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CN-122022343-A - Enterprise resource data interconnection method and system

CN122022343ACN 122022343 ACN122022343 ACN 122022343ACN-122022343-A

Abstract

The invention provides an enterprise resource data interconnection method and system, which relate to a data processing technology and are used for calling a plurality of pieces of participant information of target personnel in an enterprise, wherein each piece of participant information comprises a position distribution map and conference data, an interactive index structure of the target personnel is customized and built according to the position distribution map and the conference data, the interactive index structures of the target personnel are combined in response to the resource integration information of the target enterprise to generate an enterprise docking structure, and a customized display structure can be built by utilizing actual conference data in the conference, so that users can conveniently and intuitively review the participant information, and user experience is improved.

Inventors

  • LIU XIAOYU
  • JIANG NAN
  • LUO JIAYU
  • LIU SHAOHUA

Assignees

  • 全域互联(北京)科技有限公司

Dates

Publication Date
20260512
Application Date
20260131

Claims (10)

  1. 1. The enterprise resource data interconnection method is characterized by comprising the following steps: Invoking a plurality of pieces of participant information of target personnel in an enterprise, wherein each piece of participant information comprises a position distribution map and meeting data; Customizing and constructing an interactive index structure of a target person according to the position distribution diagram and the conference data; And responding to the resource integration information of the target enterprise, merging the interactive index structures of enterprise personnel, and generating an enterprise docking structure.
  2. 2. The method of claim 1, wherein the step of determining the position of the substrate comprises, The customizing construction of the interactive index structure of the target personnel according to the position distribution diagram and the conference data comprises the following steps: Analyzing the conference data to obtain participants, conference basic information and conference panoramic information; constructing a first linking structure based on the target person and meeting basic information; Taking the rest of meeting participants except the target personnel as first personnel, and constructing a second connection structure based on the first personnel, the position distribution map and the meeting panoramic information; And connecting the target node in the second linking structure with the corresponding event node in the first linking structure to obtain the interactive index structure of the target person.
  3. 3. The method of claim 2, wherein the step of determining the position of the substrate comprises, The constructing a first linking structure based on the target person and meeting basic information includes: constructing personnel nodes based on target personnel, and constructing event nodes according to meeting basic information; And connecting the event nodes with personnel nodes to obtain a first connection structure.
  4. 4. The method of claim 2, wherein the step of determining the position of the substrate comprises, The constructing a second linking structure based on the first person, the location profile and the conference panorama information includes: constructing position nodes consistent with the position distribution diagram, taking the position nodes corresponding to the first person and the target person as binding nodes, and taking the rest position nodes as unbinding nodes; the personnel information of the first personnel and the target personnel is called to be updated into the binding node, and the node line of the unbound node is changed into a broken line; taking the binding nodes of the target personnel as target nodes, and taking the rest binding nodes as nodes to be interacted; and constructing an interaction relation between the target node and the node to be interacted based on the conference panoramic information, and generating a second linking structure.
  5. 5. The method of claim 4, wherein the step of determining the position of the first electrode is performed, Establishing an interaction relation between the target node and the node to be interacted based on the conference panoramic information, and generating a second linking structure, wherein the second linking structure comprises the following steps: Acquiring an association request of a target person in the conference panoramic information, wherein the association request comprises a direct interaction request and an indirect interaction request; when the association request is determined to be a direct interaction request, acquiring an interaction object and interaction time of the direct interaction request corresponding to the target person; Constructing a direct interaction identifier between a target node and a corresponding node to be interacted according to the interaction object and the interaction moment; When judging that the association request is an indirect interaction request, acquiring an interaction object and a referrer object corresponding to the indirect interaction request of the target person; constructing an indirect interaction identifier between a target node and a corresponding node to be interacted according to the interaction object and the referrer object; And updating the direct interaction identifier and the indirect interaction identifier to the corresponding binding nodes to obtain a second linking structure.
  6. 6. The method of claim 5, wherein the step of determining the position of the probe is performed, The constructing a direct interaction identifier between a target node and a corresponding node to be interacted according to the interaction object and the interaction moment comprises the following steps: using a node to be interacted corresponding to the interaction object as an interaction node, and constructing an interaction pointing identifier between the interaction node and the target node according to the receiving information of the interaction node and the target node; and acquiring a conference display diagram corresponding to the interaction moment, updating the conference display diagram to the central position of the interaction pointing identifier, and generating a direct interaction identifier.
  7. 7. The method as recited in claim 6, further comprising: connecting an interaction center of the interaction node with a target center of the target node to obtain a first connection; acquiring an intersection point of a first connecting line and an interaction node as an ending point, taking the intersection point of the first connecting line and a target node as a starting point, and taking the connecting line between the starting point and the ending point as a first line segment; When the first line segment and the nodes to be interacted are determined to have 2 intersection points, the corresponding nodes to be interacted are used as blocking nodes; Rotating the two sides of the first connecting line by taking the starting point as a fixed point until the number of the intersection points with the corresponding blocking nodes is 1, wherein the intersection points at the corresponding blocking nodes are used as connecting intersection points; Repeating the step of obtaining the engagement intersection point by taking the engagement intersection point as a current starting point until the interaction connection line between the target node and the interaction node is obtained when the blocking node is not available; and replacing the connection line of the interactive pointing identifier in the direct interactive identifier with the interactive connection line.
  8. 8. The method of claim 5, wherein the step of determining the position of the probe is performed, The indirect interaction identification is constructed between a target node and a corresponding node to be interacted according to the interaction object and the referrer object, and the method comprises the following steps: Taking a node to be interacted corresponding to the referee object as the referee node, and taking the node to be interacted corresponding to the interaction object as the interaction node; Constructing a first indirect pointing identifier between the referee node and the target node according to the receiving information of the interaction node and the target node, and constructing a second indirect pointing identifier between the referee node and the interaction node; and obtaining an indirect interaction identifier between the target node and the corresponding node to be interacted according to the first indirect pointing identifier and the second indirect pointing identifier.
  9. 9. The method as recited in claim 5, further comprising: responding to the binding exchange information of the target personnel, taking the target node as a binding exchange node, and taking the corresponding unbound node as a current target node; And updating the direct interaction identifier and the indirect interaction identifier at the binding exchange node to the position of the current target node, and constructing a bidirectional migration identifier between the binding exchange node and the current target node.
  10. 10. An enterprise resource data interconnection system, comprising: The system comprises a calling module, a receiving module and a processing module, wherein the calling module is used for calling a plurality of pieces of participant information of target personnel in an enterprise, and each piece of participant information comprises a position distribution diagram and meeting data; The construction module is used for customizing and constructing an interactive index structure of the target personnel according to the position distribution diagram and the conference data; and the response module is used for responding to the resource integration information of the target enterprise, merging the interactive index structures of the enterprise personnel and generating an enterprise docking structure.

