CN116961950A - Intelligent control center utilizing hybrid cloud technology in health follow-up system - Google Patents

Abstract

The invention provides an intelligent control center utilizing a hybrid cloud technology in a health follow-up system. Firstly, an intelligent access control center is constructed in a health follow-up system based on hybrid cloud, and access routing strategies, authentication modes, contents, load balancing strategies and the like among multiple services are stored in the access control center. And then in any specific cross-node service access and jump process of public cloud or private cloud, firstly, a routing strategy, authentication information and the like are requested to the intelligent access control center, wherein the routing strategy, the authentication information and the like comprise key authentication/interface parameters and the like, so that intelligent access routing judgment and control, intelligent integrated load balancing control and the like are realized, and unified and lightweight operation and maintenance management is facilitated. The invention comprises a unified access module, an authentication control module, a routing control module, a load balancing module, a configuration management module and a main service flow.

Description

Intelligent control center utilizing hybrid cloud technology in health follow-up system

Technical Field

The invention relates to the technical field of cloud computing, in particular to an intelligent control center utilizing a hybrid cloud technology in a health follow-up system.

Background

Health follow-up refers to an observation method by which a hospital can regularly know the change of the condition of a patient and guide the rehabilitation of the patient by communicating or other modes for the patient who has been in the hospital. The hospital pre-doctor and post-doctor service level can be improved through follow-up visit, meanwhile, a doctor can conveniently track and observe a patient, first hand data are mastered to carry out statistical analysis and accumulated experience, and meanwhile, development of medical scientific research work and improvement of service level of medical workers are facilitated, so that the hospital pre-doctor and post-doctor service level can be better served for the patient. The follow-up visit is the work of keeping in contact with the patient after diagnosis or requiring the patient to check the hospital regularly according to the needs of medical treatment, scientific research and teaching, and continuing to track and observe the disease curative effect and development status of the patient, which is also called follow-up visit (follow-up). Briefly, the patient is followed up and visited after diagnosis and treatment.

Therefore, the health follow-up visit has the significance that the pre-doctor and post-doctor service level of the hospital can be improved through the follow-up visit, meanwhile, doctors can conveniently track and observe patients, master first-hand data to carry out statistical analysis and accumulate experience, and meanwhile, the development of medical scientific research work and the improvement of the service level of medical workers are facilitated, so that the medical follow-up visit is better for the patients.

With the rapid development of internet technology and application, various health follow-up systems are more and more complex and mature. In the aspect of scale deployment, the health follow-up system adopts a cloud platform deployment mode, thereby being convenient for quick deployment, flexible management and elastic expansion along with the development of the service. In the deployment and application process of the cloud platform, a local domain (private cloud) service system and an external domain (public cloud) service system are often distinguished in a hybrid cloud mode of combining public cloud and private cloud according to service operation requirements. The core idea is to perform local private cloud deployment on a data system, a core processing platform or an important operation support system which does not need public network access, wherein the data system, the core processing platform or the important operation support system is in the public domain mode and is used for public user access, some access application systems with relatively low security levels and the like.

The health follow-up system adopts different cloud system access modes in different levels of business systems and business processes. But the access mode, the strategy and the like are automatically controlled by each branch service system, even some access routes are directly written into the service codes, so that great inconvenience is caused to the whole service deployment, operation and maintenance management and the like along with the deep service operation process and the increase of service complexity, and the service operation and maintenance fault risks are also easily promoted. Therefore, the invention needs to provide a centralized service intelligent access method and system based on hybrid cloud, which are used for improving service deployment and management efficiency and reducing operation and maintenance fault risks.

Disclosure of Invention

The invention provides an intelligent control center utilizing a hybrid cloud technology in a health follow-up system. Firstly, an intelligent access control center is constructed in a health follow-up system based on hybrid cloud, and access routing strategies, authentication modes, contents, load balancing strategies and the like among multiple services are stored in the access control center. And then in any specific cross-node service access and jump process of public cloud or private cloud, firstly, a routing strategy, authentication information and the like are requested to the intelligent access control center, wherein the routing strategy, the authentication information and the like comprise key authentication/interface parameters and the like, so that intelligent access routing judgment and control, intelligent integrated load balancing control and the like are realized, and unified and lightweight operation and maintenance management is facilitated. The invention comprises a unified access module, an authentication control module, a routing control module, a load balancing module, a configuration management module and a main service flow.

