CN113891653B - Participatory aquaculture system - Google Patents

Abstract

The present invention relates to a participatory aquaculture system, and more particularly, to a participatory aquaculture system which enables non-professional general users to actively cultivate aquatic products through real-time control without space limitation, can communicate with each other during aquaculture, and can ensure food safety by purchasing food for processing the aquatic products participated in aquaculture by the users, and can save costs required for aquaculture and ensure stable sales channels, thereby increasing aquaculture profits.

Description

Participatory aquaculture system

Technical Field

The present invention relates to a participatory aquaculture system, and more particularly, to a participatory aquaculture system which enables non-professional general users to actively cultivate aquaculture through real-time control without space limitation, and can communicate with each other during aquaculture, and can ensure food safety by purchasing food for processing aquaculture participated by the users, and can save costs required for aquaculture, ensure a stable sales channel, and thereby increase aquaculture profits.

Background

With the development of information communication technology, there is also a wide attempt in the fishery field to apply the related technology to aquaculture. As an example, there is a technology described in the following patent documents, which realizes automated aquaculture by installing various sensors in an aquaculture farm and controlling the aquaculture environment according to the results output from the sensors.

Published patent No. KR10-2002-0012662 (2002.02.20, published) "method and system for aquaculture using Internet"

However, the conventional aquaculture system is only intended to provide aquaculture convenience and economy to aquaculture operators who exclusively operate aquaculture businesses, and has a problem that non-professional general personnel cannot actively participate in aquaculture through real-time control.

Therefore, in order to meet the actual demand for directly feeding aquaculture, it is urgently required to develop a system which allows non-professional general personnel to actively participate in aquaculture through real-time control without space limitation.

Disclosure of Invention

Problems to be solved by the invention

The present invention is directed to solving the existing problems as described above,

the invention aims to provide a participatory aquaculture system which can allow non-professional ordinary people to actively participate in aquaculture through real-time control without space limitation and can perform mutual communication in the aquaculture process.

Further, it is an object of the present invention to provide a participatory aquaculture system that can allow a non-professional user to smoothly perform a breeding process by providing customized aquaculture information to the user.

It is another object of the present invention to provide a participatory aquaculture system that can request aquaculture, can flexibly cope with the situation where aquaculture is temporarily impossible, and can perform aquaculture for ornamental purposes even for special fish species that cannot be directly cultured due to various restrictions.

Further, it is an object of the present invention to provide a participatory aquaculture system which can secure the safety of food by purchasing food for processing the aquaculture of a user, save the costs required for aquaculture, secure a stable sales channel, and thereby increase the profit of aquaculture operators.

Means for solving the problems

The present invention is achieved by the embodiments configured as described below in order to achieve the above-described object.

According to an embodiment of the present invention, a participatory aquaculture system to which the present invention is applied is characterized by comprising: a user terminal; a device section for supplying feed to aquatic products by being installed in an aquaculture farm and for avoiding hindrance to the growth of aquatic products by regulating the aquaculture environment; and a management server which generates aquaculture information and transmits the aquaculture information to the user terminal, and operates the device unit according to the aquaculture instruction information output from the user terminal to cultivate aquaculture according to the intention of the user.

According to another embodiment of the present invention, a participating aquaculture system to which the present invention is applied is characterized in that the management server includes: an aquaculture contract part for generating and transmitting aquaculture information that can be selected and cultured by a current user to the user terminal when a request signal for aquaculture information that can be cultured is received from the user terminal, and completing a culture contract when aquaculture selection information is output from the user terminal; an aquaculture information unit that generates aquaculture information relating to the target aquaculture under the aquaculture contract and transmits the aquaculture information to the user terminal; and an aquaculture execution unit that operates the device unit to culture an aquaculture product according to the aquaculture instruction information when the aquaculture instruction information is output from the user terminal after the aquaculture information is transmitted to the user terminal by the aquaculture information unit.

According to still another embodiment of the present invention, a participating-type aquaculture system to which the present invention is applied is characterized in that the aquaculture information section includes: a nutrition information module for transmitting information related to the feed to be provided to the aquatic product to the user terminal; an environment information module for generating environment state adjustment information for solving a related problem and transmitting the generated environment state adjustment information to the user terminal 100 when a current cultivation environment is an environment unsuitable for aquaculture growth; and a state information module for determining whether the aquatic product is ill or not by analyzing information related to the state of the aquatic product, which is outputted in real time from a sensor part installed in the aquaculture farm, and generating disease treatment information for solving a related problem and transmitting the disease treatment information to the user terminal when it is determined that the aquatic product is ill.

According to still another embodiment of the present invention, a participating-type aquaculture system to which the present invention is applied is characterized in that the aquaculture information section further includes: a feedback information module for judging whether the aquatic product is in an abnormal state or not when the information requesting confirmation because the aquatic product is in the abnormal state is output from the user terminal, and transmitting abnormal state solving information for solving a related problem to the user terminal when the aquatic product is judged to be in the abnormal state; wherein, the feedback information module includes: a confirmation request module for confirming whether the information requesting confirmation because the aquatic product is in an abnormal state is output from the user terminal; a state judging module for confirming the sensing information output from the sensor unit and judging whether the aquatic product is in an abnormal state when the information requesting confirmation because the aquatic product is in an abnormal state is output, and a solution information acquiring module for transmitting the sensing information of the sensor unit related to the aquatic product state to an administrator terminal and acquiring the abnormal state solution information for solving the abnormal state of the aquatic product transmitted from the administrator terminal when the state judging module judges that the aquatic product is in an abnormal state; and the transmission module is used for transmitting the information to the user terminal when the solution information acquisition module acquires the abnormal state solution information.

