Search

US-20260127539-A1 - DATA PROCESSING METHOD FOR WAREHOUSING LOGISTICS SOLUTION, AND TERMINAL DEVICE

US20260127539A1US 20260127539 A1US20260127539 A1US 20260127539A1US-20260127539-A1

Abstract

A data processing method for a warehousing logistics solution, performed by a terminal device, includes: determining project information of a target project in response to an information input operation of a target user for the target project; sending the project information of the target project to a server; receiving, from the server, a solution details interface for the target project, where the solution details interface includes a display area for a reference warehousing logistics solution, and the display area for the reference warehousing logistics solution is used for three-dimensionally displaying a reference warehousing logistics solution generated by the server for the target project; and displaying the solution details interface.

Inventors

  • Yuqi Chen
  • Suimei YANG
  • XIN AI

Assignees

  • HAI ROBOTICS INNOVATION GROUP CO., LTD.
  • SHENZHEN KUBO SOFTWARE CO., LTD.

Dates

Publication Date
20260507
Application Date
20260102
Priority Date
20230707

Claims (20)

  1. 1 . A data processing method for a warehousing logistics solution, performed by a terminal device of a system for processing a warehousing logistics solution, wherein the system for processing the warehousing logistics solution comprises the terminal device and a server, and the method comprises: determining project information of a target project in response to an information input operation of a target user for the target project, wherein the target project is a warehousing logistics project, and the project information is configuration information associated with the warehousing logistics project; sending the project information of the target project to the server; receiving, from the server, a solution details interface for the target project, wherein the solution details interface comprises a display area for a reference warehousing logistics solution, the display area for the reference warehousing logistics solution is used for three-dimensionally displaying the reference warehousing logistics solution generated by the server for the target project, the reference warehousing logistics solution comprises a reference hardware solution and a reference software solution, the reference hardware solution is used for indicating a hardware device required when the target project is implemented according to the reference warehousing logistics solution, the hardware device comprises a warehousing robot, and the reference software solution comprises a software function for implementing a warehousing function based on the warehousing robot; and displaying the solution details interface.
  2. 2 . The method according to claim 1 , wherein the determining project information of the target project in response to the information input operation of the target user for the target project comprises: displaying an editable interface for the target project in response to an upload operation of the target user for an auxiliary design document of the target project, wherein the editable interface comprises a module placement area, a plurality of draggable modules, and a project information determining area, and the draggable module is used for indicating the hardware device; updating the module placement area in response to a placement operation of the target user for one or more draggable modules in the plurality of draggable modules, and displaying an updated module placement area, wherein the placement operation is an operation of dragging the one or more draggable modules into the module placement area; and determining, in response to a user operation of the target user for the project information determining area, the project information of the target project based on the updated module placement area.
  3. 3 . The method according to claim 2 , wherein after the displaying the editable interface, the method further comprises: displaying parameter information of a first draggable module in response to a user operation of the target user for the first draggable module, wherein the first draggable module is any one of the plurality of draggable modules; and changing, in response to a change operation of the target user for the parameter information of the first draggable module, the first draggable module to a second draggable module, wherein the second draggable module is the first draggable module with the parameter information being changed.
  4. 4 . The method according to claim 1 , wherein the determining project information of the target project in response to the information input operation of the target user for the target project comprises: displaying, in response to the information input operation of the target user for the target project in a project information input area on an information input interface, information input by the target user in the project information input area; and determining, in response to a user operation of the target user for a project information determining area on the information input interface, the project information of the target project based on the information displayed in the project information input area.
  5. 5 . The method according to claim 4 , wherein the project information input area comprises a service field input area; and the determining project information of the target project in response to the information input operation of the target user for the target project comprises: generating a first filtering instruction in response to the information input operation of the target user for a service field of the target project in the service field input area, wherein the first filtering instruction is used for indicating the server to filter a first solution set, and a solution in the first solution set is a solution conforming to the service field of the target project; receiving the first solution set from the server, and displaying the solution in the first solution set on the information input interface; marking, in response to a selection operation of the target user for one or more pieces of solution information in the first solution set, the one or more pieces of solution information as a selected state; and determining, in response to the user operation of the target user for the project information determining area, the project information of the target project based on the solution information in the selected state on the information input interface.
