阅读说明：本技术 一种畜禽养殖巡检防疫方法及系统 (Inspection and epidemic prevention method and system for livestock and poultry breeding ) 是由 李斌 王海峰 朱君 赵宇亮 赵文文 郎冲冲 张煜轩 于 2021-08-26 设计创作，主要内容包括：本发明提供一种畜禽养殖巡检防疫方法及系统,所述方法包括：获取当前位置信息；根据所述当前位置信息,获取当前消杀环控策略；所述当前消杀环控策略是根据当前子区域的环境信息预先构建的,所述当前子区域是基于所述当前位置信息在预先构建的电子地图上确定的；执行所述当前消杀环控策略。本发明提供的畜禽养殖巡检防疫方法及系统,根据防疫区域内的不同子区域的环境信息自动的对所述子区域进行针对性的消杀,能更有效地对防疫区域进行全面的消杀,提升防疫水平。(The invention provides a method and a system for inspection and epidemic prevention of livestock and poultry breeding, wherein the method comprises the following steps: acquiring current position information; acquiring a current killing environment control strategy according to the current position information; the current killing environmental control strategy is pre-constructed according to the environmental information of the current sub-area, and the current sub-area is determined on a pre-constructed electronic map based on the current position information; and executing the current killing environmental control strategy. According to the livestock and poultry breeding inspection and epidemic prevention method and system, the subareas are automatically killed and disinfected in a targeted manner according to the environment information of different subareas in the epidemic prevention area, so that the epidemic prevention area can be more effectively killed and disinfected comprehensively, and the epidemic prevention level is improved.)

1. A method for inspection and epidemic prevention of livestock and poultry breeding is characterized by comprising the following steps:

acquiring current position information;

acquiring a current killing environment control strategy according to the current position information;

the current killing environmental control strategy is pre-constructed according to the environmental information of the current sub-area, and the current sub-area is determined on a pre-constructed electronic map based on the current position information;

and executing the current killing environmental control strategy.

2. The livestock and poultry breeding inspection and epidemic prevention method according to claim 1, wherein before the current killing environmental control strategy is obtained according to the current position information, the method further comprises the following steps:

acquiring an initial electronic map containing all geographic information in an epidemic prevention area;

loading the collected environmental information in different sub-areas in the epidemic prevention area into the initial electronic map to generate the electronic map;

all geographic information in the epidemic prevention area is acquired by traversing, scanning and collecting the epidemic prevention area by using a laser ranging sensor and a radar.

3. The livestock and poultry breeding inspection and epidemic prevention method according to claim 2, wherein the collected environmental information in different sub-areas in the epidemic prevention area is loaded into the initial electronic map, and after the electronic map is generated, the method further comprises the following steps:

predetermining a cruising mode in the epidemic prevention area based on the electronic map;

the cruising mode comprises the following steps: local region cruising, global region cruising and fixed point cruising;

the local region cruising is performed in at least one interest region in the epidemic prevention region;

the global area cruise is to perform traversing cruise on the epidemic prevention area;

the fixed-point cruising is the cruising of the epidemic prevention area according to a preset path; the preset path at least passes through a plurality of target cruise points preset in the epidemic prevention area.

4. The livestock and poultry breeding inspection and epidemic prevention method according to any one of claims 1 or 2, wherein the environmental information comprises at least one of the following information: temperature information, humidity information, colony number information, harmful gas concentration information, and animal species information.

5. The livestock and poultry breeding inspection and epidemic prevention method according to claim 4, wherein in the case that the environmental information includes animal species information, the method comprises the following steps:

acquiring body temperature information and a posture image of an animal;

executing livestock and poultry body temperature detection according to the body temperature information, and sending first early warning information to a user under the condition that the result of the livestock and poultry body temperature detection is abnormal;

and executing livestock and poultry behavior detection according to the posture image, and sending second early warning information to the user under the condition that the result of the livestock and poultry behavior detection is abnormal.

6. The livestock and poultry breeding inspection and epidemic prevention method according to claim 4, wherein under the condition that the environmental information of the current sub-area includes the colony number information, the current killing and environmental control strategy is as follows: determining the unit atomization amount of the current subarea according to the colony number information, and spraying and disinfecting the subarea according to the unit atomization amount;

under the condition that the environmental information of the current subregion further comprises the animal species information, if the condition that ultraviolet rays are harmful to target animals is judged according to the animal species information, determining that the current killing environmental control strategy further comprises ozone killing on the subregion;

and if the target animal is judged to be harmless to the ultraviolet rays according to the animal species information, determining the current killing environment-friendly strategy further comprises ozone killing and ultraviolet irradiation killing on the subareas.

7. The livestock and poultry breeding inspection and epidemic prevention method according to claim 4, wherein under the condition that the environmental information of the current sub-area includes the temperature information, the current killing and environmental control strategy is to call temperature adjustment equipment to adjust the temperature in the current sub-area so that the temperature in the current sub-area is kept within a preset temperature range;

under the condition that the environmental information of the current sub-area comprises the humidity information, the current killing environmental control strategy comprises the following steps: adjusting the humidity in the current sub-area by using humidity adjusting equipment so as to keep the humidity in the current sub-area within a preset humidity range;

in a case where the environmental information of the current sub-area includes the harmful gas concentration information, the current killing environmental control strategy includes: and calling fan equipment to reduce the concentration of the harmful gas in the current subregion, so that the concentration of the harmful gas in the current subregion is less than a preset concentration threshold value.

8. The livestock and poultry breeding inspection and epidemic prevention method according to claim 1, further comprising:

returning to a liquid medicine replenishing point to execute liquid medicine replenishing operation under the condition that the current liquid medicine amount is judged to be lower than the preset liquid medicine amount threshold;

and returning to the charging point to execute charging operation under the condition that the current electric quantity is judged to be lower than the preset electric quantity threshold value.

9. The utility model provides a beasts and birds are bred and are patrolled and examined epidemic prevention system which characterized in that includes:

the position acquisition module is used for acquiring current position information;

the killing environmental control strategy acquisition module is used for acquiring a current killing environmental control strategy according to the current position information;

the current killing environmental control strategy is pre-constructed according to the environmental information of the current sub-area, and the current sub-area is determined on a pre-constructed electronic map based on the current position information;

and the execution module is used for executing the current killing environmental control strategy.

10. An electronic device comprising a memory, a processor and a computer program stored in the memory and operable on the processor, wherein the processor implements the steps of the livestock breeding inspection and epidemic prevention method according to any one of claims 1 to 8 when executing the computer program.

