KR20200013558A - Vegetable providing method using mobile terminal - Google Patents

Abstract

The present invention relates to a method for supplying vegetables cultivated in an ordinary home to a demanding side such as a restaurant or the like. A cultivation terminal (11), a consumption terminal (12), and a delivery terminal (13), which are information devices used by a cultivation entity operating a cultivation instrument (50) such as a pot, a small-scale greenhouse, or a water culture tool, a consumption entity operating a restaurant or a meal providing facility, and a delivery entity delivering vegetables collected from a cultivator to a consumer, are connected to a management server (30) via the Internet to allow the delivery entity to collect vegetables produced by the cultivation entity to deliver the vegetables to the consumption entity under management of the management server (30). According to the present invention, a distribution channel of small-scale urban agriculture products can be secured to promote the dispersion of urban agriculture and promote economic efficiency. Food ingredients procuring the costs of consumers can be reduced and environmental pollution can be prevented by establishing the shortest distribution channel between producers and consumers.

Description

Vegetable supply method using a mobile terminal {VEGETABLE PROVIDING METHOD USING MOBILE TERMINAL}

The present invention relates to a method for supplying vegetables grown in a general home to a demand destination, such as a restaurant, a planting agent operating a cultivation apparatus 50, such as a flower pot, a small greenhouse or hydroponic cultivation equipment, and a restaurant or a meal facility. The cultivation terminal 11, the demand terminal 12, and the delivery terminal 13, which are information devices used by the operating consumer and the delivery agent for delivering vegetables collected from the grower to the consumer, are managed by the management server 30 through the Internet. Is connected to), under the management of the management server 30, the delivery agent is to collect the vegetables produced by the delivery agent to be delivered to the consumer.

Various attempts have been made to find the efficiency of agricultural product distribution by using the Internet and communication technology, and related related arts include Patent Publication No. 2004-110912.

Conventional agricultural product distribution methods, including publication No. 2004-110912, focuses on agricultural product history management, location tracking and inventory identification of distribution products, commercial farms outside the supply region, or cities outside the city. There was no change in the physical transport path of agricultural products to retail stores and restaurants.

That is, in the conventional agricultural product distribution method incorporating communication technology, only the level of processing for managing the quantity, state, and location of agricultural products is performed without changing the subjects and physical movement paths of each business in the distribution channel of agricultural products. The intrinsic improvement of the entire cultivation and distribution process, including shortening the spatial and temporal movement route of the produce, maintaining the freshness of the produce, and suppressing the abuse of pesticides or growth regulators, was inevitable.

In particular, the prior art has a structure in which the supply source of agricultural products can only be fixed to a commercial farm, there is a limit to shorten the physical travel distance in the distribution of agricultural products, which is directly connected to the increase in agricultural distribution costs, and also environmental pollution It caused serious problems.

Accordingly, as a search for spatial convergence of production and consumption areas, the urban agriculture which utilizes various idle spaces of the city has escaped from the traditional agricultural structure based on large commercial farms far from consumers. It has been proposed, and urban agriculture is currently spreading in the form of self-supply or neighborhood combined supply.

Specific types of urban agriculture include relatively large-scale cultivation facilities, such as garden gardens and rooftop-type greenhouses that build greenhouses on the roof of buildings, as well as fruit planting plants or hydroponic plants as relatively small indoor cultivation facilities. Can be.

Through the above-mentioned urban agriculture, various effects can be expected, such as the restoration of a healthy ecosystem of the city, the formation of local communities, and the expansion of green areas.However, in terms of consumption, the area is limited to self-sufficient or small-scale combined production and consumption, which accounts for the total consumption of agricultural products. The weight is negligible.

In particular, due to the nature of urban agricultural cultivation means that are built in the form of home or neighborhood facilities, it is easy for the management personnel to access and water at all times, and high concentration is also possible, which is inferior to large commercial farms. Although it is possible to secure the productivity without, it is not only impossible to incorporate into the existing agricultural product distribution process, but also to establish an individual distribution system, which is difficult to promote consumption.

This limitation of urban agriculture causes serious problems for vegetables that have a short period of cultivation as well as a cultivation period. Vegetables have excellent productivity due to their strong growth characteristics, but are mainly used for raw foods such as ssam and salad. It is difficult to store it for a long time because it cannot be distributed in a fresh state, and elastic control of consumption is also impossible.

Therefore, in the case of vegetables produced through urban farming, the surplus crops can only be discarded after being consumed by the producers or the members of small-scale unions, resulting in enormous resource waste.

In particular, the imbalance between productivity and consumption in urban agriculture has a serious problem that acts as an obstacle to the spread of urban agriculture.

In view of the above-described problems, the present invention aims to supply vegetables produced through urban agriculture to demand destinations such as restaurants, and to efficiently distribute and adjust available supply and demand by utilizing communication technology and information technology. .

