CN112766723A - Disinfection robot scheduling method - Google Patents

Abstract

The invention discloses a disinfection robot scheduling method, which comprises the following steps: s1, a laser radar acquires space volume information of each disinfection area and uploads the space volume information of each disinfection area to a scheduling management background; s2, selecting any one or more disinfection areas in the disinfection areas as target areas to be disinfected; s3, the scheduling management background acquires the state information of each disinfection robot; and S4, screening out the target disinfection robot meeting the conditions from the disinfection robots by the scheduling management background according to the space volume information of the target area to be disinfected and the state information of the disinfection robots, matching the target disinfection robot with the target area to be disinfected, and scheduling the target disinfection robot to the corresponding target area to be disinfected to execute a disinfection task. The invention can realize that a single or a plurality of disinfection robots are combined to execute the disinfection task, thereby improving the disinfection efficiency.

Description

Disinfection robot scheduling method

Technical Field

The invention relates to the technical field of robots, in particular to a scheduling method of a disinfection robot.

Background

At present, the intelligent disinfection robot is more and more popular to disinfect public places. However, when the existing disinfection robot executes the disinfection task, the task is issued manually, a single disinfection robot is allocated by the system to execute the disinfection task, and the robot to be disinfected recognizes the environmental information to disinfect after reaching the disinfection task area. The existing mode can not distinguish the number of the disinfection task areas, only one disinfection robot is allocated to execute the disinfection task, and if the disinfection solution is insufficient, another disinfection robot needs to be allocated to execute the disinfection, so that the disinfection efficiency is low.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a disinfection robot scheduling method which can determine the using amount of disinfectant in an area to be disinfected before a disinfection robot reaches the area to be disinfected, can simultaneously realize the combined execution of disinfection tasks by using one or more disinfection robots and improve the disinfection efficiency.

The invention is realized by the following technical scheme: the disinfection robot scheduling method comprises the following steps:

s1, a laser radar acquires space volume information of each disinfection area and uploads the space volume information of each disinfection area to a scheduling management background;

s2, selecting any one or more disinfection areas in the disinfection areas as target areas to be disinfected;

s3, the scheduling management background acquires the state information of each disinfection robot;

and S4, screening out the target disinfection robot meeting the conditions from the disinfection robots by the scheduling management background according to the space volume information of the target area to be disinfected and the state information of the disinfection robots, matching the target disinfection robot with the target area to be disinfected, and scheduling the target disinfection robot to the corresponding target area to be disinfected to execute a disinfection task.

Further: the laser radar acquiring the space volume information of the disinfection area in the step S1 comprises the following steps:

s11, presetting the height of a floor;

s11, scanning a floor environment outline with a preset floor height by using a laser radar to generate a map;

s12, presetting a disinfection area in a map, acquiring the length pixel number L, the width pixel number W and the single pixel length d of the disinfection area, and according to a calculation formula: calculating the area of the disinfection area as [ (L multiplied by d) × (W multiplied by d) ];

and S13, calculating to obtain the space volume of the disinfection area according to the preset floor height and the disinfection area.

Further: when the target area to be disinfected is any one of the disinfection areas and a plurality of target disinfection robots meeting the conditions can be screened out from the disinfection robots, the method comprises the following steps:

s41, judging whether the space volume of the target area to be disinfected is smaller than a preset volume threshold value or not, if so, selecting one target disinfection robot closest to the target area to be disinfected from the plurality of target disinfection robots, and scheduling the target disinfection robot to the target area to be disinfected to execute a disinfection task; if not, go to step S42;

and S42, when the space volume of the target area to be disinfected is increased by one volume threshold, one more target disinfection robot is dispatched to the target area to be disinfected to execute a disinfection task.

Further: and when the target area to be disinfected is any one of the disinfection areas and a single target disinfection robot which can independently meet the conditions cannot be screened out from the disinfection robots, the dispatching management background screens two combined disinfection robots which can meet the conditions from the disinfection robots and dispatches the two disinfection robots to the target area to be disinfected to execute a disinfection task.

Further: when the target areas to be disinfected are any plurality of the disinfection areas, a plurality of target disinfection robots meeting the conditions can be screened out from the disinfection robots, and the number of the target disinfection robots is greater than that of the target areas to be disinfected, one target disinfection robot is dispatched to each target area to be disinfected to execute a disinfection task, and meanwhile, for the target areas to be disinfected with the space volume greater than the preset volume threshold value, idle target disinfection robots meeting the conditions are dispatched according to the step S42.

