CN113419753B

CN113419753B - Intelligent farm management method, edge server and collaboration server

Info

Publication number: CN113419753B
Application number: CN202110619486.7A
Authority: CN
Inventors: 张勋; 贾捷; 张呈宇
Original assignee: China United Network Communications Group Co Ltd
Current assignee: China United Network Communications Group Co Ltd
Priority date: 2021-06-03
Filing date: 2021-06-03
Publication date: 2023-06-16
Anticipated expiration: 2041-06-03
Also published as: CN113419753A

Abstract

The invention provides an intelligent farm management method, an edge server, a collaboration server, electronic equipment and a storage medium, wherein the method comprises the following steps: the edge server monitors and records the operation information of the corresponding equipment in the plant area; receiving a communication data request sent by a collaboration server after receiving a new Internet of things equipment program; reporting the operation information of each device in the farm to a cooperative server; the cooperative servers collect the operation information of the equipment in each farm reported by each edge server, and perform parameter fine adjustment on the new Internet of things equipment program; receiving the updated Internet of things equipment program after fine adjustment, which is sent by the collaboration server; and sending an update program to each device in the farm according to the updated Internet of things device program, so that the device runs according to the update program. According to the technical scheme, the requirements of low time delay and high speed of data transmission can be met, the equipment can be responded and adjusted in time, and intelligent management of a farm is achieved.

Description

Intelligent farm management method, edge server and collaboration server

Technical Field

The invention relates to the technical field of intelligent agriculture, in particular to an intelligent farm management method, an edge server, a collaboration server, electronic equipment and a computer readable storage medium.

Background

According to the development requirements of the novel intelligent animal husbandry Internet field and the construction requirements of an intelligent management farm, and along with the deep fusion of the current informatization technology and industrialization, the data generated by mechanical equipment and an informatization system are increasingly rich, and the requirements of low time delay, high speed and timely response are provided for a data network of the farm.

However, the data processing equipment of the current farm mainly focuses on the characteristics of highly centralized calculation, lacks collaborative management capability and efficient feedback capability, is often excessively dependent on the stability of a wired network for improving the speed, has higher requirements on equipment and sites, is only suitable for the rapid processing of standardized batch production, and cannot timely adjust each equipment according to the actual conditions in the farm; the development requirements of modern intelligent animal husbandry are not met.

Disclosure of Invention

The utility model provides an intelligent plant management method, edge server, cooperation server, electronic equipment and storage medium, based on the 5G network technology combines regional computing power, can be fine solve the data transmission in the plant and have low delay, high-rate requirement to can grasp the running condition of plant's interior equipment in real time, can respond in time and adjust equipment according to actual conditions, realize the intelligent management of plant.

In a first aspect, an embodiment of the present disclosure provides an intelligent farm management method, applied to an edge server, the method including:

monitoring and recording operation parameter information of all equipment in the plant corresponding to the edge server;

receiving a communication data request sent by a collaboration server in the factory after receiving a new Internet of things equipment program sent by a central data cluster;

reporting the operation parameter information of each device in the farm to a cooperative server, so that the cooperative server gathers after receiving the operation parameter information of each device in the farm corresponding to each device reported by each edge server in the factory, and performs parameter fine adjustment on a new internet of things device program according to the summarized operation parameter information of each device to obtain an updated internet of things device program, and sends the updated internet of things device program to each edge server in the factory;

receiving an updated Internet of things equipment program sent by the collaboration server;

and sending an update program to each device in the corresponding farm according to the updated Internet of things device program, so that each device in the corresponding farm operates according to the update program.

Further, the method further comprises:

synchronizing the operation parameter information of each device in the farm corresponding to the edge server in the factory to other edge servers in the same factory; the method comprises the steps of,

receiving operation parameter information of each device in the corresponding farm synchronized by other edge servers in the same factory;

after reporting the operation parameter information of each device in the farm to the collaboration server, the method further comprises the following steps:

and reporting the operation parameter information of each device in the farm corresponding to other edge servers in the same factory to the cooperative server.