11. A non-transitory computer readable storage medium, on which a computer program is stored, wherein the computer program, when executed by a processor, implements the livestock breeding inspection epidemic prevention method steps according to any one of claims 1 to 8.

Technical Field

The invention relates to the technical field of agricultural information, in particular to a method and a system for inspection and epidemic prevention of livestock and poultry breeding.

Background

In the technical field of livestock and poultry breeding, livestock and poultry breeding all adopts facility engineering, such as breeding houses, breeding sheds and the like. Biological safety is the primary task of the breeding industry, and the survival rate and economic benefit of livestock and poultry are seriously influenced. In order to effectively prevent the occurrence and spread of livestock and poultry diseases, livestock and poultry houses need to be disinfected and sterilized regularly according to requirements so as to improve the living environment of livestock and poultry.

At present, disinfection and sterilization are mainly performed by spraying disinfectant, such as a solution prepared by mixing disinfectants such as peroxyacetic acid, quaternary ammonium salts and the like according to a certain proportion. The spraying mode is mainly carried by manpower or a spraying device is held by hands to be developed, the problems of high labor intensity, leakage spraying, uneven spraying, large spraying particle diameter and the like exist, the killing effect is poor, and the automation degree is low.

Disclosure of Invention

The invention provides a method and a system for routing inspection and epidemic prevention of livestock and poultry breeding, which are used for solving the problems of low automation degree and poor killing effect in the prior art due to manual killing of breeding houses.

In a first aspect, the invention provides a method for inspection and epidemic prevention of livestock and poultry breeding, which comprises the following steps: acquiring current position information; acquiring a current killing environment control strategy according to the current position information; the current killing environmental control strategy is pre-constructed according to the environmental information of the current sub-area, and the current sub-area is determined on a pre-constructed electronic map based on the current position information; and executing the current killing environmental control strategy.

According to the livestock and poultry breeding inspection and epidemic prevention method provided by the invention, before the current disinfection and environmental control strategy is obtained according to the current position information, the method further comprises the following steps: acquiring an initial electronic map containing all geographic information in an epidemic prevention area; loading the collected environmental information in different sub-areas in the epidemic prevention area into the initial electronic map to generate the electronic map; all geographic information in the epidemic prevention area is acquired by traversing, scanning and collecting the epidemic prevention area by using a laser ranging sensor and a radar.

According to the livestock and poultry breeding inspection and epidemic prevention method provided by the invention, the acquired environmental information in different sub-areas in the epidemic prevention area is loaded into the initial electronic map, and after the electronic map is generated, the method further comprises the following steps: predetermining a cruising mode in the epidemic prevention area based on the electronic map; the cruising mode comprises the following steps: local region cruising, global region cruising and fixed point cruising; the local region cruising is performed in at least one interest region in the epidemic prevention region; the global area cruise is to perform traversing cruise on the epidemic prevention area; the fixed-point cruising is the cruising of the epidemic prevention area according to a preset path; the preset path at least passes through a plurality of target cruise points preset in the epidemic prevention area.

According to the livestock and poultry breeding inspection and epidemic prevention method provided by the invention, the environmental information comprises at least one item of the following information: temperature information, humidity information, colony number information, harmful gas concentration information, and animal species information.

According to the invention, the livestock and poultry breeding inspection and epidemic prevention method comprises the following steps of: acquiring body temperature information and a posture image of an animal; executing livestock and poultry body temperature detection according to the body temperature information, and sending first early warning information to a user under the condition that the result of the livestock and poultry body temperature detection is abnormal; and executing livestock and poultry behavior detection according to the posture image, and sending second early warning information to the user under the condition that the result of the livestock and poultry behavior detection is abnormal.

According to the livestock and poultry breeding inspection and epidemic prevention method provided by the invention, under the condition that the environmental information of the current subregion comprises the colony number information, the current killing environment control strategy is as follows: determining the unit atomization amount of the current subarea according to the colony number information, and spraying and disinfecting the subarea according to the unit atomization amount; under the condition that the environmental information of the current subregion further comprises the animal species information, if the condition that ultraviolet rays are harmful to target animals is judged according to the animal species information, determining that the current killing environmental control strategy further comprises ozone killing on the subregion; and if the target animal is judged to be harmless to the ultraviolet rays according to the animal species information, determining the current killing environment-friendly strategy further comprises ozone killing and ultraviolet irradiation killing on the subareas.

According to the livestock and poultry breeding inspection and epidemic prevention method provided by the invention, under the condition that the environmental information of the current subregion comprises the temperature information, the current killing and environment control strategy is to call temperature regulation equipment to regulate the temperature in the current subregion so that the temperature in the current subregion is kept in a preset temperature range; under the condition that the environmental information of the current sub-area comprises the humidity information, the current killing environmental control strategy comprises the following steps: adjusting the humidity in the current sub-area by using humidity adjusting equipment so as to keep the humidity in the current sub-area within a preset humidity range; in a case where the environmental information of the current sub-area includes the harmful gas concentration information, the current killing environmental control strategy includes: and calling fan equipment to reduce the concentration of the harmful gas in the current subregion, so that the concentration of the harmful gas in the current subregion is less than a preset concentration threshold value.

The invention provides a livestock and poultry breeding inspection epidemic prevention method, which further comprises the following steps: returning to a liquid medicine replenishing point to execute liquid medicine replenishing operation under the condition that the current liquid medicine amount is judged to be lower than the preset liquid medicine amount threshold; and in the cruising process, returning to a charging point to execute charging operation under the condition that the current electric quantity is judged to be lower than the preset electric quantity threshold value.

In a second aspect, the invention also provides a system for inspecting and epidemic preventing in livestock and poultry breeding, which comprises: the position acquisition module is used for acquiring current position information; the killing environmental control strategy acquisition module is used for acquiring a current killing environmental control strategy according to the current position information; the current killing environmental control strategy is pre-constructed according to the environmental information of the current sub-area, and the current sub-area is determined on a pre-constructed electronic map based on the current position information; and the execution module is used for executing the current killing environmental control strategy.

In a third aspect, the present invention provides an electronic device, which includes a memory, a processor, and a computer program stored in the memory and running on the processor, wherein the processor executes the program to implement any one of the steps of the method for inspecting and preventing livestock and poultry from raising, inspection and epidemic prevention.

In a fourth aspect, the present invention further provides a non-transitory computer readable storage medium, on which a computer program is stored, which when executed by a processor, implements the steps of the livestock breeding inspection and epidemic prevention method according to any one of the above.