Description

Enterprise resource data interconnection method and system Technical Field The present invention relates to data processing technologies, and in particular, to a method and a system for interconnecting enterprise resource data. Background With the increasing frequency of modern business activities, the interconnection and integration of enterprise resource data become a key link for improving the core competitiveness of enterprises. In business exchanges, industry meetings, and various conference scenarios, enterprise personnel may be exposed to a large number of potential customers or partners, and these interaction data constitute important vein assets for the enterprise. These data generated based on offline entity interactions are an important component of enterprise core assets, and recording and utilizing these data is critical to improving enterprise competitiveness. At present, a static text recording mode is generally adopted in the traditional enterprise resource management or business card management mode, namely only the name, the contact way, the affiliated units and other basic information of the contact are stored. Although the method realizes the digital storage of the data, the specific situation when the veins are established, such as specific position distribution when the persons are participating, conference theme background and the like, are ignored. This technical limitation results in the user often not being able to accurately recall the details of the interaction with the correspondents due to lack of scene cues at the time of subsequent review. Therefore, how to construct a customized display structure by using actual conference data in a conference, thereby facilitating visual review by a user, improving user experience, and becoming a technical problem to be solved urgently. Disclosure of Invention The enterprise resource data interconnection method and system provided by the invention can construct a customized display structure by utilizing actual conference data in a conference, thereby facilitating visual review by a user and improving user experience. In a first aspect of the present invention, there is provided an enterprise resource data interconnection method, including: Invoking a plurality of pieces of participant information of target personnel in an enterprise, wherein each piece of participant information comprises a position distribution map and meeting data; Customizing and constructing an interactive index structure of a target person according to the position distribution diagram and the conference data; And responding to the resource integration information of the target enterprise, merging the interactive index structures of enterprise personnel, and generating an enterprise docking structure. Optionally, in a possible implementation manner of the first aspect, the customizing the interactive index structure of the building target person according to the location distribution map and the conference data includes: Analyzing the conference data to obtain participants, conference basic information and conference panoramic information; constructing a first linking structure based on the target person and meeting basic information; Taking the rest of meeting participants except the target personnel as first personnel, and constructing a second connection structure based on the first personnel, the position distribution map and the meeting panoramic information; And connecting the target node in the second linking structure with the corresponding event node in the first linking structure to obtain the interactive index structure of the target person. Optionally, in a possible implementation manner of the first aspect, the constructing a first linking structure based on the target person and meeting basic information includes: constructing personnel nodes based on target personnel, and constructing event nodes according to meeting basic information; And connecting the event nodes with personnel nodes to obtain a first connection structure. Optionally, in a possible implementation manner of the first aspect, the constructing a second linking structure based on the first person, the location profile, and the conference panorama information includes: constructing position nodes consistent with the position distribution diagram, taking the position nodes corresponding to the first person and the target person as binding nodes, and taking the rest position nodes as unbinding nodes; the personnel information of the first personnel and the target personnel is called to be updated into the binding node, and the node line of the unbound node is changed into a broken line; taking the binding nodes of the target personnel as target nodes, and taking the rest binding nodes as nodes to be interacted; and constructing an interaction relation between the target node and the node to be interacted based on the conference panoramic information, and generating a second linking structur