Further, the method further comprises:

receiving the information required to be adjusted of the parameters of the Internet of things equipment sent by the central data cluster;

and sending information of programs to be updated to all the devices in the farms corresponding to the edge servers according to the information of the needs of the parameters of the devices of the Internet of things, so that all the devices in the farms corresponding to the edge servers are ready for updating programs.

In a second aspect, an embodiment of the present disclosure further provides an intelligent farm management method, applied to a collaboration server, the method including:

receiving a new Internet of things equipment program sent by a central data cluster;

respectively sending a communication data request to each edge server in a factory so that each edge server respectively reports the monitored and recorded operation parameter information of each device in a corresponding farm to the cooperative server;

receiving and summarizing operation parameter information of each device in the corresponding farm reported by each edge server;

performing parameter fine adjustment on the new Internet of things equipment program according to the collected operation parameter information of each equipment to obtain an updated Internet of things equipment program;

and sending the updated internet of things equipment program to each edge server in the factory so that each edge server in the factory can send an update program to each equipment in the corresponding farm according to the updated internet of things equipment program, and each equipment in the corresponding farm can operate according to the update program.

Further, the method further comprises:

sharing operation parameter information of each summarized device with the collaboration server of other factories;

performing parameter fine adjustment on the new Internet of things equipment program according to the operation parameter information of each equipment summarized by the collaboration servers of all factories to obtain fine-adjusted parameters;

the parameters of the collaboration server of the factory after the new Internet of things equipment program is trimmed are respectively sent to the collaboration servers of other factory, and the parameters of the collaboration server of other factory after the new Internet of things equipment program is trimmed are received;

confirming whether the parameters of the collaboration server of the factory area and the collaboration servers of other factory areas after the collaboration servers of the factory area and the collaboration servers of other factory areas are respectively subjected to fine adjustment on new Internet of things equipment programs are consistent;

and if the parameters are consistent, obtaining an updated Internet of things equipment program according to the finely tuned parameters, and sending the updated Internet of things equipment program to each edge server in the factory.

In a third aspect, an embodiment of the present disclosure provides an edge server, including:

the monitoring module is used for monitoring and recording the operation parameter information of each device in the plant corresponding to the edge server in the plant;

the first receiving module is used for receiving a communication data request sent by the collaboration server in the factory after receiving a new Internet of things equipment program sent by the central data cluster;

the first sending module is configured to report the operation parameter information of each device in the farm to a cooperative server, so that the cooperative server gathers after receiving the operation parameter information of each device in the farm corresponding to each device reported by each edge server in the factory, and performs parameter fine adjustment on a new internet of things device program according to the summarized operation parameter information of each device to obtain an updated internet of things device program, and sends the updated internet of things device program to each edge server in the factory;

the first receiving module is further configured to receive an updated internet of things device program sent by the collaboration server;

the first sending module is further configured to send an update program to each device in the farm corresponding to the edge server according to the updated internet of things device program, so that each device in the farm corresponding to the update program operates according to the update program.

Further, the edge server also comprises a synchronization module;

the synchronization module is used for synchronizing the operation parameter information of each device in the farm corresponding to the edge server in the factory to other edge servers in the same factory;

the first receiving module is further configured to receive operation parameter information of each device in the corresponding farm synchronized by other edge servers in the same factory;

the first sending module is further configured to report the operation parameter information of each device in the corresponding farm, which is received by the first receiving module, of other edge servers in the same factory to the cooperative server.

