CN111327600B - Manufacturing service resource integration system and method based on SaaS cloud platform - Google Patents

Abstract

The invention relates to a resource integration interaction system and method based on a software as a service (SaaS) cloud platform, which comprises a cloud end and a plurality of remote ends, wherein the cloud end is the SaaS cloud platform, each remote end is a core vehicle manufacturing enterprise, each core vehicle manufacturing enterprise comprises a respective remote data exchange adapter, and the SaaS cloud platform comprises cloud end data exchange adapters which are respectively connected with the remote data exchange adapters in a one-to-one correspondence manner. According to the invention, the data exchange adapters which are connected in a one-to-one correspondence manner are respectively arranged at the core vehicle manufacturing enterprise end and the SaaS cloud platform end, so that the load pressure of the SaaS cloud platform and the core vehicle manufacturing enterprise end during unified data transmission is reduced, the problems of data byte loss and the like caused by overlarge data transmission pressure of the SaaS cloud platform are avoided, and the accuracy of the core vehicle manufacturing enterprise and the SaaS cloud platform during data transmission is ensured.

Description

Manufacturing service resource integration system and method based on SaaS cloud platform

Technical Field

The invention relates to the technical field of cloud platforms, in particular to a manufacturing service resource integration system and method based on a SaaS cloud platform.

Background

The third-party cloud service platform of the automobile industry chain integrates a plurality of complete automobile manufacturing enterprise unions, and the platform is built by taking the complete automobile manufacturing enterprise occupying the dominant position as a core. As each core whole vehicle manufacturing enterprise designs the business cooperation of purchasing, selling, after-sales service, logistics and the like, each core whole vehicle manufacturing enterprise also develops the business cooperation with upstream and downstream suppliers, dealers, servers and logistics business enterprise groups of the industrial chain which are distributed all over the world, thereby forming a complex and huge multi-core mesh type industrial chain business cooperation information network and benefit win-win system.

The data transmission mode between the existing cloud platform and each finished automobile manufacturing enterprise has the following disadvantages:

a uniform data transmission mode is formed, so that the load pressure of a cloud platform is overlarge, data bytes are easily lost and wrong, and transmitted data is inaccurate;

any enterprise can be connected with the cloud platform at will, and insecurity of data flow of the cloud platform is caused;

and (III) the data transmission mode is to transmit data once at fixed time, the pressure of software and hardware can still be increased during the data flow peak period, and the resource waste of the software and hardware can be caused during the data flow valley period.

Disclosure of Invention

The invention aims to overcome the defects of low data exchange safety and accuracy and low data exchange efficiency in the prior art, and provides a resource integration interaction system and method based on a SaaS cloud platform.

In order to achieve the above object, the embodiments of the present invention provide the following technical solutions:

the utility model provides a resource integration interactive system based on SaaS cloud platform, includes high in the clouds, a plurality of distal end, the high in the clouds is SaaS cloud platform, every the distal end is whole car manufacturing enterprise of core, every whole car manufacturing enterprise of core includes respective distal end data exchange adapter, SaaS cloud platform includes the high in the clouds data exchange adapter of being connected with each distal end data exchange adapter one-to-one respectively.

In the above scheme, since the core enterprise has some service data with higher security requirements, in order to ensure the security of the service data of the core enterprise, the remote data exchange adapter is deployed in the existing intranet service system of the core enterprise, so that when the core enterprise exchanges data with the SaaS cloud platform, the confidential data of the core enterprise is not checked by other core enterprises, and the security of data exchange is realized.

Meanwhile, remote data exchange adapters which correspond to the remote distribution terminals one to one are established in the SaaS cloud platform, and the SaaS cloud platform distributes exchange tasks and data to be exchanged to each remote data exchange adapter for execution, so that the pressure of the SaaS cloud platform is reduced, data byte loss caused by instability of data transmission is eliminated, and the accuracy of data transmission is ensured.

In order to complete resource integration interaction more safely, the SaaS cloud platform further comprises an authentication control center, which is used for performing authentication and authorized access processing on a data exchange access request sent by a core finished automobile manufacturing enterprise.

In the scheme, before data transmission is carried out between a core vehicle manufacturing enterprise and the SaaS cloud platform, the core vehicle manufacturing enterprise is authenticated by the SaaS cloud platform, direct connection between the core vehicle manufacturing enterprise and the SaaS cloud platform can be established after the authentication is passed, and data can not be transmitted to the SaaS cloud platform by any enterprise, so that the safety of a SaaS cloud platform network system is further enhanced.

