the projects under the purpose of completing the project is transmitted to each group of the dedicated lower-level automation system 3, the first first transfer module 201 of the first middle-level gateway system 21 further relates all of them. The first integrated service code 5001 of the lower-level automation system for the individual project of the project purpose is based on the system corresponding to the source system identification information in the first middle-level gateway identification code 4001 of the first integrated service code 5001 of each group of the lower-level automation system. The system interface provides information. The first integrated service code 5001 of the lower-level automation system of the project is transmitted to the source system-upper-level integrated application system 1,12005 by using the above-mentioned dynamic transmission network service technology.

The first integrated receiving module 103 of the upper integrated application system 1 receives the first integrated service code 5001 of the lower-level automation system of the project, and then parses the information content, and extracts the system identification information “s21” of the first middle-layer gateway identification code 4001 of the project. And according to the system interface subscription information of the system corresponding to the purpose system identification information, the information source system-first middle level gateway system 21 is authenticated and compared, 11004, if the comparison is successful, the project objective upper layer integrated application system 1 Then, according to the received first-level integrated service code 5001 of the lower-level automation system of the project, the first integrated system equipment service information 6001 of the group of projects received by the subsequent project purpose is determined by the lower-level automation system of the project.

Please refer to FIG. 3, which is a flow chart of the program level backup procedure of the method for integrating multiple different systems according to the present invention. As shown in Figure 3, after completing the project vertical management procedure for a project purpose, the manager can set up the second middle-level gateway system of the project in the upper-level integrated application system 1, 21001, and generate the second middle-level gateway of the project. Identification code 4002 and the special backup medium-level gateway identification code 4003, 21002. The content of the second middle-level gateway identification code 4002 "s1pas22" and the content of the intermediate backup gateway identification code 4003 "s1pas22" are all identified by the source system-upper integrated application system "s1" + project identification information The "pa" + destination system - the second middle-level gateway system identification information "s22" is combined.

The upper integrated application system 1 converts the first integrated service code 4004 of the one or more sets of lower-level automation systems received by the external first receiving module 103 in the above-mentioned project vertical management program into one or more sets of lower-level automation systems. The second integrated service code 5002 and the underlying automation system are redundantly integrated with service codes 5003, 21003.

The content of the second integrated service code 5002 of the project lower-level automation system "s1pas22s3" and the content of the underlying automation system backup integration service code 5003 "s1pas22s3" is the project of the first integrated service code 4004"s1pas21s3" of the original project lower-level automation system. The first middle gate identification code 4001"s1pas21" is replaced by the second middle gate identification code 4002"s1pas22" and the intermediate backup middle gate identification code 4003"s1pas22".

The upper integrated application system 1 external first transmission module 101 is based on the target system identification information "s21" in the first middle layer gateway identification code 4001 of the project, and the system interface of the corresponding system provides information using the above dynamic transmission network service technology. The converted lower-level automation system second integrated service code 5002 is transmitted to the destination system-first middle-level gateway system 21, 21004.

At the same time, the external second transmission module 102 of the upper integrated application system 1 provides the information according to the target system identification information "s22" in the middle layer gateway identification code 4003, and the system interface of the corresponding system provides information using the dynamic transmission network described above. The road service technology transmits the converted lower-level automation system backup integrated service code 5003 to the destination system - the second middle-level gateway system 22, 21005.

After the first receiving module 203 of the first middle-level gateway system 21 receives the second integrated service code 5002 of the lower-level automation system of the project, 22001, the information content is parsed, and the source system identification information "s1" is taken out, and according to the source The system interface subscription information of the system corresponding to the system identification information is compared with the source system-upper layer integrated application system 1, 22002. If the comparison is successful, the first middle layer gateway system 21 external first transmission module 201 is based on the project. The lower layer automation system 3 under the second integrated service code 5002 identifies the information "s3", and the system interface of the corresponding system provides information. The above-mentioned dynamic transmission network service technology is used to transmit the second integrated service code 5002 of the lower-level automation system of the project. To the group's exclusive underlying automation system 3, 22003.