Further: when the target areas to be disinfected are any more than one of the disinfection areas, a plurality of target disinfection robots meeting the conditions can be screened out from the disinfection robots, but the number of the target disinfection robots is less than that of the target areas to be disinfected, a single independent target disinfection robot meeting the conditions is dispatched to the corresponding target areas to be disinfected to execute disinfection tasks, meanwhile, for the remaining target areas to be disinfected, a plurality of target disinfection robots which do not meet the conditions are screened out from the single independent target disinfection robot to be combined, and the plurality of disinfection robots are dispatched to the remaining target areas to be disinfected to execute disinfection tasks.

Further: and when the target areas to be disinfected are any more than one of the disinfection areas, a plurality of target disinfection robots meeting the conditions can be screened out from the disinfection robots, and the number of the target disinfection robots is equal to that of the target areas to be disinfected, dispatching each target disinfection robot to the corresponding target area to be disinfected according to the matching result to execute a disinfection task.

Further: in step S4, the scheduling management background, according to the space volume information of the target area to be disinfected and the status information of the disinfection robots, screens out the target disinfection robots meeting the conditions from among the disinfection robots, including the following steps:

s43, judging whether the disinfection robot is in an idle state, if so, turning to the step S44;

s44, judging whether the electric quantity value of the disinfection robot is larger than a preset electric quantity threshold value, if so, turning to the step S45;

s45, calculating the amount of the disinfectant needed for disinfecting the target area to be disinfected according to the space volume information of the target area to be disinfected;

s46, judging whether the residual amount of the disinfectant of the disinfection robot is larger than or equal to the amount of the disinfectant needed by the target to-be-disinfected area, and if so, screening the disinfection robot into the target disinfection robot.

The invention has the beneficial effects that:

compared with the prior art, the space volume of each disinfection area is obtained through the laser radar, the space volume of each disinfection area is reported to the scheduling management background, any one or more disinfection areas are selected from each disinfection area to serve as the target to-be-disinfected area, then the scheduling management background screens out the target disinfection robots meeting the conditions from the disinfection robots according to the space volume and the number of the target to-be-disinfected areas, the target disinfection robots are matched with the target to-be-disinfected areas, and the target disinfection robots are scheduled to the corresponding target to-be-disinfected areas to execute tasks, so that the disinfectant consumption of the to-be-disinfected areas can be determined before the disinfection robots move to the to-be-disinfected areas, meanwhile, the disinfection tasks can be executed by using a single or multiple disinfection robots in a combined mode, and the disinfection efficiency is improved.

Drawings

FIG. 1 is a flow chart of a sterilization robot scheduling method of the present invention;

fig. 2 is a flowchart of the disinfection robot for screening targets according to the present invention.

Detailed Description

Referring to fig. 1 and 2, the sterilization robot scheduling method of the present invention includes the steps of:

s1, the laser radar acquires the space volume information of each disinfection area and uploads the space volume information of each disinfection area to a scheduling management background.

Specifically, the laser radar acquiring the space volume information of the disinfection area comprises the following steps:

s11, presetting the height of a floor.

S11, scanning the floor environment outline with the preset floor height by the laser radar to generate a map.

S12, presetting a disinfection area in a map, acquiring the length pixel number L, the width pixel number W and the single pixel length d of the disinfection area, and according to a calculation formula: the area of the sterilization area is [ (L × d) × (W × d) ], and the area of the sterilization area is calculated.

And S13, calculating to obtain the space volume of the disinfection area according to the preset floor height and the disinfection area.

S2, selecting any one or more disinfection areas in the disinfection areas as target areas to be disinfected.

And S3, the scheduling management background acquires the state information of each disinfection robot.

And S4, screening out the target disinfection robot meeting the conditions from the disinfection robots by the scheduling management background according to the space volume information of the target area to be disinfected and the state information of the disinfection robots, matching the target disinfection robot with the target area to be disinfected, and scheduling the target disinfection robot to the corresponding target area to be disinfected to execute a disinfection task.

When the target area to be disinfected is any one of the disinfection areas and a plurality of target disinfection robots which can meet the conditions can be screened out from the disinfection robots, the method comprises the following steps:

s41, judging whether the space volume of the target area to be disinfected is smaller than a preset volume threshold value or not, if so, selecting one target disinfection robot closest to the target area to be disinfected from the plurality of target disinfection robots, and scheduling the target disinfection robot to the target area to be disinfected to execute a disinfection task; if not, go to step S42.

Specifically, the preset volume threshold is 150m³. When the target disinfection robot closest to the target disinfection area is selected, the target disinfection robots on the same floor as the target disinfection area are preferentially selected, and then the target disinfection robot with the shortest distance to the target disinfection area is selected from the target disinfection robots on the same floor. The distance between the target disinfection robot and the target area to be disinfected is obtained from a map established by laser radar scanning carried by the target disinfection robot, and only the distance between the target disinfection robot and the target area to be disinfected on the same floor is calculated.