In order to better complete resource integration interaction, a configuration file distributed distributor is arranged in the SaaS cloud platform, each cloud data exchange adapter is connected with a configuration file distributor, and each remote data exchange adapter is connected with a configuration file analyzer. Each remote data exchange adapter is connected with a configuration file analyzer and used for receiving the encrypted configuration file sent by the corresponding cloud data exchange adapter and analyzing the configuration file.

And after the authentication of the authentication control center passes, the configuration file distributed distributor adaptively distributes the adaptive configuration file to the configuration file distributor of the cloud data exchange adapter, and the configuration file distributor reads the received configuration file and sends the configuration file to the cloud data exchange adapter. The cloud data exchange adapter encrypts the configuration file and sends the configuration file to the corresponding remote data exchange adapter, and a configuration file analyzer of the remote data exchange adapter analyzes the encrypted configuration file, so that the data direct connection between the SaaS cloud platform and the core enterprise is successfully established after the configuration file analyzer successfully analyzes the configuration file.

In the above scheme, the configuration file adapted by the configuration file distributed distributor is adapted according to the characteristics of the corresponding remote data adapter, and if an accident such as theft or transmission direction error occurs in the transmission process, the encrypted configuration file received by other remote data adapters cannot be successfully analyzed, so that the tightness and security of establishing data direct connection with the SaaS cloud platform are further ensured.

The second technical problem to be solved by the present invention is how to slow down the efficiency of data transmission between the remote data exchange adapter and the cloud data exchange adapter, and the following scheme is proposed:

each far-end data exchange adapter is connected with a far-end dynamic trigger and used for measuring whether data flow sent by the far-end data exchange adapter to the cloud data exchange adapter reaches a first data flow triggering threshold value or not, and if the data flow reaches the first data flow triggering threshold value, the far-end dynamic trigger starts the far-end data exchange adapter to transmit data to the cloud data exchange adapter.

Each cloud data exchange adapter is connected with a cloud dynamic trigger and used for measuring whether data flow sent by the cloud data exchange adapter to the remote data exchange adapter reaches a second data flow triggering threshold value or not, and if the data flow reaches the second data flow triggering threshold value, the cloud dynamic trigger starts the cloud data exchange adapter to transmit data to the remote data exchange adapter.

In the scheme, the dynamic triggers are respectively added into a core vehicle manufacturing enterprise and the SaaS cloud platform, and can be dynamically triggered in two directions to complete data transmission. When the data flow to be transmitted reaches the data flow triggering threshold, the data is transmitted immediately, the traditional mode of transmitting the data at fixed time is abandoned, and the problems that the load pressure of the system is high due to overlarge data flow in a peak period and hardware resources are wasted in data transmission in a valley period are solved. The scheme provides a flexible dynamic data exchange mode, so that data exchange is not limited by a fixed time interval, effective utilization of software and hardware resources of service data in a peak period and a valley period is considered, bidirectional dynamic trigger sending of data can be realized, and data can be transmitted in sequence without waiting for a fixed time of one party to arrive.

Each of the far-end data exchange adapter and the cloud data exchange adapter is provided with an API (application programming interface) adapter so as to support the adaptation, uploading, downloading and exchange of data exchanged between the far-end data exchange adapter and the cloud data exchange adapter.

In the scheme, because different core vehicle manufacturing enterprises have system heterogeneity, the two parties support adaptation, uploading, downloading and exchange of data exchanged between the two parties by using the API adaptation interfaces.

On the other hand, the invention also provides a resource integration interaction method based on the SaaS cloud platform, which comprises the following steps:

step S1: a core vehicle manufacturing enterprise sends a data exchange access request to a SaaS cloud platform;

step S2: an authentication control center in the SaaS cloud platform authenticates the data exchange access request, and after the authentication is successful, the core vehicle manufacturing enterprise is authorized to access and transmit data to the SaaS cloud platform;

step S3: the data exchange direct connection is established between the far-end data exchange adapter of the core finished automobile manufacturing enterprise and the cloud data exchange adapter of the SaaS cloud platform, and data exchange between the core finished automobile manufacturing enterprise and the SaaS cloud platform is carried out.

