CN-122018878-A - Method for planning network diagram establishment and dynamic adjustment for aerospace multitasking

Abstract

The invention discloses a planning network diagram compiling and dynamic adjusting method for spaceflight multitasking, which belongs to the technical field of spaceflight launching task planning, and comprises the steps of standardizing a traditional planning network diagram, disassembling the traditional planning network diagram to form a basic component, adopting a B/S architecture to construct an integral framework at least comprising a component column, a canvas and an attribute column, digitizing the basic component, constructing a visual interaction page compiled by a draggable component, compiling the planning network diagram on the canvas, disassembling and publishing the completed planning network diagram according to the day, tracking the task execution state of each day, feeding back the task execution state to the planning network diagram, and dynamically adjusting the planning network diagram to complete the dynamic adaptation of a plan. Compared with the prior art, the method and the device effectively improve the programming efficiency of the planning network diagram, realize the dynamic tracking and accurate adjustment of the whole task execution process, ensure the traceability of the space launching task process and provide reliable guarantee for the smooth implementation of the space launching task.

Inventors

• Liang Baichuan
• GUO XIAOBIN
• TU SIYONG
• LI JUN
• XU XIAOYU
• LI GUOLONG
• DUAN JIAHUI
• ZHANG MINDONG

Assignees

• 江西航天鄱湖云科技有限公司

Dates

Publication Date

20260512

Application Date

20251219

Claims (10)

1. 1. The method for planning network diagram programming and dynamic adjustment for aerospace multitasking is characterized by comprising the following steps: The traditional statistics dividing network diagram is standardized and disassembled to be a basic component; The method comprises the steps of constructing an overall framework at least comprising a component bar, a canvas and an attribute bar by adopting a B/S architecture, digitizing the basic component, constructing a visual interaction page edited by a draggable component, and compiling a planning network diagram on the canvas; and (3) carrying out the disassembly and release of the planned network diagram according to the day, tracking the task execution state of each day, feeding back the task execution state to the planned network diagram, and dynamically adjusting the planned network diagram.
2. 2. The method for planning and dynamically adjusting a network map for aerospace multitasking of claim 1, wherein the base assembly comprises a timeline, a task work line, anchor points, nodes, node links, node duration days, work items, and guarantee elements.
3. 3. The method of planning network map creation and dynamic adjustment for aerospace multitasking of claim 1, wherein said component bar is used to display said base component.
4. 4. The method for planning and dynamically adjusting a network map for aerospace multitasking of claim 2, wherein the canvas is on a time axis as a horizontal axis, a task work line as a vertical axis, and a horizontal axis as a unit of days.
5. 5. The method for planning and dynamically adjusting a planning network map for aerospace multitasking according to claim 4, wherein the canvas is a planning area of the planning network map, supports a user to add a basic component to the canvas through a drag operation, and establishes a logic association between the basic components through clicking and connecting operations; when the base component is dragged, constraint is added to the dragging of the base component according to the network diagram specification, the resource occupation, the front-back relation of the nodes and the front-back relation of the work.
6. 6. The method for planning network map creation and dynamic adjustment for aerospace multitasking according to claim 1, wherein the attribute field is used for a user to perform attribute configuration on a selected basic component, and the method comprises the following steps: The basic attributes of the components comprise names, execution time, work content, priority and responsible persons; The resource allocation attributes comprise a work place, a guarantee element and a participation unit/post; constraint rule attributes include whether the node belongs to an anchor point, priority, a front node and a rear node.
7. 7. The device for programming and dynamically adjusting the planning network diagram of the space launching task is characterized by comprising the following components: The component disassembly module is used for standardizing the traditional statistics scoring network diagram and disassembling the traditional statistics scoring network diagram into a basic component; The interactive page construction module is used for constructing an integral frame at least comprising a component column, a canvas and an attribute column by adopting a B/S architecture, digitizing the basic component, constructing a visual interactive page edited by a draggable component, and compiling a planning network diagram on the canvas; and the feedback adjustment module is used for disassembling, releasing and implementing the planned network diagram which is completed according to the day, tracking the task execution state of each day, feeding back the task execution state to the planned network diagram and dynamically adjusting the planned network diagram.
8. 8. A computer storage medium storing a readable program, wherein the program, when executed, is capable of instructing a computing device to perform the aerospace multitasking oriented planning network map formulation and dynamic adjustment method of any one of claims 1-6.
9. 9. An electronic device is characterized by comprising a processor, a memory, a communication interface and a communication bus, wherein the processor, the memory and the communication interface complete communication with each other through the communication bus; the memory is configured to store at least one executable instruction that causes the processor to perform operations corresponding to the dynamic adjustment method for space-oriented multitasking planning network diagram formulation according to any one of claims 1-6.
10. 10. A computer program product comprising computer instructions for instructing a computing device to perform operations corresponding to the dynamic adjustment method for planning a network map for aerospace multitasking according to any one of claims 1-6.