The second receiving module 204 of the second middle-level gateway system 22 receives the integrated lower-level automation system backup service code 5003, 23001, parses the information content, and extracts the source system identification information "s1" according to the source. The system interface subscription information of the system corresponding to the system identification information authenticates the source system-upper layer integrated application system 1, 23002. If the comparison is successful, the second middle layer gateway system 22 will be integrated according to the lower layer automation system of the project. The service code 5003 is used as a discrepancy for the next-level automation system for the subsequent backup of the second integrated system equipment service information 6002 from the individual lower-level automation system. The external receiving module 302 of the lower-level automation system 3 receives the second integrated service code 5002 of the lower-level automation system of the project, 24001, analyzes the information content, and takes out the project knowledge of the second middle-level gateway identification code 4002 of the project. Do not information "pa", and according to the project identification information "pa" corresponds to the project identification information "s21" of the project identification information of the first middle-level gateway identification code 4001 of the first integrated service code 5001 of the lower-level automation system of the project. .

The external lower-level automation system 3 external receiving module 302 performs authentication comparison on the information source system-first middle-level gateway system 21 according to the system interface subscription information of the system corresponding to the target system identification information "s21", 24002, if the comparison is successful Then, the individual lower-level automation system 3 can then provide information on the system interface of the system corresponding to the system identification information "s22" of the second integrated service code 5002 of the lower-level automation system, as the second integrated system equipment service for the subsequent transmission of the project purpose. The basis of the purpose of the information 6002.

Please refer to FIG. 4, which is a flow chart of the first gateway monitoring service of the project of the method for integrating multiple different systems according to the present invention. As shown in Figure 4, after completing the above vertical management procedures and horizontal backup procedures, the administrator activates the first gateway monitoring service for the purpose of the project in the upper integrated application system 1 external monitoring module 106, 31001, upper layer The integrated first application module 101 of the integrated application system 1 provides information according to the system interface of the system corresponding to the system identification information "s21" of the first middle-level gateway identification code 4001, and uses the above-mentioned dynamic transmission network service technology to project the project. A middle gate identification code 4001 and a first monitoring start notification message 7001 are transmitted to the first middle level gateway system 21, 31002 of the project purpose.

After the first receiving module 203 of the first middle gate system 21 receives the first middle gate identification code 4001 and the first monitoring start notification message 7001, 32001, the received information content is parsed, and the source system identification information is taken out. "s1", and based on the system interface subscription information of the system corresponding to the source system identification information, the source system-upper layer integrated application system 1 is authenticated, 32002, if the comparison is successful, the first middle layer gateway system 21 is external The first transmission module 201 is compared according to the received first middle gate identification code 4001 All related project lower-level automation system first integrated service code 5001, and according to the related system, the lower-level automation system, the first integrated service code 5001, the lower-level automation system 3, the system interface of the system corresponding to the identification information, provides information, and uses the above-mentioned dynamic transmission network. The road service technology sequentially transmits the first integrated service code 5001 and the system first monitoring period message 7002 of each group of lower-level automation systems to the corresponding lower-level automation system 3.

At the same time, the first middle layer gateway system 21 external first transmission module 201 and the project first middle layer gateway identification code 4001 and the system first monitoring period message 7002 are based on the source of the received first middle layer gateway identification code 4001. The system interface of the system corresponding to the system identification information "s1" provides information and transmits to the upper integrated application system 1, 32003 by using the above-mentioned dynamic transmission network service technology. After receiving the first integrated service code 5001 of the lower-level automation system and the first monitoring period message 7002 of the system, the related external automation system 3 external receiving module 302 parses the received information content and extracts the target system identification information. S21", and according to the system interface subscription information of the system corresponding to the purpose system identification information, the information source system-first middle level gateway system 21 is authenticated and compared, 33002, if the comparison is successful, then all relevant lower layers of the project purpose The external receiving module 302 of the automation system 3 can reply to the system first monitoring period result message 7003, 33003 according to the system first monitoring period message 7002.

The first first transmission module 201 of the first middle-level gateway system 21 receives the first monitoring period result message 7003 of the system that is replied by all the relevant lower-level automation systems 3, or the first monitoring period result of the system that has not received the reply. After the message 7003, 32004, when transmitting the next system first monitoring period message 7002, the system first monitoring period result message 7003 is first summarized, 32005, and according to the source system of the first middle layer gateway identification code 4001. The system interface of the system corresponding to the identification information "s1" provides information to use the above The state-of-the-art transport network service technology transmits the first-stage gateway identification code 4001 of the project, the first monitoring period message 7002 of the system, and the summary result 7004 of the first monitoring period of the system to the upper-level integrated application system 1, 32006 of the project purpose.