According to still another embodiment of the present invention, a participating aquaculture system to which the present invention is applied is characterized in that the management server further includes: a consignment unit which analyzes a request signal for requesting aquatic products owned by a user when the request signal is outputted from a user terminal, judges whether or not an aquaculture farm can receive a aquaculture consignment, and completes a consignment contract when the request signal is judged to be possible; an image providing part for transmitting the aquatic product image shot by the Closed Circuit Television (CCTV) to the user terminal in real time when the information requesting the aquatic product image is output from the user terminal; a compensation part for calculating the compensation to be paid to the user along with the participation of the user in the cultivation and transmitting the compensation information to the user terminal; and a purchasing part which transmits purchase request information to the manager terminal when the purchase request information of the product cultivated by the user is output from the user terminal, and stores the purchase request information in a Database (DB) server when notification information that the product requested to be purchased by the user has been delivered to the user is output from the manager terminal; further, the aquaculture execution section includes: a manual operation module for operating the device part to culture the aquatic product according to the culture instruction information output from the user terminal; and an automatic operation module which includes information requiring culture of the aquatic products by automatic control for a certain period in the culture instruction information outputted from the user terminal or automatically performs culture of the aquatic products by operating the device part according to a preset standard when the culture instruction information is not outputted from the user terminal.

According to still another embodiment of the present invention, a participating type aquaculture system to which the present invention is applied is characterized in that the compensation section includes: a fee reimbursement module for calculating fees used in the aquaculture process of the object of the aquaculture contract and calculating a certain part of the fees as compensation; and a participation evaluation module for analyzing aquaculture participation information of the user stored in the Database (DB) server and calculating a compensation to be paid to the user according to the aquaculture participation; wherein the participation evaluation module comprises: a manual evaluation module for comparing and analyzing the cultivation instruction information output from the user terminal and the aquaculture information output to the user terminal and calculating compensation to be paid to the user according to the number of times of the cultivation instruction information consistent with the aquaculture information; an active evaluation module which investigates the degree of active participation in cultivation independently of the aquaculture information and calculates the compensation to be paid to the user; a growth contribution module for analyzing the aquatic product sensing information outputted from the sensor part after the cultivation is finished and analyzing the cultivation indication information outputted from the user terminal and stored in the Database (DB) server when the aquatic product growth state is judged to be superior to the standard range, thereby investigating whether a special cultivation mode for improving the growth state of the aquatic product exists and calculating the compensation to be paid to the user; and a preventive evaluation module which, when the feedback information module outputs abnormal state solving information to the user terminal after the information requesting confirmation because the aquatic product is in an abnormal state is output from the user terminal, recognizes that the user contributes to the finding of the abnormal state of the aquatic product and calculates the compensation to be paid to the user; wherein the growth contribution module comprises: a growth state module for analyzing the aquatic product sensing information output from the sensor part after the cultivation is finished and judging whether the growth state of the aquatic product is better than a standard range; an indication analysis module for analyzing the cultivation indication information outputted from the user terminal and stored in the Database (DB) server when the growth state module judges that the growth state of the aquatic product is better than the standard range, thereby investigating whether a special cultivation mode for improving the growth state of the aquatic product exists; a contribution calculating module for investigating the degree of growth state increase by using the aquatic product sensing information outputted from the sensor unit and calculating the compensation to be paid to the user when the indication analyzing module judges that there is a specific cultivation method for increasing the growth state of the aquatic product; and a storage module that stores cultivation instruction information corresponding to a unique cultivation method that promotes a growth state of the aquatic product in a Database (DB) server when the compensation is calculated by the contribution calculation module.

Effects of the invention

The present invention is achieved by the embodiments configured as described below in order to achieve the above-described object.

The invention can allow non-professional ordinary people to actively participate in aquaculture through real-time control without space limitation, and can carry out mutual communication in the aquaculture process.

In addition, the present invention is a participatory aquaculture system that allows non-professional users to smoothly perform a breeding process by providing customized aquaculture information to the users.

The present invention also provides a participatory aquaculture system that can request aquaculture products, can flexibly respond to the situation where aquaculture products cannot be cultured temporarily, and can culture special fish species that cannot be cultured directly due to various restrictions for ornamental purposes.

In addition, the present invention can ensure the safety of food by purchasing food for processing aquatic products that users participate in cultivation, can save costs required for cultivating aquatic products, and can ensure a stable sales channel, thereby increasing the cultivation profits of cultivation owners.

Drawings

FIG. 1 is a block diagram of a participatory aquaculture system to which one embodiment of the present invention is applicable.

Fig. 2 is a block diagram illustrating a detailed configuration of the management server in fig. 1.

