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CN-121982197-A - Intelligent display method for health state of object

CN121982197ACN 121982197 ACN121982197 ACN 121982197ACN-121982197-A

Abstract

The application is suitable for the technical field of computers, and particularly relates to an intelligent display method and device for health status of an object. The method comprises the steps of obtaining multi-modal health data of a target object, wherein the multi-modal health data comprise vital sign data of the target object in different sign dimensions, determining health states of a plurality of physiological nodes of the target object according to the multi-modal health data, wherein the physiological nodes are entity parts for representing physiological structures and functions of the object, and rendering a preset simulation object model according to the health states of the physiological nodes to generate and display a model rendering result. Can be combined with the knowledge of traditional Chinese medicine to realize the visualization of the health state of human body.

Inventors

  • LI HUA

Assignees

  • 深圳市倍轻松科技股份有限公司

Dates

Publication Date
20260505
Application Date
20251229

Claims (10)

  1. 1. An intelligent display method for health status of a subject, the method comprising: acquiring multi-modal health data of a target object, wherein the multi-modal health data comprises vital sign data of the target object in different sign dimensions; Determining health states of a plurality of physiological nodes of the target object according to the multi-mode health data, wherein the physiological nodes are entity parts used for representing physiological structures and functions of the object, the plurality of physiological nodes comprise a first physiological node and a second physiological node, the health states of the first physiological node meet health requirements, and the health states of the second physiological node do not meet the health requirements; rendering a preset simulation object model according to the health states of the plurality of physiological nodes, and generating and displaying a model rendering result, wherein the first physiological node and the second physiological node correspond to different display modes in the model rendering result.
  2. 2. The method of claim 1, wherein the determining the health status of the plurality of physiological nodes of the target subject from the multimodal health data comprises: Acquiring a feature mapping table, wherein the feature mapping table is generated according to traditional Chinese medicine diagnosis logic, and the feature mapping table comprises the corresponding relation between the features of vital sign data under each physical sign dimension and the health state of the physiological node; determining association relations between each physiological node in the plurality of physiological nodes and vital sign data in each physical sign dimension in the multi-modal health data according to the feature mapping table; For each physiological node, determining the health status of the physiological node from the feature mapping table according to the features of the associated vital sign data of the physiological node so as to determine the health status of a plurality of physiological nodes of the target object.
  3. 3. The method of claim 2, wherein for each physiological node, determining the health status of that physiological node from the feature map based on the features of its associated vital sign data to determine the health status of a plurality of physiological nodes of the target subject comprises: For each physiological node, if vital sign data from a plurality of physical sign dimensions are associated with the physiological node, respectively distributing weights to the vital sign data in the plurality of physical sign dimensions; and determining the health state of the physiological node from the feature mapping table according to the features and the weights of the vital sign data in the plurality of sign dimensions.
  4. 4. A method according to claim 3, wherein the priority of vital sign data in each of the plurality of physical sign dimensions is different; for each physiological node, if vital sign data from a plurality of sign dimensions are associated with the physiological node, respectively assigning weights to the vital sign data in the plurality of sign dimensions, including: Determining the weight according to priorities corresponding to vital sign data in the plurality of physical sign dimensions; Or determining the weight according to the degree of association between the physiological node and vital sign data in the plurality of sign dimensions.
  5. 5. The method according to claim 2, wherein the simulation object model includes node model components corresponding to the plurality of physiological nodes respectively; rendering the preset simulation object model according to the health states of the plurality of physiological nodes, generating and displaying a model rendering result, including: Determining a rendering parameter of each node model component according to the health states of the plurality of physiological nodes, wherein the rendering parameter is used for indicating a display mode of the node model component in the model rendering result; And rendering the simulation object model according to the rendering parameters, and generating and displaying the model rendering result.
  6. 6. The method of claim 5, wherein the plurality of physiological nodes comprises a plurality of visceral nodes, a plurality of meridian nodes, and a plurality of acupoint nodes; In the model rendering result, the health state of the viscera node is presented through the change of the color and/or brightness of the corresponding node model component, the health state of the meridian node is presented through the change of the path flow speed and/or the path width of the corresponding node model component, and the health state of the acupoint node is presented through the change of the display size and/or the flicker frequency of the corresponding node model component.
  7. 7. The method according to any one of claims 1 to 6, further comprising: determining association relations among the plurality of physiological nodes according to a preset traditional Chinese medicine knowledge graph, wherein the physiological nodes with the association relations are association nodes; And generating health analysis data and intervention guidance data corresponding to each physiological node respectively according to the multi-modal health data and the association relation between the physiological nodes, wherein the health analysis data comprises conditions of interaction between the physiological nodes and the association nodes corresponding to the physiological nodes, and the intervention guidance data comprises guidance information for intervention on abnormal states of the physiological nodes.
  8. 8. The method of claim 7, wherein the method further comprises: And in response to receiving the interactive operation of the target physiological node in the model rendering result, displaying health analysis data and intervention guidance data corresponding to the target physiological node.
  9. 9. The method according to any one of claims 1 to 6, further comprising: receiving a screening instruction, wherein the screening instruction is used for indicating the target type of the candidate physiological node to be highlighted in the model rendering result; And highlighting the candidate physiological nodes in the model rendering result according to the screening instruction.
  10. 10. An intelligent display device for a health status of a subject, the device comprising: The system comprises a data acquisition module, a data processing module and a data processing module, wherein the data acquisition module is used for acquiring multi-modal health data of a target object, and the multi-modal health data comprise vital sign data of the target object under different sign dimensions; The analysis module is used for determining the health states of a plurality of physiological nodes of the target object according to the multi-mode health data, the physiological nodes are entity parts used for representing the physiological structure and the function of the object, the physiological nodes comprise a first physiological node and a second physiological node, the health states of the first physiological node meet the health requirements, and the health states of the second physiological node do not meet the health requirements; The display module is used for rendering a preset simulation object model according to the health states of the physiological nodes to generate and display a model rendering result, wherein the first physiological node and the second physiological node correspond to different display modes in the model rendering result.