After completion, the first first transfer module 201 outside the first middle level gateway system 21 of the project purpose can then repeatedly perform the transmission of the next system first monitoring period message 7002. The first integrated receiving module 103 of the upper integrated application system 1 according to the received first middle gate identification code 4001, the first monitoring period message 7002 of the system, and the first monitoring period of the secondary system are summarized results 7004, 31003, 31005, The received information content is parsed, the target system identification information "s21" is taken out, and the information source system-first middle layer gateway system 21 is authenticated and compared according to the system interface subscription information of the system corresponding to the target system identification information. 31004, 31006, if the comparison is successful, the external display module 105 of the upper layer integrated application system 1 of the project purpose can be based on the first middle gate identification code 4001 of the project, the first monitoring period information of the system, and the first system of the subsystem. The monitoring cycle summary result 7004 shows the monitoring results, 31007. After the first monitoring application service is started, the external monitoring module 106 of the upper integrated application system will periodically check whether the first monitoring period message 7002 of the system is received and the summary result of the first monitoring period of the system is 7004, 31008. If the system first monitoring period message 7002 and the system first monitoring period summary result 7004 are received without timing, it indicates that the first middle layer gateway system 21 cannot provide the system first monitoring and single login (SINGLE-SIGN-ON). , SSO) service, the upper integrated application system 1 external monitoring module 106 will initiate the second gateway monitoring service for the purpose of the project, 31009.

Please refer to FIG. 5. FIG. 5 is a flow chart of the first gateway single access (SINGLE-SIGN-ON, SSO) integration service of the method for integrating multiple different systems according to the present invention. As shown in Figure 5, the exterior of the individual lower automation system 3 After the transmission module 301 receives the system first monitoring period message 7002 according to the external receiving module 302 of the individual lower layer automation system 3, 43001, the related project first integrated system equipment service information 6001 and the project can be started to be transmitted. The first integrated system rights group information 6004. The individual lower-level automation system 3 external transmission module 301 takes out the project identification information "pa" of the first integrated service code 5001 of the lower-level automation system received by the external receiving module 302 of the individual lower-level automation system 3, and compares it with the project. The first integrated service code 5001 of the lower-level automation system of the identification project, together with the equipment and permission group information of the project purpose, constitutes the project of the individual lower-level automation system 3, the first integrated system equipment service information 6001 and the project first integrated system permission group. Group information 6004, 43002, according to the system interface of the system identification information "s21" of the first integrated service code 5001 of the lower-level automation system of the project, providing information using the above-mentioned dynamic transmission network service technology The integrated system equipment service information 6001 and the project first integrated system authority group information 6004 are transmitted to the target system of the project purpose - the first middle gate system 21, 43003.

The first receiving module 203 of the first middle-level gateway system 21 receives the information of the received information after receiving the individual lower-level automation system 3 project first integrated system device service information 6001 and the project first integrated system permission group information 6004, 42001. Performing analysis, taking out the system interface subscription information of the system corresponding to the system "s3" of the underlying automation system 3 under the first integrated service code 5001 of the project lower-level automation system, and performing authentication comparison on the lower-level automation system 3, 42002, if the comparison is successful, Then, the first first transmission module 201 of the first middle-level gateway system 21 of the project aims to provide information according to the system interface of the system corresponding to the source system identification information "s1" of the first integrated service code 5001 of the received lower-level automation system. Use the above dynamic delivery network service technology to target the project The project first integrated system equipment service information 6001 was transmitted to the upper layer integrated application system 1, 42003 of the project purpose.

The first integrated receiving module 103 of the upper integrated application system 1 parses the first integrated service code 5001 of the lower-level automation system of the first integrated system device service information 6001 of the received project, and extracts the target system identification information “s21”. And according to the system interface subscription information of the system corresponding to the purpose system identification information, the first middle layer gateway system 21 of the information source system is authenticated and compared, 41001, 41002, if the comparison is successful, the upper integrated application system 1 external display mode The group 105 will be able to determine the purpose of the project according to the first integrated service code 5001 of the lower-level automation system of the first integrated system equipment service information 6001 of the received project, and then display all the information of the lower-level automation system equipment of the project purpose, 41003.

