CN109284834A

CN109284834A - Aquaculture method for running and system and client terminal system

Info

Publication number: CN109284834A
Application number: CN201810790964.9A
Authority: CN
Inventors: 李平; 严峻卫; 叶永庆; 成宏
Original assignee: Jiaxing Sai Yu Ke Agricultural Technology Co Ltd
Current assignee: Jiaxing Sai Yu Ke Agricultural Technology Co Ltd
Priority date: 2018-07-18
Filing date: 2018-07-18
Publication date: 2019-01-29

Abstract

The invention discloses a kind of aquaculture method for running and system and client terminal systems, since operation side is after the information for receiving the request of fish pond policing services and target fish pond to be regulated from user side, just monitoring equipment is laid for target fish pond, it establishes and communicates to connect with the monitoring equipment in target fish pond, fish pond policing services are provided for it, to which raiser can obtain the comprehensive aquaculture supervision of system with extremely low cost, and it is not necessarily to operator early period carry out comprehensive equipment laying, the operation of aquaculture system can be realized with lower cost.Also, the present invention provides a variety of service modes, come source module and a variety of services to valence mode, so that raiser can select most suitable service mode according to actual needs including a variety of monitoring equipments.

Description

Aquaculture operation method and system and user terminal system

Technical Field

The invention relates to an aquaculture operation technology, in particular to an aquaculture operation method and system.

Background

In the aquaculture industry, whether the aquaculture is successful depends on the quality of aquaculture water, and the 'fish culture with water first' is well-known in the industry. The existing breeding varieties are also various and have larger and larger scale, and the water source and the environmental pollution are increasingly aggravated, and the breeding risk is gradually increased. Aquatic workers pay great attention to water quality monitoring, but the water quality detection tool has many uncertain factors such as high price and unreliable detection results, and the embarrassment that valuable instruments are bought to be inaccurate in detection, so that money is wasted, and the workers do not measure and feel relieved is caused.

Most farm owners have the ability to engage specialized technicians, however, a significant proportion of the current first-line technicians are not college departures, but rather are handed over in a fashion that the Master carries the workers in vain, and are heavily dependent on past experience and knowledge. And the water quality indexes of a certain period of time are obtained by combining various detection reagents or portable water quality detection tools which are occasionally used, the data continuity is lacked, and a credible data trend cannot be formed.

Some farm owners buy expensive on-line water quality detection systems, and often cause technicians to be carefree of maintenance and deal with maintenance due to the fact that later-stage technical maintenance is not in place, particularly due to the fact that the maintenance of the sensors is too professional, so that detection results are inaccurate, and even the instruments are idle and depend on experience again, so that waste is caused.

Therefore, in the traditional aquaculture water quality monitoring field, the phenomenon is formed: the portable detection instrument can only detect single data; the performance of a water quality sensor generally configured in a low-price online detection system is general, and the detection result is less and less not dependent on the spectrum as time goes on; high-performance online detection systems and instruments are expensive, some monitoring instruments for water quality indexes are also expensive, and ordinary farmers cannot spend money for purchasing the high-performance online detection systems and the instruments.

Patent CN201710186292.6 is a monitoring data sharing and leasing method for a smart aquatic system, which realizes the multi-person sharing of monitoring data of a water quality monitoring system by renting water quality monitoring devices pre-arranged on site and by a business model of monitoring data sharing charging. This mode need not have the universe of pointing to and lays monitoring equipment, and the laying cost is huge, and the monitoring equipment who is not required to be served will cause a large amount of wastes and the cost burden of resource moreover.

Disclosure of Invention

The invention aims to provide an aquaculture operation method, an aquaculture operation system and a user terminal system, so that farmers can acquire all-around aquaculture supervision of the system at extremely low cost, and an operator does not need to lay all-around equipment at the early stage, so that the aquaculture system can be operated at lower cost.

In order to solve the above technical problem, an embodiment of the present invention provides an aquaculture operation method, including:

receiving a fishpond supervision service request from a user side and information of a target fishpond to be supervised;

establishing communication connection with the supervisory equipment of the target fishpond;

receiving data from the supervisory equipment of the target fishpond, obtaining and storing water quality monitoring information and/or equipment state information of the target fishpond, and sending the water quality monitoring information and/or equipment state information processed by the target fishpond to a user side corresponding to the target fishpond according to service contents selected by the user side; the equipment state information comprises the state information of the equipment commonly used in the fishpond and/or the state information of the supervisory equipment.