The step S3 specifically includes the following steps:

step S31: the configuration file distributor of the core finished automobile manufacturing enterprise adapts configuration files, sends the configuration files to a remote data exchange adapter of the finished automobile manufacturing enterprise, and establishes a data exchange direct connection between the remote data exchange adapter and a cloud data exchange adapter corresponding to the remote data exchange adapter in the SaaS cloud platform;

step S32: the cloud data exchange adapter encrypts the configuration file sent by the configuration file distributor and sends the encrypted configuration file to the cloud data exchange adapter;

step S33: the cloud data exchange adaptation sends the received encrypted configuration file to a configuration file parser, the configuration file parser parses the encrypted configuration file, and the parsed configuration file is stored in a database server;

step S34: and data exchange is carried out between a remote data adapter of a core finished automobile manufacturing enterprise and a cloud data adapter of the SaaS cloud platform.

The method comprises the following steps of carrying out data exchange between a remote data adapter of a core whole vehicle manufacturing enterprise and a cloud data adapter of a SaaS cloud platform, wherein the steps comprise:

the method comprises the steps that a far-end dynamic trigger of a core finished automobile manufacturing enterprise measures data flow sent by a far-end data adapter to a cloud data adapter, and when the data flow reaches a first data flow triggering threshold value, the far-end dynamic trigger starts the far-end data adapter to send data to the cloud data adapter;

the cloud dynamic trigger of the SaaS cloud platform measures data flow sent by the cloud data adapter to the remote data adapter, and when the data flow reaches a second data flow trigger threshold value, the cloud dynamic trigger starts the cloud data adapter to send data to the remote data adapter.

Compared with the prior art, the invention has the beneficial effects that:

(1) according to the invention, the data exchange adapters which are connected in a one-to-one correspondence manner are respectively arranged at the core vehicle manufacturing enterprise end and the SaaS cloud platform end, so that the load pressure of the SaaS cloud platform and the core vehicle manufacturing enterprise end during unified data transmission is reduced, the problems of data byte loss and the like caused by overlarge data transmission pressure of the SaaS cloud platform are avoided, and the accuracy of the core vehicle manufacturing enterprise and the SaaS cloud platform during data transmission is ensured;

(2) according to the invention, the configuration file distributed distributor is established on the SaaS cloud platform, the configuration files corresponding to different core vehicle manufacturing enterprises are self-adaptively adapted to the core enterprises and are distributed to the cloud data exchange adapters corresponding to the core vehicle manufacturing enterprises, and the pressure of the SaaS cloud platform is further relieved;

(3) according to the invention, the core whole vehicle manufacturing enterprise end and the SaaS cloud platform end are respectively provided with the bidirectional dynamic triggers, the core whole vehicle manufacturing enterprise and the SaaS cloud platform can mutually transmit data, on the other hand, data exchange is not limited to a fixed time interval, the problem that the system load pressure is large due to overlarge data flow in a peak period and the problem that hardware resources are wasted due to data transmission in a valley period are avoided, the mode that only one-way data transmission can be performed in the same time period is avoided, and the effective utilization of the software and hardware resources in the peak period and the valley period of service data is considered.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a system diagram according to a preferred embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures. Also, in the description of the present invention, the terms "first", "second", and the like are used for distinguishing between descriptions and not necessarily for describing a relative importance or implying any actual relationship or order between such entities or operations.

Example 1:

the invention is realized by the following technical scheme, as shown in figure 1,

the SaaS cloud platform is deployed at the cloud side in a mode of providing a third party platform based on a service mode of the SaaS cloud platform, so that convenient service is provided for the cooperation business of the automobile industry chain, and data exchange between the SaaS cloud platform and a core vehicle manufacturing enterprise (hereinafter referred to as a core enterprise) is completed. Business data generated when upstream and downstream enterprises (including suppliers, distributors, service providers and logistics business enterprise groups) in the industrial chain interact with the SaaS cloud platform are exchanged to core enterprises; meanwhile, business data generated by operation inside core enterprises discretely distributed in various parts of the world are exchanged to the SaaS cloud platform. Therefore, by taking core enterprises as a center, each core enterprise and upstream and downstream enterprises which cooperate with the core enterprise exchange service data through the SaaS cloud platform, a distributed multi-source heterogeneous data exchange system is formed. Each core enterprise is a remote distributed terminal (hereinafter, a "remote distributed terminal" is described as a core enterprise) relative to the SaaS cloud platform; the SaaS cloud platform is a cloud (hereinafter, the "cloud" represents the SaaS cloud platform) with respect to each core enterprise.

