Task synchronous execution method based on multi-terminal interaction

A task synchronization and execution method technology, applied in data processing applications, healthcare resources or facilities, forecasting, etc., can solve the problems of reducing patient treatment speed, death, and slow efficiency, so as to improve time utilization, avoid cross-infection, The effect of maximizing scheduling efficiency

Pending Publication Date: 2022-01-11
上海清赟医药科技有限公司
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] In the current medical process, it is necessary to use a variety of medical equipment, such as oxygen machine, blood oxygen machine, etc., when the number of patients in the hospital exceeds the number of required medical equipment, the current method is that the patient is waiting for the operation of the previous patient to complete Then use it, this method requires continuous coordination between peop

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  • Task synchronous execution method based on multi-terminal interaction
  • Task synchronous execution method based on multi-terminal interaction
  • Task synchronous execution method based on multi-terminal interaction

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Embodiment 1

[0045] Such as figure 1 and figure 2 As shown, the task synchronous execution method based on multi-terminal interaction proposed by the present invention includes the following steps: S100: Obtain the number information and attribute information of instruments and the number information of tasks to be completed, and assign different identification tags to tasks and instruments;

[0046] In step S100, the assigned task instruments have different types, and are given different label numbers for the types and quantities of scoring instruments;

[0047] The tasks corresponding to the assigned task instruments are also numbered sequentially. If the same task requires the use of two or more different types of instruments, the working order of different types of instruments is determined by the steps of the corresponding tasks.

[0048] For example, the number and type of instruments are numbered from one to ten, and the labels of tasks are numbered by English letters (A, B, C, D)...

Embodiment 2

[0066] refer to image 3 and Figure 4 As shown, based on the multi-terminal interaction task synchronization execution method of Embodiment 1, this embodiment proposes a multi-terminal interaction-based task synchronization execution system, including a task group 102, which is a collection of all tasks to be completed by the entire project;

[0067] The instrument group 103, the instrument group 103 is a collection of instruments required to complete all the tasks of the task group 102; according to the task requirements, it can be one type of instrument or multiple types of instruments.

[0068] Task assignment module 101, task assignment module 101 is used for assigning all tasks of task group 102 to the corresponding instrument in instrument group 103, in the initial state, the subtask unit in task group 102 can be with one or A plurality of instruments correspond, so that the instruments in the instrument group 103 can completely complete the task of the task group 102;...

Embodiment 3

[0086] Such as image 3 As shown, on the basis of Embodiment 1 and Embodiment 2, this embodiment proposes a task synchronization execution system based on multi-terminal interaction, including task group 102, which is a collection of all tasks to be completed by the entire project;

[0087] Instrument group 103, the instrument group 103 is the collection of instruments needed to complete all the tasks of the task group 102;

[0088] Task assignment module 101, task assignment module 101 is used for assigning all tasks of task group 102 to the corresponding instrument in instrument group 103, in the initial state, the subtask unit in task group 102 can be with one or A plurality of instruments correspond, so that the instruments in the instrument group 103 can completely complete the task of the task group 102;

[0089] Execute the progress statistics module 106, and the execution progress statistics module 106 is used to complete the progress of the corresponding tasks in the...

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Abstract

The invention relates to the technical field of intelligent scheduling, in particular to a task synchronous execution method based on multi-terminal interaction. The method comprises the following steps: S100, obtaining instrument number information, attribute information and to-be-completed task number information, and endowing tasks and instruments with different identification tags; S200, using an identification tag as a corresponding task reference for marking a distribution instrument, and splitting a task into a plurality of sub-task units; S300, dividing working areas of the instruments according to the distributed tasks, and if the working areas are overlapped or partially overlapped, sorting the working areas again according to the sequence of the sub-task units; and S400, synchronously obtaining the progress of completing the corresponding sub-task units by the plurality of instruments, and feeding back and summarizing the progress in real time as an interaction data set of scheduling information. According to the method, the distribution relation between the instrument and the task can be clearly planned, the task is divided into a plurality of sub-task units, the sub-task units serve as scheduling reference, the time utilization rate of instrument scheduling is improved to the maximum extent, and meanwhile task distribution is intelligent.

Description

technical field [0001] The invention relates to the technical field of intelligent scheduling, in particular to a task synchronization execution method based on multi-terminal interaction. Background technique [0002] In the current medical process, it is necessary to use a variety of medical equipment, such as oxygen machine, blood oxygen machine, etc., when the number of patients in the hospital exceeds the number of required medical equipment, the current method is that the patient is waiting for the operation of the previous patient to complete Then use it, this method requires continuous coordination between people, the assignment of tasks is not clear, and the efficiency is extremely slow; [0003] During the operation, the equipment needed by the next patient may not be continuously used in the previous operation, but the next patient still needs to wait for the operation to be completed, which reduces the treatment speed of the patient, and may cause the patient not...

Claims

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Application Information

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IPC IPC(8): G16H40/20G16H40/40G16H40/63G06Q10/06G06Q10/04
CPCG16H40/20G16H40/40G16H40/63G06Q10/06312G06Q10/06315G06Q10/04
Inventor 颜国伟
Owner 上海清赟医药科技有限公司
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