According to the livestock and poultry breeding inspection and epidemic prevention method and system, the subareas are automatically killed and disinfected in a targeted manner according to the environment information of different subareas in the epidemic prevention area, so that the epidemic prevention area can be more effectively killed and disinfected comprehensively, and the epidemic prevention level is improved.

Drawings

In order to more clearly illustrate the technical solutions of the present invention or the prior art, the drawings needed for the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

FIG. 1 is a schematic flow chart of the inspection and epidemic prevention method for livestock and poultry breeding provided by the invention;

FIG. 2 is a schematic structural diagram of a device for inspecting and epidemic prevention in livestock and poultry breeding provided by the invention;

FIG. 3 is a schematic structural diagram of an atomization system of the livestock and poultry breeding inspection and epidemic prevention device provided by the invention;

FIG. 4 is a schematic control structure diagram of an atomization system of the livestock and poultry breeding inspection and epidemic prevention device provided by the invention;

FIG. 5 is a schematic structural diagram of an ultraviolet ozone sterilization system provided by the present invention;

FIG. 6 is a schematic structural diagram of an environmental control system of the livestock and poultry breeding inspection epidemic prevention device provided by the invention;

FIG. 7 is a schematic structural diagram of a robot for inspecting and epidemic prevention in livestock and poultry breeding provided by the invention;

FIG. 8 is a schematic diagram of a control structure of the inspection and epidemic prevention robot for livestock and poultry breeding provided by the invention;

FIG. 9 is a schematic structural diagram of a sensor module of the inspection and epidemic prevention robot for livestock and poultry breeding provided by the invention;

FIG. 10 is a schematic view of the working process of the inspection and epidemic prevention robot for livestock and poultry cultivation provided by the invention;

FIG. 11 is a schematic structural diagram of a system for inspecting and epidemic prevention in livestock and poultry breeding provided by the invention;

FIG. 12 is a schematic structural diagram of an electronic device provided by the present invention;

wherein the reference numerals are:

101: a walking chassis system; 102: a killing system; 103: a control system;

201: a spray pipe; 202: a control terminal; 203: an auxiliary air supply fan;

204: an ultrasonic atomization module; 205: an atomizing chamber; 206: a liquid level control module;

207: a water injection port; 208: a water amount monitoring module; 209: a water storage tank;

210: a channel; 300: a thermal infrared camera; 301: a thermal infrared camera mounting base;

302: controlling the display screen; 303: a liquid injection port; 304: a liquid level viewing port;

305: a laser sensor; 306: a charging port; 307: a chassis;

308: an atomization system; 309: an ultraviolet lamp tube with ozone; 310: an ultraviolet lamp tube;

311: controlling the display box; 312: an environment monitoring module; 313: a radar;

401：CO₂a sensor; 402: CH (CH)₄A sensor; 403: h₂An S sensor;

404：NH₃a sensor; 405: a temperature sensor; 406: a humidity sensor;

211: a water outlet.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that in the description of the embodiments of the present invention, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element. The terms "upper", "lower", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are intended to be inclusive and mean, for example, that they may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that embodiments of the application may be practiced in sequences other than those illustrated or described herein, and that the terms "first," "second," and the like are generally used herein in a generic sense and do not limit the number of terms, e.g., the first term can be one or more than one. In addition, "and/or" in the specification and claims means at least one of connected objects, a character "/" generally means that a preceding and succeeding related objects are in an "or" relationship.

The following describes the inspection and epidemic prevention method and system for livestock and poultry breeding provided by the embodiment of the invention with reference to fig. 1-12.

Fig. 1 is a schematic flow chart of the livestock and poultry breeding inspection and epidemic prevention method provided by the invention, as shown in fig. 1, including but not limited to the following steps:

in step S1, the current position information is acquired.

The current position information may be coordinate information of a position point (hereinafter referred to as a current position point) located in the anti-epidemic area and currently needing to be killed.

Alternatively, the manner of acquiring the current position information may be by using a positioning device, for example: the Global Positioning System (GPS) collects coordinate information.

And step S2, acquiring the current killing environmental control strategy according to the current position information.

Optionally, an electronic map of the epidemic prevention area is obtained in advance, and the whole electronic map is divided into a plurality of independent sub-areas according to a preset rule. The dividing method can be as follows:

dividing epidemic prevention areas in an equal ratio according to the areas to obtain sub-areas with the same areas; and epidemic prevention key areas (such as main activity areas of animals and rest areas of animals) in the epidemic prevention areas can be determined according to the importance degrees of different areas in the epidemic prevention areas, and the epidemic prevention key areas are divided more finely to obtain sub-areas with smaller areas.

The electronic map can be obtained by the staff through pre-construction according to geographic information and environmental information in an epidemic prevention area, or can be obtained by the steps of traversing the epidemic prevention area by adopting a livestock and poultry breeding inspection epidemic prevention device, collecting the geographic information and the environmental information in the epidemic prevention area, and then constructing on the basis of the collected geographic information and the collected environmental information.

Further, the sub-area where the position point which needs to be killed currently is located in the electronic map is determined through the current position information collected in step S1, and this sub-area is taken as the current sub-area.

After the current sub-region is determined, a killing environmental control strategy corresponding to the current sub-region can be obtained and used as the current killing environmental control strategy.

It should be noted that the current killing environmental control strategy proposed in the present invention may include a killing strategy and an environment regulation and control strategy for the current sub-region, and by formulating different current killing environmental control strategies, not only the current sub-region can be killed, but also the environment condition of the current sub-region can be regulated and controlled.

The current kill-loop strategy may be generated by a pre-established expert system. When the current killing environmental control strategy is formulated, the expert system can output the corresponding current killing environmental control strategy according to the killing requirement under the environmental information only by inputting the environmental information of the current subregion into the expert system. In addition, different killing ring control strategies can be constructed into a killing ring control strategy set in advance, and the killing ring control strategy corresponding to each sub-area is designated, so that the calling is convenient.

And step S3, executing the current killing environmental control strategy.

Different killing devices can be set to execute the current killing environmental control strategy. For example, a liquid medicine spraying device is arranged to execute a current killing environmental control strategy, and chemical killing is carried out on a current subarea in a liquid medicine spraying mode; and an ultraviolet lamp tube can be arranged to irradiate the current subarea, so that physical killing is realized.