The administrator sets the external login module 205 of the first middle-level gateway system 21 according to the first lower-level automation system project first integrated system permission group information 6004 received by the first receiving module 203 outside the first middle-level gateway system 21 One or more sets of single login underlying automation system account information 8001 and its individual login one or more sets of lower level automation system project authority information 8002, 42004, by the first middle layer gateway system 21 external first transmission module 201 according to each group Log in to the lower automation system account 8001 and its individual login one or more groups of lower-level automation system project permission information 8002 project lower-level automation system first integrated service code 5001, one by one according to each group of lower-level automation system first integrated service code 5001 below the layer The system interface of the system corresponding to the identification system "s3" of the automation system 3 provides information. The first integrated service code 5001 of the lower-level automation system of the project is transmitted by using the above-mentioned dynamic transmission network service technology, and the single-entry lower-level automation system account information 8001 and its individual logins are used. The group's lower automation system project authority information 8002 is transmitted to the project. Lower-level automation systems 3,42005.

The lower-level automation system 3 external receiving module 302 is based on the received first-level automation system first integrated service code 5001, the single-entry lower-level automation system accounting information 8001 and its individual login to the group lower-level automation system project permission information 8002, 43004, Parsing the received information content, extracting the system identification information "s21" of the first integrated service code 5001 of the lower-level automation system of the project, and according to the system identification information of the system corresponding to the system identification information, the first information source system The middle gateway system 21 performs the authentication comparison, 43005. If the comparison is successful, the received information will be used as the basis for the subsequent single login authority comparison, 43006. Subsequently, when the first middle gateway system 21 external login module 205 receives the single login password 42006 of the registrant and completes the single login (SINGLE-SIGN-ON, SSO) authentication 42007, the external login mode of the first middle gateway system 21 The group 205 will provide information according to the system interface of the system corresponding to the underlying automation system identification information "s3" of the first integrated service code 5001 of the underlying automation system 3 of the underlying automation system account information 8001. The first integrated service code 5001 of the lower-level automation system of the project and the single-entry lower-level automation system account information 8001 of the logged-in user are transmitted to the lower-level automation system 3, 42008 by using the above-mentioned dynamic transmission network service technology, and the lower-level automation system 3 The external display module 303 compares the first integrated service code 5001 and the single login lower-level automation system accounting information 8001 of the received lower-level automation system to each of the previous projects received by the lower-level automation system 3 external receiving module 302. The lower level automation system first integrated service code 5001 and its single login lower level automation system account Confidential Information 8001 and its individual login to the group's lower automation system project authority information 8002, 43007, if the comparison is successful, the lower automation system 3 external display module 303 is then based on the single login to the lower automation system accounting information 8001 and its individual Log in to the group's lower automation system project permission information 8002 to display the login Project Authorization Group Service 6005, 43008.

Please refer to FIG. 6. FIG. 6 is a flow chart of the second gate monitoring service of the project for integrating the multiple different systems according to the present invention. As shown in FIG. 6, when the upper layer integrated application system 1 external monitoring module 106 starts the second gate monitoring service of the project purpose, 51001, the upper layer integrated application system 1 of the project purpose external external transmission module 102 is based on the project. The system interface of the system corresponding to the system identification information "s22" of the second middle gate identification code 4002 provides information. The second middle gate identification code 4002 and the second monitoring start notification message are transmitted by using the dynamic transmission network service technology described above. 9001 is transmitted to the second intermediate gateway system 22, 51002.

After the second receiving module 204 of the second middle gate system 22 receives the second middle gate identification code 4002 and the second monitoring start notification message 9001, 52001, the received information content is parsed, and the source system identification information is taken out. "s1", and based on the system interface subscription information of the system corresponding to the source system identification information, the source system-upper layer integrated application system 1 is authenticated, 52002, if the comparison is successful, the second middle layer gateway system 22 is external The second transmission module 202 compares all the relevant lower-level automation system backup service code 5003 according to the received second middle-level gateway identification code 4002, and according to the related group lower-level automation system backup integration service Code 5003 lower layer automation system 3 identifies the system interface of the system corresponding to the information. Provides information by using the above-mentioned dynamic delivery network service technology to sequentially transfer the sub-system automation system backup service code 5003 and the system second monitoring period message 9002. To correspond to the underlying automation system 3.