That is, the present invention was devised to achieve the above object, the cultivation device 50 is a vegetable planting planting, the cultivation terminal 11 equipped with a cultivation application as a mobile terminal that can be connected to the wireless network 20, A management server to which a demand terminal 12 equipped with a demand application as a terminal capable of internet connection, a delivery terminal 13 equipped with a delivery application as a mobile terminal capable of accessing a wireless network 20, and a management database 31 are connected. (30) is configured, the cultivation application of the cultivation terminal 11 wirelessly cultivating information, including cultivation information for operating the cultivation device (50), seeding information and quantity information for vegetables planted in the cultivation device (50) Information recording step (S10) for transmitting to the management server 30 through the network 20 and the management server 30 to record the cultivation information in the management database 31, and the demand application of the demand terminal 12 is the consumer information And quantity information The supply request step (S20) for transmitting the demand information to the management server 30 through the Internet, and the management server 30 queries the management database 31 to extract the cultivation information corresponding to the demand information and cultivation information Collection notification step (S30) for transmitting the collection information including the quantity information to the cultivation terminal 11 corresponding to the management server 30 transmits and delivers the delivery information including the location information to the delivery terminal (13) Vegetables supply method using a mobile terminal, characterized in that the application is made of a delivery progress step (S40) for outputting the delivery information.

In addition, the information recording step (S10) is the initial transmission of the cultivation application of the cultivation terminal 11 transmits the cultivation information including the grower information, seeding information and quantity information to the management server 30 through the wireless network 20 Step S11, the initial recording step (S12) for recording the cultivation information transmitted from the management server 30 to the management database 31, and the management server 30 generates and manages the growth information corresponding to the cultivation information Vegetable supply method using the mobile terminal, characterized in that it consists of a status update step (S13) to be recorded in the database 31 or the collection notice step (S30) the management server 30 inquires the management database 31 to demand The information extraction step (S31) for extracting the cultivation information corresponding to the information, and the management server 30 transmits the collection information including the quantity information to the cultivation terminal (11) corresponding to the extracted cultivation information to supply supply intention Supply confirmation step (S32) and Going to the vegetables supply method using a mobile terminal of a doctor characterized in reply made of an step (S33) that the application of the grown cultivated terminal 11 receives the information sent back an acceptance signal to the management server (30).

In addition, a beacon 55 is installed in the cultivation device 50, and the information recording step (S10) is a cultivation application of the cultivation terminal 11 includes cultivation information including grower information, seeding information and quantity information in a wireless network ( 20, the initial transmission step S11 for transmitting to the management server 30, the initial recording step S12 for recording the cultivation information transmitted from the management server 30 in the management database 31, and the beacon identification information. Beacon 55 transmits the transmission signal containing the cultivation terminal 11 receives the transmission signal and the cultivation application transmits the material information including the grower information to the management server 30 (S15) and , The vegetable supply method using a mobile terminal, characterized in that the management server 30 comprises a material update step (S16) to record the material information transmitted in the management database (31).

In addition, the cultivation device 50 is installed beacon 55, the delivery progress step (S40) is the management server 30 to transmit the delivery information including the location information and beacon identification information to the delivery terminal (13). Collection start step (S41), and the beacon 55 transmits the transmission signal including the beacon identification information, the transmission terminal 13 receives the transmission signal, the delivery application received the beacon identification information in the collection start step (S41) Method of supplying vegetables using a mobile terminal, characterized in that the signal control step (S42) to check and, if the beacon identification information is valid, the delivery application of the delivery terminal 13 is made of a proximity notification step (S43) for outputting a proximity signal. to be.

Through the present invention, it is possible to secure distribution channels of small-scale urban agricultural products, thereby promoting the spread of urban agriculture and improving economic efficiency, and by establishing the shortest distribution channel between producers and consumers, it reduces the cost of procuring food for consumers. And the effect of preventing environmental pollution can be obtained.

In particular, through the spread of urban agriculture, it is possible to obtain the effects of the city's healthy ecosystem recovery, the formation of local communities, and the expansion of green space, and the effect of increasing the income of households carrying out urban agriculture.

In addition, in the consumer side, such as a restaurant or a meal facility, it is possible to procure the vegetables in a short distance, thereby ensuring the freshness and safety.

1 is a conceptual diagram of the present invention
2 is a block diagram of an information period communication network for carrying out the present invention.
3 is a flow chart of the present invention
4 is a flowchart illustrating an embodiment of applying growth information according to the present invention.
5 is a flowchart illustrating an embodiment of applying an acceptance signal according to the present invention.
6 is an exemplary view illustrating a cultivation apparatus of the present invention to which beacons are applied.
7 is a flowchart of information recording step of the present invention embodiment to which the beacon is applied
8 is a flow chart of the delivery progress step of the present invention embodiment applied beacons

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT A detailed configuration and implementation process of the present invention will be described with reference to the accompanying drawings.

First, Figure 1 shows each subject performing the present invention, the management subject managing the transmission and reception information in the performance of the present invention is shown at the top of the figure, the left and right in the figure to grow the vegetables The cultivator and the consumer consuming the vegetables are respectively shown, and the delivery agent for delivering the vegetables collected from the cultivator to the consumer is shown in the center of the figure.

The management agent collects and processes the vegetable demand information sent from the consumer such as a restaurant, selects a cultivation subject to supply vegetables corresponding to the demand information, and dispatches the delivery subject.

Various companies or organizations can act as the management body of the present invention, the company dedicated to urban agriculture support and product distribution business can act independently as a management body, and in addition, organizations such as associations of urban agricultural growers and associations of restaurants Of course, an Internet information provider or a telecommunications company may act as a manager.