In a fourth aspect, an embodiment of the present disclosure provides a collaboration server, including:

the second receiving module is used for receiving a new Internet of things equipment program sent by the central data cluster;

the second sending module is arranged to send communication data requests to each edge server in the factory respectively, so that each edge server can report the monitored and recorded operation parameter information of each corresponding device in the farm to the cooperative server respectively;

the second receiving module is further configured to receive and summarize operation parameter information of each device in the corresponding farm reported by each edge server;

the parameter adjustment module is used for carrying out parameter fine adjustment on the new Internet of things equipment program according to the collected operation parameter information of each equipment to obtain an updated Internet of things equipment program;

the second sending module is further configured to send the updated internet of things equipment program to each edge server in the factory, so that each edge server in the factory sends an update program to each equipment in the corresponding farm according to the updated internet of things equipment program, and each equipment in the corresponding farm operates according to the update program.

In a fifth aspect, embodiments of the present disclosure further provide a computer device, including a memory and a processor, where the memory stores a computer program, and when the processor runs the computer program stored in the memory, the processor performs the method for managing an intelligent farm according to any one of the first aspect and the second aspect.

In a sixth aspect, embodiments of the present disclosure also provide a computer-readable storage medium, comprising: a computer program which, when run on a computer, causes the computer to perform the method of managing a smart farm as described in any of the first and second aspects.

The beneficial effects are that:

according to the intelligent farm management method, the edge server, the cooperative server, the electronic equipment and the storage medium, the edge server monitors and records the operation parameter information of all equipment in the farm corresponding to the edge server in a factory; receiving a communication data request sent by a collaboration server in the factory after receiving a new Internet of things equipment program sent by a central data cluster; reporting the operation parameter information of each device in the farm to a cooperative server, so that the cooperative server gathers after receiving the operation parameter information of each device in the farm corresponding to each device reported by each edge server in the factory, and performs parameter fine adjustment on a new internet of things device program according to the summarized operation parameter information of each device to obtain an updated internet of things device program, and sends the updated internet of things device program to each edge server in the factory; receiving an updated Internet of things equipment program sent by the collaboration server; and sending an update program to each device in the corresponding farm according to the updated Internet of things device program, so that each device in the corresponding farm operates according to the update program. According to the technical scheme, the requirements of low time delay and high speed of data transmission in the farm can be well solved based on the 5G network technology and the regional computing capability, the running condition of equipment in the farm can be mastered in real time, the equipment can be responded in time and adjusted according to the actual condition, and the intelligent management of the farm is realized.

Drawings

Fig. 1 is a schematic flow chart of an intelligent farm management method according to a first embodiment of the disclosure;

fig. 2 is a flow chart of an intelligent farm management method according to a second embodiment of the disclosure;

fig. 3 is a schematic diagram of an intelligent farm according to a third embodiment of the present disclosure;

fig. 4 is a flow chart of an intelligent farm management method according to a third embodiment of the disclosure;

fig. 5 is a schematic diagram of an edge server according to a fourth embodiment of the disclosure;

fig. 6 is a architecture diagram of a collaboration server according to a fifth embodiment of the present disclosure;

fig. 7 is a schematic diagram of an electronic device according to a sixth embodiment of the disclosure.

Detailed Description

In order that those skilled in the art will better understand the technical solutions of the present disclosure, the present disclosure will be described in further detail with reference to the accompanying drawings and examples.

Wherein the terminology used in the embodiments of the disclosure is for the purpose of describing particular embodiments only and is not intended to be limiting of the disclosure. As used in this disclosure of embodiments and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

The intelligent agriculture requires the requirements of low time delay, high speed and timely response of a data network of a farm, but the data processing equipment of the farm at present mainly focuses on the characteristics of highly centralized calculation, lacks collaborative management capability and efficient feedback capability, often depends on the stability of a wired network excessively for improving the speed, has higher requirements on equipment and sites, is only suitable for the rapid processing of standardized batch production, and cannot adjust each equipment timely according to the actual conditions in the farm; the development requirements of modern intelligent animal husbandry are not met.