The invention provides a resource integration interaction system based on a distributed multi-source heterogeneous data exchange system, and as shown in fig. 1, the resource integration interaction system comprises a remote data exchange adapter, a configuration file distributor and a remote dynamic trigger which are established in a core enterprise, and a cloud data exchange adapter, an authentication control center, a configuration file resolver and a cloud dynamic trigger which are established in a SaaS cloud platform.

The resource integration interaction system is established by taking a core enterprise as a remote distribution terminal and taking a SaaS cloud platform as a cloud, and comprises a plurality of remote distribution terminals, each remote distribution terminal deploys a remote data exchange adapter in a respective intranet service system, the SaaS cloud platform comprises a plurality of cloud data exchange adapters in one-to-one correspondence with each remote distribution terminal, and as shown in figure 1, the remote data exchange adapters and the cloud data exchange adapters are connected and transmit data in one-to-one correspondence.

In the above scheme, since the core enterprise has some service data with higher security requirements, in order to ensure the security of the service data of the core enterprise, the security data of the core enterprise can be ensured not to be checked by other core enterprises when the core enterprise exchanges data with the SaaS cloud platform by deploying the remote data exchange adapter in the existing intranet service system of the core enterprise, thereby realizing the security of data exchange.

Due to the fact that a plurality of core enterprises in a huge industrial chain business system need to exchange data with the SaaS cloud platform, all data exchange is completed at one time, cost of consumed SaaS cloud platform hardware resources is overlarge, and transmission of data exchange flow is affected. For example, when the data stream is not stably transmitted, it is very easy to cause disorder of the data exchange byte stream and cause loss or error of the very individual byte stream, so that the data exchanged by transmission is error data. Therefore, the remote data exchange adapters which are respectively in one-to-one correspondence with the remote distribution terminals are established in the SaaS cloud platform, and the SaaS cloud platform distributes the exchange tasks and the data to be exchanged to each remote data exchange adapter for execution, so that the pressure of the SaaS cloud platform is reduced, and the accuracy of data transmission is ensured.

After the cloud data exchange adapters corresponding to the remote data exchange adapters one to one are provided, when the remote distribution terminal exchanges data with the SaaS cloud platform, authentication work needs to be completed first. As shown in fig. 1, an authentication control center is also established in the SaaS cloud platform, the remote distribution terminal sends a data exchange access request to the SaaS cloud platform, and the authentication control center analyzes the data exchange access request sent by the remote distribution terminal, and performs uniform authentication and authorized access processing on the remote distribution terminal, thereby preventing any enterprise from being connected to the SaaS cloud platform easily, and further ensuring the security of the system.

After the authentication control center successfully authenticates a core enterprise sending a data exchange access request, a configuration file distributed distributor in the SaaS cloud platform distributes an adaptive configuration file to a cloud data exchange adapter corresponding to the core enterprise, and a configuration file distributor connected with the cloud data exchange adapter reads the configuration file and sends the configuration file to the cloud data exchange adapter. The cloud data exchange adapter encrypts the configuration file and sends the encrypted configuration file to the corresponding remote data exchange adapter.

And after the remote data exchange adapter receives the encrypted configuration file, a configuration file analyzer connected with the remote data exchange adapter analyzes the configuration file, and the data direct connection between the SaaS cloud platform and the core enterprise is successfully established after the configuration file analyzer successfully analyzes the configuration file.

The configuration file distribution device is established at the SaaS cloud platform, and each cloud data exchange adapter is respectively connected with a configuration file distribution device, and the configuration file distribution device is adapted to the configuration file of the corresponding remote data exchange adapter, where the configuration file is a configuration file in an XML format. The traditional scheme is that the SaaS cloud platform is uniformly adapted and sends configuration files to each core enterprise, and due to the fact that the load pressure of the SaaS cloud platform is too large, bytes of XML configuration files are easily lost or errors exist, and the configuration files received by the core enterprises are wrong configuration files.