Fig. 3 is a block diagram illustrating a detailed configuration of the aquaculture contract department in fig. 2.

Fig. 4 is a block diagram illustrating a detailed configuration of the client unit in fig. 2.

Fig. 5 is a block diagram illustrating a detailed configuration of the aquaculture information section in fig. 2.

Fig. 6 is a block diagram illustrating a detailed configuration of the status information module in fig. 5.

Fig. 7 is a block diagram illustrating a detailed configuration of the feedback information module in fig. 5.

Fig. 8 is a block diagram illustrating a detailed configuration of the compensation unit in fig. 2.

Fig. 9 is a block diagram illustrating a detailed configuration of the participation evaluation module in fig. 8.

Fig. 10 is a block diagram illustrating a detailed configuration of the growth contribution module in fig. 9.

Description of reference numerals:

1: the management server 2: database (DB) server 11: transceiver unit

12: aquaculture contractual part 13: the client 14: information department of aquaculture

15: the aquaculture execution unit 16: image providing unit 17: compensation part

18: the purchasing section 19: the control unit 121: information request module

122: the information providing module 123: contract completion module 124: transfer and storage module

131: the delegation request module 132: the entrusting judgment module 133: entrusting contract module

134: the commission start module 141: the nutritional information module 142: environment information module

143: the status information module 144: feedback information module 142a: environment judgment module

142b: adjustment information generation module 143a: disease determination module 143b: treatment information acquisition module

143c: the transfer module 144a: the confirmation request module 144b: state judging module

144c: the resolution information acquisition module 144d: the transfer module 151: indication collection module

152: the manual operation module 153: the automatic operation module 171: fee repayment module

172: the participation evaluation module 173: virtual currency module 172a: manual evaluation module

172b: the active evaluation module 172c: growth contribution module 172d: prevention evaluation module

1721: growth state module 1722: instruct the analysis module 1723: contribution calculating module

1724: memory module

Detailed Description

Next, preferred embodiments of a participatory aquaculture system to which the present invention is applicable will be described in detail with reference to the accompanying drawings. In the following description of the present invention, when it is determined that a detailed description of known functions or configurations may cause the gist of the present invention to become unclean, a detailed description thereof will be omitted. Throughout the specification, when it is described that a certain portion "includes" a certain component, unless explicitly stated to the contrary, it does not mean that other components are excluded but means that other components may be included, and terms such as "… portion, … module" and the like described in the specification represent a unit for performing at least one function or operation, which may be realized by hardware or software or a combination of hardware and software.

Fig. 1 is a block diagram of a participating aquaculture system to which an embodiment of the present invention is applied, fig. 2 is a block diagram illustrating a detailed configuration of a management server in fig. 1, fig. 3 is a block diagram illustrating a detailed configuration of an aquaculture contract section in fig. 2, fig. 4 is a block diagram illustrating a detailed configuration of an order section in fig. 2, fig. 5 is a block diagram illustrating a detailed configuration of an aquaculture information section in fig. 2, fig. 6 is a block diagram illustrating a detailed configuration of a status information module in fig. 5, fig. 7 is a block diagram illustrating a detailed configuration of a feedback information module in fig. 5, fig. 8 is a block diagram illustrating a detailed configuration of a compensation section in fig. 2, fig. 9 is a block diagram illustrating a detailed configuration of a participation evaluation module in fig. 8, and fig. 10 is a block diagram illustrating a detailed configuration of a growth contribution module in fig. 9.

Next, a participating aquaculture system to which an embodiment of the present invention is applied will be described in detail with reference to fig. 1 to 10. The participatory aquaculture system includes, for example, a user terminal 100, an administrator terminal 200, a sensor unit 300, a device unit 400, a management server 1, and a Database (DB) server 2.

The user terminal 100 is a terminal used by a user who uses the participatory aquaculture system, and exchanges information with the management server 1. As the user terminal 100, an electronic device that can exchange information and store information via the internet may be used, and for example, a Personal Computer (PC), a smart phone, a tablet computer, and the like may be used. The exchange of information by the user terminal 100 may be performed by an information processing application received and installed from the management server 1, or by accessing a web page managed by the management server 1 using the user terminal 100.

The administrator terminal 200 is a terminal used by an enterprise that operates an aquaculture farm and produces food using aquaculture harvested from the aquaculture farm, and exchanges information with the management server 1.

The sensor unit 300 is installed in an aquaculture farm to sense the state of the aquatic product being cultured and the culture environment and the like and transmit the sensed state and culture environment to the management server 1, and the sensor unit 300 may be an existing sensor used in an intelligent aquaculture farm, and may include, for example, a Closed Circuit Television (CCTV) 310 for capturing an image of the aquatic product being cultured in real time, an environment sensor 320 for sensing the culture environment (for example, a water quality sensor (such as a pH (pH) sensor, a dissolved oxygen (Do) sensor, a microorganism (Bod) sensor, and the like) for sensing the water quality of the aquaculture farm, a water level sensor for measuring the water level of the aquaculture farm, a temperature sensor for measuring the water temperature of the aquaculture farm, and the like).

