Search

CN-121998355-A - Method for quickly searching upper door installation maintenance service

CN121998355ACN 121998355 ACN121998355 ACN 121998355ACN-121998355-A

Abstract

The invention relates to the technical field of mobile Internet and discloses a method for quickly searching for a door-to-door installation and maintenance service, which comprises the steps of collecting visual data of a service target through an AR interface of a user terminal, receiving interactive labels and generating structured service demand data comprising a three-dimensional scene reference model; the method comprises the steps of matching the demand data with dynamic images of a plurality of service providers, wherein the dynamic images at least comprise real-time schedulability indexes calculated based on real-time states and positions and scenerization skill vectors generated based on historical data, superposing the matching results in an AR interface in a visual element mode to push, displaying reference quotations estimated based on the demand data in an associated mode, and synchronizing the demand data to a service provider terminal according to user selection so as to support AR auxiliary performance. The invention realizes visual structural analysis of service demands, multidimensional dynamic and accurate matching of service providers and visual coordination of service flows, and remarkably improves the searching efficiency, matching precision and user experience of the service on the door.

Inventors

  • LI RUI

Assignees

  • 广东万能工科技有限公司

Dates

Publication Date
20260508
Application Date
20260128

Claims (9)

  1. 1. The method for quickly searching the upper door installation and maintenance service is characterized by comprising the following steps of: The method comprises the steps of S1, acquiring and structuring a required scene Augmented Reality (AR) interface, wherein the AR interface is used for responding to user operation, guiding a user to scan a service target through the AR interface, and receiving interactive annotation information of the user in an AR picture; S2, carrying out matching calculation on the dynamic portraits of a plurality of service providers based on the structured service demand data, wherein the dynamic portraits at least comprise real-time schedulability indexes calculated based on the real-time geographic positions and the current task states of the service providers and scenerification skill vectors which are quantitatively generated based on historical service data and are associated with specific service scenes; S3, augmented reality visualization pushing, namely superposing at least one piece of recommended service provider information obtained by matching calculation in an AR interface of a user terminal in a form of a visualization element for display, wherein the visualization element is used for displaying a reference quotation estimated based on the service demand data in an associated manner; And S4, task data synchronization and performance assisting steps, namely, responding to a selection instruction of a user for recommending a service provider, synchronizing the structured service demand data comprising the three-dimensional scene reference model to a terminal of the selected service provider, and supporting the provision of AR auxiliary information based on the three-dimensional scene reference model in the service performance process.
  2. 2. The method according to claim 1, wherein in the step S1, the generating the structured service requirement data specifically includes analyzing the visual data by using a computer visual model, identifying the class and/or the key component of the service target, and automatically generating the structured service requirement data including the estimated operation complexity coefficient and/or the required material pre-judging list in combination with the interactive labeling information.
  3. 3. The method according to claim 1, wherein in the step S2, the dynamic image further includes real-time resource load information of a service provider, the real-time resource load information reflects a stock condition of spare parts currently carried by the service provider, and the matching calculation is further performed according to a degree of fit between the required material prejudgement list and the real-time resource load information.
  4. 4. The method according to claim 1, wherein in the step S2, the matching calculation is further performed according to the similarity between the three-dimensional scene reference model or the features extracted therefrom and the scene model corresponding to the work order completed by the service provider history.
  5. 5. The method according to claim 1, wherein in the step S3, the visual element is an interactive information board floating in the AR live-action screen at a corresponding virtual position of the server, and the reference price quote associated with the interactive information board is a price interval calculated based on the operation complexity coefficient and/or the required material prejudgement list.
  6. 6. The method according to claim 1, wherein in the step S4, the supporting the providing of AR assistance information during the service performance includes providing an access interface of the three-dimensional scene reference model to a server terminal, enabling the server to retrieve a user pre-noted fault point or installation location in the AR view.
  7. 7. The method according to claim 1, wherein step S4 further comprises pushing AR status hint information related to the progress of the service to the user terminal during the performance of the service, the status hint information being associated with a specific location in the three-dimensional scene reference model.
  8. 8. A system for quick lookup overhead door installation repair service, for implementing a method as claimed in any one of claims 1 to 7, the system comprising: The user terminal module is configured with an AR acquisition and interaction unit and is used for executing the steps S1 and S3; The service provider terminal module is used for receiving the synchronous task data and participating in the performance; the service matching engine is used for maintaining the dynamic image of the service provider and executing the matching calculation of the step S2; and the data synchronization and service management module is used for executing the task data synchronization and flow coordination of the step S4.
  9. 9. A computer readable storage medium, on which a computer program is stored, which, when being executed by a processor, implements the method according to any of claims 1-7.