Embodiments of the present invention also provide an aquaculture operating system, comprising a server, the server comprising:

a module for receiving a request of a fishpond supervision service from a user side and information of a target fishpond to be supervised;

a module for establishing communication connection with the supervisory equipment of the target fishpond;

a module that receives data from supervisory devices of the target fish pond;

a module for obtaining and storing water quality monitoring information and/or equipment state information of the target fishpond according to the data received from the supervisory equipment of the target fishpond;

according to the service content selected by the user side, the water quality monitoring information and/or the equipment state information after the treatment of the target fishpond

And sending the information to a module at the user side corresponding to the target fishpond.

The embodiment of the invention also provides a user terminal system, any aquaculture operation system is connected, and the equipment comprises:

a module for sending a request for a fishpond supervision service to an aquaculture operation system;

a module that instructs a user to input information of a target fish pond;

a module for instructing a user to select a service mode;

a module that receives the water quality monitoring information and/or equipment status information after the treatment of the target fishpond from the aquaculture operation system;

the service mode includes at least one of:

a source mode of a supervisory device of the target fishpond, a service consideration mode, service content of the target fishpond, and/or a service life of the target fishpond.

Compared with the prior art, the embodiment of the invention has the advantages that the operation side establishes communication connection with the supervision equipment of the target fishpond only after receiving the fishpond supervision service request from the user side and the information of the target fishpond to be supervised, and provides the fishpond supervision service for the operation side, so that the aquaculture user can acquire all-round aquaculture supervision of the system at extremely low cost, and the operation side does not need to lay all-round equipment at the early stage, and can realize the operation of the aquaculture system at low cost.

As a further improvement, before establishing a communication connection with the supervisory device of the target fish pond, the method further comprises: and laying the supervision equipment for the target fishpond.

As a further improvement, before establishing a communication connection with the supervisory device of the target fish pond, the method further comprises: and instructing the user side to select a service mode, instructing the user side to pay a deposit of the monitoring equipment according to the service mode selected by the user side, and/or instructing the user side to pay service cost, and/or binding associated service for the user side. By configuring different service modes, a user can have a wider selection mode.

As a further refinement, the service mode includes at least one of:

As a further improvement, the source mode of the supervisory equipment of the target fish pond at least comprises:

leasing the supervision equipment from an aquaculture operation side; and/or

Purchasing the supervision equipment from an aquaculture operation side; and/or

The user is provided with the supervision equipment;

as a further refinement, the service pricing model includes at least one of:

paying service fee according to the service period and binding the associated service.

As a further refinement, the service content includes at least one of:

when at least one monitoring value in the water quality monitoring information exceeds a preset safety range, sending alarm information to a user side;

when the state of the common equipment and/or the supervisory equipment in the fishpond is abnormal, sending alarm information to a user side;

sending real-time water quality monitoring information and/or equipment state information of a target fishpond to a user side at regular time;

when a user side inquiry instruction is received, real-time water quality monitoring information and/or equipment state information of a target fishpond is sent to the user side;

and sending a control instruction to the supervisory equipment of the target fishpond according to the real-time instruction or preset of the user.

As a further improvement, the association service includes at least one of:

the aquaculture by-product purchasing service and the aquaculture finished product selling service are carried out;

the aquaculture operation method further comprises the following steps:

receiving a request for using the associated service from a user side, and returning an associated service user interface to the user side according to the received request; the correlation service user interface is a user interface of a correlated third party, or a user interface after integrating third party service information for an aquaculture operation side.

As a further improvement, the method further comprises: and storing the user information, the target fishpond information corresponding to the user information, and the source mode, the service price-matching mode, the service content and/or the service duration of the supervisory equipment corresponding to each target fishpond in a database.

As a further improvement, the supervisory equipment of the target fish pond comprises at least one of the following or any combination thereof:

water quality monitoring equipment arranged in the fishpond;

the equipment communication module is arranged at the side of the common equipment in the fish pond and is used for carrying out state monitoring and/or instruction transmission on the common equipment in the fish pond;

the module is arranged at the side of the fish pond and is used for establishing communication connection with the water quality monitoring equipment and/or the equipment communication module;

and the module is arranged at the fish pond side and used for establishing communication connection with the aquaculture operation side server.

As a further improvement, the method further comprises:

receiving an instruction identifying abnormality of the target fishpond supervision equipment;

determining an equipment maintenance strategy according to service contents and service time limits corresponding to each target fishpond stored in a database;

responding to the received command for identifying the abnormality of the target fishpond supervision equipment according to the determined maintenance strategy;

the maintenance policy includes at least one of:

equipment maintenance is carried out for the target fishpond free of charge;

instructing a user side corresponding to a target fishpond to pay maintenance cost, and carrying out equipment maintenance on the target fishpond after the maintenance cost is paid successfully;

indicating a user side corresponding to the target fishpond to continue a service period, and carrying out equipment maintenance on the target fishpond after the service period is continued successfully;

and indicating a user side corresponding to the target fishpond to newly add or reselect a service mode containing equipment maintenance, and performing equipment maintenance on the target fishpond after the service mode is updated successfully.