The device part 400 is configured to prevent the growth of aquatic products from being hindered by supplying feed to aquatic products under the control of the management server 1 installed in the aquaculture farm and by adjusting the aquaculture environment, and the device part 400 may be configured by an existing device used in the smart aquaculture farm, and may include, for example, a feed supply device 410 for supplying feed (for example, a feed feeder may be used), a medicine supply device 420 for supplying medicine for treating diseases of aquatic products (for example, a medicine dispenser may be used), and an environment adjustment device 430 for adjusting the aquaculture environment (for example, a water treatment facility, a water supply pump, an oxygen generator, a heater, a cooler, and the like may be used).

The management server 1 is configured to generate aquaculture information by exchanging information with the user terminal 100, the administrator terminal 200, the sensor unit 300, the device unit 400, and the like, and transmit the aquaculture information to the user terminal 100, and to operate the device unit 400 based on the aquaculture instruction information output from the user terminal 100, and to culture aquaculture according to the user's intention, and may include, for example, a transceiver unit 11, an aquaculture contract unit 12, a request unit 13, an aquaculture information unit 14, an aquaculture execution unit 15, an image providing unit 16, a compensation unit 17, a purchase unit 18, a control unit 19, and the like.

The transmission/reception unit 11 transmits and receives information to and from the user terminal 100, the administrator terminal 200, the sensor unit 300, the device unit 400, and the like.

The aquaculture contract part 12 is a configuration for generating aquaculture information that can be selected and cultured by the current user and transmitting the aquaculture information to the user terminal 100 when a request signal for aquaculture information that can be cultured is received from the user terminal 100, and for completing a culture contract and storing the information in a Database (DB) server 2 when aquaculture selection information is output from the user terminal 100, and may include, for example, an information request module 121, an information providing module 122, a contract completion module 123, and a transmission and storage module 124.

The information requesting module 121 is configured to confirm whether or not a request signal for aquaculture information is received from the user terminal 100 and output the request signal to the transceiver 11.

The information providing module 122 is configured to confirm information stored in the Database (DB) server 2 when a request signal for aquaculture-available information, which may include the type, size, age, and the like of aquaculture, is output, and generate and output aquaculture information that can be currently selected and cultured by a user to the user terminal 100. Since a plurality of different types, sizes and ages of aquatic products are provided to users as aquacultural aquatic products, users can select optimal aquatic products according to their preferences.

The contract completion module 123 is used to generate information related to an aquaculture contract and complete the aquaculture contract when selection information of a specific aquaculture and request information of the aquaculture contract are output from the user terminal 100 after the aquaculture information is transmitted to the user terminal 100 through the information providing module 122. The information related to the aquaculture contract includes user information, aquaculture information of the aquaculture subject, and the like.

The storing and transmitting module 124 serves to store information related to the aquaculture contract into the Database (DB) server 2 and transmit a notification message that the aquaculture contract has been completed to the user terminal 100 and the administrator terminal 200 when the contract completion module 123 outputs a notification signal that the aquaculture contract has been completed.

The delivery unit 13 is configured to analyze a request signal for requesting aquatic products owned by a user when the request signal is output, and to complete a delivery contract when the aquaculture farm can receive the aquaculture delivery request, and includes a delivery request module 131, a delivery judgment module 132, a delivery contract module 133, a delivery start module 134, and the like.

The request requesting module 131 is configured to confirm whether or not a request signal (hereinafter, referred to as a "request signal") for requesting all of the aquatic products of the user is transmitted from the user terminal 100 and output to the transceiver 11, and the request signal includes information on the aquatic products (the type of the aquatic products, information on the feed to be supplied during aquaculture, information on the breeding environment (e.g., water temperature, etc.)), request period information, and the like.

The request judgment module 132 analyzes the request signal when it is output, and judges whether or not the requested aquaculture can be cultured in the aquaculture farm operated by the administrator, specifically, whether or not the request is possible is judged by comprehensively examining whether or not a water tank of the aquaculture farm capable of culturing the requested aquaculture exists at the time when the request is requested by the user, whether or not a facility corresponding to the aquaculture environment is provided in the aquaculture farm, whether or not the aquaculture farm can be supplied with the feed required to be supplied to the aquaculture, and the like.

The entrusting contract module 133 is configured to generate information related to an entrusting contract and store the information in the Database (DB) server 2 when the entrusting judgment module 132 judges that the aquatic entrusting request of the user can be received, and transmit notification information that the entrusting contract has been completed to the user terminal 100 and the manager terminal 200. The information related to the entrusting contract includes information related to an entrusting period, aquatic product information and the like.

The entrusting start module 134 is configured to provide the aquaculture farm with the entrusting target aquaculture of the user after the entrusting contract is completed and instruct the aquaculture information section 14 and the aquaculture execution section 15 to operate for the aquaculture when the notification information that the aquaculture farm has received the entrusting target aquaculture is transmitted from the administrator terminal 200. The present invention can request aquatic products, so that even if the aquatic products cannot be cultured temporarily due to a business trip or the like, the present invention can flexibly cope with the situation, and even for special fish species (for example, large fish species or the like) which cannot be directly cultured due to various restrictions, the present invention can culture the fish species for ornamental purposes.