The grower is a real grower who serves to actually cultivate and supply vegetables to the consumer in the present invention, a general household as well as a combination for performing the above-described urban agriculture can act as a grower.

In the present invention, the cultivation subject is to operate the cultivation device 50, as shown in Figure 1, the cultivation device 50 may include a potted plant, a small greenhouse or hydroponic cultivation.

The consumer may be a demand source for consuming vegetables, such as a restaurant or a meal facility, and the delivery agent collects vegetables from the grower and delivers them to the consumer, which is delivered by the personnel hired by the manager. An individual or a group that owns a vehicle may act as a subject, or may contract with a management entity and act as a delivery entity.

In particular, the movement of vegetables between the cultivator and the consumer in the present invention proceeds on the premise of a small amount, a short-range movement, a small means of transportation such as a bicycle or a scooter can be utilized as the exercise means of the transfer agent, It is also possible to transfer the transport subjects on foot. This eliminates long-distance transportation by large vehicles, thereby reducing the environmental pollution generated during the transportation process.

The relationship between the performing agents of the present invention can be established in various ways. As a representative example, a management entity, that is, a company that provides the present invention in the form of a service, attracts a cultivation agent and a consumer entity as a subscriber or a member, and delivers them. This could be hired or hired.

That is, the company performing the management subject matter of the present invention attracts growers and consumers as subscribers, collects and manages information such as materials, growable size and consumption of these growers and consumers, and provides money according to the supply of vegetables. The present invention can be carried out in a manner of brokering a transaction, and in contracting with a person or a group that directly employs a delivery agent or performs a role of a delivery agent in a kind of delivery agent behavior.

In particular, the management agent of the present invention may directly supply agricultural materials, such as seeds or fertilizers, as well as the above-mentioned cultivation apparatus 50 in recruiting cultivation agents, the supply of cultivation means for the cultivation agent of the management agent is In addition to convenience, it serves to standardize the quality of the vegetables produced and to estimate productivity.

As such, in the present invention in which the management agent, the cultivation agent, the consumption agent, and the delivery agent perform their respective roles in each stage, each of the performing agents is a server, a personal computer, a smartphone, or a tablet computer connected to the Internet. It is interconnected via an information device such as a specific configuration is illustrated in FIG.

2 is a view illustrating a state in which a physical device and an information device are connected to each information device during the implementation of the present invention. As shown in FIG. 2, a connection between a cultivation device 50 for planting vegetables and a wireless network 20 is provided. The delivery terminal is equipped with a cultivation terminal 11 equipped with a cultivation application as a mobile terminal, a demand terminal 12 with a demand application as a terminal capable of internet connection, and a mobile terminal capable of connecting to a wireless network 20. The delivery terminal 13 and the management server 30 is connected to the management database 31 is configured.

Examples of the cultivation apparatus 50 for planting vegetables include pots, small-scale greenhouses, or hydroponic cultivation tools operated by the cultivator, and the cultivation apparatus 50 may be free or charged to the grower as described above. By providing a standardized, through the standardization of the cultivation mechanism (50) through which the management personnel can directly estimate the harvest and harvest time of vegetables, etc. without having to check each cultivation mechanism (50).

That is, as described above, in the process of recruiting the cultivation agent as a subscriber of the service to which the present invention is applied, the management entity provides a standardized cultivation device 50, for example, a vegetation material, seeds and containers in a kind of kit form. By doing so, the grower receives the appropriate number of kits in consideration of his growing ability.

The kit-type cultivation device 50 may be applied to different configurations depending on the cultivation method, in the case of land cultivation may be composed of seeds, vegetation soil loading container, vegetation soil and fertilizer, etc., in the case of hydroponic cultivation seed, nutrient solution ( Iv) storage containers and preparations for nutrient solution preparation, and the management subject is based on the quantity of the kits provided to the cultivator, the time of sowing, and the weather conditions, and the yield, harvest time, and yield of the vegetables. Etc. can be estimated with a considerable level of precision.

Along with the cultivation subject, the consumer subject is also recruited as a subscriber of the service to which the present invention is applied. As described above, a restaurant or a meal facility, which is a mass consumer of vegetables, may be recruited as a consumer. The process of recruiting subjects and consumers may be performed in an online manner through a web page or the like, as in a typical Internet-based service.

Meanwhile, in carrying out the present invention, each subject performs communication through various information devices connected to the Internet. As shown in FIG. 2, a cultivation in which a cultivation application is mounted as a mobile terminal capable of accessing the wireless network 20 is provided. A terminal 11, a demand terminal 12 equipped with a demand application as a terminal capable of connecting to the Internet, a delivery terminal 13 equipped with a delivery application as a mobile terminal capable of connecting to a wireless network 20, and a management database ( 31) is connected to the management server 30 is configured, the cultivation subject, the consumption subject, the transfer subject and the management subject is utilized.

That is, in the present invention, the cultivation terminal 11 is a wireless network 20 connected information device such as a smartphone or a tablet computer used by the grower, and the demand terminal 12 used by the consumer is a personal computer such as a desktop computer. An Internet connection information device such as a computer, a smartphone or a tablet computer, and the delivery terminal 13 used by the delivery entity is also a portable wireless network 20 connection information device such as a smartphone or a tablet computer.