Therefore, the problems that a technician is distracted from maintenance and coping with maintenance due to the reason that later-stage technical maintenance of a user is not in place, particularly the reason that the sensor is maintained professionally, so that the monitoring result is inaccurate, and even an instrument is idle, so that waste is caused are effectively solved.

As a further improvement, in the aquaculture operation system, the server further includes:

a module that instructs deployment of the supervisory device for the target fish pond.

and the module is used for indicating the user side to select the service mode, indicating the user side to pay the deposit of the monitoring equipment according to the service mode selected by the user side, and/or indicating the user side to pay the service fee, and/or binding the associated service for the user side.

As a further improvement, in the aquaculture operation system, the service mode includes at least one of:

As a further improvement, in the aquaculture operation system, the source mode of the supervisory equipment of the target fish pond at least comprises:

leasing the supervision equipment from an aquaculture operation side; and/or

Purchasing the supervision equipment from an aquaculture operation side; and/or

The user is provided with the supervision equipment;

the service consideration pattern includes at least one of:

As a further improvement, in the aquaculture operation system, the service content includes at least one of:

As a further improvement, in the aquaculture operation system, the correlation service includes at least one of:

the server further comprises:

a module for receiving a request for using the associated service from a user side;

returning a module of the associated service user interface to the user side according to the received request;

the correlation service user interface is a user interface of a correlated third party, or a user interface after integrating third party service information for an aquaculture operation side.

As a further improvement, in the aquaculture operation system, the server further includes a database, configured to store the user information, target fishpond information corresponding to the user information, and a source mode, a price-for-service mode, service content, and/or a service life of a supervisory device corresponding to each target fishpond.

As a further improvement, in the aquaculture operation system, the supervision device of the target fish pond at least comprises one of the following devices or any combination thereof:

water quality monitoring equipment arranged in the fishpond;

a module that receives an instruction identifying an abnormality of a target fishpond supervisory device;

a module for determining the equipment maintenance strategy according to the service content and service period corresponding to each target fishpond stored in the database;

a module for responding to the received command for identifying the abnormality of the target fishpond supervisory device according to the determined maintenance strategy;

the maintenance policy includes at least one of:

equipment maintenance is carried out for the target fishpond free of charge;

Drawings

FIG. 1 is a flow chart of a method of operating aquaculture according to a first embodiment of the present invention;

fig. 2 is a structural view of an aquaculture operation system according to a second embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

It will be appreciated by those of ordinary skill in the art that numerous technical details are set forth in order to provide a better understanding of the present application in various embodiments of the present invention. However, the technical solutions claimed in the claims of the present application can be implemented without these technical details and with various changes and modifications based on the following embodiments.

A first embodiment of the invention relates to a method of operating aquaculture, as shown in figure 1.

In step 101, an aquaculture operation side (aquaculture operation management service platform) receives a fishpond supervision service request from a user side. And instructing the user side to input user information, target fishpond information to be supervised, selecting a service mode and the like. The user side in the present embodiment refers to a terminal side used and registered by the user.

The method comprises the steps that a user side is indicated to input user information, target fishpond information to be supervised and information for selecting a service mode, the information can be preset on software of the user side, and after the user inputs the information, the information is sent to a aquaculture operation management service platform along with a fishpond supervision service request; or the aquaculture operation management service platform can send an instruction after receiving a fishpond supervision service request of the user side, and instruct the user side to input user information, target fishpond information to be supervised and select a service mode.

The user information may include a user name, a user contact information, and the like; the target fishpond information can comprise the number of target fishponds, the initial positions of the target fishponds and the like; the service mode may include a source mode of the supervisory device of the target fishpond, a service consideration mode, service contents of the target fishpond, a service deadline of the target fishpond, and the like.

The source mode of the supervisory device for the target fish pond may include: renting from an aquaculture operation management service platform to obtain a monitoring device; purchasing supervision equipment from an aquaculture operation management service platform; user self-provided supervision equipment and the like.

The service consideration mode may include paying a service fee by a service term, binding an associated service, or the like. The associated service can comprise a culture by-product purchasing service, a culture finished product selling service and the like.