At the same time, the second middle layer gateway system 22 is external to the second transmission module 202 and the second middle layer gateway identification code 4002 and the system second monitoring period message 9002 received by the 52001 are based on the second middle layer gateway identification code 4002 of the project. Come The system interface of the system corresponding to the source system identification information "s1" provides information to the upper layer integrated application system 1, 52003, which is synchronously transmitted to the project using the above-described dynamic delivery network service technology. After receiving the integrated lower-level service code 5003 and the second monitoring period message 9002 of the system, the related lower-level automation system 3 external receiving module 302 parses the received information content and extracts the target system identification information. S22", and according to the system interface subscription information of the system corresponding to the target system identification information, the information source system-second middle level gateway system 22 is authenticated and compared, 53002, if the comparison is successful, all related lower layers of the project purpose The external receiving module 302 of the automation system 3 can reply to the second monitoring period result message 9003, 53003 of the system according to the second monitoring period message 9002 of the system. The second second transmission module 202 of the second middle-level gateway system 22 receives the system second monitoring period result message 9003 of all the relevant lower-level automation systems 3 of the secondary system second monitoring period message 9002, or does not receive the reply. After the system second monitoring period result message 9003, 52004, when transmitting the next system second monitoring period message 9002, the second system monitoring period result message 9003 is first summarized, 52005.

And providing information according to the system interface of the system corresponding to the source system identification information "s1" of the second middle-level gateway identification code 4002 corresponding to the received second monitoring initiation notification message 9001, using the above-mentioned dynamic transmission network service technology The project second middle gate identification code 4002, the system second monitoring period message 9002, and the second monitoring period summary result 9004 of the secondary system are transmitted to the upper integrated application system 1, 52006. The second integrated receiving module 104 of the upper integrated application system 1 is based on the received second middle layer gateway identification code 4002, the second monitoring period message 9002 of the system, and the second monitoring period of the second system. The result is 9004, 51003, 51005. Parsing the received information content, taking out the target system identification information "s22", and identifying the information according to the purpose According to the system interface subscription information of the system, the information source system-second middle level gateway system 22 is authenticated and compared, 51004, 51006. If the comparison is successful, the upper integrated application system 1 display module 105 will be based on the second project. The middle gate identification code 4002, the system second monitoring period message 9002, and the second monitoring period summary result 9004 of the secondary system are displayed, 51007.

The upper integrated application system 1 external monitoring module 106 will periodically check whether the external first receiving module 103 of the upper layer integrated application system 1 has timing after completing the second gateway monitoring service for the purpose of the project. Receiving the system first monitoring period message 7002 and the system first monitoring period summary result 7004, 51008, if the project purpose upper layer integration application system 1 external first receiving module 103 has the system receiving the project purpose a monitoring period message 7002, a first monitoring period summary result 7004 of the system, and an external second receiving module 104 also receiving a system second monitoring period message 9002 and a second monitoring period summary result 9004 of the secondary system, indicating When the gateway monitoring service has returned to normal, the upper integrated application system 1 external monitoring module 106 will stop the second gateway monitoring service of the project, and the upper integrated application system 1 external second transmitting module 102 is based on the second project. The system interface of the system corresponding to the system identification information "s22" of the middle gate identification code 4002 provides information using the above dynamic transmission The second technical service road project identifier middle gateway 4002 and the second monitoring stop notification message 9005 is transmitted to the second gateway system 22,51009 middle.

After receiving the second middle-level gateway identification code 4002 and the second monitoring stop notification message 9005, the second receiving module 204 of the second middle-level gateway system 22 parses the received information content and extracts the source system identification information. "s1", and according to the system interface subscription information of the system corresponding to the source system identification information, the source system-upper layer integrated application system 1 is authenticated and compared. If the comparison is successful, the second transfer module 202 outside the second middle level gateway system 22 immediately stops the second monitoring period message 9002 for all the lower automation systems 3 and the upper integrated application system 1 timing transmission system.