Here, the wireless network 20 is a Wi-Fi (Wireless) that performs TCP / IP (Transport Control Protocol / Internet Protocol) based communication with a traditional mobile communication network such as TDMA (Time Division Multiple Access) and CDMA (Code Division Multiple Access). Wi-Fi and LTE (Long Term Evolution), such as Fidelity) and WiBro (Wireless Broadband), and the like, although not shown, the wireless LAN and mobile communication network constituting the wireless network 20 is a gateway server (gateway server) ) And a service provider server, which is a kind of gateway server.

As a result, as shown in FIG. 2, the cultivation terminal 11, the demand terminal 12, and the delivery terminal 13 all have a common point of being connected to the management server 30 operated by the management entity through the Internet. 11) and the transfer terminal 13 has a characteristic to be prepared for the call of the management server 30 in the process of carrying out the present invention to be described later, the portable information device connected to the wireless network 20 in consideration of portability and responsiveness In the case of the demand terminal 12 which is set by default and is connected to the Internet via the wireless network 20, but does not necessarily require a response to the call of the management server 30, a personal computer connected to the Internet in a wired manner is also used. It can be applied.

Meanwhile, in FIG. 2, the management database 31 connected to the management server 30 is shown as being physically separated. However, this is to express the functions of the components of the present invention, and the storage device of the management server 30 is represented. The management database 31 may be constructed.

The present invention carried out through such a configuration, as shown in Figure 3, the cultivation application of the cultivation terminal 11, the cultivator information for operating the cultivation device 50, the seeding information and quantity for vegetables planted in the cultivation device 50 The cultivation information including the information is transmitted to the management server 30 through the wireless network 20, and the management server 30 starts the information recording step S10 of recording the cultivation information in the management database 31.

As described above, the cultivation terminal 11 is an information device such as a smartphone or a tablet computer of a cultivator, and the cultivation terminal 11 is equipped with a cultivation application that is an application program of the information device operating system, and the cultivation application is a management server. As a program for performing communication with (30), it transmits the information input by the grower to the management server, and outputs the information transmitted from the management server (30).

Among the information handled as the cultivation information in the information recording step (S10), the grower information is a kind of identification (IDentification) to enable the identification of the cultivator, the user of the cultivation terminal 11 in performing the information recording step (S10) Although a method of directly inputting a cultivation agent into a cultivation application may be applied, the cultivation application is extracted and transmitted to the management server 30 in a state in which the cultivation application is input at the time of initial installation of the cultivation application and then encrypted and stored in the storage device of the control terminal. The method may be applied, but the latter method is advantageous for user convenience.

The grower information identifying the individual grower can be set in the above-mentioned grower's subscription to the present invention application service and stored in the management database 31. When the grower's information is set up, that is, when the grower's service is joined, the grower operates. The location information of the cultivation apparatus 50 is stored in the management database 31 together with the cultivator information as the location information. When the cultivation apparatus 50 is installed in the resident of the cultivator, the address of the cultivator of the cultivator is located. Can be applied as

In addition to the grower information, the cultivation information handled in the information recording step (S10) includes sowing information and quantity information about the vegetables planted in the cultivation apparatus 50, wherein the sowing information includes varieties, seeding time and cultivation of the corresponding vegetables. And the like, and the quantity information may include the quantity of the seed sown as information for estimating the yield.

As described above, when the cultivation device 50 in the form of a kit provided by a management entity is applied, unique information such as a model name or a serial number assigned to the kit may be applied as cultivation information, The seeding time constituting the seeding information is obtained in such a way that the cultivation application extracts real-time visual information from the operating system of the cultivation terminal 11 even if the cultivator does not directly input the cultivation terminal 11 to the cultivation application, or the information The management server 30 receiving the transmission may itself be applied to a method of generating visual information.

In addition, when the cultivation device 50 of the kit type is applied, the unique information input of the kit, in addition to the method of directly inputting the unique information of the string or numeric string format to the cultivation terminal 11, A method of displaying a barcode or QR code, etc. on the contents or the packaging material and reading it with the imaging device of the cultivation terminal 11 may be applied.

When the cultivation information including the grower information transmitted via the wireless network 20 by the cultivation application mounted on the cultivation terminal 11 is transmitted to the management server 30, the management server 30 stores the transmitted cultivation information in a management database ( 31), so that the management can estimate and predict the crops, harvesting time, and production of vegetables planted in the cultivation device 50 for each cultivator.

In particular, the estimation of the crop and the production amount can be automatically performed by the program mounted on the management server 30, the calculation of the crop, harvest time and production amount by the program loaded on the management server 30 is a predetermined cultivation period Can be applied to the timing of sowing, to determine the harvest time, and to simply estimate the yield by simply substituting the number of seed sown.For more accurate estimation, the temperature of the region where the cultivation apparatus 50 is located, Harvest timing and yield can also be adjusted to take account of weather conditions such as humidity and average sunlight.

This information recording step (S10) may be performed at the time of recruitment of a new grower by the management agent, as well as when the grower, which is an existing subscriber, replaces and expands the growing mechanism 50 itself or some components.