The service content of the target fish pond may include: when at least one monitoring value in the water quality monitoring information exceeds a preset safety range, sending alarm information to a user side; when the state of the common equipment and/or the supervisory equipment in the fishpond is abnormal, sending alarm information to a user side; sending real-time water quality monitoring information and/or equipment state information of a target fishpond to a user side at regular time; when a user side inquiry instruction is received, real-time water quality monitoring information and/or equipment state information of a target fishpond is sent to the user side; and sending a control instruction to the supervisory equipment of the target fishpond according to the real-time instruction or preset of the user, and the like. The equipment state information comprises the state information of the common equipment in the fishpond and the state information of the supervisory equipment.

In step 102, the aquaculture operation management service platform instructs the user side to sign a service agreement (which may be an electronic agreement or a written agreement) according to the service mode selected by the user side, and instructs the user side to pay a security deposit of the monitoring device according to the service mode, and/or instructs the user side to pay service fees, and/or binds associated services for the user side.

Specifically, if the user selects to lease the monitoring equipment and pay the service fee according to the service period to receive the fishpond monitoring service, in this step, the aquaculture operation management service platform can instruct the user side to pay the monitoring equipment deposit and the service fee of a specified time period (year/month). If the user selects to lease the supervision equipment, the aquaculture operation management service platform can also indicate the user side to pay the deposit of the supervision equipment and sign the agreement of the binding association service by binding the association service instead of paying the service cost, and one or more association services can be bound. The aquaculture by-product purchasing service in the correlation service can include purchasing of the fry, fish medicine and fish feed of the user from a trading subsystem of the system; the farming finished product marketing service may include that finished fish marketing needs to be traded from a trading subsystem of the system.

In step 103, the aquaculture operation management service platform stores the user information, the target fishpond information corresponding to the user information, and the source mode, the service price-matching mode, the service content and/or the service duration of the supervisory device corresponding to each target fishpond in a database.

Specifically, a user information list and a user service information list can be generated and stored according to the user application information and the information acquired by the platform. The user basic information table may include a user ID or number, a user name, a user contact address, a user fishpond ID1, a user fishpond ID2 … … (a user may have multiple fishponds, each fishpond having a user fishpond ID), and user fishpond location information (different location information for IDs of different fishponds). The user service information table may include a user ID, a user service term, user service contents, a user administration device source mode, a user selected service consideration mode, and the like.

In step 104, supervisory equipment is deployed for the target fishpond. The aquaculture operation management service platform requests the equipment management service subsystem to dispatch related personnel to a target fishpond of an aquaculture user to install related supervision equipment. After the laying is finished, the aquaculture operation management service platform is in communication connection with the supervision equipment of the target fishpond. For the target fishpond originally provided with the supervision equipment, in the step, the existing supervision equipment can be directly set, and the establishment of the communication connection between the aquaculture operation management service platform and the supervision equipment of the target fishpond is completed. Step 103 and step 104 have no precedence relationship, and can be executed synchronously or in any order.

The supervisory equipment can comprise a fishpond end monitoring system (water quality monitoring equipment and the like) arranged in a fishpond and a fishpond end control system arranged on the side of the fishpond.

The fishpond-end control system may include: the equipment communication and control module A is arranged at the side of the common equipment of the fishpond and is used for carrying out state monitoring and/or instruction transmission on the common equipment of the fishpond and realizing the control on the common equipment of the fishpond; the module B is arranged at the side of the fish pond and is used for establishing communication connection with the water quality monitoring equipment and/or the equipment communication and control module, completing access, management, state monitoring and control (including parameter setting of the water quality monitoring equipment and the fish pond common equipment) of the water quality monitoring equipment and the fish pond common equipment, and receiving water quality monitoring information and/or equipment state information from the water quality monitoring equipment and/or the equipment communication and control module; and the module C is arranged at the fish pond side and used for establishing communication connection with the server at the aquaculture operation side, and is used for uploading the water quality monitoring information and/or the equipment state information received by the module B to the aquaculture operation management service platform and receiving the management and control instruction of the aquaculture operation management service platform. Wherein, the module B and the module C can be synthesized in the same device.

Specifically, the fishpond end monitoring system is used for monitoring the quality of water in the fishpond, comprises various water quality monitoring sensors, and can monitor one or more data of indexes such as the temperature, dissolved oxygen, pH value, ammonia nitrogen, nitrite, sulfide, phosphide, heavy metal ion concentration, COD (chemical oxygen demand), BOD (biochemical oxygen demand), water bacteria (such as mould, escherichia coli and the like), feed amount of a feeding machine and the like of the aquaculture water.