Fig. 2 is a schematic structural diagram of an inspection and epidemic prevention device for livestock and poultry breeding, which is shown in fig. 2 and mainly comprises: a walking chassis system 101, a killing system 102 and a control system 103; an electronic map of an epidemic prevention area is pre-loaded in the control system 103 and is used for controlling the walking of the walking chassis system 101 in the epidemic prevention area; the control system 103 is further configured to formulate a killing and environmental control strategy of each sub-area in advance according to the environmental information in different sub-areas in the electronic map; the control system 103 is further configured to obtain current position information of the walking chassis system 101, determine a current sub-area where the walking chassis system 101 is located from the electronic map according to the current position information, and select a current killing environmental control strategy corresponding to the current sub-area; the control system 103 is further configured to control the killing system 102 to execute the current killing environmental control strategy.

The control system 103 may be an actual configuration having a storage operation function, such as a computer or a cloud server.

By storing the electronic map of the epidemic prevention area in the control system 103 in advance, the control system 103 can control the walking chassis system 101 to walk in the epidemic prevention area according to the electronic map.

In addition, the control system 103 may work out a killing and environmental control strategy for each sub-area in advance based on the environmental information in different sub-areas in the electronic map, and construct and store the strategy as a killing and environmental control strategy set.

The positioning device may be configured for the traveling chassis system 101, and the position information of the positioning device may be sent to the control system 103 in real time, so that after the traveling chassis system 101 travels to a certain position, the control system 103 may determine the current sub-region where the traveling chassis system 101 is located according to the position information of the traveling chassis system 101, and determine the current killing and ring-controlling policy corresponding to the current sub-region from the killing and ring-controlling policy set according to the current sub-region where the traveling chassis system is located. The device can execute the current killing environmental control strategy in real time so as to control the killing system 102 to kill the current subarea where the walking chassis system 101 is located in real time.

The positioning device can be a device having a positioning function, such as a GPS or bluetooth positioning device, as long as the position information of the walking chassis system 101 in the epidemic prevention area can be acquired.

The kill system 102 may be a sprinkler, such as a sprinkler. The sterilizing system 102 may be loaded on the traveling chassis system 101 to perform an operation of spraying sterilizing liquid; the killing systems 102 can also be distributed above the epidemic prevention area in advance, and the control system 103 controls the opening and closing of the devices in different sub-areas. In addition, other types of sterilization means, such as an ultraviolet irradiation means, a powder volatilizing means, and the like, may be used, and a combination of a plurality of means may be freely used, which is not particularly limited herein.

It should be noted that the livestock and poultry breeding inspection and epidemic prevention method provided by the present invention can be executed by using the livestock and poultry breeding inspection and epidemic prevention device, but the method is not considered to be the only device for implementing the livestock and poultry breeding inspection and epidemic prevention method provided by the present invention.

According to the livestock and poultry breeding inspection and epidemic prevention method, the subareas are automatically killed and disinfected in a targeted manner according to the environment information of different subareas in the epidemic prevention area, so that the epidemic prevention area can be effectively killed and disinfected comprehensively, and the epidemic prevention level is improved.

Based on the content of the above embodiment, as an optional embodiment, the inspection and epidemic prevention method for livestock and poultry breeding provided by the invention further includes, before acquiring the current killing environmental control strategy according to the current location information: acquiring an initial electronic map containing all geographic information in an epidemic prevention area; loading the collected environmental information in different sub-areas in the epidemic prevention area into the initial electronic map to generate the electronic map; all geographic information in the epidemic prevention area is acquired by traversing, scanning and collecting the epidemic prevention area by using a laser ranging sensor and a radar.

A laser ranging sensor and radar may be provided on the walking chassis system 101. A worker controls the walking chassis system 101 to traverse the epidemic prevention area through the control system 103 in advance so as to carry the laser ranging sensor and the radar to traverse the epidemic prevention area, and finally all geographic information in the epidemic prevention area is obtained. And uploading the geographic information to the control system 103, so that the control system 103 draws an initial electronic map according to the geographic information.

In order to set different disinfection and environmental control strategies for different sub-areas, the epidemic prevention area in the livestock and poultry house can be divided into different sub-areas in advance, and the method in the above embodiment can be adopted for the division mode, and the description is not repeated here.

After dividing the epidemic prevention area into different sub-areas, a plurality of sampling points can be preset in each sub-area, and the specific setting mode can be set uniformly according to the area of the sub-areas and can also be set according to the actual situation.

Various sensors for collecting the environmental information are arranged at each sampling point simultaneously or respectively, and a sensor module combined by a plurality of sensors can be arranged for collecting the environmental information such as the temperature, the humidity and the concentration of various harmful gases at the position of the sampling point.

Then, the environment information of each sampling point is uploaded to the control system 103, and the control system 103 performs comprehensive processing and analysis on the environment information of all the sampling points to generate environment information representing the sub-region; the control system 103 correspondingly loads the environment information of each sub-area into different sub-areas in the initial electronic map, so as to obtain the final electronic map.

According to the livestock and poultry breeding inspection and epidemic prevention method, the final electronic map can be obtained by establishing the initial electronic map in the epidemic prevention area and loading the acquired environment information of different sub-areas in the epidemic prevention area into the initial electronic map. According to the sub-area where the current position point is located in the electronic map, the current killing environment control strategy can be directly called, the response speed is higher, and the quick execution of the killing operation is facilitated.

Based on the content of the above embodiment, as an optional embodiment, the livestock and poultry breeding inspection and epidemic prevention method provided by the present invention loads the collected environmental information in different sub-areas in the epidemic prevention area into the initial electronic map, and after the electronic map is generated, the method further includes: predetermining a cruising mode in the epidemic prevention area based on the electronic map; the cruising mode comprises the following steps: local region cruising, global region cruising and fixed point cruising; the local region cruising is performed in at least one interest region in the epidemic prevention region; the global area cruise is to perform traversing cruise on the epidemic prevention area; the fixed-point cruising is the cruising of the epidemic prevention area according to a preset path; the preset path at least passes through a plurality of target cruise points preset in the epidemic prevention area.

In the invention, a user can select different cruise modes to carry out epidemic prevention treatment on the epidemic prevention area according to the electronic map and the actual scene. If a local area cruising mode can be selected, cruising is carried out on at least one certain interest area in the epidemic prevention area; if the whole epidemic prevention area needs to be killed, the global area can be selected for cruising; and a fixed-point cruise mode can be selected, and cruise is performed on the epidemic prevention area according to a preset path by customizing a plurality of cruise points.

The cruise modes can be stored in the control system 103 of the livestock and poultry breeding inspection and epidemic prevention device in advance so that a user can select the modes according to actual scenes.

This epidemic prevention device is patrolled and examined in beasts and birds cultivation can detect the object around through laser range sensor and radar unit, and when detecting to have the barrier, control system 103 can carry out the dodging of barrier according to the information control walking chassis system 101 of the object that laser range sensor, radar unit gathered.