The aquaculture information unit 14 is configured to provide aquaculture information on the aquaculture target aquaculture product and the contract target aquaculture product periodically or at the time of occurrence of an event, and includes, for example, a nutrition information module 141, an environmental information module 142, a status information module 143, and a feedback information module 144.

The nutrition information module 141 is a component for providing information on feed required to be provided to the aquatic product to the user terminal 100, and the feed-related information includes information on the kind of feed (such as mixed feed, daphnia, chlorella, etc.), the amount of feed, and the period of feed provision. Since the information on the feed required to be supplied at different growth periods of the aquatic product is previously stored in the Database (DB) server, the nutrition information module 141 confirms it and provides the feed-related information to the user terminal 100.

The environment information module 142 is configured to generate environment state adjustment information for solving a related problem when the current aquaculture environment is not an environment suitable for aquaculture growth, and transmit the environment state adjustment information to the user terminal 100, and includes, for example, an environment determination module 142a and an adjustment information generation module 142 b.

The environment determination module 142a is configured to analyze information about the aquaculture environment outputted from the sensor unit 300 in real time and determine whether the aquaculture environment is an environment suitable for aquaculture growth, and for example, when the water temperature suitable for specific aquaculture growth is 20 to 25 ℃ but the water temperature of the aquaculture farm outputted from the sensor unit 300 is 18 ℃, it is determined that the aquaculture environment is in an abnormal state.

The adjustment information generating module 142b is configured to generate and transmit to the user terminal 100 the environmental state adjustment information that can convert the current aquaculture environment into an environment suitable for aquaculture growth when the environment judging module 142a judges that the aquaculture environment of the aquaculture farm is not an environment suitable for aquaculture growth, and for example, when the environment judging module 142a judges that the water temperature of the aquaculture farm is in a high temperature state, the adjustment information module 142b generates and transmits to the user terminal 100 the environmental state adjustment information that requires a cooler to be operated to reduce the temperature to a specific temperature.

The status information module 143 is configured to analyze information related to the status of the aquatic product outputted from the sensor part 300 in real time to determine whether the aquatic product is ill or not, and to generate disease treatment information for solving a related problem when it is determined that the aquatic product is ill, and to transmit the disease treatment information to the user terminal 100, and includes, for example, a disease determination module 143a, a treatment information acquisition module 143b, and a transmission module 143 c.

The disease determination module 143a is configured to analyze the state of the aquatic product outputted from the sensor unit 300 in real time and determine whether the aquatic product is diseased, and for example, when a wound of skin detachment is found in an aquatic product image outputted from a Closed Circuit Television (CCTV), it is determined that the aquatic product is diseased.

The treatment information acquiring module 143b is configured to transmit sensing information of the sensor unit 300 related to the aquatic product status to the administrator terminal 200 when the disease determining module 143a determines that the aquatic product has a disease, and acquire disease treatment information related to a disease treatment method of the aquatic product transmitted from the administrator terminal 200.

The transmission module 143c is configured to transmit the disease treatment information to the user terminal 100 when the treatment information acquisition module 143b acquires the disease treatment information, and the disease treatment information may include information that 100g of a specific drug is put into a water tank for treatment by operating a drug dispenser, for example, when the disease of the aquatic product is a skin disease.

The feedback information module 144 is a module for determining whether the aquatic product is in an abnormal state when the information requesting confirmation is output from the user terminal 100 because the aquatic product is in an abnormal state, and transmitting the abnormal state solution information for solving the related problem to the user terminal 100 when it is determined that the aquatic product is in an abnormal state, and includes, for example, a confirmation request module 144a, a state determination module 144b, a solution information acquisition module 144c, and a transmission module 144 d.

The confirmation request module 144a is used to confirm whether the information requesting confirmation because the water product is in an abnormal state is transmitted from the user terminal 100 and output through the transceiver part 11. For example, it may be determined that water is in an abnormal state when the water is behaving abnormally in terms of feed intake, sleep, movement, etc.

The state judgment module 144b is for confirming the sensing information outputted from the sensor part 200 and judging whether the aquatic product is in an abnormal state when the information requesting confirmation because the aquatic product is in an abnormal state is outputted. For example, the aquatic product may be judged to be in an abnormal state when the result of confirming the Closed Circuit Television (CCTV) indicates that the aquatic product does not take the feed in the case of providing the feed.

The solution information acquiring module 144c is configured to transmit the sensing information of the sensor unit 300 related to the aquatic product state to the manager terminal 200 when the state determining module 144b determines that the aquatic product is in the abnormal state, and acquire the abnormal state solution information for solving the abnormal state of the aquatic product transmitted from the manager terminal 200.

The transmitting module 144d is a configuration for transmitting the information to the user terminal 100 when the solution information acquiring module 144c acquires the abnormal state solution information, for example, when the aquatic product is in an abnormal state in which the feed is not ingested, the abnormal state solution information may include information for solving the abnormal state by operating the feed feeder to supply other kinds of feed (including nutrients). The system does not automatically supply feed, set environment and treat diseases according to preset standards, but provides information related to feed required to be provided, environmental state regulation information and disease treatment information to a user and performs feed supply, environment setting and disease treatment according to the instruction of the user, so that the user obtains an actual breeding experience. Further, since the user can confirm the aquatic products in real time and can request confirmation thereof when it is judged that the aquatic products are in an abnormal state, that is, it is possible to ensure more smooth execution of aquaculture by mutual communication.