The fishpond end control system can realize access, management and state monitoring and control of a fishpond end monitoring system and fishpond common equipment (such as a batch feeder, a water pump, an aerator, an air supply pump of a nanometer bottom aeration system, a water pushing device of a recirculating aquaculture system, a GPS (global positioning system) positioning system and the like); the fishpond end control system can also realize butt joint and communication with the aquaculture operation management service platform, upload data monitored by the fishpond end monitoring system, data (including working state data) of fishpond common equipment and state data of supervision equipment to the aquaculture operation management service platform, and receive management and control of the aquaculture operation management service platform. The fishpond-end control system can realize control and parameter configuration of the fishpond-end monitoring system, such as starting or closing of equipment of the fishpond-end monitoring system by the fishpond-end control system, configuration of a data acquisition period of monitoring equipment of the monitoring system and the like. The fishpond end control system can control and configure parameters of the fishpond end monitoring system according to a strategy preset in the fishpond end control system, or the fishpond end control system can receive a strategy/real-time instruction from an aquaculture operation management service platform and control and configure parameters of the fishpond end monitoring system according to the received strategy/real-time instruction.

In step 105, the aquaculture operation management service platform receives data from the supervisory equipment of the target fishpond, obtains and stores water quality monitoring information and/or equipment state information of the target fishpond, and sends the water quality monitoring information and/or equipment state information processed by the target fishpond to a user side corresponding to the target fishpond according to the service content selected by the user side.

The method comprises the steps of receiving target fishpond water quality monitoring data monitored by a fishpond end monitoring system, state information of fishpond common equipment and state information of the fishpond end control system (supervision equipment) from the fishpond end control system. And processing and storing the received various data.

And sending the information according to the service content selected by the user side. For example, when at least one monitoring value in the water quality monitoring information and/or the equipment state information exceeds a preset safety range, namely data abnormality occurs (for example, the monitored dissolved oxygen value is too low) or equipment works abnormally, alarm information is sent to the user side. Or sending real-time water quality monitoring information and/or equipment state information of the target fishpond to the user side at regular time. The method comprises water quality monitoring information such as fishpond temperature, dissolved oxygen and the like, and/or state information of common equipment in the fishpond, and/or state information of supervision equipment. Or when receiving a user side inquiry instruction, sending the water quality monitoring information of the target fishpond, and/or the state information of the common equipment of the fishpond, and/or the state information of the supervisory equipment to the user side. Or, the real-time instruction or preset of the user sends a control instruction to the supervisory device of the target fish pond, and controls and configures parameters of the fish pond end monitoring system, such as the fish pond end control system starts or closes the device of the fish pond end monitoring system, and configures the data acquisition period of the monitoring device of the monitoring system.

Optionally, when the aquaculture operation management service platform receives an instruction identifying that the target fishpond supervision device is abnormal, the method proceeds to step 106. For example, if the farmer finds that the equipment of the fish pond end management system has a problem (for example, the monitoring data of the dissolved oxygen monitoring sensor is inaccurate, the equipment is damaged, the equipment needs to be calibrated, or for example, the control box of the fish pond end control system does not work), the farmer makes an equipment maintenance service request, and the process proceeds to step 106.

Or, if the fish pond management service and operation subsystem in the aquaculture operation management service platform monitors that the equipment of the fish pond end management system has a problem (for example, the monitoring data of the dissolved oxygen monitoring sensor is inaccurate, the equipment is damaged, the equipment needs to be calibrated, or if the control box of the fish pond end control system does not work), the fish pond management service and operation subsystem makes an equipment maintenance service request to the aquaculture operation management service platform, and the step 106 is also performed.

In step 106, the aquaculture operation management service platform determines an equipment maintenance strategy according to service contents and service time limits corresponding to each target fishpond stored in the database; and responding to the received instruction for identifying the abnormality of the target fishpond supervision equipment according to the determined maintenance strategy.

The maintenance policy includes at least one of:

equipment maintenance is carried out for the target fishpond free of charge;

instructing a user side corresponding to the target fishpond to pay maintenance cost, and carrying out equipment maintenance on the target fishpond after the maintenance cost is paid successfully;

and indicating the user side corresponding to the target fishpond to newly add or reselect a service mode containing equipment maintenance, and performing equipment maintenance on the target fishpond after the service mode is updated successfully.

Specifically, after receiving a service request of an aquaculture user/internal system, an aquaculture operation management service platform requests a database to check a user service state (service content and the like in a free service period or outside the service period), and after the database returns the user service state, (1) if the requested service content is in the free service period, inquiring a user information list comprising a user ID or a number, a user name, a user contact mode, a user fishpond ID and user fishpond position information from the database, and carrying out equipment maintenance on the spot by a dispatcher according to the inquired user information, the user equipment position information and the like, (2) if the requested service content exceeds the service list or is not in the free service period, carrying out charge calculation according to a service charge rule, and indicating the user to pay related charges or extend the service period or reselect a service mode containing equipment maintenance, and inquiring a user information list including a user ID or a number, a user name, a user contact way, a user fishpond ID and user fishpond position information in the database after the payment is successful (or the postponing is successful or the service mode is updated successfully), and carrying out equipment maintenance on the site by scheduling personnel according to the inquired user information, the user equipment position information and the like.