In addition, as described above, it is possible to estimate the growth state of the vegetables planted in the respective cultivation apparatus 50 through the program mounted on the management server 30, the management server 30 is a program mounted on the growth of vegetables The state is estimated and the information contained in the management database 31 is updated.

In the vegetable growth information update type embodiment, the information recording step (S10), as shown in Figure 4, the cultivation application of the cultivation terminal 11, the cultivation information including the grower information, seeding information and quantity information wireless network (20) Beginning with the initial transmission step (S11) for transmitting to the management server 30 through), the initial recording step (S12) for recording the cultivation information transmitted by the management server 30 in the management database 31 is subsequently performed After that, the management server 30 generates a growth information corresponding to the cultivation information, that is, a status update step (S13) of generating information indicating the growth status of the vegetables qualitatively or quantitatively and including it in the management database 31. .

Here, the information to display the growth state of vegetables qualitatively means information expressing the appearance, color, etc. of each stage of growth of vegetables, and the information to quantitatively display the growth state of vegetables is the numerical value of the state of vegetables. Information For example, it means information obtained by quantifying the weight of edible parts of root vegetables or the area of edible parts of leafy vegetables.

In the status update step (S13) performed by the management server 30 mounted program, the seeding time point described above is used as input data, and weather conditions such as temperature, humidity, and sunlight may be used as input data. .

In addition, the status update step (S13) is repeatedly performed during the period from the seeding of vegetables to the final harvest, so that accurate growth information can be established and updated in the management database 31, and unexpected growth conditions such as abnormal climate In case of unsatisfactory change, it is possible to cope by changing the input data of the status update step S13 or adding the status update step S13 irregularly.

As such, when the information recording step (S10) is completed, as shown in Figure 3, the supply of the demand application of the demand terminal 12 transmits the demand information, including the buyer information and quantity information to the management server 30 over the Internet The request step (S20) is performed, which can be said to be a kind of order process in which the consumption entity of vegetables requests the management entity for the supply of vegetables.

Here, the demand terminal 12 is an information device such as a personal computer, a smartphone, or a tablet computer of the consumer, and the demand terminal 12 is equipped with a demand application, which is an application of the information equipment operating system, and the demand application is a management server ( This program performs communication with 30) and transmits the information input by the consumer to the management server.

In performing the supply request step (S20), the consumer operates the demand terminal 12 to input the variety and quantity of vegetables required, and the demand application mounted on the demand terminal 12 is based on the input information. It generates the quantity information for transmission to the management server 30 with the consumer information that can specify the consumer, where the consumer information is the user of the consumer terminal 12, that is, the consumer, like the grower information described above It can be said to be a kind of ID that enables identification of.

The consumer information may be directly input to the demand application by the consumer in performing the supply request step (S20), but after being input at the initial installation of the demand application, the consumer information is encrypted and stored in the storage device of the demand terminal 12, The application of the demand application may be applied to draw it and transmit it to the management server 30, the latter method is advantageous for the user convenience.

In addition, as in the grower information described above, the consumer information for identifying the individual consumer may also be set in the consumer subject to the present invention application service and stored in the management database 31, that is, when the consumer information is set When the service is subscribed to, the location information, such as a restaurant operated by the consumer, is stored in the management database 31 together with the consumer information as location information.

As such, when the information recording step (S10) and the supply request step (S20) is completed, the management server 30 queries the management database 31 to extract the cultivation information corresponding to the demand information and the cultivation terminal corresponding to the cultivation information (11) a collection notice step (S30) of transmitting the collection information including the quantity information is performed.

Here, the cultivation information corresponding to the demand information is the cultivation information that satisfies the quantity information included in the demand information, that is, the quantity of vegetables and at the same time, the transport distance can be set as the shortest distance. The cultivation apparatus 50 first queries the cultivation subjects in the harvestable state in the management database 31, and then sorts these harvestable cultivators based on the proximity to the consumer which sent the demand information. Then, the operation of selecting the cultivation apparatus 50 that can satisfy the quantity information among the cultivation apparatus 50 of these sorted cultivation subject is carried out by the program mounted on the management server (30).

In the process of selecting a cultivation subject in the collection notification step (S30), when the quantity information of the demand information is large, a plurality of cultivation subjects may be selected together.

As such, when the cultivation entity located in the position closest to the demand information originating consumption subject while satisfying the quantity information included in the demand information is selected, the management server 30 collects the quantity information including the selected cultivation terminal 11. By sending the information, the grower will be informed of the vegetable collection plan.

On the other hand, in the collection notification step (S30) may be applied to the method of providing the vegetables to the grower and the subsequent step is performed only after the grower accepts this, the present invention is performed based on the supply of the grower The collection notification step (S30) is started as the information extraction step (S31) for extracting the cultivation information corresponding to the demand information by the management server 30 to query the management database 31, as shown in FIG.

Thereafter, the management server 30 transmits the collection information including the quantity information to the cultivation terminal 11 corresponding to the cultivation information extracted, and confirms the supply intention (S32), and receives the collection information. The new application step (S33) of the cultivation application of one cultivation terminal 11 returns an acceptance signal to the management server 30.

