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CN-122019187-A - Operation management method and platform of regional medical and health integrated information platform

CN122019187ACN 122019187 ACN122019187 ACN 122019187ACN-122019187-A

Abstract

The invention belongs to the technical field of medical and health informatization, and discloses an operation management method and platform of an integrated information platform of regional medical and health, which belong to the technical field of medical and health informatization, wherein the method is realized by collecting node data of a cross-system service link, and calculating the real-time coordination degree of a single service link, calculating the global priority weight of concurrent services based on the real-time coordination degree, and calculating the resource scheduling and the security policy coefficient based on the weight and the coordination degree, thereby finally completing resource allocation and policy matching and forming closed loop control. The invention solves the core problems of the existing platform subsystem of cracking and unsmooth service cooperation, and realizes the full-link integrated closed-loop management and control of the cross-system service.

Inventors

  • YU HAIBAO
  • CHEN YINGJIE
  • HU CHANGFENG

Assignees

  • 广东炬海科技股份有限公司

Dates

Publication Date
20260512
Application Date
20260407

Claims (10)

  1. 1. An operation management method of an integrated information platform for regional medical treatment and health is characterized by comprising the following steps: step one, acquiring node execution data and node operation data of a cross-system service link in a platform, and calculating real-time coordination degree of a single service link; step two, calculating the global priority weight of the concurrent service link based on the real-time cooperative degree by combining the inherent importance of the service, the node load pressure and the data security level; step three, based on the global priority weight and the real-time synergy, respectively calculating a dynamic resource scheduling coefficient and a dynamic security policy strength coefficient of a corresponding service link; Step four, node computing power and bandwidth resources are allocated for the corresponding service links according to the resource dynamic scheduling coefficients, and data encryption and permission verification strategies are matched for the corresponding service links according to the security strategy dynamic strength coefficients; And fifthly, executing data updating based on the nodes of the service link, and repeatedly executing the first step to the fourth step to form a closed loop control.
  2. 2. The method for managing operation of the integrated information platform for regional medical care and health according to claim 1, wherein the node execution data comprises the number of completed nodes of a cross-system service link, the total node number, the actual time consumption of data transfer, the standard time consumption and the cross-system transfer data consistency check result, and the node execution data comprises the CPU occupancy rate, the memory occupancy rate and the bandwidth occupancy rate of the corresponding nodes of the service link.
  3. 3. The operation management method of the regional medical and health integrated information platform according to claim 2, wherein the intrinsic importance of the service is a fixed coefficient preset according to a medical service type corresponding to a service link, the node load pressure is a ratio of a current resource occupancy rate of a node corresponding to the service link to a rated occupancy rate threshold, and the data security level is a fixed coefficient preset according to a sensitivity level of service link circulation data.
  4. 4. The operation management method of the regional medical and health integrated information platform according to claim 1, wherein the allocation of node computing power and bandwidth resources preferentially meets the resource requirement of a service link with higher global priority weight, and the matching of the data encryption and permission verification strategies synchronously increases encryption level and permission verification links along with the improvement of dynamic intensity coefficients of security strategies.
  5. 5. The operation management method of the regional medical and health integrated information platform according to claim 3, wherein the real-time synergy is calculated based on a data consistency coefficient, a circulation efficiency compliance coefficient and a node completion degree coefficient, the data consistency coefficient is calculated by a cross-system circulation data consistency check result, the circulation efficiency compliance coefficient is calculated by data circulation actual time consumption and standard time consumption, and the node completion degree coefficient is calculated by the number of completed nodes and the total number of nodes.
  6. 6. The operation management method of the regional medical and health integrated information platform according to claim 5, wherein the global priority weight is calculated based on a linkage relation of intrinsic importance of service, real-time coordination degree, node load pressure and data security level, and the sum of the global priority weights of all concurrent service links is 1.
  7. 7. The operation management method of the regional medical and health integrated information platform according to claim 6, wherein the calculation formula of the dynamic resource scheduling coefficient and the dynamic intensity coefficient of the security policy in the third step is: ; ; In the formula, The dynamic scheduling coefficient of the resource of the ith service link is dimensionless and has the value range of [ , ]; The value range is [0.05,0.2] which is the basic resource scheduling coefficient and is dimensionless; the value range is [0.5,0.9] which is the maximum resource scheduling coefficient and is dimensionless; the global priority weight of the ith service link is dimensionless; Real-time synergy of the ith service link is dimensionless; the dynamic intensity coefficient of the security policy for the ith service link is dimensionless and has the value range of [ , ]; The value range is [0,1] which is the lower limit coefficient of the intensity of the security policy and is dimensionless; the safety strategy intensity upper limit coefficient is dimensionless, and the value range is [0,1]; the data security level coefficient of the ith service link is dimensionless; And the node load pressure coefficient of the corresponding node of the ith service link is dimensionless.
  8. 8. The operation management method of the regional medical and health integrated information platform according to claim 1, wherein the repeated execution period of the first to fourth steps is 100ms, and each execution is calculated and adjusted based on the latest acquired node execution data and node operation data.
  9. 9. The method for managing operation of the integrated regional medical and health information platform according to claim 1, wherein the cross-system business link covers a cross-system data flow and business execution flow between a public health service system, a novel rural cooperative medical information system, a hospital information system, a community health service system, a two-way referral system, an one-card system, a health cooperative office system, a public health service portal, a performance assessment management system and a health supervision decision support system in the platform.
  10. 10. An integrated information platform for regional medical care and health is used for executing the operation management method of the integrated information platform for regional medical care and health, which is characterized by comprising a data acquisition module, a service coordination degree calculation module, a global priority scheduling module, a resource dynamic scheduling module and a security policy dynamic adjustment module, wherein the output end of the data acquisition module is connected with the input end of the service coordination degree calculation module, the output end of the service coordination degree calculation module is connected with the input end of the global priority scheduling module, the output end of the global priority scheduling module is respectively connected with the input end of the resource dynamic scheduling module and the input end of the security policy dynamic adjustment module, the output end of the resource dynamic scheduling module and the output end of the security policy dynamic adjustment module are both connected with the execution end of each service subsystem in the platform, and the execution end of each service subsystem is connected with the input end of the data acquisition module.