When the user equipment requests the correlation service from the aquaculture operation management service platform, the aquaculture operation management service platform returns a correlation service user interface to the corresponding user equipment according to the received request; the associated service user interface is a user interface of an associated third party, or a user interface after integrating third party service information for the aquaculture operation side.

Specifically, the aquaculture operation management service platform can be directly docked with a platform of a supplier such as fry, fish feed, fish drugs and the like or a platform of a demand party of commercial fish, or the supplier such as fry, fish feed, fish drugs and the like or the demand party of commercial fish register on the aquaculture operation management service platform and publish service contents thereof, and the aquaculture operation management service platform is integrated on an interface of the aquaculture operation management service platform for selection of farmers.

Through the embodiment, the operation side only lays the supervision equipment for the target fishpond after receiving the request of the fishpond supervision service from the user side and the information of the target fishpond to be supervised, establishes communication connection with the supervision equipment of the target fishpond and provides the fishpond supervision service for the target fishpond, so that the farmer can acquire the omnibearing aquaculture supervision of the system at extremely low cost, and the operator does not need to lay the equipment at the early stage, and can realize the operation of the aquaculture system at lower cost.

In addition, the embodiment provides a plurality of service modes, including a plurality of source modes of the monitoring equipment and a plurality of service price modes, so that farmers can select the service mode most suitable for the farmers according to actual requirements.

Furthermore, this embodiment provides later stage equipment maintenance mode to effectively solved the user because of the reason that later stage technical maintenance is not in place, especially the maintenance of sensor is too professional reason, and arouse the technician to drench and maintain, lead to the monitoring result inaccurate, leave the instrument idle even, cause extravagant problem.

The second embodiment of the present invention relates to an aquaculture operation system, as shown in fig. 2, comprising a supervisory device disposed on the farmer side, and a server 211 on the system side.

The supervisory equipment may include a pond end monitoring system (water quality monitoring equipment, etc.) 201 arranged in the target pond and a pond end control system 202 arranged on the side of the pond. The fishpond-end control system still further comprises: the equipment communication control module 2021 is arranged at the side of the common equipment in the fishpond and is used for carrying out state monitoring and/or instruction transmission on the common equipment in the fishpond and realizing the control on the common equipment in the fishpond; a module 2022 arranged at the side of the fish pond and used for establishing communication connection with the water quality monitoring equipment and/or the equipment communication and control module, and used for completing access, management, state monitoring and control (including parameter setting of the water quality monitoring equipment and the fish pond common equipment) of the water quality monitoring equipment and the fish pond common equipment, and receiving water quality monitoring information and/or equipment state information from the water quality monitoring equipment and/or the equipment communication control module 2021; and the module 2023 which is arranged at the fish pond side and used for establishing communication connection with the aquaculture operation side server is used for uploading the water quality monitoring information and/or the equipment state information received by the module 2022 to the aquaculture operation management service platform and receiving the management and control instruction of the aquaculture operation management service platform. The module 2022 and the module 2023 are respectively connected to the water quality monitoring device and the server, and may be disposed in the same device.

Specifically, the fishpond end monitoring system is used for monitoring the water quality of the fishpond, comprises various water quality monitoring sensors, can monitor one or more data of indexes such as the temperature, dissolved oxygen, pH value, ammonia nitrogen, nitrite, sulfide, phosphide, heavy metal ion concentration, COD (chemical oxygen demand), BOD (biochemical oxygen demand), water bacteria (such as mold, escherichia coli and the like), feed amount of a batch feeder and the like of the aquaculture water, and reports the monitored data.

The fishpond end control system can realize access, management, state monitoring and instruction control of a fishpond end monitoring system and fishpond common equipment (such as a batch feeder, a water pump, an aerator, an air supply pump of a nanometer bottom aeration system, water pushing equipment of a circulating water culture system, a GPS (global positioning system) and the like) through the communication module 2022; the fishpond end control system can also realize butt joint and communication with the aquaculture operation management service platform through the communication module 2023, upload data monitored by the fishpond end monitoring system and data (including working state data) of fishpond common equipment to the aquaculture operation management service platform, and receive management and control of the aquaculture operation management service platform. The fishpond-end control system can realize control and parameter configuration of the fishpond-end monitoring system through the communication module 2022, for example, the fishpond-end control system starts or closes equipment of the fishpond-end monitoring system, and configures a data acquisition period of monitoring equipment of the monitoring system, and the like. The fishpond end control system can control and configure parameters of the fishpond end monitoring system according to a strategy preset in the fishpond end control system, or the fishpond end control system can receive a strategy/real-time instruction from an aquaculture operation management service platform and control and configure parameters of the fishpond end monitoring system according to the received strategy/real-time instruction.

