KR20160134423A

KR20160134423A - Method and apparatus for project guide based on process

Info

Publication number: KR20160134423A
Application number: KR1020150104938A
Authority: KR
Inventors: 김용현
Original assignee: 김용현
Priority date: 2015-05-15
Filing date: 2015-07-24
Publication date: 2016-11-23
Also published as: KR101727025B1

Abstract

A process-based guided method is provided for project operators who do not have expertise in the project area to operate. A method of providing a process-based project guide according to an exemplary embodiment of the present invention includes a step of selecting a project composed of a series of tasks from a terminal of a project operator and a step of transmitting a supply request for resources required for the task to a resource matching server And transmitting the matching result to a terminal of a project manager specified by the project operator when the matching of the supply request is performed, and transmitting the matching result to the terminal of the project manager, And a step of receiving information on the information.
According to another embodiment of the present invention, a process-based project guide providing method includes: receiving a project composed of a series of tasks from a terminal of a project operator; loading process information of the selected project; The method comprising: performing a resource supply automation process for each task of the project according to information; receiving feedback information on a task being performed according to the process information from a terminal of the project manager; The method comprising the steps of: determining whether a decision item on the process information is generated; and transmitting information on the decision item to the terminal of the project operator when it is determined that the decision item has occurred, If a response is received And according to the received response according to the updated process information and updating the information, the process comprising the step of performing the resource supply automated process for each operation of the project.

Description

[0001] PROCESS-BASED PROJECT GUIDE [0002] METHOD AND APPARATUS [0003]

The present invention relates to a process-based project guide method and apparatus. More specifically, the present invention relates to a method and apparatus for providing process-based guidance to a project operator who wants to operate a project in a field without expert knowledge.

A farmer who owns a farm in the countryside, but rents a farm in the city, receives rent to the farmer in the area, or receives a portion of the harvest in exchange for rent. These farmers usually do not have expertise in the agricultural sector, so farmers are reluctant to grow their farms aggressively, even though they have farms, and farm management remains at a mere lease level.

As a result, farmers living in the city are not expected to generate active profits in farm management. This situation leads to the phenomenon that the capital of the urban area does not flow into the rural economy even when the number of idle land increases due to the decrease of the rural population.

Even in such a situation, there is no service provided to the farmer living in the city to provide guidance for the whole farming procedure so that farming can be carried out without expert knowledge. In addition, there are no services available for urban farmers to remotely carry out the farming process from selection of crops to cultivation, harvesting and sale of crops.

Such problems may occur not only in primary industries such as agriculture, fishery, forestry and horticulture, but also in operators who operate manufacturing and service industries away from their residential areas without expert knowledge.

Korea Patent Publication No. 2009-0093139

The technical problem to be solved by the present invention is to provide a method and apparatus for providing a process-based automated guidance to a project operator who wants to operate a project belonging to an industry in a field without expert knowledge.

Another technical problem to be solved by the present invention is to provide a method and apparatus for automating the supply of human and material resources required for a project to be performed according to the guidance.

Another technical problem to be solved by the present invention is to provide a method and apparatus by which a project operator can carry out a project remotely.

Another technical problem to be solved by the present invention is to provide a method and apparatus for automating management of results of each task belonging to a project.

Another technical problem to be solved by the present invention is to provide a method and apparatus for recommending a project object suitable for a project operator and automatically providing necessary financial support and various services in the process of each work.

Another technical problem to be solved by the present invention is to provide a method and apparatus for automating the progress of sales and distribution work on the result of a project.