Description

Intelligent display method for health state of object Technical Field The application belongs to the technical field of computers, and particularly relates to an intelligent display method and device for health status of an object. Background The digital traditional Chinese medicine health system is a technical scheme for acquiring vital sign data of a user by means of a mobile application program, comprehensively processing and analyzing by using an artificial intelligence algorithm, and further generating traditional Chinese medicine physique identification or health condition assessment conclusion. However, most of the current systems still rely on non-pictographic forms such as plain text descriptions, abstract numerical scores, or static simple charts when feeding back the evaluation results to the user. The presentation mode is not directly and intuitively associated with the human body part, so that an evaluation conclusion is obscure and understandable, a user is difficult to form clear body cognition, meanwhile, the difficulty of explanation and communication of doctors to patients is increased, and the efficiency and the trust degree of health management are affected. Disclosure of Invention The embodiment of the application provides an intelligent display method and device for the health state of a subject, which can be used for realizing the visualization of the health state of a human body by combining with the knowledge of traditional Chinese medicine. In a first aspect, an embodiment of the present application provides an intelligent display method for a health status of a subject, where the method includes: Acquiring multi-modal health data of a target object, wherein the multi-modal health data comprises vital sign data of the target object in different sign dimensions; Determining the health states of a plurality of physiological nodes of a target object according to the multi-mode health data, wherein the physiological nodes are entity parts for representing the physiological structure and the function of the object, the plurality of physiological nodes comprise a first physiological node and a second physiological node, the health states of the first physiological node meet the health requirements, and the health states of the second physiological node do not meet the health requirements; Rendering a preset simulation object model according to health states of a plurality of physiological nodes, and generating and displaying a model rendering result, wherein the first physiological node and the second physiological node correspond to different display modes in the model rendering result. The beneficial effects of the first aspect are as follows: The method comprises the steps of obtaining multi-mode health data of a target object in different sign dimensions, mapping the multi-mode health data to corresponding physiological nodes according to traditional Chinese medicine diagnosis logic to determine health states, and finally performing differential rendering display on a simulation object model according to the states of the nodes. The method effectively fuses multi-source heterogeneous data, breaks data islands, enables health assessment to be more comprehensive, improves theoretical fitness and interpretability of state judgment by correlating modern data with traditional Chinese medicine viscera and meridian theory, utilizes a three-dimensional model to conduct differential visual presentation on abnormal and normal nodes, achieves visual, accurate positioning and dynamic tracking of health states, and provides a visual interaction carrier for personalized health management. In one possible implementation, determining health states of a plurality of physiological nodes of a target subject from multimodal health data includes: acquiring a feature mapping table, wherein the feature mapping table is generated according to traditional Chinese medicine diagnosis logic, and the feature mapping table comprises the corresponding relation between the features of vital sign data under each physical sign dimension and the health state of physiological nodes; determining association relations between each physiological node in the plurality of physiological nodes and vital sign data in each physical sign dimension in the multi-mode health data according to the feature mapping table; For each physiological node, determining the health status of the physiological node from the feature mapping table according to the features of the associated vital sign data thereof, so as to determine the health status of a plurality of physiological nodes of the target object. In this implementation, a clear, interpretable technical path from multi-source heterogeneous data to standardized health status quantification is provided. Through the two-stage processing of the traditional Chinese medicine knowledge graph and the feature mapping table, semantic association is firstly carried out according to theory, and