The following describes the technical solutions of the present disclosure and how the technical solutions of the present disclosure solve the above-mentioned problems in detail with specific embodiments. The following embodiments may be combined with each other, and the same or similar concepts or processes may not be described in detail in some embodiments.

Fig. 1 is a flow chart of an intelligent farm management method according to an embodiment of the present disclosure, which is applied to an edge server, as shown in fig. 1, and the method includes:

step S101: monitoring and recording operation parameter information of all equipment in the plant corresponding to the edge server;

step S102: receiving a communication data request sent by a collaboration server in the factory after receiving a new Internet of things equipment program sent by a central data cluster;

step S103: reporting the operation parameter information of each device in the farm to a collaboration server; the collaborative server collects operation parameter information of each device in the corresponding farm reported by each edge server in the factory after receiving the operation parameter information, and performs parameter fine adjustment on a new Internet of things device program according to the collected operation parameter information of each device to obtain an updated Internet of things device program, and the updated Internet of things device program is sent to each edge server in the factory;

step S104: receiving an updated Internet of things equipment program sent by the collaboration server;

step S105: and sending an update program to each device in the corresponding farm according to the updated Internet of things device program, so that each device in the corresponding farm operates according to the update program.

The large intelligent agriculture cultivation plant generally comprises a plurality of plant areas and a central data cluster for control, each plant area comprises a plurality of cultivation farms, and each cultivation farm is fed by the Internet of things equipment instead of manpower, and works such as cleaning and environment adjustment are performed. And after receiving the working signals, the Internet of things equipment in the farm starts to read the cultivation working program in the farm, check the conditions of indoor temperature, humidity, oxygen concentration, ventilation wind speed and the like, and the equipment such as feeding equipment, ventilation equipment, humidifying equipment and the like normally and sequentially operate according to the sequence of the farm. The edge server monitors and records information of all devices in the farm, including the serial numbers of the devices of the Internet of things, the parameters of the devices of the Internet of things and the like, and the operation parameter information of all the devices, such as the detected environment parameter information, and the operation conditions of all the devices, such as current and voltage, whether the operation is faulty, error rate and the like.

When the situation of the flock changes and equipment parameters need to be updated in a time stage corresponding to equipment such as feeding equipment, ventilation equipment, humidification equipment and the like, a highly concentrated central computing cluster starts to send data information to the factory through a 5G network, and the data information indicates that the equipment parameters need to be adjusted. The collaboration server in the factory receives information needing parameter adjustment sent by the central data cluster, and starts to accept a new Internet of things equipment program, the collaboration server can initiate a communication data request to an edge server of the farm, and after receiving the request, the edge server reports operation parameter information of all equipment in the farm to the collaboration server, wherein the reported data comprise, but are not limited to, equipment numbers, existing operation conditions, faults and the like. The collaborative server gathers after receiving the operation parameter information of each device in each plant sent by each edge server in the factory; according to the content of equipment numbers and actual equipment operation, the situation that animals go out of the fence or the farm does not have the containment, certain farm equipment stops and exits from the factory and the like, parameter fine adjustment is carried out on a new Internet of things equipment program, an updated Internet of things equipment program is obtained, fine management is achieved, and aiming at different generation stages, the program of the equipment can be adjusted according to the situation that the farm in one growth stage appears on the farm, and meanwhile, the coordination of out of the fence and moving of the fence is well carried out. The collaboration server sends the updated Internet of things equipment program to each edge server in the factory; after receiving programs of new feeding equipment, ventilation equipment, humidifying equipment and other equipment, an edge server in the factory sends control signals and updates programs to all the Internet of things equipment in the farm through a 5g mobile network. The method and the device have the advantages that when the area of the farm is large and the farms are scattered, the requirements of low time delay and high speed transmission can be met based on the 5G network wireless transmission technology, the problems of difficult deployment and instability of wired transmission are solved, the cooperation of working procedures of different cultivation stages is achieved, and the fine management of the farm is achieved.