Through the supply confirmation step (S32) and the new medical society step (S33), it is possible to determine whether to collect vegetables according to the intention of the grower, thereby cultivating the vegetables can be directly consumed by the grower, Even if the visitor fails to respond to the visit of the delivery subject to be described later, such as the other cultivation agent can be selected quickly.

After the completion of the collection notification step (S30), as shown in Figure 3, the management server 30 transmits the delivery information including the location information to the delivery terminal 13, the delivery progress step of the delivery application outputs the delivery information ( S40) is performed, the delivery terminal 13 is a portable information device such as a smartphone or tablet computer of the delivery subject, the delivery terminal 13 is equipped with a delivery application that is an application program of the information device operating system.

The delivery application is a program that performs communication with the management server 30 as in the above-described cultivation application or demand application, and performs a function such as outputting information transmitted from the management server 30, and the user of the delivery application. Due to the activity characteristics of the delivery subject, the transfer terminal 13 continuously moves, and the transfer application extracts the position of the transfer terminal 13 from a position extraction means such as a GPS mounted on the transfer terminal 13 to manage the server 30. ) Can be added periodically.

Through the transmission of the location of the delivery terminal 13 of the delivery application, the management server 30 can grasp the location of the delivery terminal 13 in real time, and select a delivery principal closest to the location of the cultivation apparatus 50 of the corresponding cultivation agent. The collection notification step (S30) can be efficiently performed.

The delivery information may include the location information of the cultivator, that is, the location information of the cultivation device 50 and the location information of the consumer, as well as the quantity information of vegetables and the type of vegetables, as described above. As the information contained in the management database 31, the location location of the cultivation device 50 or the consumer may be used.

The cultivation application, demand application and delivery application mounted in the above-mentioned cultivation terminal 11, demand terminal 12 and delivery terminal 13, respectively, are subscribers of the present invention applied service by a management entity operating the management server 30. Alternatively, it may be distributed to a cultivating subject, a consuming subject, or a delivery subject which is an employee of the management subject. The cultivating application, demand application, and the transmitting application may all replies to a similar type of information device, that is, a wireless network 20 or an Internet access information device. As such, the cultivation application, demand application, and delivery application may be written in a single program, but may be configured to behave as a cultivation application, demand application, and delivery application, respectively, as the set value changes.

As such, through the progress of the collection notification step (S30) and the delivery progress step (S40), the cultivator can grasp the harvest and collection plan of the vegetables planted in his cultivation device (50), and the delivery agent is to identify the vegetables It is possible to grasp the material of the cultivator and the consumer to be collected and supplied, and then the delivery agent visits the location of the cultivation organization 50 such as the resident of the cultivator, collects vegetables, and delivers them to the consumer.

On the other hand, when the management server 30 performs the collection notification step (S30) to notify the cultivation terminal (11) of the collection plan of vegetables, in the management subjects the intention of supplying vegetables to the cultivator, the cultivator is a vegetable A variety of situations can occur that do not respond to collection, and the most frequent occurrence of collection refractory is the absence of growers.

That is, in the present invention, the cultivation device 50 is installed in the resident of the cultivator, and it is impossible to collect it when the cultivator goes out, and when the harvest notification step (S30) is performed, the cultivator can determine whether the vegetable can be collected. In addition, if the process of receiving a response is repeated, not only rapid processing is possible, but a huge communication load is generated, and the computational resources of the performance information device of the present invention including the management server 30 are seriously encroached.

Thus, in the present invention, as shown in Figure 6, by installing the beacon 55 in the cultivation mechanism 50 and the cultivation terminal 11 detects the beacon 55 transmission signal, the cultivation subject that is a user of the cultivation terminal 11 It was possible to quickly grasp whether or not the cultivation organization (50) the location of the cultivation entity without artificial reply by the artificial.

Beacon (55) is a device that transmits a radio signal periodically, the performance, according to the development of low-power short-range wireless communication technology, such as Bluetooth (Bluetooth) and Zigbee, and related transmission, reception device and software, Durability and service life have improved dramatically.

As in the extract expanded portion of Figure 6, the beacon 55 applied to the present invention is a wireless module 56 for performing a low-power short-range wireless communication, such as Bluetooth and periodically oscillating a radio signal containing unique information, and a wireless module And a microcontroller unit (MCU) 57, a power supply 58, and the like, which control the 56.

The wireless module 56 applied to the beacon 55 of the present invention performs near field communication having a transmission / reception range of about several tens of meters under the condition of minimizing power consumption, and in particular, a recently developed BLE (Bluetooth Low Energy) based wireless module. The power consumption of 56 is extremely small, and it is possible to transmit a signal for more than a few years to a power source 58 by a small coin cell.

Therefore, the beacon 55 may be installed by simply attaching the sticker to the cultivation device 50, such as a flower pot or hydroponic cultivation container. In addition, the cultivation device 50 of the present invention may be installed in the residence of the cultivator. In view of being mainly installed, the method may be applied to the cultivator's residence instead of directly attaching the beacon 55 to the cultivation device 50. In this case, to secure the power source 58 of the beacon 55. Even in this case, an advantage can be obtained.