Please refer to FIG. 7. FIG. 7 is a flow chart of the second gate redundancy integration service of the solution for integrating multiple heterogeneous systems according to the present invention. As shown in FIG. 7, the lower-level automation system 3 external transmission module 301 receives the integrated lower-level automation system backup integrated service code 5003 and the system second monitoring period message 9002 according to the lower-level automation system 3 external receiving module 302 at 53001. , 63001, that is, the transmission of the first integration system equipment service information 6001 corresponding to the second monitoring period message 9002 of the system must be stopped, 63002, and the lower-level automation system prepared by the external receiving module 302 of the lower automation system 3 is prepared. The assistance service code 5003 takes out the project identification information "pa", and then combines the device-related information corresponding to the project purpose identification information with the project lower-level automation system second integrated service code 5002 to form a project second integrated system device. Service Information 6002.

Then, according to the system interface of the system corresponding to the system identification information "s22" of the second integrated service code 5002 of the project lower-level automation system, the information is transmitted to the target system-second middle-level gateway system by using the above-mentioned dynamic transmission network service technology. 63003. The second receiving module 204 of the second middle-level gateway system 22 receives the second integrated system device service information 6002 of the project, 62001, parses the received information, and takes out the lower layer of the second integrated service code 5002 of the lower-level automation system of the project. The automation system 3 identifies the system interface subscription information of the system corresponding to the information "s3", and performs authentication comparison on the lower layer automation system 3, 62002. If the comparison is successful, the second middle layer gateway system 22 external second transmission module 202 is immediately Providing information transmission according to the system interface of the system corresponding to the source system identification information "s1" of the second integrated service code 5002 of the received lower-level automation system The second integrated system device service information 6002 of the project is transmitted to the upper integrated application system 1, 62003 by using the dynamic transmission network service technology described above.

The external integrated application system 1 external second receiving module 104 analyzes according to the information content of the received second integrated system device service information 6002, and extracts the system identification information of the second integrated service code 5002 of the lower-level automation system of the project. And, according to the system interface subscription information of the system corresponding to the purpose system identification information, the second middle layer gateway system 22 of the information source system is authenticated and compared, 61001, 61002, if the comparison is successful, the upper integrated application system 1 is externally The display module 105 displays the device-related information of the project purpose, 61003, according to the second integrated service code 5002 of the project lower-level automation system of the second integrated system device service information 6002.

The detailed description of the present invention is intended to be illustrative of a preferred embodiment 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 has many of the above-mentioned functions that are not in the traditional methods of the past. It has fully complied with the statutory invention patent requirements of novelty and progressiveness, and applied for it according to law. Approved this invention patent application, in order to invent invention, to the sense of virtue.

4001‧‧‧ project first middle gate identification code

5001‧‧‧ Generated the first integrated service code for the underlying automation system

11001~11006, 12001~12005, 13001~13002‧‧‧ Process steps

Claims (7)