The aquaculture operation system side server (also called aquaculture operation management service platform) 211 includes: at least one processor; and a memory communicatively coupled to the at least one processor; the memory stores instructions executable by the at least one processor to enable the at least one processor to perform the aquaculture operation method of the first embodiment.

The system can be divided into the following functional modules: a fishpond management service and operation subsystem 212, a transaction subsystem 213, a device management service subsystem 214 and a database 215.

The fishpond management service and operation subsystem 212 realizes lease management and operation of all or part of fishpond-side supervision equipment (including a fishpond-side monitoring system and a fishpond-side control system), realizes reception of data reported by the fishpond-side supervision equipment, realizes control and management of the fishpond-side supervision equipment, and realizes provision of operation services for farmers based on the received data.

The fishpond management service and operation subsystem 212 specifically includes:

a module for indicating the user side to select the service mode, indicating the user side to pay the deposit of the monitoring equipment according to the service mode selected by the user side, and/or indicating the user side to pay the service fee, and/or binding the associated service for the user side;

a module for indicating the arrangement of supervisory equipment for a target fish pond;

a module that receives data from supervisory devices of a target fish pond;

a module for obtaining water quality monitoring information and/or equipment state information of the target fishpond according to the data received from the supervisory equipment of the target fishpond and storing the water quality monitoring information and/or the equipment state information in a database;

and sending the water quality monitoring information and/or equipment state information processed by the target fishpond to a module of the user side corresponding to the target fishpond according to the service content selected by the user side.

The service mode includes at least one of: a source mode of a supervisory device of the target fishpond, a service consideration mode, service content of the target fishpond, and/or a service life of the target fishpond.

Wherein, the source mode of the supervisory equipment of target pond includes at least: leasing from an aquaculture operation side to obtain a monitoring device; the method comprises the steps of purchasing supervision equipment from an aquaculture operation side; the user is provided with a monitoring device.

The service consideration pattern includes at least one of: paying service fee according to the service period and binding the associated service. The associated service includes at least one of: the purchase service of the culture by-products and the sale service of the culture finished products.

The service content includes at least one of:

Transaction subsystem 213 includes:

Specifically, the trading subsystem can be directly connected with a platform of suppliers of fish fries, fish feed, fish drugs and the like or a platform of demand parties of commercial fish, or the suppliers of fish fries, fish feed, fish drugs and the like or the demand parties of commercial fish register in the trading subsystem and publish service contents thereof, and the service contents are integrated on an interface of the trading subsystem for a farmer to select.

The database 215 is used for storing the user information, the target fishpond information corresponding to the user information, and the supervisory device source mode, the service price matching mode, the service content and/or the service duration corresponding to each target fishpond.

The device management services subsystem 214 includes:

a module for responding to the received command for identifying the abnormality of the target fishpond supervisory device according to the determined maintenance strategy; wherein the maintenance policy includes at least one of:

equipment maintenance is carried out for the target fishpond free of charge;

Furthermore, the embodiment provides a later-period equipment maintenance system, so that the problems that a technician is cared for maintenance and copes with maintenance due to the fact that the later-period technical maintenance is not in place, particularly the sensor is maintained professionally by a user, the monitoring result is inaccurate, and even an instrument is idle, so that waste is caused are effectively solved.

A third embodiment of the present invention provides a user terminal system connected to the aquaculture operation system of the above embodiments, the user terminal system comprising:

a module that instructs a user to input information of a target fish pond;

a module for instructing a user to select a service mode; the service mode includes at least one of: source mode, service consideration mode, service content of target fishpond, and/or service life of supervisory device of target fishpond

A module for instructing the user to pay the deposit of the monitoring device and/or instructing the user to pay the service fee and/or binding the associated service for the user according to the source mode of the monitoring device selected by the user;

and a module for receiving the water quality monitoring information and/or equipment state information after the treatment of the target fishpond from the aquaculture operation system. The processed water quality monitoring information and/or equipment state information comprises: alarm information indicating that at least one monitoring value in the water quality monitoring information exceeds a preset safety range; alarm information representing abnormal states of common equipment and/or supervisory equipment in the fishpond; real-time water quality monitoring information and/or equipment state information of a target fishpond and the like. The equipment state information comprises the state information of the equipment commonly used in the fishpond and/or the state information of the supervisory equipment.