And S42, when the space volume of the target area to be disinfected is increased by one volume threshold, one more target disinfection robot is dispatched to the target area to be disinfected to execute a disinfection task.

In particular, the volume threshold is equal to 150m³For each interval, increase by 150m³(e.g., 300 m)³Volume of space of area to be disinfected of target>150m³) Dispatching one more target disinfection robot to target waitingSterilizing the target area to be sterilized by using two target sterilizing robots simultaneously, and so on, for example 450m³Volume of space of area to be disinfected of target>150m³And dispatching three target disinfection robots to jointly disinfect the target area to be disinfected.

In step S4, the step of screening out a target disinfection robot meeting the conditions from the disinfection robots by the dispatch management background according to the space volume information of the target area to be disinfected and the state information of the disinfection robots includes the following steps:

s43, judging whether the disinfection robot is in an idle state, if so, turning to the step S44.

And S44, judging whether the electric quantity value of the disinfection robot is larger than a preset electric quantity threshold value, if so, turning to the step S45.

S45, calculating the amount of the disinfectant needed for disinfecting the target area to be disinfected according to the space volume information of the target area to be disinfected.

Specifically, if 10ml of sterilizing liquid is consumed per one cubic meter of the target area to be sterilized, the amount of sterilizing liquid required for the target area to be sterilized is 10ml/m³X volume of space.

S46, judging whether the residual amount of the disinfectant of the disinfection robot is larger than or equal to the amount of the disinfectant needed by the target to-be-disinfected area, and if so, screening the disinfection robot into the target disinfection robot.

And when the target area to be disinfected is any one of the disinfection areas and a single target disinfection robot which can independently meet the conditions cannot be screened out from the disinfection robots, the dispatching management background screens two combined disinfection robots which can meet the conditions from each disinfection robot and dispatches the two disinfection robots to the target area to be disinfected to execute a disinfection task.

Specifically, if the space volume of the target area to be disinfected is equal to or less than the space threshold value of 150m³At most, two disinfection robots can be dispatched to combine to execute disinfection tasks at the same time.

When the target areas to be disinfected are any plurality of the disinfection areas, a plurality of target disinfection robots meeting the conditions can be screened out from the disinfection robots, and the number of the target disinfection robots is greater than that of the target areas to be disinfected, one target disinfection robot is dispatched to each target area to be disinfected to execute a disinfection task, and meanwhile, for the target areas to be disinfected with the space volume greater than the preset volume threshold value, idle target disinfection robots meeting the conditions are dispatched according to the step S42.

And when the target areas to be disinfected are any more than one of the disinfection areas, and a plurality of target disinfection robots meeting the conditions can be screened out from the disinfection robots, but the number of the target disinfection robots is less than that of the target areas to be disinfected, scheduling a single independent target disinfection robot meeting the conditions to the corresponding target areas to execute disinfection tasks, simultaneously, screening a plurality of target disinfection robots independently not meeting the conditions for the remaining target areas to be disinfected to combine, scheduling the plurality of target disinfection robots to the remaining target areas to be disinfected to execute the disinfection tasks, and scheduling other target disinfection robots after completing the disinfection tasks if the target disinfection robots are not scheduled in the target areas to be disinfected.

And when the target areas to be disinfected are any more than one of the disinfection areas, a plurality of target disinfection robots meeting the conditions can be screened out from the disinfection robots, and the number of the target disinfection robots is equal to that of the target areas to be disinfected, dispatching each target disinfection robot to the corresponding target area to be disinfected according to the matching result to execute a disinfection task.

According to the invention, the space volume of each disinfection area is obtained through the laser radar, the space volume of each disinfection area is reported to the scheduling management background, any one or more disinfection areas are selected from each disinfection area as the target areas to be disinfected, then the scheduling management background screens out the target disinfection robots meeting the conditions from the disinfection robots according to the space volume and the number of the target areas to be disinfected, the target disinfection robots are matched with the target areas to be disinfected, and the target disinfection robots are scheduled to the corresponding target areas to be disinfected to execute tasks, so that the disinfectant consumption of the areas to be disinfected can be determined before the disinfection robots go to the areas to be disinfected, meanwhile, the disinfection tasks can be executed by using a single or a plurality of disinfection robots in a combined manner, and the disinfection efficiency is improved.