The MCU 57 embedded in the beacon 55 is a device for controlling the wireless module 56. The core 57 performs a control operation, a memory that is a memory device, and a serial interface that is an input / output path. The function is composed of a complex, but the function of the beacon (55) is a relatively simple function that periodically transmits a simple signal, it is possible to apply the MCU 57 of a very simple configuration compared to other communication devices, thereby beacon (55) can be miniaturized and low-power operation can be achieved.

The transmission signal periodically transmitted from the beacon 55 includes beacon identification information. The beacon identification information is a kind of unique information uniquely given to the beacon 55, and has a format such as a serial number or ID. As in a typical wireless device, a universal unique identifier (UUID) may be applied.

The transmission signal of the beacon 55 may be received by a mobile terminal, that is, a wireless network 20 connected information device such as a smartphone or a tablet computer and processed by an application program mounted on the information device. There is a built-in radio signal receiver of the same standard as the radio module 56 of the beacon (55).

That is, when the Bluetooth-based wireless module 56 is applied as the wireless module 56 of the beacon 55, the mobile terminal is equipped with a Bluetooth reception function, and transmits a signal with a master (master) that transmits a signal on Bluetooth communication. The receiving slave is configured as the beacon 55 and the mobile terminal, respectively.

Most mobile terminals such as smartphones or tablet computers that are currently on the market are equipped with a Bluetooth reception function by default, and the present invention is not required to install additional devices in the mobile terminal such as a cultivation terminal 11 or a delivery terminal 13. Is possible.

In the beacon 55 application embodiment of the present invention, the information recording step (S10) is, as shown in Figure 7, the cultivation application of the cultivation terminal 11 includes the cultivation information including the grower information, seeding information and quantity information The initial transmission step S11 is transmitted to the management server 30 through the wireless network 20.

Thereafter, the initial recording step (S12) of recording the cultivation information transmitted from the management server 30 to the management database 31 is performed, and then the beacon 55 transmits the transmission signal including the beacon identification information and the cultivation terminal. Receiving the transmission signal (11) and the material notification step (S15) for the cultivation application transmits the material information including the grower information to the management server (30).

The transmission of the material information is carried out by a cultivation application, and in the material notification step (S15), the material information is repeatedly transmitted to the management server 30, or a variety of methods such as a method of transmitting the material information only once in absence. The latter is advantageous in reducing the communication load and reducing the computational resources.

That is, the former method is that the cultivation application repeatedly transmits the reception signal of the beacon 55 to the management server 30 at regular intervals, while the latter method is the cultivation terminal 11 due to the outgoing of the cultivator, etc. If the beacon 55 transmission signal detection is stopped, the material information indicating absence is transmitted to the management server 30 one-time, and the cultivator returns home and sends the beacon 55 of the cultivation terminal 11. When signal detection is resumed, the material information indicating the fact is transmitted to the management server 30 once again, and thus the occupation of the communication network and the related processing device can be minimized.

Thus, after the material notification step (S15) is performed, the material update step (S16) for recording the material information transmitted by the management server 30 in the management database 31 is performed, so that the management server 30 is a cultivation terminal ( 11) and the proximity between the cultivation device 50 can be confirmed in real time.

That is, the cultivation terminal 11 receives the transmission signal of the beacon 55 and reports that the cultivation application receives the transmission signal to the management server 30 is performed. Although the user of the plantation agent does not check individually, but the cultivation application is carried out in the background process (background process) method, the management server 30 will be able to periodically check the proximity of the cultivation terminal 11 and the beacon (55). .

In particular, as the present invention spreads, a plurality of cultivation mechanisms 50 may be located in a contiguous state in a multi-family house. As described above, since the transmission signal includes beacon identification information, the cultivation application confirms its effectiveness. Or, the management server 30 checks the validity of the beacon identification information transmitted by the cultivation application, it is possible to accurately determine the location of the cultivation subject.

On the other hand, the beacon 55 may be used to check whether the cultivation entity actually exists, as well as to find the cultivation device 50 of the delivery subject, the specific embodiment is illustrated in FIG.

As in the above-mentioned cultivation terminal 11, the transmitting terminal 13 of the transmitting subject is also equipped with a wireless signal receiver of the same standard as the wireless module 56 of the beacon 55 such as Bluetooth, and the wireless module such as Bluetooth ( 56) The master for transmitting signals and the slave for receiving signals are set to beacons 55 and delivery terminals 13, respectively.

As shown in FIG. 8, in the beacon 55 application embodiment, in the delivery progress step S40, the management server 30 collects transmission information including location information and beacon identification information to the delivery terminal 13. The process starts with the step S41.

Subsequently, the beacon 55 transmits the transmission signal including the beacon identification information, the transmission terminal 13 receives the transmission signal, and the signal application step in which the delivery application checks the beacon identification information received in the collection start step S41. (S42), and when the beacon identification information is valid, the proximity notification step (S43) of the delivery application of the delivery terminal 13 outputs a proximity signal is carried out, so that the delivery subject as the user of the delivery terminal 13 is collected from the cultivation target ( The location of 50) can be identified quickly and accurately.