The user terminal system is a system module installed in a user terminal (which may be a user computer terminal, or a dedicated handheld terminal, or a user mobile phone or other handheld devices, etc.), and the system module may be an individual APP or an applet (such as a wechat applet) developed based on common software.

Further, the user terminal system may further include: a module for displaying the user interface of the associated service required by the user and providing the associated service for the user; the associated service includes at least one of: the purchase service of the culture by-products and the sale service of the culture finished products.

It will be understood by those of ordinary skill in the art that the foregoing embodiments are specific examples for carrying out the invention, and that various changes in form and details may be made therein without departing from the spirit and scope of the invention in practice.

Claims

1. An aquaculture operation method, comprising:

2. The aquaculture operation method of claim 1, wherein before establishing the communication connection with the supervisory equipment of the target fish pond, further comprising:

and laying the supervision equipment for the target fishpond.

3. The aquaculture operation method of claim 1, wherein before establishing the communication connection with the supervisory equipment of the target fish pond, further comprising:

and instructing the user side to select a service mode, instructing the user side to pay a deposit of the monitoring equipment according to the service mode selected by the user side, and/or instructing the user side to pay service cost, and/or binding associated service for the user side.

4. An aquaculture operation method according to claim 3, wherein said service mode comprises at least one of:

5. An aquaculture operation method according to claim 4, characterized in that the source pattern of the supervisory equipment of the target pond comprises at least:

leasing the supervision equipment from an aquaculture operation side; and/or

Purchasing the supervision equipment from an aquaculture operation side; and/or

The user is provided with the supervision equipment;

the service consideration pattern includes at least one of:

6. An aquaculture operation method according to claim 1 or 4, characterized in that said service content comprises at least one of the following:

7. An aquaculture operation method according to claim 3, wherein said correlation services comprise at least one of:

the aquaculture operation method further comprises the following steps:

8. The aquaculture operation method of claim 4, further comprising: and storing the user information, the target fishpond information corresponding to the user information, and the source mode, the service price-matching mode, the service content and/or the service duration of the supervisory equipment corresponding to each target fishpond in a database.

9. The aquaculture operation method of claim 1, wherein the supervisory equipment of the target fish pond comprises at least one of the following or any combination thereof:

water quality monitoring equipment arranged in the fishpond;

10. The aquaculture operation method of claim 1, further comprising:

the maintenance policy includes at least one of:

equipment maintenance is carried out for the target fishpond free of charge;

11. An aquaculture operation system comprising a server, wherein said server comprises:

a module that receives data from supervisory devices of the target fish pond;

a module for obtaining and storing water quality monitoring information and/or equipment state information of the target fishpond according to the data received from the supervisory equipment of the target fishpond; the equipment state information comprises the state information of the common equipment in the fishpond and/or the state information of the supervisory equipment;

and sending the water quality monitoring information and/or the equipment state information processed by the target fishpond to a module of the user side corresponding to the target fishpond according to the service content selected by the user side.

12. An aquaculture operation system comprising a server, characterized by at least one processor; and a memory communicatively coupled to the at least one processor; wherein,

the memory stores instructions executable by the at least one processor to enable the at least one processor to perform the aquaculture operation method of any one of claims 1 to 10.

13. A user terminal system, connected to the aquaculture operation system of claim 11 or 12, said apparatus comprising:

a module that instructs a user to input information of a target fish pond;

a module for instructing a user to select a service mode;

a module that receives the water quality monitoring information and/or equipment status information after the treatment of the target fishpond from the aquaculture operation system; the equipment state information comprises the state information of the common equipment in the fishpond and/or the state information of the supervisory equipment;

the service mode includes at least one of:

14. The user terminal system according to claim 13, further comprising:

and a module for instructing the user to pay the deposit of the monitoring device and/or instructing the user to pay the service fee and/or binding the associated service for the user according to the source mode of the monitoring device selected by the user.

15. The user terminal system of claim 13, wherein the processed water quality monitoring information and/or device status information comprises:

alarm information indicating that at least one monitoring value in the water quality monitoring information exceeds a preset safety range;

alarm information representing abnormal states of common equipment and/or supervisory equipment in the fishpond;

real-time water quality monitoring information and/or equipment state information of the target fishpond.

16. The user terminal system according to claim 13, further comprising: a module for displaying the user interface of the associated service required by the user and providing the associated service for the user;

the associated service includes at least one of:

the purchase service of the culture by-products and the sale service of the culture finished products.