An architecture for integrating multiple disparate systems, comprising at least one of: an upper layer integrated application system comprising a plurality of external transmission modules, a plurality of external receiving modules, an external display module and an external monitoring module a plurality of middle-level gateway systems, comprising a plurality of middle-level gateway subsystems, each comprising a plurality of external transmission modules, a plurality of external receiving modules, and an external login module, the middle-level gateway systems receiving the The information of the upper integrated application system and the lower layer automation system for mutual identification and authentication; and the plurality of lower layer automation systems, comprising a plurality of lower layer automation subsystems each including an external transmission module, an external receiving module and a An external display module for receiving and monitoring the information; wherein the upper integrated application system uses a dynamic delivery network service technology to perform a program vertical management procedure, a project level backup procedure, and a project first gateway monitoring And single sign-on (SINGLE-SIGN-ON, SSO) integration service procedures and project second gateway monitoring and backup integration service procedures to provide These underlying automation system monitored by the plurality of middle gateway system. A method for integrating a plurality of different systems, the steps comprising at least: A. an upper integrated application system establishes a project purpose identification information and generates a project first middle gate identification code according to the project purpose information, and the outer layer of the upper integrated application system The first transmission module transmits the first middle gate identification code and a data of the project to the first middle gate system; B. the first first receiving module of the first middle gate system receives the first middle gate of the project The road identification code, the first middle gate identification code of the project is used to authenticate the information source, and after the certification, the lower layer automation system is generated. The first integrated service code; C. The external first transmission module of the first middle-level gateway system dynamically transmits the first integrated service code of each lower-level automation system of the project to the lower-level automation system; D. the lower-level automation system receives each The first integrated service code of the lower-level automation system of the project carries out the data source certification, and is authenticated and returned to the first middle-level gateway system; E. The first middle-level gateway system external first transmission module will be the lower layer of each project The first integrated service code of the automation system is dynamically transmitted to the upper integrated application system; and F. the external first receiving module of the upper integrated application system receives the first integrated service code of each underlying automation system of the project to perform the data source Certification. The method for integrating a plurality of different systems as described in claim 2, wherein the upper integrated application system can further perform a project level backup procedure, which includes: (1) setting a second middle gate system of the project And generate the second middle-level gateway identification code and the special backup medium-level gateway identification code; (2) generate the second integrated service code of the lower-level automation system of the project and the backup integrated service code of the lower-level automation system of the project; (3) Simultaneously, external The first transmission module dynamically transmits the second integrated service code of the lower-level automation system of the project to the first middle-level gateway system; the external second transmission module dynamically transmits the integrated lower-level automation system backup integrated service code to the second middle-level gateway system. ; (4) In step (3), the first receiving module of the first middle-level gateway system receives the second integrated service code of the lower-level automation system of the project and performs data source authentication, and if it fails, returns to the external first receiving mode. Group, if successful, the external first transfer module dynamically transmits the second integrated service code of the individual project lower-level automation system to the lower-level automation system; (5) the external second receiving mode of the second intermediate-layer gateway system in step (3) The group receives the underlying automation system backup integration service code and performs data source authentication, and if it fails, returns to the external second receiving module, if successful, ends this step; and (6) the first middle layer gateway system The external receiving module receives the second integrated service code of the lower-level automation system of the individual project and performs data source authentication. If it fails, it is transmitted back to the external receiving module. If successful, the process ends. The method for integrating a plurality of different systems as described in claim 2, wherein the upper integrated application system can further perform a project first gateway monitoring service process, which includes: (1) an upper integrated application system The external monitoring module activates the first gateway monitoring service, and the external first transmitting module dynamically transmits the first middle gate identification code and the first monitoring start notification message to the first middle gate system; (2) at the same time, The first receiving module of the first middle gate system receives and authenticates the data source; the external monitoring module periodically checks whether the first gateway monitoring service is normal, and if so, continuously monitors, if not, the external monitoring module Starting the second gateway monitoring service; (3) in step (2), the first first transmission module of the first middle-level gateway system periodically sets the first integrated service code and system of the lower-level automation system of the project A monitoring period message is dynamically transmitted to the lower-level automation system of the individual purpose, and the first middle-layer gateway identification code of the project and the first monitoring period information of the system are dynamically transmitted to the upper-level integrated application system; (4) then, the lower-level automation system The external receiving module receives and authenticates the data source. If successful, the external receiving module returns the first monitoring period result message of the system to the external first transmitting module of the first middle-level gateway system. If it fails, the step ends. (5) the external first transmission module of the first middle-level gateway system receives and summarizes the first monitoring period result information of each system to generate a summary result of the first monitoring period of the subsystem; (6) the first middle layer The external first transmission module of the gateway system dynamically transmits the first middle gate identification code of the project and the first monitoring period information of the system, and the summary result of the first monitoring period of the subsystem to the upper integrated application system; and (7) The external first