The aquaculture execution unit 15 is configured to operate the device unit 400 to culture aquaculture according to the aquaculture instruction information when the aquaculture instruction information is output from the user terminal 100 after the aquaculture information is transmitted to the user terminal 100 by the aquaculture information unit 14, and includes, for example, an instruction collection module 151, a manual operation module 152, and an automatic operation module 153.

The instruction collecting module 151 is configured to collect and output cultivation instruction information related to aquaculture when the cultivation instruction information is output from the user terminal 100.

The manual operation module 152 is configured to operate the device part 400 according to the culture instruction information outputted from the instruction collecting module 151 and culture the aquatic products. For example, when cultivation instruction information requiring 500g of feed to be supplied at 12 points and 50g of medicine to be supplied at 2 points is output from the user terminal 100, the manual operation module 152 supplies 500g of feed to the water tank by operating the feed feeder at 12 points and 50g of medicine to the water tank by operating the medicine doser at 2 points.

The automatic operation module 153 is configured to automatically culture the aquatic products by operating the device part 400 according to a predetermined standard when the instruction information outputted from the instruction collecting module 151 includes information that requires the culture of the aquatic products by automatic control for a certain period of time or when the culture instruction information is not outputted from the user terminal 100. For example, when disease treatment information is transmitted to the user terminal 100 but no instruction information requiring automatic control is output or no instruction information is output, the automatic operation module 153 supplies a medicine into the water tank according to the disease treatment information by operating the medicine dispenser.

The image providing part 16 is configured to transmit the aquatic product image, which is being photographed by the Closed Circuit Television (CCTV), to the user terminal 100 in real time when the information requesting the aquatic product image is output from the user terminal. The user can confirm the aquatic product image at any time and any place through the user terminal 100 by the image providing part 16.

The compensation unit 17 is configured to calculate compensation to be paid to the user as the user participates in the breeding and transmit compensation information to the user terminal 100, and includes, for example, a fee repayment module 171, a participation evaluation module 172, and a virtual money module 173.

The fee repayment module 171 is a component for calculating a certain portion of the fee to be used in the subject aquaculture process of the aquaculture contract to be compensated when information that the fee has been successfully deposited is output from a financial company system (not shown) after the fee is calculated and transmitted to the user terminal 100. For example, if it is assumed that 100 dollars such as feed fees, medicine fees, and electricity fees are consumed in the aquaculture process and the compensation calculation ratio is 50%, the fee repayment module 171 transmits information requesting the payment of 100 dollars to the user terminal 100, and the financial company system transmits a notification message that the fee has been successfully deposited when the user stores the fee in the administrator's account, and then the fee repayment module 171 calculates 50%, i.e., 50 dollars, of 100 dollars as compensation that needs to be paid to the user.

The participation evaluation module 172 is a component for analyzing aquaculture participation information of the user stored in the Database (DB) server 2 and calculating compensation to be paid to the user according to the aquaculture participation, and includes, for example, a manual evaluation module 172a, an active evaluation module 172b, a growth contribution module 172c, and a prevention evaluation module 172 d. Since aquaculture participation information of the user, which is output from the user terminal 100 and includes aquaculture instruction information related to aquaculture and information requesting confirmation because the aquaculture is in an abnormal state, etc., is stored in the Database (DB) server 2, the compensating part 17 can confirm the aquaculture participation of the user by analyzing it and calculate compensation to pay, thereby inducing the user to actively participate in aquaculture and activating the system.

The manual evaluation module 172a is configured to compare and analyze the cultivation instruction information output from the user terminal 100 and the aquaculture information output to the user terminal 100, and calculate the compensation to be paid to the user according to the number of times of the cultivation instruction information that is consistent with the aquaculture information, and more compensation is calculated as the number of times of the cultivation instruction information that is consistent with the aquaculture information increases. For example, when disease treatment information (aquaculture information) requiring the administration of 10g of a drug is transmitted and culture instruction information instructing the administration of 10g of the drug is output from the user terminal 100, it is determined that the two pieces of information match.

The active evaluation module 172b is configured to investigate the degree of active participation in aquaculture regardless of the aquaculture information and calculate compensation to be paid to the user, and may determine that the degree of active participation in aquaculture is high when, for example, the user terminal 100 views the aquaculture video and the user terminal 100 outputs information requesting confirmation because the aquaculture is in an abnormal state.

The growth contribution module 172c is a module for analyzing the aquaculture sensing information outputted from the sensor unit 300 after the aquaculture is completed and analyzing the aquaculture instruction information outputted from the user terminal 100 and stored in the Database (DB) server 2 when it is determined that the aquaculture growth status is better than the standard range, thereby investigating whether there is a specific aquaculture mode for improving the aquaculture growth status and calculating the compensation to be paid to the user, and includes, for example, a growth status module 1721, an instruction analysis module 1722, a contribution calculation module 1723, and a storage module 1724.