  6. 6 . The method according to claim 1 , wherein the solution details interface comprises a solution modification area and a solution determining area; and after the reference warehousing logistics solution is displayed, the method further comprises: generating a solution modification instruction if a user operation of the target user for the solution modification area is detected, and sending the solution modification instruction to the server, wherein the solution modification instruction is used for indicating the server to generate an updated solution details interface; and receiving the updated solution details interface from the server; or generating a solution determining instruction if a user operation of the target user for the solution determining area is detected, and sending the solution determining instruction to the server, wherein the solution determining instruction is used for indicating the server to generate a target warehousing logistics solution based on the solution details interface currently displayed by the terminal device; and receiving a target simulation interface from the server, wherein the target simulation interface is generated based on the target warehousing logistics solution, the target simulation interface comprises a simulation animation playing area, the simulation animation playing area is used for playing a target simulation animation, and the target simulation animation is process images of running the target project according to the target warehousing logistics solution; and playing the target simulation animation in response to a user operation of the target user for the simulation animation playing area.
  7. 7 . The method according to claim 6 , wherein the target simulation interface further comprises an animation speed adjustment area; and the method further comprises: adjusting a playing speed of the target simulation animation in response to a user operation of the target user for the animation speed adjustment area.
  8. 8 . The method according to claim 6 , wherein the playing speed of the target simulation animation is a 1× speed, and the target simulation interface further comprises a simulation interaction function area; and the method further comprises: generating a simulation interaction request instruction in response to a user operation of the target user for the simulation interaction function area, wherein the simulation interaction request instruction is used for indicating the server to generate a target virtual three-dimensional scene for function interaction; displaying the target virtual three-dimensional scene when the target virtual three-dimensional scene from the server is received; and invoking a target software solution in the target virtual three-dimensional scene in response to a function interaction operation of the target user in the target virtual three-dimensional scene, to cause the warehousing robot to execute a warehousing logistics task in the target virtual three-dimensional scene based on a task instruction corresponding to the function interaction operation.
  9. 9 . A data processing method for a warehousing logistics solution, performed by a server of a system for processing a warehousing logistics solution, wherein the system for processing a warehousing logistics solution comprises a terminal device and the server, and the method comprises: receiving project information of a target project from the terminal device, wherein the target project is a warehousing logistics project, and the project information is configuration information associated with the warehousing logistics project; determining a reference warehousing logistics solution for the target project based on the project information, wherein the reference warehousing logistics solution comprises a reference hardware solution and a reference software solution, the reference hardware solution is used for indicating a hardware device required when the target project is implemented according to the reference warehousing logistics solution, the hardware device comprises a warehousing robot, and the reference software solution comprises a software function for implementing a warehousing function based on the warehousing robot; and sending a solution details interface for the target project to the terminal device, wherein the solution details interface comprises a display area for the reference warehousing logistics solution, and the display area for the reference warehousing logistics solution is used for three-dimensionally displaying the reference warehousing logistics solution.
  10. 10 . The method according to claim 9 , wherein the determining the reference warehousing logistics solution for the target project based on the project information comprises: detecting whether a first warehousing logistics solution exists in historical warehousing logistics solutions, wherein solution information of the first warehousing logistics solution is the same as the project information of the target project; and if the first warehousing logistics solution exists in the historical warehousing logistics solutions, determining that the first warehousing logistics solution is the reference warehousing logistics solution; or if the first warehousing logistics solution does not exist in the historical warehousing logistics solutions, determining a target shelving unit layout solution based on the project information; and determining the reference warehousing logistics solution according to the target shelving unit layout solution.
  11. 11 . The method according to claim 10 , wherein the project information comprises warehousing robot models and a warehouse parameter, and the warehouse parameter is used for indicating a shape and a size of a warehouse corresponding to the target project; and the determining the target shelving unit layout solution based on the project information comprises: obtaining a minimum passage width and a maximum warehousing height corresponding to each of the warehousing robot models; determining a plurality of shelving unit layout solutions based on the minimum passage width, the maximum warehousing height, and the warehouse parameter; and filtering the target shelving unit layout solution in the plurality of shelving unit layout solutions.
  12. 12 . The method according to claim 11 , wherein the filtering the target shelving unit layout solution in the plurality of shelving unit layout solutions comprises: filtering, in the plurality of shelving unit layout solutions, a shelving unit layout solution with a largest quantity of storage positions as the target shelving unit layout solution.