1. Unified access module: and providing a unified access entry for each service system facing the hybrid cloud. The unified access module is deployed and accessed in a centralized manner, belongs to each service system, provides fixed configuration of cross-node access, and is compatible with access requirements of public cloud and private cloud. The unified access module, the related access permission and other information come from the preset/configuration of the configuration management module.

2. An authentication control module: and the authentication control information required by the cross-node access is provided, and comprises information such as whether authentication is required, an authentication mode, an authentication password/key and the like. And the related information data of the authentication control module is obtained from the data configuration result of the configuration management module.

3. And a route control module: is responsible for providing routing information for the actual access node. The routing information may be an IP address of the internal and external networks, or set domain name information. The relevant information data of the route control module, the data configuration result from the configuration management module, and the real-time dynamic route data configuration from the load balancing module are also received.

4. Load balancing module: when oriented to a large number of concurrency or access imbalances, it may be desirable to provide multi-node load balancing access control. The load balancing module is responsible for monitoring the directional access flow, dynamically configuring the route information of the access node to the route control module according to the configured load balancing strategy, and realizing real-time dynamic load balancing under large-scale concurrency.

5. And a management configuration module: the global configuration management process for the intelligent access control center comprises access authentication (including SLA) configuration management for the unified access module, authentication information configuration management for the authentication control module, routing information configuration management for the routing control module, balance strategy configuration management for the load balance module and the like.

6. The main business process is as follows: 1) When the hybrid cloud service system needs to access across nodes, a unified access module of an intelligent access control center is accessed to provide the node ID, the service ID and the access key; 2) The unified access module authenticates the access of the node, and after the access of the node passes, the access is transferred to an authentication control module for processing; 3) The authentication control module acquires authentication information (including whether authentication is needed, an authentication mode, an authentication key and the like) accessed across nodes according to the node ID and the service ID, and the authentication information is processed by the routing control module after being acquired; 4) The route control module obtains the route information of the current next node according to the node ID and the service ID; 5) After the mixed cloud service system acquires the routing information and the authentication information, the service request is sent to the target routing node, and the intelligent service access process under unified configuration is realized.

Drawings

Fig. 1 is a block diagram of an intelligent control center using hybrid cloud technology in a health follow-up system.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, in an embodiment of the present invention, an intelligent control center using hybrid cloud technology in a health follow-up system includes a unified access module (1), an authentication control module (2), a routing control module (3), a load balancing module (4), a configuration management module and a main service flow.

1. Unified access module (1): and providing a unified access entry for each service system facing the hybrid cloud. The unified access module is deployed and accessed in a centralized manner, belongs to each service system, provides fixed configuration of cross-node access, and is compatible with access requirements of public cloud and private cloud. The unified access module, the related access permission and other information come from the preset/configuration of the configuration management module. The unified access module related authentication control information parameters include: node ID (globally unique), service ID (globally unique), encryption scheme (MD 5, etc.), key content.

Description: each ID is globally unique, but a node ID may correspond to multiple service IDs and vice versa, with no one-to-one relationship or strict attribution relationship between the node IDs and the service IDs.

2. Authentication control module (2): and the authentication control information required by the cross-node access is provided, and comprises information such as whether authentication is required, an authentication mode, an authentication password/key and the like. And the related information data of the authentication control module is obtained from the data configuration result of the configuration management module. The authentication control module is related to authentication control. Node ID (globally unique), service ID (globally unique), whether encryption (0/1), encryption mode (MD 5, etc.), and key content.

Description: whether encryption is configurable, 0 indicates that encryption is not needed, clear code transmission is needed, 1 indicates that encryption is needed, and an encryption mode and key content are needed to be obtained.

3. Route control module (3): is responsible for providing routing information for the actual access node. The routing information may be an IP address of the internal and external networks, or set domain name information. The relevant information data of the route control module, the data configuration result from the configuration management module, and the real-time dynamic route data configuration from the load balancing module are also received. Including node ID (globally unique), service ID (globally unique), routing address (URL or Intranet IP), configuration type (0/1)

Description: a route configuration type can be set, 0 represents a static route, and dynamic configuration is not accepted; 1 indicates that the node route is dynamically configured under the condition of accepting load balancing.

4. Load balancing module (4): when oriented to a large number of concurrency or access imbalances, it may be desirable to provide multi-node load balancing access control. The load balancing module is responsible for monitoring the directional access flow, dynamically configuring the route information of the access node to the route control module according to the configured load balancing strategy, and realizing real-time dynamic load balancing under large-scale concurrency.