The embodiment of the disclosure combines the regional computing capability based on the 5G network technology, can well solve the requirements of low time delay and high speed of data transmission in the farm, can master the running condition of equipment in the farm, can respond in time and adjust the equipment according to the actual condition, and realizes the intelligent management of the farm.

Further, the method further comprises:

When the feeding equipment, the ventilation equipment and the humidifying equipment fail and cannot pass through the farm, the information records of the feeding equipment, the ventilation equipment and the humidifying equipment can be recorded and an alarm can be given. And the fault information is sent to the edge servers of other farms in the factory for backup in a network computing mode. When the Internet of things equipment passes through the farm for good things, information can be synchronized to edge servers of other farms in the factory. And the edge server not only reports the corresponding equipment information in the farm, but also reports the equipment information obtained from other edge servers. By synchronizing the information to other edge servers, the data can be stored, the record is more comprehensive, information leakage is prevented, and other farm conditions are known by each farm. And when the computing capacity of the edge server is insufficient or a problem occurs, requesting to call computing power of other edge servers, so as to realize computing power balance.

When the information is reported to the cooperative server, the cooperative server acquires the information reported by each edge server, gathers the information, confirms the condition of the edge server and realizes flow cooperation.

Further, the method further comprises:

When the central computing cluster starts to send data information to a factory through a 5G network and indicates that equipment parameters are to be adjusted, such as different feeding modes, environment parameters and the like in each growth stage, the edge server also receives information that the parameters of the equipment of the Internet of things sent by the central computing cluster need to be adjusted, and after receiving the information, the edge server sends information that programs need to be updated to all the equipment in the farm so that all the equipment can be ready for updating, such as equipment homing, data emptying and the like.

According to the embodiment of the disclosure, the low-delay and high-rate transmission requirements of data transmission can be met, the running condition of equipment in a farm can be mastered, the central data cluster can be responded in time, the equipment can be adjusted, the intelligent and refined management of the farm is realized, and the running efficiency of the equipment is improved.

Fig. 2 is a flow chart of an intelligent farm management method according to a second embodiment of the present disclosure, which is applied to a collaboration server, as shown in fig. 2, and the method includes:

step S201: receiving a new Internet of things equipment program sent by a central data cluster;

step S202: respectively sending a communication data request to each edge server in a factory so that each edge server respectively reports the monitored and recorded operation parameter information of each device in a corresponding farm to the cooperative server;

step S203: receiving and summarizing operation parameter information of each device in the corresponding farm reported by each edge server;

step S204: performing parameter fine adjustment on the new Internet of things equipment program according to the collected operation parameter information of each equipment to obtain an updated Internet of things equipment program;

step S205: and sending the updated internet of things equipment program to each edge server in the factory so that each edge server in the factory can send an update program to each equipment in the corresponding farm according to the updated internet of things equipment program, and each equipment in the corresponding farm can operate according to the update program.

The collaboration server coordinates and manages all edge servers in a factory, after receiving information needing parameter adjustment sent by a central data cluster, the collaboration server starts to accept a new Internet of things equipment program, the collaboration server can initiate a communication data request to the edge servers of the farm, after receiving the request, each edge server of the farm reports operation parameter information of each equipment in the farm to the collaboration server, and the reported data comprise, but are not limited to, equipment numbers, existing operation conditions, whether faults exist and the like. The collaborative server gathers after receiving the operation parameter information of each device in each plant sent by each edge server in the factory; according to the content of equipment numbers and actual equipment operation, animals go out of the fence or the farm has no containment condition, some farm equipment stops and exits from a factory and the like, parameter fine adjustment is carried out on a new Internet of things equipment program to obtain an updated Internet of things equipment program, fine management is realized, and aiming at different generation stages, the program of the equipment can be adjusted according to the condition of the farm in one growth stage on the farm, and meanwhile, the coordination of out of the fence and moving of the fence is well done. The collaboration server sends the updated Internet of things equipment program to each edge server in the factory; after each edge server in the factory receives new feeding equipment, ventilation equipment and humidifying equipment programs, control signals and update programs are sent to each Internet of things equipment in the farm through a 5g mobile network.