Therefore, in the scheme, a configuration file distributor is added to each cloud data exchange adapter, the configuration files adapted by the configuration file distributor are adapted according to the characteristics of the corresponding remote data adapters, if accidents such as stealing or transmission direction errors occur in the transmission process, other remote data adapters cannot successfully analyze the encrypted configuration files received by the remote data adapters, and the tightness and the safety of establishing data direct connection with the SaaS cloud platform are further ensured.

Due to the fact that data exchanged between different core enterprises and the SaaS cloud platform are heterogeneous, universal third-party public API adaptation interfaces based on WEB services are added to the cloud data exchange adaptation and the remote data exchange adapter to support adaptation, uploading, downloading and exchange of data exchanged between the remote data exchange adapter and the cloud data exchange adapter.

The second technical problem to be solved by the present invention is how to slow down the efficiency of data transmission between the remote data exchange adapter and the cloud data exchange adapter, and the following scheme is proposed: and a cloud dynamic trigger is connected and set at each cloud data exchange adapter, and a remote dynamic trigger is connected and set at each remote data exchange adapter.

For the time interval of data exchange, the existing scheme is to perform data exchange at regular intervals, for example, if a conventional SaaS cloud platform needs to transmit data to 6 core enterprises, the time consumed for each core enterprise to exchange data with the SaaS cloud platform is within 30 seconds, and then the time consumed for 6 core enterprises to exchange data with the SaaS cloud platform may take 3 minutes at most. By utilizing the one-to-one data transmission mode, the time for data transmission between the core enterprise and the SaaS cloud platform can be greatly shortened. However, if a method of transmitting data once in a fixed time is used, the following disadvantages are present: firstly, the time interval of data exchange is fixed, once the data exchange is set, the data exchange is carried out according to the set time interval, and the exchange time is not flexible; secondly, a plurality of peak periods and valley periods usually exist in business interaction between the SaaS cloud platform and a core enterprise, data traffic generated in the peak period is large, requirements on data exchange time are urgent, data traffic generated in the second valley period is small, and data exchange needs to be performed only in a long time, so that shortage of data exchange software and hardware resources in the peak period is caused, and waste of the data exchange software and hardware resources in the valley period is caused.

To facilitate the discussion of the above-mentioned schemes, the present embodiment makes the following definition explanation:

expressing the SaaS cloud platform by phi (psi) and expressing the core enterprise alpha by phi (alpha), and then

The SaaS cloud platform initiates a data exchange request to a core enterprise alpha and performs data exchange with phi (alpha);

it means that the core enterprise alpha initiates a data exchange request to the SaaS cloud platform and performs data exchange with phi (psi). Then:

(1) for the

In a word:

let a set of data items to be exchanged be X ═ X₁,X₂,...,X_NAt certain time intervals

In, data item X₁,X₂,...,X_NThe number of data records generated corresponds to eta₁,η₂,...,η_N. Then is at

In the time period, the amount of data to be exchanged generated by phi (psi) is sigma X₁×η₁+X₂×η₂+...+X_N×η_NI.e. by

Using a cloud dynamic trigger connected with the cloud data exchange adapter, wherein the cloud dynamic trigger sets a second data flow triggering threshold value gamma:

when in use

Then phi (psi) will not send data to phi (alpha);

when in use

At the moment, the critical condition of data exchange is dynamically triggered, the cloud dynamic trigger of phi (psi) starts the cloud data exchange adapter, sends data to phi (alpha), and executes

The data exchange operation of (1).

(2) For the

In a word:

let the set of data items to be exchanged be X ═ X₁`,X<sub>2</sub>`,...,X_N' at certain time interval

In, data item X₁`,X<sub>2</sub>`,...,X_NThe number of data records generated is respectively corresponding to eta₁`,η<sub>2</sub>`,...,η_NAnd (5) allowing the strain to stand. Then is at

Within the time period, the amount of data to be exchanged generated by phi (alpha) is sigma X₁`×η<sub>1</sub>`+X₂`×η<sub>2</sub>`+...+X_N`×η_NAll that is

Using a far-end dynamic trigger connected with a far-end data exchange adapter, wherein the far-end dynamic trigger sets a first data traffic trigger threshold value Γ':

when in use

Then phi (alpha) will not send data to phi (psi);

when in use

When the critical condition of data exchange is triggered dynamically, the remote dynamic trigger of phi (alpha) will start the remote data exchange adapter and send data to phi (psi) to execute

The data exchange operation of (1).

