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CN-121639265-B - Regional dynamic point distribution method and system for flower progressive alliance network

CN121639265BCN 121639265 BCN121639265 BCN 121639265BCN-121639265-B

Abstract

The application relates to the field of allied network management, in particular to a method and a system for dynamically distributing points in a region of a flower allied network. The method comprises the steps of obtaining a flower art order demand data set, carrying out task disassembly on a complex flower art order based on the flower art order demand data set to generate a flower art skill task chain information set, carrying out dynamic matching of an execution node and a skill label based on the flower art skill task chain information set, triggering targeted reconstruction and environment adaptation of a member store function based on the dynamic matching, generating a dynamic node attribute mapping scheme set for driving node specialization and flow standardization, carrying out semi-finished product life state tracking and final integrity packaging based on the dynamic node attribute mapping scheme set, and generating and outputting a flower art order full-link collaborative report. In the dynamic distribution process of the flower progressive alliance network, the application realizes the standardized disassembly and specialized coordination of complex orders and ensures the whole-course quality of the flower works as life works of art.

Inventors

  • LUO ZHI

Assignees

  • 成都花娃网络科技有限公司

Dates

Publication Date
20260512
Application Date
20260205

Claims (9)

  1. 1. A method for dynamically allocating points in a region of a flower progressive alliance network, comprising: Acquiring a flower art order demand data set, extracting flower art physiological state requirements, a process technique sequence, emotion expression scenes and time-space delivery constraints, and performing task disassembly on a complex flower art order according to progressive construction logic defined by space structures and functional layers of flower art works to generate a flower art skill task chain information set; task disassembly is carried out on the complex flower art order, and a flower art skill task chain information set is generated, which comprises the following steps: The flower order demand data set comprises flower physiological state requirements, a process technique sequence, an emotion expression scene and a time-space delivery constraint; After extracting the physiological state requirements of flowers, the process technique sequences, the emotion expression scenes and the time-space delivery constraint, according to progressive construction logic defined by the spatial structure and the functional hierarchy of the flower works, disassembling a complex flower order into flower subtasks with strict task distinction relations, distributing corresponding standardized task execution packages for each flower subtask, and integrating all standardized task execution packages to generate a flower skill task chain information set; The standardized task execution package is provided with execution configuration data corresponding to the flower subtasks, and the execution configuration data at least comprises a skill label set for identifying professional skill combinations required for executing the flower subtasks; based on the flower skill task chain information set, performing dynamic matching of the execution node and the skill label, triggering target reconstruction and environment adaptation of the function of the allied store according to the dynamic matching, and generating a dynamic node attribute mapping scheme set for driving node specialization and flow standardization, wherein the dynamic node attribute mapping scheme set comprises the following steps: Based on skill label sets and space-time requirements packaged by standardized task execution packages in a flower skill task chain information set, screening optimal execution nodes from a joining network according to skill label matching degree, current workload of the nodes and node physical microenvironment data; sending a reconstruction instruction to the optimal execution node to trigger the operation interface, the material authority and the operation flow to switch to a special execution mode matched with the allocated flower subtasks; Packaging the matching relation between the optimal execution node and the assigned flower subtasks, the reconstruction instruction and the switching result according to the special execution mode after the reconstruction of the node is completed, and generating a dynamic node attribute mapping scheme set; The targeted reconstruction and environment adaptation is that a specific instruction set sent to a target node by a system after being matched aims at enabling the physical environment or workflow of the target node to be temporarily adapted to the requirements of specific tasks; the dynamic node attribute mapping scheme set is a complete corresponding relation scheme set of 'task-node-adaptation requirement' formed after the completion of the matching of the skill task chain of the whole order; Based on the dynamic node attribute mapping scheme set, performing semi-finished product life state tracking and final integrity packaging, and generating and outputting a flower art order full-link collaborative report; the semi-finished product life state tracking is to continuously and seamlessly monitor and record the core vital signs of flowers or flower semi-finished products flowing among different nodes in the order execution process; the core vital signs include moisture content, cellular activity, and morphology retention; The integrity packaging is to select and execute the final delivery steps of the packaging, the attaching card and the presentation mode which are most matched with the original emotion expression scene of the order and the real-time state of the final work after all the manufacturing links of the order are completed.
  2. 2. The method of claim 1, wherein the process of constructing the set of flower subtasks comprises: Analyzing a plurality of independent flower work units contained in the order based on the process skill sequence and the emotion expression scene, and determining the type and style characteristics of each independent flower work unit; For each independent flower work unit, matching one or more core skill labels and corresponding standard man-hour expected values required for completing the work from a preset flower work demand mapping table by combining the flower material physiological state requirements and the space-time delivery constraints; Taking each independent flower work unit as a reference, and combining the matched core skill labels to disassemble the independent flower work units into independent distribution units which can be executed by different affiliated stores; And organizing all the independent distribution units into the flower art subtask set with the networked dependency relationship according to the logic relationship, the material circulation relationship and the standard working hour expected value in the original order.