Description

Method for quickly searching upper door installation maintenance service Technical Field The invention relates to the technical field of mobile Internet, in particular to a method for quickly searching for upper door installation maintenance service. Background With the popularization of the mobile internet, it has become mainstream to find online platforms for door installation and maintenance services (such as home appliance maintenance, furniture installation, pipeline dredging, etc.). Existing solutions rely mainly on the following modes: Platform retrieval mode based on keywords and static information-the user enters service keywords (e.g. "air conditioner maintenance", "toilet installation") and rough location in the application or website. The platform matches based on static labels (e.g., skill classifications) filled by the facilitator and the fixed geographic location, returning a list. The user needs to repeatedly describe the site conditions and send photos to a plurality of service providers through telephone or online chat so as to obtain rough quotations and reservations. The method has the core problems of low information transmission efficiency and inaccurate description, so that a service provider cannot accurately judge the problem before the service provider arrives at the site, and the price quotation deviation is large, secondary entry or temporary price adding is needed, and the user experience is poor. Simple geographic location scheduling mode-some platforms attempt to introduce LBS (location based services), pushing preferentially the nearest facilitator to the user. However, this only optimizes traffic time, without consideration of the real-time work status of the facilitator (whether it is already in the mission, the time the mission is expected to be completed), skill proficiency for the particular problem, and whether to carry appropriate spare parts. The result may be that the nearest facilitator is not adept at dealing with the particular problem, or is in other tasks, and is not actually able to respond quickly. Information asymmetry and lack of visual assessment-in the whole process, from demand description, quotation to construction, an objective visual benchmark is lacking. The text or oral description of the user always goes in and out with the actual situation on site, the quotation of the service provider is based on fuzzy description, the basis is lacking, and the user cannot intuitively and reliably judge the adaptation degree of the service provider before service. This whole process of information blackout is a major cause of trust loss and disputes. In summary, the defects of the prior art can be summarized as (1) the lack of the capability of converting a non-standardized scene into structured and computable data by a demand end and relying on low-efficiency manual description, (2) the dependence of a matching end on static and single dimensions (keywords and static positions) and the failure to integrate the real-time state, refined skills, resource load and other multidimensional dynamic information of a service provider, and (3) the lack of a transparent and visual visualization medium by an interaction end, so that the matching result, the quotation basis and the service process are opaque. Based on the above, the present invention proposes a method for quickly searching for the installation and maintenance service of the upper door to solve the above-mentioned problems. Disclosure of Invention In order to overcome the above-mentioned drawbacks of the prior art, the present invention provides a method for quickly searching for an installation and maintenance service of an upper door, so as to solve the above-mentioned problems in the prior art. The invention provides a method for quickly searching upper door installation maintenance service, which comprises the following steps: The method comprises the steps of S1, acquiring and structuring a required scene Augmented Reality (AR) interface, wherein the AR interface is used for responding to user operation, guiding a user to scan a service target through the AR interface, and receiving interactive annotation information of the user in an AR picture; S2, carrying out matching calculation on the dynamic portraits of a plurality of service providers based on the structured service demand data, wherein the dynamic portraits at least comprise real-time schedulability indexes calculated based on the real-time geographic positions and the current task states of the service providers and scenerification skill vectors which are quantitatively generated based on historical service data and are associated with specific service scenes; S3, augmented reality visualization pushing, namely superposing at least one piece of recommended service provider information obtained by matching calculation in an AR interface of a user terminal in a form of a visualization element for display, wherein the visualization element is used