The proximity signal output in the proximity notification step (S43) is output through the speaker of the transmission terminal 13 in the form of an alarm sound, whether proximity is displayed on the screen of the transmission terminal 13, or the reception sensitivity of the transmission signal is high. The same may be applied to the remaining distance.

That is, in the state where a large number of cultivation agents and cultivation apparatus 50, such as a multi-family house, are concentrated, the cultivation subject to be collected without having to visit the residence of the cultivator in Gagahoho in order to search for the exact target cultivation apparatus 50. The proximity of the 50 can be quickly and accurately grasped through the transfer terminal 13.

The cultivation device 50 is close to determine whether the transfer application of the transfer terminal 13 after receiving the valid beacon identification information from the management server 30, the communication between the transfer terminal 13 and the beacon 55 and the transfer application Through the validation of the independent transmission terminal 13 can be performed independently, it can be carried out without the weight of the communication load and excessive consumption of computing resources.

In particular, it is possible not only to fundamentally prevent trial and error of the transfer agent in the process of identifying the cultivation organization 50, but also to protect the privacy of the grower by blocking unnecessary visits to the grower's residence.

11: cultivation terminal
12: demand terminal
13: transfer terminal
20: wireless network
30: management server
31: management database
50: cultivation apparatus
55: Beacon
56: wireless module
57: MCU
58: power
S10: information recording step
S11: initial transmission step
S12: Initial recording stage
S13: Status update stage
S15: Material notification step
S16: Material update step
S20: Supply request stage
S30: Collection notice step
S31: information extraction step
S32: Supply Confirmation Step
S33: New medical stage
S40: Delivery Progress Step
S41: collection start stage
S42: signal control step
S43: proximity notification step

Claims (5)

A cultivation device 50 in which vegetables are planted, a cultivation terminal 11 equipped with a cultivation application as a mobile terminal capable of accessing the wireless network 20, and a demand terminal 12 equipped with a demand application as a terminal capable of accessing the Internet And a delivery terminal 13 equipped with a delivery application as a mobile terminal capable of accessing the wireless network 20, and a management server 30 to which the management database 31 is connected.
The cultivation application of the cultivation terminal 11 manages the cultivation information including the grower information for operating the cultivation device 50, the seeding information and the quantity information about the vegetables planted in the cultivation device 50 through the wireless network 20. An information recording step S10 for transmitting to the server 30 and for the management server 30 to record the cultivation information in the management database 31;
A supply request step (S20) in which a demand application of the demand terminal 12 transmits demand information including consumer information and quantity information to the management server 30 through the Internet;
The collection notification step of the management server 30 to query the management database 31 to extract the cultivation information corresponding to the demand information and to transmit the collection information including the quantity information to the cultivation terminal 11 corresponding to the cultivation information (S30). )Wow;
The management server 30 transmits the delivery information including the location information to the delivery terminal 13, and the delivery application is a vegetable supply method using a mobile terminal, characterized in that consisting of a delivery progress step (S40) for outputting the delivery information.
The method according to claim 1, wherein the information recording step (S10)
An initial transmission step (S11) of the cultivation application of the cultivation terminal 11 transmitting the cultivation information including the grower information, the seeding information and the quantity information to the management server 30 through the wireless network 20;
A first recording step (S12) of recording the cultivation information transmitted from the management server 30 to the management database 31;
Method of supplying vegetables using a mobile terminal, characterized in that the management server 30 is made of the status update step (S13) to generate the growth information corresponding to the cultivation information contained in the management database (31).
The method according to claim 1, the collection notification step (S30)
An information extraction step (S31) of the management server 30 querying the management database 31 and extracting cultivation information corresponding to the demand information;
A supply confirmation step (S32) of transmitting the collection information including the quantity information to the cultivation terminal (11) corresponding to the cultivation information extracted by the management server (30);
Vegetables supply method using a mobile terminal, characterized in that the cultivation application of the cultivation terminal (11) receiving the collection information is made of a new medical society step (S33) to return the acceptance signal to the management server (30).
The beacon 55 is installed in the cultivation device 50;
Information recording step (S10)
An initial transmission step (S11) of the cultivation application of the cultivation terminal 11 transmitting the cultivation information including the grower information, the seeding information and the quantity information to the management server 30 through the wireless network 20;
A first recording step (S12) of recording the cultivation information transmitted from the management server 30 to the management database 31;
Beacon 55 transmits the transmission signal including the beacon identification information, the cultivation terminal 11 receives the transmission signal and the material notification step of the cultivation application transmits the material information including the grower information to the management server 30 ( S15);
Vegetable management method using a mobile terminal, characterized in that the management server 30 is made of a material update step (S16) for recording the material information transmitted in the management database (31).
The beacon 55 is installed in the cultivation device 50;
Delivery progress step (S40) is the collection server start step (S41) for transmitting the transmission information, including the location information and beacon identification information to the management terminal 30 to the delivery terminal (13);
Beacon 55 transmits the transmission signal including the beacon identification information, the transmission terminal 13 receives the transmission signal and the signal matching step of the delivery application collates with the beacon identification information received in the collection start step (S41) (S42) )Wow;
If the beacon identification information is valid, the delivery application of the delivery terminal 13 is a vegetable supply method using a mobile terminal, characterized in that made in the proximity notification step of outputting a proximity signal (S43).

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