Description

Method for planning network diagram establishment and dynamic adjustment for aerospace multitasking Technical Field The invention belongs to the technical field of space launching mission planning, and particularly relates to a planning network diagram compiling and dynamic adjusting method for space multitasking. Background The space launching task is a complex system engineering which relates to multiple systems, multiple links and multiple professions, and has the remarkable characteristics of complex flow links, tight coordination of multiple departments, harsh time nodes, multiple risk factors and the like. The planning network diagram is used as a core guide file for the implementation of the space launching task, and the programming quality and the adjustment efficiency of the planning network diagram directly determine the order, the safety and the reliability of the task execution. Currently, planning network diagram creation and adjustment of space launching tasks are mostly dependent on past experiences of technicians and are manually completed by adopting a traditional drawing tool. This approach has the following prominent problems: 1. the traditional method needs to manually comb the nodes, resource requirements and logic constraint relations of a large number of tasks, is time-consuming and labor-consuming, is easy to cause logic loopholes or data errors due to human negligence, and is difficult to adapt to the high-precision requirements of space launching tasks. 2. And the dynamic adjustment response is lagged, namely, in the execution process of the space launching task, the sudden situations such as equipment failure, resource conflict, weather mutation and the like often occur, the traditional manual adjustment mode needs to re-comb the whole flow logic, the adjustment period is long, the optimal treatment time is easily missed, and even the task process is influenced. Disclosure of Invention Aiming at the defects of the prior art, the invention aims to provide a planning network diagram compiling and dynamic adjusting method for spaceflight multitasking, which solves the problems in the prior art. The aim of the invention can be achieved by the following technical scheme: a planning network diagram programming and dynamic adjustment method for aerospace multitasking comprises the following steps: The traditional statistics dividing network diagram is standardized and disassembled to be a basic component; The method comprises the steps of constructing an overall framework at least comprising a component bar, a canvas and an attribute bar by adopting a B/S architecture, digitizing the basic component, constructing a visual interaction page edited by a draggable component, and compiling a planning network diagram on the canvas; and (3) carrying out the disassembly and release of the planned network diagram according to the day, tracking the task execution state of each day, feeding back the task execution state to the planned network diagram, and dynamically adjusting the planned network diagram. Further, the base component comprises a time axis, a task work line, an anchor point, a node connection line, a node duration day, a work item and a guarantee element. Further, the component bar is used for displaying the base component. Further, the canvas takes a time axis as a horizontal axis, takes a task work line as a vertical axis, and takes a day as a unit. Further, the canvas is a compiling area of the planning network diagram, supports a user to add the basic components to the canvas through a drag operation, and establishes logic association between the basic components through clicking and connecting operations; when the base component is dragged, constraint is added to the dragging of the base component according to the network diagram specification, the resource occupation, the front-back relation of the nodes and the front-back relation of the work. Further, the attribute column is used for configuring attributes of the selected basic components by a user, and includes: The basic attributes of the components comprise names, execution time, work content, priority and responsible persons; The resource allocation attributes comprise a work place, a guarantee element and a participation unit/post; constraint rule attributes include whether the node belongs to an anchor point, priority, a front node and a rear node. A planning network diagram programming and dynamic adjusting device for spaceflight launching tasks comprises: The component disassembly module is used for standardizing the traditional statistics scoring network diagram and disassembling the traditional statistics scoring network diagram into a basic component; The interactive page construction module is used for constructing an integral frame at least comprising a component column, a canvas and an attribute column by adopting a B/S architecture, digitizing the basic component, constructing a visual interactive page edited b