According to the livestock and poultry breeding inspection and epidemic prevention method, different cruising modes are preset for a user to select, different cruising modes can be selected according to different actual conditions, the disinfection and the killing of epidemic prevention areas are more flexible and controllable, and the epidemic prevention effect is improved.

Based on the content of the above embodiment, as an optional embodiment, the invention provides a livestock and poultry breeding inspection epidemic prevention method, wherein the environmental information comprises at least one of the following information: temperature information, humidity information, colony number information, harmful gas concentration information, and animal species information.

The environmental information in the current sub-area of the environmental information, the temperature information, the humidity information, and the harmful gas concentration information may be obtained by the sensor, and the specific obtaining manner is described in the above embodiments and is not described herein again.

The colony number information can be obtained by analyzing and calculating colonies in the sub-area in advance through working personnel, and the animal species information can also be set through the working personnel.

According to the livestock and poultry breeding inspection and epidemic prevention method, various environmental information of the current subareas is collected, and different current killing environment-control strategies can be preset according to different environmental information, so that killing in the epidemic prevention area is more reasonable, the actual scene is more met, and the epidemic prevention level is effectively improved.

Based on the content of the above embodiment, as an optional embodiment, the invention provides a method for inspecting and epidemic preventing in livestock and poultry breeding, which comprises the following steps of, under the condition that the environment information includes animal species information: acquiring body temperature information and a posture image of an animal; executing livestock and poultry body temperature detection according to the body temperature information, and sending first early warning information to a user under the condition that the result of the livestock and poultry body temperature detection is abnormal; and executing livestock and poultry behavior detection according to the posture image, and sending second early warning information to the user under the condition that the result of the livestock and poultry behavior detection is abnormal.

The infrared temperature sensor and the camera can be additionally arranged on the livestock and poultry breeding, inspection and epidemic prevention device provided by the embodiment. In the process of patrolling and examining the livestock and poultry breeding, the patrolling and examining epidemic prevention device can collect the temperature information of the body surface of the animal and monitor the animal behaviors, mainly the behaviors of long-term lying, fighting and the like of the animal. The physiological state of the animal is judged by analyzing the surface temperature of the animal in real time and the behavior change of the animal in the process of multiple routing inspections. When the abnormal animal body temperature is judged, first early warning information is sent to a user; and when the animal behavior is judged to be abnormal, sending second early warning information to the user.

Optionally, the first warning information and the second warning information may be the same or different. For example: the first early warning information is voice alarm information, and the voice broadcast is 'temperature abnormity'; the second early warning information may be voice warning information or text information.

According to the livestock and poultry breeding inspection and epidemic prevention method, under the condition that the animals are judged to be in the abnormal state, alarm information can be sent to the user in time, and the current position information of the walking chassis system is sent to the user, so that the user can determine the specific position information of the abnormal livestock and poultry through the current position information of the walking chassis system.

It should be noted that the abnormal body temperature and abnormal behavior may vary from animal to animal. In the invention, under the condition of acquiring the animal species information, different body temperature abnormality and behavior abnormality detection methods are set according to different animals, so that the setting is more favorable for the detection of the abnormality.

According to the livestock and poultry breeding inspection epidemic prevention method provided by the invention, through the detection of the mild and abnormal behaviors of animals, the livestock and poultry which are sick or died can be accurately early warned in time, isolation measures are taken, the disease propagation is stopped, and the epidemic prevention level can be effectively improved.

Based on the content of the above embodiment, as an optional embodiment, the invention provides a livestock and poultry breeding inspection epidemic prevention method, wherein under the condition that the environmental information of the current sub-area includes the colony number information, the current killing environmental control strategy is as follows: determining the unit atomization amount of the current subarea according to the colony number information, and spraying and disinfecting the subarea according to the unit atomization amount; under the condition that the environmental information of the current subregion further comprises the animal species information, if the condition that ultraviolet rays are harmful to target animals is judged according to the animal species information, determining that the current killing environmental control strategy further comprises ozone killing on the subregion; and if the target animal is judged to be harmless to the ultraviolet rays according to the animal species information, determining the current killing environment-friendly strategy further comprises ozone killing and ultraviolet irradiation killing on the subareas.

Fig. 3 is a schematic structural diagram of an atomization system of the livestock and poultry breeding inspection and epidemic prevention device, and in the case that the environmental information of the current sub-area includes the bacterial colony number information, the atomization system shown in fig. 3 can be used for performing spraying disinfection operation. As shown in fig. 3, the atomization system comprises a water tank 209, an atomization chamber 205, a quantitative float, a liquid level control module 206, and an ultrasonic atomization module 204. FIG. 4 is a schematic diagram of a control structure of an atomization system of the livestock and poultry breeding inspection and epidemic prevention device, as shown in FIG. 4, a mechanical and pneumatic part of the atomization system mainly comprises a water storage tank and an atomization pipeline; the control terminal of the atomization system is in communication connection with the fan control device, the atomization control device and the liquid level detection device, and optionally, the communication connection can be realized by General Purpose Input and Output (GPIO) or Universal Asynchronous Receiver Transmitter/Transmitter (UART).

Wherein the water storage tank 209 and the atomizing cavity 205 are connected with the water storage tank 209 through a channel 210 and are used for storing liquid medicine; the atomization cavity 205 obtains liquid medicine from the water storage tank 209 through the channel 210 so that the ultrasonic atomization module 204 can perform liquid medicine atomization operation; the ultrasonic atomization module 204 is used for determining the unit atomization amount of the atomization system in the current sub-area according to a disinfection and environmental control strategy; and the liquid level control module 206 is used for controlling the liquid level of the atomization chamber 205 to be within a preset range according to the position of the quantitative buoy. The control terminal 202 can realize wireless communication with the control system 103 of the livestock and poultry breeding, inspection and epidemic prevention device provided by the invention, so that the control system 103 can conveniently realize the control of the atomization system.

The water storage tank 209 is mainly used for storing disinfectant, the water storage tank 209 is connected with the atomizing cavity 205 through a channel 210, the ultrasonic atomizing module 204 can process the disinfectant in the atomizing cavity 205 into water mist with the mist particle diameter within 50 microns, and the auxiliary air supply fan 203 in the atomizing system can spray the water mist to the current subregion through the atomizing pipeline 201.

In order to keep the atomization effect to be optimal all the time, the water storage tank 209 can be controlled by the liquid level control module 206 to fill water into the atomization chamber 205, so as to keep the liquid level of the liquid medicine in the atomization chamber 205 within a certain range.