receiving module of the upper integrated application system receives and performs data source authentication, and if it fails, returns to the external first connection Modules, if successful, to an external display module displays the monitoring results. The method for integrating a plurality of different systems as described in claim 2, wherein the first middle gate system is further capable of performing a SINGLE-SIGN-ON (SSO) integrated service flow. It further includes: (1) the external receiving module of the lower automation system receives the first integrated service code of the lower-level automation system of the project and the first monitoring cycle information of the system; (2) the lower-level automation system generates the complex project, the first integrated system equipment service information and the project. First integrated system permission group information; (3) The external transmission module of the lower automation system dynamically transmits the first integrated system equipment service information of the project and the first integrated system permission group information of the project; (4) the external first receiving module of the first middle layer gateway system Receiving and performing data source authentication. If it fails, it is transmitted back to the external first receiving module. If successful, the external first transmitting module dynamically transmits the first integrated system device service information of the project to the upper integrated application of the target system. (5) The external first receiving module of the upper integrated application system receives and performs data source authentication, and if it fails, returns to the external first receiving module, and if successful, the external display module displays each project. The first integrated system equipment service information; (6) the first middle-level gateway system sets the single-entry lower-level automation system account information and its individual login lower-level automation system project authority information according to the first integrated system permission group information of the project; 7) The first transmission module outside the first middle-level gateway system will be the first integrated service code of the lower-level automation system of the project, and the single-input lower-level automatic The system account information and its individual login lower-level automation system project authority information are dynamically transmitted to the individual lower-level automation system. (8) The external receiving module of the lower-level automation system receives and performs data source authentication. If it fails, it is transmitted back to the external receiving module. Group, if successful, the received information will be used as the basis for subsequent single-login access comparison; and (9) Next, the first middle-level gateway system confirms the first middle-level gateway single-entry (SINGLE-SIGN-ON, SSO) Integrated service certification, if it fails, outside The login module refuses to receive the single login password. If successful, the external login module transmits a single login password to the external display module of the lower automation system. The external display module displays the login authorization group according to the received information. service. The method for integrating a plurality of different systems as described in claim 2, wherein the upper integrated application system can further perform a second gateway monitoring service process, which further comprises: (1) the upper integrated application The external monitoring module of the system activates the second gateway monitoring service; (2) the external second transmission module dynamically transmits the second middle gate identification code and the second monitoring initiation notification message of the project to the second middle gate system of the destination system (3) At the same time, the external second receiving module of the second middle-level gateway system receives and performs data source authentication, and if it fails, returns to the external second receiving module, if successful, the external second transmitting module Regularly transmit the integrated service code of the lower-level automation system of the individual project and the second monitoring cycle of the system to the lower-level automation system of the individual target system, and dynamically transmit the second middle-level gateway identification code and the second monitoring cycle information of the project to the upper layer. The integrated application system; (4) in step (2) the upper integrated application system external monitoring module periodically checks whether the first gateway monitoring service is normal, if not, Continuous monitoring, if the external monitoring module stops the second gateway monitoring service; (5) the external receiving module of the lower automation system receives the receiving and data source authentication, and if it fails, returns to the external receiving module, if Successfully, the external receiving module replies to the second monitoring period result message of the plurality of systems; (6) In step (4), the external second receiving module of the upper integrated application system performs receiving and data source authentication, and if it fails, returns to the external second receiving module, and if successful, the external display module Displaying the monitoring result; (7) in step (5), the external second transmitting module receives the second monitoring period result message of each system, and sums the second monitoring period result information of each system to generate a second monitoring period of the system. And (8) the external second receiving module of the upper integrated application system performs receiving and data source authentication, and if it fails, returns to the external second receiving module, and if successful, the external display module displays Monitoring results. The method for integrating a plurality of different systems according to the second aspect of the patent application, wherein the upper integrated application system can further perform a second gateway redundancy integration service process, which further comprises: (1) the lower layer automation The external receiving module of the system receives the integrated lower-level automation system backup service code and the second monitoring cycle information of the system; (2) the external transmitting module stops the dynamic transmission project, the first integrated system device service information; (3) the external transmitting module Dynamically transmitting a second-level integrated system equipment service information of a lower-level automation system to a second middle-level gateway system; (4) an external second receiving module of the second middle-level gateway system receives the second integrated system device of the lower-level automation system of the project Service information and data source authentication. If it fails, it will be transmitted back to the external second receiving module. If successful, the external second transmission module will dynamically transmit the second integrated system equipment service information of the individual project lower-level automation system to the upper integrated application. System; (5) The external second receiving module of the upper integrated application system receives and performs data source authentication. If it fails, it is transmitted back to the external second receiving module. If successful, the external display module displays the second integration of the project. System equipment service information.