  13. 13 . The method according to claim 9 , wherein the solution details interface comprises a solution modification area and a solution determining area; and after the sending the solution details interface to the terminal device, the method further comprises: updating, if a solution modification instruction from the terminal device is received, the reference warehousing logistics solution and the solution details interface based on the solution modification instruction, and sending an updated solution details interface to the terminal device, wherein the solution modification instruction is generated by the terminal device after a user operation of a target user for the solution modification area is detected; or determining, if a solution determining instruction from the terminal device is received, that a warehousing logistics solution on the solution details interface currently displayed by the terminal device is a target warehousing logistics solution, wherein the solution determining instruction is generated by the terminal device after a user operation of the target user for the solution determining area is detected.
  14. 14 . The method according to claim 13 , wherein after the determining that the warehousing logistics solution on the solution details interface currently displayed by the terminal device is the target warehousing logistics solution, the method further comprises: generating a target simulation interface according to the target warehousing logistics solution, wherein the target simulation interface comprises a simulation animation playing area, the simulation animation playing area is used for playing a target simulation animation, and the target simulation animation is process images of running the target project according to the target warehousing logistics solution; and sending the target simulation interface to the terminal device.
  15. 15 . The method according to claim 14 , wherein the target simulation interface further comprises an animation speed adjustment area, and the animation speed adjustment area is used for adjusting a playing speed of the target simulation animation.
  16. 16 . The method according to claim 14 , wherein the playing speed of the target simulation animation is a 1× speed, and the target simulation interface further comprises a simulation interaction function area; and after the sending the target simulation interface to the terminal device, the method further comprises: generating, when a simulation interaction request instruction from the terminal device is received, a target virtual three-dimensional scene for function interaction according to the target warehousing logistics solution, wherein the simulation interaction request instruction is generated by the terminal device in response to a user operation of the target user for the simulation interaction function area; and sending the target virtual three-dimensional scene to the terminal device.
  17. 17 . The method according to claim 9 , wherein before the receiving project information of the target project from the terminal device, the method further comprises: filtering, if a first filtering instruction from the terminal device is received, a first solution set based on the first filtering instruction, wherein a solution in the first solution set is a solution conforming to a service field of the target project; and sending the first solution set to the terminal device.
  18. 18 . A terminal device, applicable to a system for processing a warehousing logistics solution, the system for processing the warehousing logistics solution comprising a server, wherein the terminal device comprises a processor, a memory, and one or more programs, wherein the one or more programs are stored in the memory and configured to be executed by the processor, and the one or more programs, when executed by the processor, cause the processor to: determine project information of a target project in response to an information input operation of a target user for the target project, wherein the target project is a warehousing logistics project, and the project information is configuration information associated with the warehousing logistics project; send the project information of the target project to the server; receive, from the server, a solution details interface for the target project, wherein the solution details interface comprises a display area for a reference warehousing logistics solution, the display area for the reference warehousing logistics solution is used for three-dimensionally displaying the reference warehousing logistics solution; and display the solution details interface; wherein the reference warehousing logistics solution is a historical warehousing logistics solution having same solution information as the project information of the target project, or the reference warehousing logistics solution is derived from a target shelving unit layout solution determined based on the project information.
  19. 19 . The terminal device according to claim 18 , wherein the solution details interface comprises a solution modification area; and after the reference warehousing logistics solution is displayed, the processor is further configured to: generate, if a user operation of the target user for the solution modification area is detected, a solution modification instruction; send the solution modification instruction to the server, wherein the solution modification instruction is used for indicating the server to generate an updated solution details interface; receive the updated solution details interface from the server.
  20. 20 . The terminal device according to claim 19 , wherein the solution details interface further comprises a solution determining area; and after the reference warehousing logistics solution is displayed, the processor is further configured to: generate, if a user operation of the target user for the solution determining area is detected, a solution determining instruction; send the solution determining instruction to the server, wherein the solution determining instruction is used for indicating the server to generate a target warehousing logistics solution based on the solution details interface currently displayed by the terminal device; receive a target simulation interface from the server, wherein the target simulation interface is generated based on the target warehousing logistics solution, the target simulation interface comprises a simulation animation playing area, the simulation animation playing area is used for playing a target simulation animation, and the target simulation animation is process images of running the target project according to the target warehousing logistics solution; and play the target simulation animation in response to a user operation of the target user for the simulation animation playing area.