Alternatively, the liquid level control module 206 may determine the current liquid level of the nebulization chamber 205 by detecting the position change information of the quantitative float:

if the liquid level is lower than the preset liquid level range, controlling a channel 210 between the atomizing chamber 205 and the water storage tank 209 to be in an open state, and supplementing the liquid medicine stored in the atomizing chamber 205 with the liquid medicine amount in the water storage tank 209; and if the liquid level is higher than the preset liquid level range, controlling a channel 210 between the atomizing chamber 205 and the water storage tank 209 to be in a closed state, so that the liquid level of the liquid medicine in the atomizing chamber 205 is not too high, and the liquid level in the atomizing chamber 205 is in a certain range.

It should be noted that the float is not shown in fig. 3, and may be disposed at a relevant position in the nebulization chamber 205 according to the actual situation.

Further, the ultrasonic atomization module 204 may adjust the atomization amount of the atomization system in the unit area of the current sub-area according to the determined disinfection and environmental control strategy of the current sub-area, so as to implement disinfection of different sub-areas to different degrees. For example: the number of colonies in the current subregion is too much, so the formulated sterilizing and environmental control strategy for the current subregion can appropriately increase the spraying amount of the sterilizing liquid medicine of the atomizing system to the current subregion, and the more comprehensive sterilization of the current subregion is realized.

After the short-wave ultraviolet irradiates bacteria at the 253.7nm wave band, the bacterial protein and the deoxyribonucleic acid can be effectively decomposed, so that the sterilization effect is achieved; the ozone can not only eliminate dead corners which can not be irradiated by ultraviolet rays, but also effectively decompose NH in the environment₃And the like. In view of this, the livestock and poultry breeding, inspection and epidemic prevention device provided by the invention is additionally provided with the ultraviolet ozone sterilization system.

Alternatively, the ultraviolet ozone sterilization system can be provided with an ultraviolet lamp tube with ozone and an ultraviolet lamp tube, and the appropriate lamp tube is selected and used according to actual conditions.

Fig. 5 is a schematic structural diagram of the ultraviolet ozone sterilization system provided by the present invention, and under the condition that the environment information of the current sub-area further includes the animal type information, the ultraviolet ozone sterilization system in fig. 5 may be adopted to perform a sterilization operation, as shown in fig. 5, the ultraviolet irradiation module and the ozone generation module are arranged in the ultraviolet ozone sterilization system, and an autonomous mode selection may be performed according to the environment condition in the house and the animal type in the house, for example, the chicken do not like strong light, and at this time, the sterilization environment control strategy does not turn on the ultraviolet irradiation module, but only turns on the ozone generation module. The ultraviolet irradiation module can also adjust the illumination intensity, the irradiation time and the like of the ultraviolet rays according to the sterilization environmental control strategy, and the ozone generation module can also adjust the ozone generation amount, the ozone duration and the like according to the sterilization environmental control strategy.

According to the livestock and poultry breeding inspection and epidemic prevention method, the atomization amount in the unit area of the current subregion can be controlled through the colony quantity information of the current subregion, so that the disinfection and killing aiming at the current subregion are realized, and the spraying is more targeted; on the basis of the chemical disinfection, physical disinfection such as ultraviolet rays or ozone can be adopted, so that the disinfection is more targeted and more comprehensive, and the epidemic prevention level is effectively improved.

Based on the content of the above embodiment, as an optional embodiment, the invention provides a livestock and poultry breeding inspection and epidemic prevention method, wherein under the condition that the environmental information of the current sub-area includes the temperature information, the current killing environmental control strategy is to call temperature adjusting equipment to adjust the temperature in the current sub-area, so that the temperature in the current sub-area is kept in a preset temperature range; under the condition that the environmental information of the current sub-area comprises the humidity information, the current killing environmental control strategy comprises the following steps: adjusting the humidity in the current sub-area by using humidity adjusting equipment so as to keep the humidity in the current sub-area within a preset humidity range; in a case where the environmental information of the current sub-area includes the harmful gas concentration information, the current killing environmental control strategy includes: and calling fan equipment to reduce the concentration of the harmful gas in the current subregion, so that the concentration of the harmful gas in the current subregion is less than a preset concentration threshold value.

Fig. 6 is a schematic structural diagram of an environment control system of the livestock and poultry breeding inspection and epidemic prevention device provided by the invention, and as shown in fig. 6, various environment regulation and control devices can be arranged in an epidemic prevention area in advance, for example: fan equipment, heating installation, lighting apparatus, dehumidification equipment, wet curtain equipment etc to can arrange various sensors that are used for gathering environmental information, like temperature and humidity sensor, ammonia sensor, hydrogen sulfide sensor, methane sensor, oxygen sensor, illumination sensor etc..

The blower control module, the heating control module, the illumination control module, the dehumidification control module and the wet curtain control module in the environment control system of the livestock and poultry breeding inspection epidemic prevention device can execute the sterilization control strategies to respectively control the working states of corresponding equipment.

For example, when the environmental information includes temperature information, the preset temperature range is 23-26 degrees celsius, and when the temperature sensor detects that the temperature in the current sub-area is 5 degrees celsius, the heating control module in the environmental control system may control the heating device to raise the temperature in the current sub-area to be within the range of 23-26 degrees; when the environmental information includes harmful gas concentration information, for example, it is detected that the concentration of ammonia gas exceeds a preset concentration threshold, a fan control module in the environmental control system may control the fan device to be turned on to reduce the concentration of ammonia gas in the current sub-area.

According to the livestock and poultry breeding inspection and epidemic prevention method, the environment in the epidemic prevention area is improved by acquiring the environmental parameter information such as the temperature, the humidity and the concentration of harmful gas of the current sub-area and controlling various devices for regulating and controlling the environment, so that the growth of animals in the epidemic prevention area is facilitated, and the epidemic prevention effect is improved.

Based on the content of the above embodiment, as an optional embodiment, the invention provides a livestock and poultry breeding inspection and epidemic prevention method, which further comprises the following steps: returning to a liquid medicine replenishing point to execute liquid medicine replenishing operation under the condition that the current liquid medicine amount is judged to be lower than the preset liquid medicine amount threshold; and returning to the charging point to execute charging operation under the condition that the current electric quantity is judged to be lower than the preset electric quantity threshold value.