5. Management configuration module (5): the global configuration management process for the intelligent access control center comprises access authentication (including SLA) configuration management for the unified access module, authentication information configuration management for the authentication control module, routing information configuration management for the routing control module, balance strategy configuration management for the load balance module and the like.

6. The main business process is as follows: 1) When the hybrid cloud service system needs to access across nodes, a unified access module (1) of an intelligent access control center is accessed to provide the node ID, the service number ID and the access key; 2) The unified access module authenticates the access of the node, and after the access of the node passes, the access is transferred to an authentication control module (2) for processing; 3) The authentication control module (2) acquires authentication information (including whether authentication is needed, an authentication mode, an authentication key and the like) accessed across nodes according to the node ID and the service number ID, and the routing control module processes the authentication information after acquiring the authentication information; 4) The route control module (3) obtains the route information of the current next node according to the node ID and the service number ID; 5) After the mixed cloud service system acquires the routing information and the authentication information, the service request is sent to the target routing node, and the intelligent service access process under unified configuration is realized.

Claims (7)

1. An intelligent control center utilizing a hybrid cloud technology in a health follow-up system firstly constructs an intelligent access control center in the health follow-up system based on the hybrid cloud, and stores an access route strategy, an authentication mode, content, a load balancing strategy and the like among multiple services into the access control center; then in any specific cross-node business access and jump process of public cloud or private cloud, firstly, requesting routing strategy, authentication information and the like including key authentication/interface parameters and the like to an intelligent access control center, realizing intelligent access route judgment and control, intelligent integrated load balancing control and the like, and being more convenient for unified and lightweight operation and maintenance management; the invention comprises a unified access module, an authentication control module, a routing control module, a load balancing module, a configuration management module and a main service flow.

2. An intelligent control center utilizing hybrid cloud technology in a health follow-up system as set forth in claim 1, wherein: unified access module: providing a unified access inlet for each service system facing the hybrid cloud; the unified access module is deployed and accessed in a centralized manner, belongs to each service system, provides fixed configuration of cross-node access, and is compatible with the access requirements of public cloud and private cloud; the unified access module, the related access permission and other information come from the preset/configuration of the configuration management module.

3. An intelligent control center utilizing hybrid cloud technology in a health follow-up system as set forth in claim 1, wherein: an authentication control module: the authentication control information required by the cross-node access is provided, and comprises information such as whether authentication is required, an authentication mode, an authentication password/key and the like; and the related information data of the authentication control module is obtained from the data configuration result of the configuration management module.

4. An intelligent control center utilizing hybrid cloud technology in a health follow-up system as set forth in claim 1, wherein: and a route control module: is responsible for providing the routing information of the actual access node; the routing information can be the IP address of the internal and external networks or the set domain name information; the relevant information data of the route control module, the data configuration result from the configuration management module, and the real-time dynamic route data configuration from the load balancing module are also received.

5. An intelligent control center utilizing hybrid cloud technology in a health follow-up system as set forth in claim 1, wherein: load balancing module: when facing a large number of concurrency or unbalanced access, the method can require to provide multi-node load balancing access control; the load balancing module is responsible for monitoring the directional access flow, dynamically configuring the route information of the access node to the route control module according to the configured load balancing strategy, and realizing real-time dynamic load balancing under large-scale concurrency.

6. An intelligent control center utilizing hybrid cloud technology in a health follow-up system as set forth in claim 1, wherein: and a management configuration module: the global configuration management process for the intelligent access control center comprises access authentication (including SLA) configuration management for the unified access module, authentication information configuration management for the authentication control module, routing information configuration management for the routing control module, balance strategy configuration management for the load balance module and the like.

7. An intelligent control center utilizing hybrid cloud technology in a health follow-up system as set forth in claim 1, wherein: the main business process is as follows: 1) When the hybrid cloud service system needs to access across nodes, a unified access module of an intelligent access control center is accessed to provide the node ID, the service ID and the access key; 2) The unified access module authenticates the access of the node, and after the access of the node passes, the access is transferred to an authentication control module for processing; 3) The authentication control module acquires authentication information (including whether authentication is needed, an authentication mode, an authentication key and the like) accessed across nodes according to the node ID and the service ID, and the authentication information is processed by the routing control module after being acquired; 4) The route control module obtains the route information of the current next node according to the node ID and the service ID; 5) After the mixed cloud service system acquires the routing information and the authentication information, the service request is sent to the target routing node, and the intelligent service access process under unified configuration is realized.