The growth state module 1721 is used for analyzing the aquatic product sensing information outputted from the sensor unit 100 after the cultivation is finished and determining whether the aquatic product growth state is better than a standard range. For example, in the case where the standard range related to the size of the aquatic products is set to 20 to 25cm, when the size of the aquatic products confirmed by the aquatic product images outputted from a Closed Circuit Television (CCTV) after the cultivation is finished is 30cm, it can be judged that the growth state of the aquatic products is better than the standard range. The standard range is determined based on the growth state of the aquatic product that can be generally achieved when the aquaculture is performed according to the aquaculture information.

The instruction analyzing module 1722 is configured to analyze the cultivation instruction information outputted from the user terminal 100 and stored in the Database (DB) server 2 when the growth state module 1721 determines that the growth state of the aquatic product is better than a standard range, thereby investigating whether there is a specific cultivation manner for improving the growth state of the aquatic product, and determine that there is a specific cultivation manner for improving the growth state of the aquatic product when the cultivation instruction information for requiring cultivation of the aquatic product in a manner different from the aquaculture information transmitted from the user terminal 100 is included.

The contribution calculating module 1723 is used for investigating the degree of growth state increase by using the aquatic product sensing information outputted from the sensor part 300 and calculating the compensation to be paid to the user when the indication analyzing module 1722 judges that there is a specific cultivation mode for increasing the growth state of the aquatic product. For example, if 10 dollars are paid out when the standard range related to the size of the aquatic products is set to 20 to 25cm and the measured size of the aquatic products is set to be larger than 25cm per 5cm, the contribution calculating module 1723 calculates the compensation required to be paid to the user to 20 dollars when the size of the aquatic products confirmed by the aquatic product image output from the Closed Circuit Television (CCTV) is 35 cm.

The storage module 1724 is used for storing cultivation indication information corresponding to a unique cultivation manner of promoting the growth state of aquatic products into the Database (DB) server 2 when the compensation is calculated by the contribution calculating module 1723. Most users output culture instruction information in accordance with aquaculture information (at this time, the growth state of the aquaculture after the completion of the culture is within a certain range), but some users may wish to culture the aquaculture by their own unique culture method, thereby outputting culture instruction information different from the presented aquaculture information (at this time, the growth state of the aquaculture after the completion of the culture may be superior or inferior to a standard range set as a standard while complying with the aquaculture information), so that the growth state of the aquaculture when the aquaculture is performed according to the new culture method is more excellent, it can be compensated and the new culture method can be stored, thereby being utilized in the subsequent aquaculture process.

The preventive evaluation module 172d is configured to recognize that the user contributes to the finding of the abnormal state of water production and calculate the compensation to be paid to the user when the feedback information module outputs the abnormal state solution information to the user terminal after the information requesting confirmation because water production is in the abnormal state is output from the user terminal 100. For example, a certain amount of compensation may be paid according to the number of abnormal state discoveries.

The virtual money module 173 is configured to generate and transmit virtual money usable for purchasing products of an administrator and products of a company contracted with the administrator, based on compensation required to be paid to the user calculated by the fee repayment module 171 and the participation evaluation module 172.

The purchasing part 18 is configured to transmit purchase request information to the manager terminal 200 when purchase request information of products (e.g., marine products themselves, sashimi, fish soup, etc.) using marine products cultivated by the user is output from the user terminal 100, and store the purchase request information in the Database (DB) server 2 when notification information that the products requested to be purchased by the user have been delivered to the user is output from the manager terminal 200. The virtual currency may be used when purchasing the product.

The control unit 19 may control the overall operation of the management server 1, may manage an information processing application transmitted to the user terminal 100, and may manage a website that can exchange information with the user terminal 100.

The Database (DB) server 2 may store setting information required for the operation of the present system and generated information generated during the operation of the present system, and may update the setting information based on the generated information.

In the above, the applicant has described various embodiments of the present invention, but the above-described embodiment is only one embodiment for realizing the technical idea of the present invention, and any modification or variation that can realize the technical idea of the present invention should be construed as being included in the scope of the present invention.

Claims (4)

1. A participatory aquaculture system comprising: a user terminal; a device section for supplying feed to aquatic products by being installed in an aquaculture farm and for avoiding hindrance to the growth of aquatic products by regulating the aquaculture environment; and a management server for generating aquaculture information and transmitting the aquaculture information to the user terminal, operating the device unit based on the aquaculture instruction information output from the user terminal, and culturing the aquaculture according to the user's intention, wherein the management server is used by an enterprise operating an aquaculture farm and processing and producing food using the aquaculture harvested from the aquaculture farm,

the management server includes:

an aquaculture contract part which generates and transmits aquaculture information that can be selected and cultured by a current user to the user terminal when a request signal for aquaculture information that can be cultured is received from the user terminal, and completes an aquaculture contract when aquaculture selection information is output from the user terminal; an aquaculture information unit that generates aquaculture information relating to the target aquaculture under the aquaculture contract and transmits the aquaculture information to the user terminal; an aquaculture execution unit that operates the device unit to cultivate an aquaculture product according to aquaculture instruction information when aquaculture instruction information is output from the user terminal after the aquaculture information is transmitted to the user terminal by the aquaculture information unit; and a compensation part for calculating compensation to be paid to the user and transmitting compensation information to the user terminal as the user participates in the cultivation,