The invention provides an atomization system of a livestock and poultry breeding inspection epidemic prevention device, which further comprises: a water volume monitoring module 208. The water amount monitoring module 208 is used for acquiring current liquid medicine residual amount information of the water storage tank 209 and uploading the current liquid medicine residual amount information to the control system 103; under the condition that the current liquid medicine residual amount information meets the preset condition, the control system 103 controls the walking chassis system 101 to execute liquid medicine replenishing operation.

Alternatively, the water level monitoring module 208 in the reservoir 209 may detect the remaining level of the chemical in the current reservoir, for example: the liquid level in the reservoir 209 may be detected, and when the liquid level is lower than a preset liquid level, indicating that the amount of liquid medicine in the reservoir 209 is insufficient, the control system 103 may issue an early warning to the user and control the walking chassis system 101 to walk to a location where the liquid medicine is replenished, so as to perform a water replenishment operation on the reservoir 209. In addition, when the liquid medicine is replaced, the excessive liquid medicine can be discharged through the water discharge port 211.

As an optional water replenishing operation, an induction device may be added between the water filling port 207 of the water storage tank 209 and the water replenishing device, and when the control system 103 controls the traveling chassis system 101 to connect the water filling port 207 of the atomization system and the water replenishing device, the water replenishing device automatically replenishes water to the water storage tank 209 in the atomization system.

The walking chassis system 101 of the livestock and poultry breeding inspection and epidemic prevention device also comprises an electric quantity monitoring module; the electric quantity monitoring module is used for acquiring the current electric quantity information of the livestock and poultry breeding inspection and epidemic prevention device and uploading the current electric quantity information to the control system 103; in the case where the current power information satisfies the preset charging condition, the control system 103 controls the traveling chassis system 101 to perform the charging operation.

The walking chassis system 101 is provided with a charging port, when the electric quantity of the livestock and poultry breeding inspection epidemic prevention device is lower than a preset condition, for example, the electric quantity is lower than 10%, the control system 103 controls the walking chassis system 101 to walk to a fixed charging point for autonomous charging, and in addition, whether the livestock and poultry breeding inspection epidemic prevention device is charged or not can be judged by judging the electric consumption of the current disinfection and sterilization environment control strategy and the current electric quantity of the current livestock and poultry breeding inspection epidemic prevention device.

The livestock and poultry breeding inspection epidemic prevention method provided by the invention can supplement the liquid medicine under the condition of insufficient liquid medicine amount, and automatically charge under the condition of insufficient electric quantity, so that the automation degree and the intelligent degree of epidemic prevention are greatly improved.

As an optional embodiment, a polling epidemic prevention robot for livestock and poultry breeding can realize the polling epidemic prevention method for livestock and poultry breeding provided by the invention, and the structure of the polling epidemic prevention robot for livestock and poultry breeding, and the process and principle of realizing the method of the invention are briefly described below.

Fig. 7 is a schematic structural diagram of a robot for inspecting and epidemic preventing in livestock and poultry breeding provided by the present invention, as shown in fig. 7, the robot for inspecting and epidemic preventing in livestock and poultry breeding mainly comprises a control display 302, a chassis 307, an atomization system 308, an ultraviolet lamp tube 309 with ozone, an ultraviolet lamp tube 310, an environment monitoring module 312, a thermal infrared camera 300, etc., fig. 8 is a schematic structural diagram of a robot for inspecting and epidemic preventing in livestock and poultry breeding provided by the present invention, as shown in fig. 8, the system modules are interconnected and intercommunicated, and accurate control can be realized. The chassis 307 comprises a servo motor driving wheel, a laser sensor 305, a radar 313 and the like, autonomous navigation can be achieved, barriers can be avoided intelligently, and a cruise map is constructed. The battery pack is provided with a charging port 306, can be automatically charged to a fixed station when the battery pack is in power shortage, and has three cruise modes of global region cruise, local region cruise and fixed point cruise.

The configuration of the atomizing system 308 may be configured as shown in fig. 3. As shown in fig. 7, the inspection and epidemic prevention robot for livestock and poultry cultivation is provided with a liquid injection port 303, and when water is short, liquid can be automatically filled into the liquid injection port 303 of a fixed station; in addition, the livestock and poultry breeding, inspection and epidemic prevention robot is further provided with a liquid level observation port 304 for conveniently observing liquid level changes. The inspection and epidemic prevention robot for the livestock and poultry breeding is provided with two lamp tubes, namely an ozone ultraviolet lamp tube 310 and an ultraviolet lamp tube 310, and can perform autonomous mode selection according to the environment condition in a house and the species of animals in the house, if chickens do not like strong light, the sterilization does not start the ultraviolet sterilization function; the environment monitoring module 312 of the livestock and poultry breeding, inspection and epidemic prevention robot adopts corresponding sensors to monitor the temperature, the humidity, the ammonia gas, the hydrogen sulfide, the carbon dioxide, the methane and the like in the animal house.

FIG. 9 is a schematic structural diagram of a sensor module of an inspection and epidemic prevention robot for livestock and poultry breeding, as shown in FIG. 9, the sensor module comprises CO₂A sensor 401; CH (CH)₄Sensor 402, H₂S sensor 403, NH₃Sensor 404, temperature sensor 405, humidity sensor 406. The control terminal and the control system in the epidemic prevention area realize wireless communication, and the control system 103 can control the system according to the temperature and NH in the house₃、CO₂The concentration and other key parameters regulate and control fan equipment, wet curtain equipment, illumination equipment and the like in the epidemic prevention area.

This epidemic prevention robot is patrolled and examined in beasts and birds breed still includes hot infrared camera 300, and hot infrared camera 300 sets up on hot infrared camera fixing base 301, patrols and examines the in-process at the robot, gathers animal body surface temperature information and animal behavior monitoring, mainly for the animal crouches for a long time, fight etc..

Through real-time analysis of the body surface temperature of the animal and the behavior change of the animal in the process of multiple inspection, the inspection robot can find the condition that the animal is sick or dies of livestock and poultry, inform workers to take isolation measures in time, and prevent the disease from spreading.

In addition, after the livestock and poultry houses are killed, the livestock and poultry breeding, inspection and epidemic prevention robot is very likely to carry a large amount of germs. If the inspection and epidemic prevention robot for livestock and poultry breeding is not killed in time, when the inspection and epidemic prevention robot for livestock and poultry breeding enters another livestock and poultry house again for operation, the epidemic prevention of the livestock and poultry house is adversely affected. Aiming at the problem, the livestock and poultry breeding inspection epidemic prevention robot provided by the invention is also provided with a self-killing function.