  3. 3. The method of claim 2, wherein the standardized task execution package comprises: the standardized task execution envelope contains execution configuration data of each independent flower work unit, and comprises: A set of artist skill labels derived from the core skill labels to which the respective allocation units match, for identifying a combination of expertise required to perform the task; An accurate bill of materials is generated by matching with a preset material configuration rule according to the type, style characteristics and the physiological state requirement of the flowers of the independent distribution units; And defining quality node acceptance criteria according to the positions of the independent distribution units in the networked dependency relationships and the process characteristics of the independent distribution units.
  4. 4. The method of claim 3, wherein the generating of the set of dynamic node attribute mapping schemes comprises: Screening optimal execution nodes from the allied network according to skill label matching degree, current workload of the nodes and physical microenvironment data of the nodes based on the skill label set and space-time requirements of the flower artist packaged by each independent distribution unit; Sending a reconstruction instruction to the optimal execution node, and triggering an operation interface, material authority and operation flow thereof to switch to a special execution mode matched with the distributed independent distribution unit; And according to the special execution mode after the node is completed to reconstruct, packaging the matching relation between each optimal execution node and the allocated independent allocation units, the reconstruction instruction and the switching result, and generating the dynamic node attribute mapping scheme set.
  5. 5. The method of claim 4, wherein the screening the federation network for optimal execution nodes comprises: Screening based on the skill label matching degree, wherein the skill label which is preferentially matched with the skill label which is registered is completely consistent with a skill label set of a flower artist which is packaged by the independent distribution unit, and the skill label is recently provided with allied nodes which are similar to the independent distribution unit and successfully execute records; Evaluating the workload saturation of candidate nodes in an execution period specified by the space-time requirement of the independent distribution unit, and screening the allied nodes with sufficient productivity allowance; Comparing the real-time physical environment parameters of the candidate allied nodes with the preset physical microenvironment requirements of the independent distribution units, and checking whether the operation space size and the environmental temperature and humidity control equipment of the node meet the standard completely; And comprehensively screening and checking results, grading and sorting the candidate allied nodes, and selecting the node with the optimal comprehensive performance as the optimal execution node.
  6. 6. The method of claim 5, wherein the generating of the flower order full link collaborative report comprises: based on the dynamic node attribute mapping scheme set, performing semi-finished product life state relay tracking on the execution process of each independent distribution unit at the distributed optimal execution node; after all the independent distribution units are executed and quality node acceptance is completed, final summarizing, checking and packaging are carried out on semi-finished products of all the units, and final integrity packaging is completed; Integrating the flower skill task chain information set, the dynamic node attribute mapping scheme set, all link tracking data and packaging results to generate the flower skill order full-link collaborative report comprising task decomposition, node matching, process tracking and quality confirmation.
  7. 7. The method of claim 6, wherein said performing a semi-finished life state tracking comprises: Dynamically synthesizing a virtual fresh-keeping corridor crossing nodes based on the physiological state requirements of the flowers and plants of each independent distribution unit and the physical microenvironment data of the nodes passing through the nodes, and presetting a flower vital sign tolerance threshold value of the virtual fresh-keeping corridor; During the manufacturing and circulation processes, the flower art vital signs are monitored in real time, and when predicted data deviate from tolerance threshold values of the flower art vital signs, a tuning instruction comprising a transportation parameter adjustment or a change transfer node is actively triggered; Before final delivery, triggering final scene self-adaptive packaging according to the actual life state of the flower works and the emotion expression scene of the order; the scene self-adaptive packaging is that before final delivery, the system triggers the dynamic adjustment of the final packaging material, auxiliary ornaments and even blessing content according to the actual life state of the flower works and the emotion expression scene of the order.
  8. 8. The method of claim 7, wherein the method further comprises: Presetting a basic contribution value for each independent distribution unit in the flower skill task chain information set, wherein the basic contribution value is calculated based on the complexity of the core skill label matched with the basic contribution value and the standard man-hour expected value; According to the actual execution quality of each independent distribution unit under the quality node acceptance standard, carrying out weighted correction on the basic contribution value to generate an allied node actual contribution value, wherein the quality basis is derived from final customer feedback; Summarizing the corrected actual contribution values of all the independent distribution units in the order, and dynamically segmenting the total income of the order according to the proportion of the actual contribution values of each unit in the total contribution values to generate an allied node capacity file; And the allied node capability file characterizes the quantitative index of the historical performance and reliability of the node under the corresponding skill label, and is used for providing a historical performance basis for screening the optimal execution node from the allied network when a new flower skill task chain information set is generated by a subsequent order.
  9. 9. A regional dynamic point distribution system of a flower progressive alliance network, characterized by being applied to the method of any one of claims 1-8, comprising: the task chain information module is used for acquiring a flower art order demand data set, extracting flower art physiological state requirements, a process technique sequence, emotion expression scenes and time-space delivery constraints, and carrying out task disassembly on a complex flower art order according to progressive construction logic defined by a space structure and a functional hierarchy of a flower art work to generate a flower art skill task chain information set; the node attribute mapping module is used for carrying out dynamic matching of the execution node and the skill label based on the flower skill task chain information set, triggering target reconstruction and environment adaptation of the function of the allied store according to the dynamic matching, and generating a dynamic node attribute mapping scheme set for driving node specialization and flow standardization; And the collaborative report module is used for carrying out relay tracking and final integrity packaging on the semi-finished product life state based on the dynamic node attribute mapping scheme set, and generating and outputting a full-link collaborative report of the flower art order.