The method and the device have the advantages that when the area of the cultivation plant is large and the cultivation plant is scattered, the requirements of low time delay and high speed transmission can be met based on the 5G network wireless transmission technology, the problems of difficult deployment and instability of wired transmission are solved, the cooperation of working procedures of different cultivation stages is achieved, and the intelligent and fine management of the cultivation plant is achieved.

Further, the method further comprises:

Each factory area of the farm is provided with a cooperative server, and each cooperative server gathers equipment information and equipment operation parameter information of each farm in the factory area; along with the environmental change and the arrival of the cultured animals at different generation stages, the parameters of the equipment program need to be updated, the collaboration server exchanges shared equipment information with the collaboration servers of other factories during the updating, and the parameter fine adjustment is performed on the new equipment program of the Internet of things according to the total real-time equipment information condition. And comparing the fine-tuned parameters, and realizing unified management through consistency confirmation of all the collaboration servers.

In order to more clearly illustrate the technical solution of the present disclosure, a third embodiment of the present disclosure further provides an intelligent farm management method, and fig. 3 is a architecture diagram of a farm according to an embodiment of the present disclosure, including a No. 1 factory area and a No. 3 factory area, where the factory area has 5G signal coverage, as shown in fig. 4, and the method includes:

step S1: the method comprises the steps that 1, a factory area No. 3 starts to operate, an edge server of a farm 1 receives a working signal, intelligent sheepfold Internet of things equipment starts to read a cultivation working program in the farm 1, the conditions of indoor temperature, humidity, oxygen concentration, ventilation wind speed and the like are checked, the intelligent sheepfold Internet of things equipment of farms 2 to 8 operates in the same manner as the farm 1, and feeding equipment, ventilation equipment and humidification equipment normally operate in sequence according to the farm order;

step S2: when feeding equipment, ventilation equipment, humidification equipment are in plant 1 and breed work flow through plant 1, edge server in plant 1 can monitor and record, and this feeding equipment, ventilation equipment, humidification equipment's information, the information of record includes plant 1's thing networking equipment number, thing networking equipment parameter includes but is not limited to: current voltage, whether operation is faulty or not, error rate;

step S3: when the feeding equipment, the ventilation equipment and the humidifying equipment are out of order and cannot pass through the farm 1, the information records of the feeding equipment, the ventilation equipment and the humidifying equipment are recorded by the edge server, but are not sent to the cooperative server at the moment;

step S4: the edge server of the farm 1 sends fault information to edge servers of other farms in the No. 1 factory for standby in a network computing mode; when the Internet of things equipment works well and passes through the farm 1, information can be synchronized to edge servers of other farms in the plant area 1;

step S5: when the information is received by the culture edge server of the farm 2, a culture working program in the farm 2 is read;

step S6: when the sheep flock conditions change and parameters need to be updated in a time stage corresponding to the feeding equipment, the ventilation equipment and the humidifying equipment, a centralized computing cluster, namely a central data cluster, starts to send data information to a No. 1 factory through a 5G network;

step S7: the method comprises the steps that 1, each edge server and a cooperative server of a factory area receive information needing parameter adjustment at the same time, and the cooperative server starts to receive a new Internet of things equipment program;

step S8: after receiving the information, the collaboration server initiates a communication data request to the edge servers of all farms;

step S9: reporting the operation conditions of all the devices in the factory to the cooperative server after the cultivation edge server receives the request; the reported data include, but are not limited to, equipment numbers, existing operating conditions, whether to fail;