Description

CROSS-REFERENCES This application is a continuation of International Patent Application No. PCT/CN2024/102114 filed on Jun. 27, 2024, which claims priority to Chinese Patent Application No. 202310839428.4, filed on Jul. 7, 2023, the disclosures of which are incorporated herein by reference in their entireties. TECHNICAL FIELD This application belongs to the field of intelligent warehousing, and specifically, to a data processing method for a warehousing logistics solution, and a terminal device. BACKGROUND OF THE INVENTION Generally, a warehousing logistics automation solution (a warehousing logistics solution for short below) usually needs many links such as device model selection, solution design, simulation verification, and so on. The solution design link is the most important, and is the most valuable link for enterprise users. However, in related arts and a current market, a system for processing a warehousing logistics solution used by a supplier of the warehousing logistics solution needs to frequently perform interaction with an enterprise user in a solution design link, to obtain solution requirements of the enterprise user. Consequently, the solution design cycle is long, prolonging an actual implementation cycle of a warehousing logistics project of the enterprise. In addition, after the warehousing logistics solution is designed, an existing system for processing a warehousing logistics solution can only provide a plan, and cannot three-dimensionally display the entire warehousing logistics solution in a visual manner. Consequently, the display is not intuitive, and the system lacks intelligence, affecting use experience of the enterprise user. SUMMARY OF THE INVENTION This application provides a data processing method for a warehousing logistics solution and a system, to improve intelligence of a system for processing a warehousing logistics solution, shorten an actual implementation cycle of a warehousing logistics project of an enterprise, and three-dimensionally display the entire warehousing logistics solution in a visual manner, thereby improving use experience of an enterprise user. According to a first aspect, an embodiment of this application provides a data processing method for a warehousing logistics solution, performed by a terminal device of a system for processing a warehousing logistics solution. The system for processing the warehousing logistics solution includes the terminal device and a server. The method includes: determining project information of a target project in response to an information input operation of a target user for the target project, where the target project is a warehousing logistics project, and the project information is configuration information associated with the warehousing logistics project;sending the project information of the target project to the server;receiving, from the server, a solution details interface for the target project, where the solution details interface includes a display area for a reference warehousing logistics solution, the display area for the reference warehousing logistics solution is used for three-dimensionally displaying a reference warehousing logistics solution generated by the server for the target project, the reference warehousing logistics solution includes a reference hardware solution and a reference software solution, the reference hardware solution is used for indicating a hardware device required when the target project is implemented according to the reference warehousing logistics solution, the hardware device includes a warehousing robot, and the reference software solution includes a software function for implementing a warehousing function based on the warehousing robot; anddisplaying the solution details interface. Further, the determining project information of the target project in response to the information input operation of the target user for the target project includes: displaying an editable interface for the target project in response to an upload operation of the target user for an auxiliary design document of the target project, where the editable interface includes a module placement area, a plurality of draggable modules, and a project information determining area, and the draggable module is used for indicating the hardware device;updating the module placement area in response to a placement operation of the target user for one or more draggable modules in the plurality of draggable modules, and displaying an updated module placement area, where the placement operation is an operation of dragging the one or more draggable modules into the module placement area; anddetermining, in response to a user operation of the target user for the project information determining area, the project information of the target project based on the updated module placement area. Further, after the displaying the editable interface, the method further includes: displaying parameter information of a first dra