Whether the SaaS cloud platform sends data to the core enterprise or the core enterprise sends data to the SaaS cloud platform, when the data is sent to the core enterprise or the core enterprise

Or

Upon reaching the threshold value Γ or Γ', φ (α) and φ (Ψ) will dynamically trigger and perform data swapping, respectively

And

therefore, it is

And

it is not always true.

The scheme provides a dynamic and flexible data exchange scheme, so that data exchange is not limited by a fixed time interval, and meanwhile, effective utilization of software and hardware resources in the peak period and the valley period of the manufacturing service business is considered.

To sum up, the services of each core enterprise and upstream and downstream collaboration enterprises are integrated on the SaaS cloud platform, and a remote data exchange adapter is deployed in an internal system of each core enterprise in consideration of security of confidential data of part of the services of the core enterprise; further considering the load pressure of data processing and transmission of the SaaS cloud platform, cloud data exchange adapters which correspond to core enterprises one by one are deployed on the SaaS cloud platform, the data transmission mode is improved to one-to-one transmission, the load pressure of the SaaS cloud platform is reduced, data errors caused by overlarge load pressure during data transmission are avoided, and the accuracy of data transmission is ensured; meanwhile, a timing transmission mode of data transmission is improved into a mode of dynamic triggering of data flow, when the transmitted data flow reaches a threshold value of dynamic triggering, data transmission is carried out, and effective utilization of software and hardware resources in a data transmission peak period and a data transmission valley period is considered.

Therefore, the safety and the accuracy of data exchange are ensured, and the efficiency of the data exchange is also improved.

Based on the system, the invention also provides a resource integration interaction method based on the SaaS cloud platform, which comprises the following steps:

step S1: a core vehicle manufacturing enterprise sends a data exchange access request to a SaaS cloud platform;

step S2: an authentication control center in the SaaS cloud platform authenticates the data exchange access request, and after the authentication is successful, the core vehicle manufacturing enterprise is authorized to access and transmit data to the SaaS cloud platform;

step S3: the data exchange direct connection is successfully established between the far-end data exchange adapter of the core finished automobile manufacturing enterprise and the cloud data exchange adapter of the SaaS cloud platform, and data exchange between the core finished automobile manufacturing enterprise and the SaaS cloud platform is carried out.

The step S3 specifically includes the following steps:

step S31: the configuration file distributor of the SaaS cloud platform is adapted to the configuration file and sends the configuration file to the cloud data exchange adapter corresponding to the configuration file distributor;

step S32: the cloud data exchange adapter encrypts the configuration file, and then sends the encrypted configuration file to a remote data exchange adapter of the core vehicle manufacturing enterprise;

step S33: after the remote data exchange adapter receives the encrypted configuration file, a configuration file parser of the core vehicle manufacturing enterprise decrypts the configuration file, and after decryption, the remote data exchange adapter and the cloud data exchange adapter establish data direct connection successfully;

step S34: the remote data exchange adapter of the core finished automobile manufacturing enterprise encrypts data to be exchanged and transmits the encrypted data to the cloud data exchange adapter of the SaaS cloud platform, and the cloud data exchange adapter decrypts the encrypted data and stores the decrypted data into the database server of the SaaS cloud platform.

The step of performing data exchange between the core vehicle manufacturing enterprise and the SaaS cloud platform specifically includes:

the method comprises the steps that a far-end dynamic trigger of a core finished automobile manufacturing enterprise measures data flow sent by a far-end data adapter to a cloud data adapter, and when the data flow reaches a first data flow triggering threshold value, the far-end dynamic trigger starts the far-end data adapter to send data to the cloud data adapter;

the cloud dynamic trigger of the SaaS cloud platform measures data flow sent by the cloud data adapter to the remote data adapter, and when the data flow reaches a second data flow trigger threshold value, the cloud dynamic trigger starts the cloud data adapter to send data to the remote data adapter.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (6)