The above detailed description is specific to possible embodiments of the present invention, and the embodiments are not intended to limit the scope of the present invention, and all equivalent implementations or modifications that do not depart from the scope of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. The scheduling method of the disinfection robot is characterized in that: the method comprises the following steps:

s1, a laser radar acquires space volume information of each disinfection area and uploads the space volume information of each disinfection area to a scheduling management background;

s2, selecting any one or more disinfection areas in the disinfection areas as target areas to be disinfected;

s3, the scheduling management background acquires the state information of each disinfection robot;

and S4, screening out the target disinfection robot meeting the conditions from the disinfection robots by the scheduling management background according to the space volume information of the target area to be disinfected and the state information of the disinfection robots, matching the target disinfection robot with the target area to be disinfected, and scheduling the target disinfection robot to the corresponding target area to be disinfected to execute a disinfection task.

2. The sterilization robot scheduling method of claim 1, wherein: the laser radar acquiring the space volume information of the disinfection area in the step S1 comprises the following steps:

s11, presetting the height of a floor;

s11, scanning a floor environment outline with a preset floor height by using a laser radar to generate a map;

s12, presetting a disinfection area in a map, acquiring the length pixel number L, the width pixel number W and the single pixel length d of the disinfection area, and according to a calculation formula: calculating the area of the disinfection area as [ (L multiplied by d) × (W multiplied by d) ];

and S13, calculating to obtain the space volume of the disinfection area according to the preset floor height and the disinfection area.

3. The sterilization robot scheduling method according to claim 2, wherein: when the target area to be disinfected is any one of the disinfection areas and a plurality of target disinfection robots meeting the conditions can be screened out from the disinfection robots, the method comprises the following steps:

s41, judging whether the space volume of the target area to be disinfected is smaller than a preset volume threshold value or not, if so, selecting one target disinfection robot closest to the target area to be disinfected from the plurality of target disinfection robots, and scheduling the target disinfection robot to the target area to be disinfected to execute a disinfection task; if not, go to step S42;

and S42, when the space volume of the target area to be disinfected is increased by one volume threshold, one more target disinfection robot is dispatched to the target area to be disinfected to execute a disinfection task.

4. The sterilization robot scheduling method according to claim 2, wherein: and when the target area to be disinfected is any one of the disinfection areas and a single target disinfection robot which can independently meet the conditions cannot be screened out from the disinfection robots, the dispatching management background screens two combined disinfection robots which can meet the conditions from the disinfection robots and dispatches the two disinfection robots to the target area to be disinfected to execute a disinfection task.

5. The sterilization robot scheduling method according to claim 3, wherein: when the target areas to be disinfected are any plurality of the disinfection areas, a plurality of target disinfection robots meeting the conditions can be screened out from the disinfection robots, and the number of the target disinfection robots is greater than that of the target areas to be disinfected, one target disinfection robot is dispatched to each target area to be disinfected to execute a disinfection task, and meanwhile, for the target areas to be disinfected with the space volume greater than the preset volume threshold value, idle target disinfection robots meeting the conditions are dispatched according to the step S42.

6. The sterilization robot scheduling method of claim 5, wherein: and when the target areas to be disinfected are any more than one of the disinfection areas, and a plurality of target disinfection robots meeting the conditions can be screened out from the disinfection robots, but the number of the target disinfection robots is less than that of the target areas to be disinfected, scheduling a single independent target disinfection robot meeting the conditions to the corresponding target areas to be disinfected to execute disinfection tasks, simultaneously, for the remaining target areas to be disinfected, screening a plurality of target disinfection robots independently not meeting the conditions from the single target disinfection robot to be combined, and scheduling the plurality of target disinfection robots to the remaining target areas to be disinfected to execute disinfection tasks.

7. The sterilization robot scheduling method of claim 6, wherein: and when the target areas to be sterilized are any more than one of the sterilization areas, a plurality of target sterilization robots which can meet the conditions can be screened out from the sterilization robots, and the number of the target sterilization robots is equal to that of the target areas to be sterilized, dispatching each target sterilization robot to the corresponding target area to be sterilized according to the matching result to execute the sterilization task.

8. The sterilization robot scheduling method of claim 7, wherein: in step S4, the scheduling management background, according to the space volume information of the target area to be disinfected and the status information of the disinfection robots, screens out the target disinfection robots meeting the conditions from among the disinfection robots, including the following steps:

s43, judging whether the disinfection robot is in an idle state, if so, turning to the step S44;

s44, judging whether the electric quantity value of the disinfection robot is larger than a preset electric quantity threshold value, if so, turning to the step S45;

s45, calculating the amount of the disinfectant needed for disinfecting the target area to be disinfected according to the space volume information of the target area to be disinfected;

s46, judging whether the residual amount of the disinfectant of the disinfection robot is larger than or equal to the amount of the disinfectant needed by the target to-be-disinfected area, and if so, screening the disinfection robot into the target disinfection robot.

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