Description

Operation management method and platform of regional medical and health integrated information platform Technical Field The invention belongs to the technical field of medical and health informatization, and particularly relates to an operation management method and platform of an integrated information platform for regional medical and health. Background In the current regional medical health informatization construction, most platforms only realize the interface level simple concatenation of each medical service subsystem, do not form the integrated framework of degree of depth integration. The cross-system service link has the core problems of data flow conversion unidirectional and service flow fragmentation, health file update lag, two-way transfer diagnosis flow break, cross-system data asynchronous phenomenon and the like frequently occur, and high-efficiency coordination of medical resources in the area and full-link closed loop control of the service cannot be realized. The existing scheme is not used for quantitatively controlling the cooperative state of a cross-system service link, and the dynamic adaptation of platform resources and security policies cannot be realized based on the cooperative state, so that the operation efficiency and service capability of the regional medical and health integrated platform are severely restricted. Based on the above-mentioned problems, a technical solution for realizing cross-system service full-link closed loop control is needed. Disclosure of Invention The invention aims to solve the defects in the prior art, and provides an operation management method of an integrated information platform for regional medical treatment and sanitation, which comprises the following steps: step one, acquiring node execution data and node operation data of a cross-system service link in a platform, and calculating real-time coordination degree of a single service link; step two, calculating the global priority weight of the concurrent service link based on the real-time cooperative degree by combining the inherent importance of the service, the node load pressure and the data security level; step three, based on the global priority weight and the real-time synergy, respectively calculating a dynamic resource scheduling coefficient and a dynamic security policy strength coefficient of a corresponding service link; Step four, node computing power and bandwidth resources are allocated for the corresponding service links according to the resource dynamic scheduling coefficients, and data encryption and permission verification strategies are matched for the corresponding service links according to the security strategy dynamic strength coefficients; And fifthly, executing data updating based on the nodes of the service link, and repeatedly executing the first step to the fourth step to form a closed loop control. Preferably, the node execution data includes the number of completed nodes of the cross-system service link, the total node number, the actual time consumption of data flow, the standard time consumption and the cross-system flow data consistency check result, and the node operation data includes the CPU occupancy rate, the memory occupancy rate and the bandwidth occupancy rate of the corresponding nodes of the service link. Further preferably, the intrinsic importance of the service is a fixed coefficient preset according to a medical service type corresponding to the service link, the node load pressure is a ratio of a current resource occupancy rate of a node corresponding to the service link to a rated occupancy rate threshold, and the data security level is a fixed coefficient preset according to a sensitivity level of service link circulation data. Further preferably, the node computing power and bandwidth resource allocation preferably meets the resource requirement of the service link with higher global priority weight, and the matching of the data encryption and the permission verification strategies synchronously increases the encryption level and the permission verification links along with the improvement of the dynamic strength coefficient of the security strategy. Further preferably, the real-time synergy is calculated based on a data consistency coefficient, a circulation efficiency coefficient and a node completion coefficient, the data consistency coefficient is calculated by a cross-system circulation data consistency check result, the circulation efficiency coefficient is calculated by data circulation actual time consumption and standard time consumption, and the node completion coefficient is calculated by the number of completed nodes and the total number of nodes. Further preferably, the global priority weight is calculated based on the linkage relation among the inherent importance of the service, the real-time coordination degree, the node load pressure and the data security level, and the sum of the global priority weights of all concurrent serv