1. The utility model provides a resource integration interactive system based on SaaS cloud platform, includes high in the clouds, a plurality of distal end, the high in the clouds is SaaS cloud platform, every the distal end is the whole car manufacturing enterprise of core, its characterized in that: each core vehicle manufacturing enterprise comprises a respective remote data exchange adapter, and the SaaS cloud platform comprises cloud data exchange adapters which are correspondingly connected with the remote data exchange adapters one to one;

each far-end data exchange adapter is connected with a far-end dynamic trigger and used for measuring whether the data flow sent by the far-end data exchange adapter to the cloud data exchange adapter reaches a first data flow triggering threshold value or not, and if the data flow reaches the first data flow triggering threshold value, the far-end dynamic trigger starts the far-end data exchange adapter to transmit data to the cloud data exchange adapter;

each cloud data exchange adapter is connected with a cloud dynamic trigger and used for measuring whether data flow sent by the cloud data exchange adapter to the remote data exchange adapter reaches a second data flow triggering threshold value or not, and if the data flow reaches the second data flow triggering threshold value, the cloud dynamic trigger starts the cloud data exchange adapter to transmit data to the remote data exchange adapter.

2. The resource integration interaction system based on the SaaS cloud platform as claimed in claim 1, wherein: the SaaS cloud platform further comprises an authentication control center, and the authentication control center is used for authenticating and authorizing access processing of data exchange access requests sent by core vehicle manufacturing enterprises.

3. The resource integration interaction system based on the SaaS cloud platform as claimed in claim 1, wherein: the SaaS cloud platform further comprises configuration file distributed distributors, each cloud data exchange adapter is connected with a configuration file distributor, and each configuration file distributor is connected with the configuration file distributed distributors.

4. The resource integration interaction system based on the SaaS cloud platform as claimed in claim 3, wherein: each remote data exchange adapter is connected with a configuration file analyzer and used for receiving the encrypted configuration file sent by the corresponding cloud data exchange adapter and analyzing the configuration file.

5. The resource integration interaction system based on the SaaS cloud platform as claimed in any one of claims 1 to 4, wherein: each of the far-end data exchange adapter and the cloud data exchange adapter is provided with an API (application programming interface) adapter so as to support the adaptation, uploading, downloading and exchange of data exchanged between the far-end data exchange adapter and the cloud data exchange adapter.

6. A resource integration interaction method based on a SaaS cloud platform is characterized by comprising the following steps: the method comprises the following steps:

step S1: a core vehicle manufacturing enterprise sends a data exchange access request to a SaaS cloud platform;

step S2: an authentication control center in the SaaS cloud platform authenticates the data exchange access request, and after the authentication is successful, the core vehicle manufacturing enterprise is authorized to access and transmit data to the SaaS cloud platform;

step S3: the method comprises the steps that a data exchange direct connection is successfully established between a remote data exchange adapter of a core finished automobile manufacturing enterprise and a cloud data exchange adapter of a SaaS cloud platform, and data exchange between the core finished automobile manufacturing enterprise and the SaaS cloud platform is carried out;

the step S3 specifically includes the following steps:

step S31: the configuration file distributor of the SaaS cloud platform is adapted to the configuration file and sends the configuration file to the cloud data exchange adapter corresponding to the configuration file distributor;

step S32: the cloud data exchange adapter encrypts the configuration file, and then sends the encrypted configuration file to a remote data exchange adapter of the core vehicle manufacturing enterprise;

step S33: after the remote data exchange adapter receives the encrypted configuration file, a configuration file parser of the core vehicle manufacturing enterprise decrypts the configuration file, and after decryption, the remote data exchange adapter and the cloud data exchange adapter establish data direct connection successfully;

step S34: the method comprises the steps that a remote data exchange adapter of a core finished automobile manufacturing enterprise encrypts data to be exchanged and transmits the encrypted data to a cloud data exchange adapter of a SaaS cloud platform, and the cloud data exchange adapter decrypts the encrypted data and stores the decrypted data into a database server of the SaaS cloud platform;

the step of performing data exchange between the core vehicle manufacturing enterprise and the SaaS cloud platform specifically includes:

the method comprises the steps that a far-end dynamic trigger of a core finished automobile manufacturing enterprise measures data flow sent by a far-end data adapter to a cloud data adapter, and when the data flow reaches a first data flow triggering threshold value, the far-end dynamic trigger starts the far-end data adapter to send data to the cloud data adapter;

the cloud dynamic trigger of the SaaS cloud platform measures data flow sent by the cloud data adapter to the remote data adapter, and when the data flow reaches a second data flow trigger threshold value, the cloud dynamic trigger starts the cloud data adapter to send data to the remote data adapter.

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