step S10: the collaboration server of the No. 1 factory area exchanges shared equipment information with collaboration servers of other factory areas, and performs parameter fine adjustment on a new Internet of things equipment program according to the total real-time equipment information condition; fine tuning content includes, but is not limited to, content of device number and actual device operation; the sheepfold goes out of the fence or the farm has no containment condition; some farm equipment stops and exits the factory; then, all collaboration servers perform consistency confirmation on the fine-tuned parameters;

step S11: after consistency confirmation, the updated feeding equipment, ventilation equipment and humidifying equipment programs are issued to the culture edge server;

step S12: after receiving new feeding equipment, ventilation equipment and humidifying equipment programs, the edge servers of all farms in the factory send control signals to intelligent sheepfold Internet of things equipment in the Internet of things equipment farms through a 5g mobile network.

Fig. 5 is a schematic diagram of an edge server according to a fourth embodiment of the present disclosure, as shown in fig. 5, including:

the monitoring module 11 is configured to monitor and record operation parameter information of each device in the farm corresponding to the edge server in the factory;

a first receiving module 13, configured to receive a communication data request sent by a collaboration server in the factory area after receiving a new internet of things device program sent by a central data cluster;

the first sending module 14 is configured to report the operation parameter information of each device in the farm to a cooperative server, so that the cooperative server gathers after receiving the operation parameter information of each device in the farm corresponding to each device reported by each edge server in the factory, and performs parameter fine adjustment on a new internet of things device program according to the summarized operation parameter information of each device, so as to obtain an updated internet of things device program, and send the updated internet of things device program to each edge server in the factory;

the first receiving module 13 is further configured to receive an updated internet of things device program sent by the collaboration server;

the first sending module 14 is further configured to send an update program to each device in the farm corresponding to the edge server according to the updated internet of things device program, so that each device in the farm corresponding to the update program operates according to the update program.

Further, the edge server further comprises a synchronization module 15;

the synchronization module 15 is configured to synchronize operation parameter information of each device in the farm corresponding to the edge server in the factory to other edge servers in the same factory;

the first receiving module 13 is further configured to receive operation parameter information of each device in the corresponding farm synchronized by other edge servers in the same factory;

the first sending module 14 is further configured to report the operation parameter information of each device in the corresponding farm, which is received by the first receiving module, to the collaboration server.

Fig. 6 is a schematic diagram of a collaboration server according to a fifth embodiment of the present disclosure, as shown in fig. 6, including:

a second receiving module 21, configured to receive a new internet of things device program sent by the central data cluster;

a second sending module 22, configured to send a communication data request to each edge server in the factory, so that each edge server reports the monitored and recorded operation parameter information of each device in the corresponding farm to the collaboration server;

the second receiving module 21 is further configured to receive and collect operation parameter information of each device in the corresponding farm reported by each edge server;

the parameter adjustment module 23 is configured to perform parameter fine adjustment on the new internet of things device program according to the collected operation parameter information of each device, so as to obtain an updated internet of things device program;

the second sending module 22 is further configured to send the updated internet of things device program to each edge server in the factory, so that each edge server in the factory sends the updated program to each device in the corresponding farm according to the updated internet of things device program, so that each device in the corresponding farm operates according to the updated program.

Further, the collaboration server also includes a sharing module 24,

the sharing module 24 is configured to share operation parameter information of each summarized device with a collaboration server of other factories;

the parameter adjustment module 23 includes a parameter adjustment unit and a parameter confirmation unit;

the parameter adjustment unit is configured to perform parameter fine adjustment on the new internet of things equipment program according to the operation parameter information of each equipment summarized by the collaboration servers of all factories, so as to obtain fine-adjusted parameters;

the parameter confirmation unit is configured to send the parameters after the collaboration server of the factory performs fine adjustment on the new internet of things device to the collaboration servers of other factory respectively through the second sending module 22, and receive the parameters after the collaboration server of other factory performs fine adjustment on the new internet of things device through the second receiving module 21;

and, in addition, the processing unit,

and if the parameters are consistent, obtaining an updated internet of things equipment program according to the fine-tuned parameters, and sending the updated internet of things equipment program to each edge server in the factory through the second sending module 22.