Description

Regional dynamic point distribution method and system for flower progressive alliance network Technical Field The application relates to the field of allied network management, in particular to a method and a system for dynamically distributing points in a region of a flower allied network. Background In the field of customization and delivery of high-end personalized flower works, flower works bearing specific emotion expression and artistic value are processed and manufactured by flowers, and the full-flow life state of the flower works finally delivered to a user is preserved, so that visual expressive force, emotion transmission efficiency and commercial value of the works are directly determined to be honored, and the flower works are core links of high-quality service supply under the background of experience economy and consumption upgrading. However, when the existing flower art supply chain management method is applied to a flower delivery service alliance network, when multiple constraints are faced, a mechanism for systematically, prospectively modeling and globally dynamically guaranteeing the life state of a work is lacking, so that the closed loop control of the quality of the whole chain from production to delivery is difficult to realize, and irreversible damage to the expressive force of the work before delivery is caused due to the lag of passive response type monitoring and intervention, and the user experience and brand reputation are seriously influenced. Disclosure of Invention The application provides a method and a system for dynamically distributing points in a region of a flower-delivery alliance network, which are used for solving the technical problems. In a first aspect, the present application provides a method for dynamic point placement in a region of a flower-delivery union network, the method comprising: Extracting a flower physiological state requirement, a process technique sequence, an emotion expression scene and a time-space delivery constraint based on the flower order demand data set, and performing task disassembly on a complex flower order according to progressive construction logic defined by a spatial structure and a functional hierarchy of a flower work to generate a flower skill task chain information set; based on the flower skill task chain information set, performing dynamic matching of the execution node and the skill label, triggering target reconstruction and environment adaptation of the function of the allied store according to the dynamic matching, and generating a dynamic node attribute mapping scheme set for driving node specialization and flow standardization; and based on the dynamic node attribute mapping scheme set, performing semi-finished product life state tracking and final integrity packaging, and generating and outputting a flower art order full-link collaborative report. Through the technical scheme, the allied network is upgraded into the elastic production organism capable of being dynamically recombined, the standardized disassembly and specialized coordination of complex orders are realized, the whole-course quality and emotion expression accuracy of the flower works as life works of art are guaranteed, and the whole-flow digital closed loop is adopted, so that the overall operation efficiency, the resource utilization rate and the customer trust degree of the network are remarkably improved. The flower skill task chain information set comprises a flower material physiological state requirement, a process technique sequence, emotion expression scenes and time-space delivery constraints, a complex flower order is disassembled into flower subtasks with strict task distinction relations based on progressive construction logic defined by spatial structures and functional layers of flower works based on the flower material order requirement data set, and corresponding standardized task execution packages are distributed for each flower subtask based on the flower subtask sets, so that all the standardized task execution packages are integrated to generate the flower skill task chain information set. The construction process of the flower subtask set comprises the steps of analyzing a plurality of independent flower work units contained in an order based on the process technique sequence and the emotion expression scene, determining the type and style characteristics of each independent flower work unit, matching one or more core skill labels and corresponding standard man-hour expected values required for completing the work from a preset flower work demand mapping table according to the physiological state requirements of flowers and the space-time delivery constraint of each independent flower work unit, and disassembling the independent flower work units into independent distribution units which can be executed by different special member joining stores by combining the matched core skill labels based on each independent flower work unit