the compensation part includes: a fee reimbursement module for calculating fees used in the aquaculture process of the object of the aquaculture contract and calculating a certain part of the fees as compensation; and a participation evaluation module for analyzing aquaculture participation information of the user stored in the Database (DB) server and calculating a compensation to be paid to the user according to the aquaculture participation;

the participation evaluation module comprises: a manual evaluation module for comparing and analyzing the cultivation instruction information output from the user terminal and the aquaculture information output to the user terminal and calculating compensation to be paid to the user according to the number of times of the cultivation instruction information consistent with the aquaculture information; an active evaluation module which investigates the degree of active participation in cultivation independently of the aquaculture information and calculates the compensation to be paid to the user; a growth contribution module for analyzing the aquatic product sensing information outputted from the sensor part after the cultivation is finished and analyzing the cultivation indication information outputted from the user terminal and stored in the Database (DB) server when the aquatic product growth state is judged to be superior to the standard range, thereby investigating whether a special cultivation mode for improving the growth state of the aquatic product exists and calculating the compensation to be paid to the user; and a preventive evaluation module which, when the feedback information module included in the management server outputs abnormal state solution information to the user terminal after information requesting confirmation because aquatic products are in an abnormal state is output from the user terminal, recognizes that the user contributes to the discovery of the abnormal state of the aquatic products and calculates compensation to be paid to the user;

the growth contribution module includes: a growth state module for analyzing the aquatic product sensing information output from the sensor part after the cultivation is finished and judging whether the growth state of the aquatic product is better than a standard range; an indication analysis module for analyzing the cultivation indication information outputted from the user terminal and stored in the Database (DB) server when the growth state module judges that the growth state of the aquatic product is better than the standard range, thereby investigating whether a special cultivation mode for improving the growth state of the aquatic product exists; a contribution calculating module which investigates the growth state promotion degree by using the aquatic product sensing information outputted from the sensor part and calculates the compensation to be paid to the user when the indication analyzing module judges that the unique culture mode for promoting the growth state of the aquatic product exists; and a storage module that stores cultivation instruction information corresponding to a unique cultivation method that promotes a growth state of the aquatic product in a Database (DB) server when the compensation is calculated by the contribution calculation module.

2. A participatory aquaculture system according to claim 1,

the aquaculture information section comprises:

a nutrition information module for transmitting information related to the feed to be provided to the aquatic product to the user terminal; an environment information module for generating environment state adjustment information for solving a related problem and transmitting the generated environment state adjustment information to the user terminal 100 when the current cultivation environment is an environment unsuitable for aquatic product growth; and a state information module for determining whether the aquatic product is ill or not by analyzing information related to the state of the aquatic product, which is outputted in real time from a sensor part installed in the aquaculture farm, and generating disease treatment information for solving a related problem and transmitting the disease treatment information to the user terminal when it is determined that the aquatic product is ill.

3. A participatory aquaculture system according to claim 2,

the feedback information module judges whether the aquatic product is in an abnormal state or not when the information requesting confirmation because the aquatic product is in the abnormal state is output from the user terminal, and transmits abnormal state solving information for solving a related problem to the user terminal when the aquatic product is judged to be in the abnormal state;

the feedback information module comprises: a confirmation request module for confirming whether the information requesting confirmation because the aquatic product is in an abnormal state is output from the user terminal; a state judging module for confirming the sensing information output from the sensor unit and judging whether the aquatic product is in abnormal state when the information requesting confirmation because the aquatic product is in abnormal state is output, and a solution information acquiring module for transmitting the sensing information of the sensor unit related to the aquatic product state to an administrator terminal and acquiring the solution information of the abnormal state transmitted from the administrator terminal for solving the abnormal state of the aquatic product when the state judging module judges that the aquatic product is in abnormal state; and the transmission module is used for transmitting the information to the user terminal when the solution information acquisition module acquires the abnormal state solution information.

4. A participatory aquaculture system according to claim 1,

the management server further includes: a consignment unit which analyzes a request signal for requesting the aquatic products owned by a user when the request signal is outputted from a user terminal, judges whether or not the aquaculture farm can receive a request for aquaculture, and completes a consignment contract when the request signal is judged to be capable of receiving the request for aquaculture; an image providing part for transmitting the aquatic product image shot by the closed circuit television to the user terminal in real time when the information requesting the aquatic product image is output from the user terminal; and a purchasing part which transmits purchase request information to the manager terminal when the purchase request information of the product cultivated by the user is output from the user terminal, and stores the purchase request information in a Database (DB) server when notification information that the product requested to be purchased by the user has been delivered to the user is output from the manager terminal;

the aquaculture execution part comprises: a manual operation module for operating the device part to culture the aquatic product according to the culture instruction information output from the user terminal; and an automatic operation module which includes information requesting to breed the aquatic product by automatic control for a certain period in the breeding instruction information outputted from the user terminal or operates the device unit according to a preset standard when the breeding instruction information is not outputted from the user terminal, and automatically breeds the aquatic product.

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