The technical objects of the present invention are not limited to the above-mentioned technical problems, and other technical subjects not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided a method for providing a project-based project guide, comprising: receiving a project composed of a series of tasks from a terminal of a project operator; transmitting a supply request for resources required for the operation to a resource matching server And transmitting the matching result to the terminal of the project manager designated by the project operator when the matching with the supply request is performed, and transmitting the matching result to the terminal of the project manager, And receiving the data. According to another aspect of the present invention, there is provided a method of providing a project-based project guide, comprising: receiving a project having a series of tasks from a terminal of a project operator; loading process information of the selected project; The method comprising the steps of: performing a resource supply automation process for each task of a project; receiving feedback information on a task being performed according to the process information from a terminal of the project manager; Determining whether the decision item is generated, and transmitting decision-related information to the terminal of the project operator when it is determined that the decision item has occurred, when a response to the decision item related information is received, The received Depending on the answers according to the updated process information and updating the process information comprises the step of performing the resource supply automated process for each operation of the project.

According to the present invention, since a process-based automated guidance is provided to a project operator, a project operator can operate the project without expert knowledge.

In addition, the project operator has the effect of being able to automatically receive the human and material resources necessary for the project performed according to the guidance.

In addition, the management of the results of each project belonging to the project is automated, which enables the project operator to carry out the project remotely.

In addition, there is an effect that a project operator can receive a risk alarm from a service server for a specific decision item.

In addition, there is an effect that a service capable of stably operating a project in a field without expertise is provided by managing the risk of the project through the provided risk alarm.

In addition, according to the automated guidance, there is an effect that reflects the intention of the project operator in the ongoing project and the project operator.

Also, it is effective to recommend projects eligible for the project operator, and to provide the necessary services and financial support for the progress of each project so that the project can be operated stably.

It also has the effect of providing the best sales and distribution network for project operators who lack experience in sales and distribution of the project results.

1 is a configuration diagram of a process-based project guide providing system according to an embodiment of the present invention.
2 is a block diagram of a process-based project guide providing service server according to another embodiment of the present invention.
FIG. 3 is a view for explaining a process-based project guide providing system including a project monitoring apparatus according to another embodiment of the present invention.
Figure 4 is an illustration of a project monitoring device referenced in some embodiments of the present invention.
Figure 5 is an example of a process referenced in some embodiments of the present invention.
FIG. 6 is a conceptual diagram illustrating a process of changing a process applied to a project in some embodiments of the present invention.
7 is a flowchart illustrating a method of providing a process-based project guide according to another embodiment of the present invention.
Figure 8 is a flow diagram of a resource provisioning automation process in accordance with another embodiment of the present invention.
Figure 9 is an illustration of a decision input interface that is referenced in some embodiments of the invention.
FIG. 10 is an exemplary diagram illustrating a process of transferring a decision referenced in some embodiments of the present invention. FIG.
Figure 11 is an example of a modified process referenced in some embodiments of the present invention.
12 is a flowchart illustrating a method for creating a new process of a process-based project guide providing service server according to another embodiment of the present invention.
Figure 13 is an example of a sales and distribution network proposed by a process-based project guide providing service server in some embodiments of the present invention.
Figure 14 is another example of a sales and distribution network proposed by a process-based project guide providing service server in some embodiments of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. Is provided to fully convey the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

Unless defined otherwise, all terms (including technical and scientific terms) used herein may be used in a sense commonly understood by one of ordinary skill in the art to which this invention belongs. Also, commonly used predefined terms are not ideally or excessively interpreted unless explicitly defined otherwise. The terminology used herein is for the purpose of illustrating embodiments and is not intended to be limiting of the present invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification.

In this specification, a project is a business unit comprising a series of tasks. For example, the project may be rice farming. In this case, a series of operations may be operations such as rice seed preparation, rice planting, harvesting, and threshing. In some cases, the project may also include operations to sell and distribute the results of the project. For example, if the project is rice farming, the project can also include rice processing, packaging, sale and supply to the consumer.

In this specification, a project operator is a person who selects a project and has the authority to operate the project in the work area in which the project proceeds. A project manager is a person who supervises and supervises the normal performance of a process for a project when the project operator is located remotely. The project manager plays a role of transmitting the performance status of each task of the project to the terminal of the service server or the project operator. The service server and the terminals of the project operator will be described later in the description of FIG.