The edge server and the collaboration server in the embodiments of the present disclosure are used to implement the intelligent farm management methods in the first to third embodiments of the methods, so the description is simpler, and specific reference may be made to the related descriptions in the first to third embodiments of the methods, which are not repeated here.

In addition, as shown in fig. 7, a sixth embodiment of the present disclosure further provides an electronic device, including a memory 10 and a processor 20, where the memory 10 stores a computer program, and when the processor 20 runs the computer program stored in the memory 10, the processor 20 executes the above-mentioned various possible intelligent farm management methods.

The memory 10 is connected to the processor 20, the memory 10 may be a flash memory, a read-only memory, or other memories, and the processor 20 may be a central processing unit or a single chip microcomputer.

Furthermore, embodiments of the present disclosure provide a computer-readable storage medium having stored therein computer-executable instructions that, when executed by at least one processor of a user device, perform the various possible methods described above.

Among them, computer-readable media include computer storage media and communication media including any medium that facilitates transfer of a computer program from one place to another. A storage media may be any available media that can be accessed by a general purpose or special purpose computer. An exemplary storage medium is coupled to the processor such the processor can read information from, and write information to, the storage medium. In the alternative, the storage medium may be integral to the processor. The processor and the storage medium may reside in an ASIC (Application Specific Integrated Circuit ). In addition, the ASIC may reside in a user device. The processor and the storage medium may reside as discrete components in a communication device.

It is to be understood that the above embodiments are merely exemplary embodiments employed to illustrate the principles of the present disclosure, however, the present disclosure is not limited thereto. Various modifications and improvements may be made by those skilled in the art without departing from the spirit and substance of the disclosure, and are also considered to be within the scope of the disclosure.

Claims

1. An intelligent farm management method, applied to an edge server, comprising:

transmitting an update program to each device in the corresponding farm according to the updated Internet of things device program, so that each device in the corresponding farm operates according to the update program;

the edge server and the collaboration server are communicated through a 5G network, and the edge server and the Internet of things equipment are also communicated through the 5G network.

2. The method of management according to claim 1, characterized in that the method further comprises:

3. The method of management according to claim 1, characterized in that the method further comprises:

4. An intelligent farm management method, applied to a collaboration server, comprising:

the updated internet of things equipment programs are sent to all edge servers in the factory, so that all edge servers in the factory send updated programs to all equipment in a corresponding farm according to the updated internet of things equipment programs, and all equipment in the corresponding farm operates according to the updated programs;

the collaboration server and the edge server are communicated through a 5G network, and the edge server and the Internet of things devices are also communicated through the 5G network.

5. The method of managing as set forth in claim 4, further comprising:

6. An edge server, comprising:

the monitoring module is used for monitoring and recording the operation parameter information of each device in the farm corresponding to the edge server in the factory;

the first sending module is further configured to send an update program to each device in the farm corresponding to the edge server according to the updated internet of things device program, so that each device in the farm corresponding to the update program operates according to the update program;

7. The edge server of claim 6, wherein the edge server further comprises a synchronization module;

8. A collaboration server, comprising:

the second sending module is further configured to send the updated internet of things equipment program to each edge server in the factory, so that each edge server in the factory sends an update program to each equipment in the corresponding farm according to the updated internet of things equipment program, and each equipment in the corresponding farm operates according to the update program;

9. An electronic device comprising a memory and a processor, the memory having a computer program stored therein, the processor performing the intelligent farm management method of any of claims 1-3 and 4-5 when the processor runs the computer program stored in the memory.

10. A computer-readable storage medium, comprising: computer program which, when run on a computer, causes the computer to perform the intelligent farm management method according to any of claims 1-3 and 4-5.