Optionally, the livestock and poultry breeding, inspecting and epidemic preventing robot can automatically enter a preset disinfection facility when transferring to a house (when entering another livestock and poultry house from the current livestock and poultry house), comprehensively kill the livestock and poultry breeding, inspecting and inspecting robot in the disinfection facility, and allow the livestock and poultry breeding, inspecting and epidemic preventing robot to perform next-step house transferring work after completing self-killing.

Optionally, a special water tank (or a water tank shared by the atomizing system 308) for killing the livestock breeding inspection epidemic prevention robot per se may be additionally arranged in the atomizing system 308, a liquid medicine for killing the livestock breeding inspection epidemic prevention robot per se is configured in the special water tank, and the control system 103 may control the atomizing system 308 to kill the livestock breeding inspection epidemic prevention robot per se by using the liquid medicine in the special water tank.

It should be emphasized that the livestock and poultry breeding inspection and epidemic prevention robot provided by the invention can execute the self-killing function when switching to a house, and also can execute the self-killing function at regular time or according to the instruction of a user.

The robot for livestock and poultry breeding, inspection and epidemic prevention also has the functions of deodorization and fly killing. For example, the disinfecting liquid may be replaced with a deodorizing agent. After the deodorization agent is fully diluted by the atomization system 308, the deodorization agent is uniformly covered in the livestock and poultry house by the auxiliary air supply fan 203, so as to complete the deodorization work.

Accordingly, the disinfecting and killing liquid medicine can be replaced by an insecticide which is harmless to people and livestock but is fatal to mosquitoes spreading harmful diseases so as to effectively kill the mosquitoes. Fig. 10 is a schematic view of a working process of the inspection and epidemic prevention robot for livestock and poultry breeding provided by the present invention, as shown in fig. 10, before the inspection and epidemic prevention robot for livestock and poultry breeding works, it is necessary to select whether the species of livestock and poultry, such as pig, cattle, chicken, sheep, etc., is empty through the control display screen 302, wherein the control display screen 302 is located in the control display box 311. Firstly, a navigation map is built by self, meanwhile, an inspection task is started, map information is correspondingly associated with monitored environment information data, and an electronic map with information such as humidity, temperature, gas concentration distribution and colony number is formed.

In the cruising process, the current position information is transmitted to the control terminal, and the control terminal determines the current sub-area according to the current position information. Only the environmental information of the current sub-area is input into a pre-constructed expert system, and the expert system can output a corresponding current killing environment control strategy according to the killing requirement under the environmental information. For example: controlling the spraying amount of the disinfectant at a certain position according to the number of colonies in the certain subregion; according to the species of livestock and poultry, such as chicken houses, the use of ultraviolet rays is forbidden according to the characteristics of photophobia of chicken and the like; when the pen is empty, the spraying amount of the disinfectant is adjusted to the maximum amount, and meanwhile, the ultraviolet and ozone disinfection function is started, so that complete disinfection and sterilization of the pen are realized.

When a map is established for the first time and a killing process is carried out, the function of the infrared camera is automatically started, animal behaviors and temperature are monitored in real time, if abnormal, information is transmitted to a user client in real time in an alarm mode, position information of the abnormal animal is alarmed, action types are suggested, and the like.

The livestock and poultry breeding inspection epidemic prevention robot provided by the invention forms a closed-loop system with data acquisition, intelligent decision making and accurate control, has higher intelligent degree, and solves the problems of high labor intensity and low intelligent degree.

Fig. 11 is a schematic structural diagram of a system for inspecting and epidemic preventing in livestock and poultry breeding, which comprises: a position acquisition module 1110, a killing environment control strategy acquisition module 1120, and an execution module 1130. A location obtaining module 1110, configured to obtain current location information; a killing environmental control strategy obtaining module 1120, configured to obtain a current killing environmental control strategy according to the current location information; the current killing environmental control strategy is pre-constructed according to the environmental information of the current sub-area, and the current sub-area is determined on a pre-constructed electronic map based on the current position information; an executing module 1130, configured to execute the current killing environmental control policy.

According to the livestock and poultry breeding inspection and epidemic prevention system, the subareas are automatically killed and disinfected in a targeted manner according to the environmental information of different subareas in the epidemic prevention area, so that the epidemic prevention area can be effectively killed and disinfected comprehensively, and the epidemic prevention level is improved.

Fig. 12 is a schematic structural diagram of an electronic device provided in the present invention, and as shown in fig. 12, the electronic device may include: a processor (processor)1210, a communication Interface (Communications Interface)1220, a memory (memory)1230, and a communication bus 1240, wherein the processor 1210, the communication Interface 1220, and the memory 1230 communicate with each other via the communication bus 1240. The processor 1210 can call logic instructions in the memory 1230 to execute a livestock and poultry breeding inspection and epidemic prevention method, which comprises the following steps: acquiring current position information; acquiring a current killing environment control strategy according to the current position information; the current killing environmental control strategy is pre-constructed according to the environmental information of the current sub-area, and the current sub-area is determined on a pre-constructed electronic map based on the current position information; and executing the current killing environmental control strategy.

In addition, the logic instructions in the memory 1230 may be implemented in software functional units and stored in a computer readable storage medium when the logic instructions are sold or used as a stand-alone product. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

In another aspect, the present invention also provides a computer program product, which includes a computer program stored on a non-transitory computer-readable storage medium, the computer program including program instructions, when the program instructions are executed by a computer, the computer can execute the livestock breeding inspection and epidemic prevention method provided by the above methods, the method includes: acquiring current position information; acquiring a current killing environment control strategy according to the current position information; the current killing environmental control strategy is pre-constructed according to the environmental information of the current sub-area, and the current sub-area is determined on a pre-constructed electronic map based on the current position information; and executing the current killing environmental control strategy.

In yet another aspect, the present invention also provides a non-transitory computer-readable storage medium, on which a computer program is stored, the computer program being implemented by a processor to perform the method for inspecting and preventing livestock and poultry breeding, provided by the above embodiments, the method including: acquiring current position information; acquiring a current killing environment control strategy according to the current position information; the current killing environmental control strategy is pre-constructed according to the environmental information of the current sub-area, and the current sub-area is determined on a pre-constructed electronic map based on the current position information; and executing the current killing environmental control strategy.

The above-described embodiments of the apparatus are merely illustrative, and the units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

Through the above description of the embodiments, those skilled in the art will clearly understand that each embodiment can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware. With this understanding in mind, the above-described technical solutions may be embodied in the form of a software product, which can be stored in a computer-readable storage medium such as ROM/RAM, magnetic disk, optical disk, etc., and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the methods described in the embodiments or some parts of the embodiments.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.