In this specification, a process is a sequence in which each task of a project is processed. In addition, the process information may include information on the service provided according to the information on the order and the order information of each task. That is, the process information may include various service information supported by the process-based project guide providing system according to an embodiment of the present invention in performing each task.

In addition, the process information may include condition information for each job to complete one job and proceed to the next job. In addition, the process information may include management item information of the project manager and project manager's decision information, which are matched for each job. In addition, the process information may include reference image information for a series of tasks constituting the project.

Hereinafter, a configuration and operation of a process-based project guide providing system according to an embodiment of the present invention will be described with reference to FIG.

Referring to FIG. 1, the process-based project guide providing system may include a process-based project guide providing service server 100, a terminal 200 of a project operator, and a terminal 300 of a project manager. Hereinafter, for convenience of explanation, the process-based project guide providing service server 100 will be referred to as a service server 100.

The service server 100 includes all user interfaces (UI) necessary for implementing the services provided by the process-based project guide providing system of the present invention to the terminal 200 of the project operator and the terminal 300 of the project manager . The terminal 200 of the project operator and the terminal 300 of the project manager are wired and wireless computing devices capable of Internet communication with the service server 100. The description thereof will be omitted in order not to obscure the gist of the present invention.

The project operator can select a project composed of a series of tasks from the service server 100 through the UI provided in the terminal 200 of the project operator. The service server 100 loads process information corresponding to the selected project when selection information on the project is received from the terminal 200 of the project operator. The service server 100 may perform a resource supply automation process for each task of the project according to the loaded process information. According to the loaded process information, a resource supply automation process for each task of the project can be performed.

The resource supply automation process refers to a processing pattern of resource supply-related information performed by the service server 100 in order to automatically supply required resources for each task stored in the process information to a work area in which each task is performed.

That is, the service server 100 performs a resource supply automation process so that resources necessary for each task are supplied before each task of the project is started. At this time, the service server 100 may perform the resource supply automation process for supplying resources, for each task, prior to the commencement of each task for each task constituting the project. Alternatively, the service server 100 may perform a resource supply automation process so that resources required for each task are supplied when a resource supply is required, even if each task is being performed.

In this way, the resources required to perform each task of the project can be supplied to the task area in a timely manner according to the schedule on the process information. Under the management of the project manager, each task of the project is performed using the supplied resources.

The service server 100 may provide a UI to the terminal 300 of the project manager for receiving feedback information on a work being performed. The project manager can input feedback information on each job being performed through the UI. The service server 100 may receive the feedback information and determine the status of the task being performed.

The feedback information here can include the results of the project manager managing the work by management items of each job. In addition, the feedback information may include information on the performance status of the task. Hereinafter, the case where the project is rice growing and the work in progress is an agricultural chemical spraying operation will be described as an example.

At this time, the management items of the project manager may include items asking confirmation of performance of the work, such as whether the pesticide is supplied or whether the pesticide application work has been completed in a specific work area. In addition, the information on the work performance status may include information on the result of the above-described pesticide spraying operation, the progress of the growth process of rice, and the occurrence of pest and disease.

The service server 100 can determine whether a decision item is generated based on the feedback information, and can transmit and receive data related to the terminal 200 of the project operator.

That is, when it is determined that a decision item has occurred, the service server 100 transmits the decision item related information to the terminal 200 of the project operator and receives a response from the terminal 200 of the project operator have. In addition, the service server 100 may update the loaded process information according to the received response. And may perform a resource supply automation process for each task of the project based on the updated process information.

Here, the decision-related information may include a UI for assisting the project operator in making the decision-making matters.

In other words, the decision item related information transmitted from the service server 100 to the terminal 200 of the project operator may include map information that is obtained by dividing and mapping the work area on which the task is performed by a predetermined unit. In addition, the decision-related information may include status information of a task being performed by the predetermined unit, and menu information for inputting a decision of a project operator by the predetermined unit.

The resource supply automation process performed by the service server 100 will be described in detail.

When the selection input of the project is received from the terminal 200 of the project operator, the service server 100 transmits a supply request for the resources required for each selected task to the resource matching server. The resource matching server provides a resource matching service for the resource request for the resource.

For example, a case where a supply request for a resource required for a job is a fertilizer supply request is described. The resource matching server receives the fertilizer supply request and, in accordance with the requested fertilizer supply, can transmit a purchase request for the kind and quantity of fertilizer requested to the server of the predetermined fertilizer company. In addition, when the fertilizer is purchased as the purchase request, the resource matching server may transmit a delivery command for the fertilizer purchased to the server of the predetermined shipping company so that the fertilizer purchased in the work area is delivered. When the requested resource is supplied to the work area through the above process, it can be seen that resource matching is performed by the resource matching server. The presetting for the fertilizer company or the shipping company can be performed by the operator of the resource matching server or the operator of the service server 100.

Alternatively, the operating entity of the resource matching server may have resources in advance and may also have a means of delivering it. In this case, the resource matching server performs information processing for delivering resources, which are held in advance, to a previously held distribution means in response to a resource supply request. Accordingly, when the requested resource is supplied to the work area, it can be seen that resource matching is performed by the resource matching server.

When the matching of the supply request is performed as described above, the service server 100 may transmit the matching result from the project operator to the terminal 300 of the designated project manager. In addition, the service server 100 may receive information on the result of performing the job using the matching resource from the terminal 300 of the project manager.

The service server 100 and the resource matching server can be operated by the same operator. Alternatively, the resource matching server may be outsourced to an external entity from an operating entity of the service server 100 and operated.

In this case, the resource matching server may be a server physically separated from the service server 100, but may exist in combination with the service server 100. Meanwhile, in the process-based project guide providing system of FIG. 1, 100 may provide training content for the selected project to at least one of the terminal 200 of the project operator and the terminal 300 of the project manager.

Also, in the process-based project guide providing system, the service server 100 may provide consulting information on the work being performed and the project as a whole to the terminal 200 of the project operator. The consulting information may include advice to assist the project manager in making decisions.

Also, in the process-based project guide providing system, the service server 100 stores information on materials and equipment required for each task of the project, estimated demand supply amount of the project result, May be transmitted.

Also, in the process-based project guide providing system, the service server 100 can provide a human resource service and financial support service required for each task to the terminal 200 of the project operator.

To this end, the service server 100 may store at least one program for providing a work force job search service. In addition, the service server 100 may store information on job seekers and job seekers for job search matching.

Also, in the process-based project guide providing system, the service server 100 may provide information for supporting sales and distribution of the project result to the terminal 200 of the project operator.

Here, the service server 100 may store list information on prospective buyers of the project results and information on similar projects in progress in other regions, in order to sell and distribute the project results.

The process-based project guide providing system of FIG. 1 may further include a configuration for providing services other than the configuration according to the expansion of the business model.

The service server 100 will be described in more detail with reference to FIG. The service server 100 may include a transmission / reception module 10, a process storage module 20, and a control module 30 as a computing device connected to the Internet. In addition, the control module 30 may include an image analysis module 31 and a decision making analysis module 32.

The transmission / reception module 10 supports wired / wireless Internet communication of the service server 100 and can transmit / receive various information to / from an external device (the terminal 200 of the project operator and the terminal 300 of the project manager).

The process storage module 20 stores process information for a plurality of projects, and the process information includes information on a series of operations of each project, information on various matters required during the course of each task, and information on service support items do.

In addition, the process storage module 20 can store the changes when there are process changes. The process storage module 20 may include a reference image storage module 21. The reference image storage module 21 may store reference image information.

Here, the reference image information may be standard image information of a work area photographed by a series of operations when a project is being performed based on a process. Also, the reference image information may be standard image information on the execution status of each job.

For example, when the project is a rice planting, the reference image information may be standard image information of a work area (rice field) in which the rice planting work is in progress, and simulated standard image information planted in rice fields by rice planting work.

The service server 100 can variously determine the reference image information according to the operator settings of the service server 100. The reference image information may be determined as the image information acquired at the time of the previous year's project or may be determined as the image information acquired at the time of the project in the specific reference year. Also, the reference image information may be determined as image information obtained in the course of a project that has been repeatedly performed for several years.

Also, the reference image information may be image information using statistics of feedback information accumulated for a predetermined period.

The control module 30 controls the overall operation of each configuration of the service server 100. The control module 30 may comprise a central processing unit (CPU), a microprocessor unit (MPU), a microcontroller unit (MCU), or any type of processor well known in the art. The control module 30 may store at least one application or program for executing the method according to an embodiment of the present invention.

The image analysis module 31 is a configuration for analyzing image information received from an external device (the project manager terminal 300 and a project monitoring device to be described later). The image analysis module 31 may compare the image information received from the external device with the reference image information stored in the reference image storage module 21. [ The control module 30 may determine the degree of matching between the received image information and the reference image information according to a result of the comparison between the received image information and the reference image information.

The decision-making situation analysis module 32 stores information on decision-making matters in the process. That is, the decision-making situation analysis module 32 stores information on the project manager's decision items that can be generated in the course of each task of the project. The control module 30 can determine whether the determination result of the degree of matching between the received image and the reference image information corresponds to a decision item.

In addition, the service server 100 may additionally include various configurations in addition to the above-described configuration for implementing the process-based project guide providing system of FIG. 1, and the configuration including the control module 30 is merely an example, 2 may include other configurations than those shown in Figs.

As shown in FIG. 1, the control module 30 includes a control module 30 for providing educational contents for a selected project to a terminal 100 of a project operator from a service server 100, You can save the application.

In addition, the control module 30 can store various statistical data and advice information for each task in order to provide consulting information on the task and the project as a whole to the terminal 100 of the project operator. Upon receipt of feedback information on performance, a program for dynamically generating advice based on the statistical data may be stored.

In addition, the control module 30 may store a list of materials and equipment for each task in order to provide information on materials and equipment required for each task of the project to the terminal 200 of the project operator.

The control module 30 may also store statistical data on the market conditions of the project. In addition, the control module 30 can store feedback information according to the task execution received from the terminal 300 of the project manager. In addition, the control module 30 may store anticipated climate information received via the transceiver module 10. The control module 30 can calculate the expected demand supply amount and the predicted output amount of the project result on the basis of the stored information. In addition, the control module 30 may store applications for such operations.

In addition, the control module 30 may store various information in the terminal 200 of the project operator in order to provide a manpower service required for each task. For example, the control module 30 may store statistical data of the demand force for each task. Further, when additional personnel are required according to the feedback information, the control module 30 may calculate the expected number of required persons. To this end, the control module 30 may store an application for providing the workforce recruitment service.

In addition, the control module 30 may store the information of the project for determining the scope of financial support in providing the financial support service to the project operator. The credit information of the project may include credit information of the project operator, land price of the work area, suitability information of the work area and the selected project.

On the other hand, the control module 30 may determine whether the result of the project is success or failure based on the estimated demand supply amount and the estimated output amount of the calculated project output. In this case, the control module 30 may determine the range of financial assistance to be provided to the project operator based on the determination result.

In addition, the control module 30 may store contact list information for sales and distribution networks to support sales and distribution of project outputs. In addition, the control module 30 can receive and store project status information of a plurality of other regions using the process-based project guide providing system. The other local project is a project of the same type as the project operated by the operator other than the project operator.

In this case, the control module 30 can determine an appropriate sales and distribution network on the basis of the estimated demand supply amount and the expected output amount information of the project result and the project status information in the other region.

In addition, according to the expansion of the business model, the control module 30 may further store various applications and information for providing extended services in addition to the above-described applications, statistical data, and the like.

Although the transmission / reception module 10, the process storage module 20, and the control module 30 included in the service server 100 are shown as separate components, they are merely examples, ), And may be combined with other configurations.

3 is a view for explaining a process-based project guide providing system including the system of FIG. 1 and the project monitoring apparatus according to another embodiment of the present invention.

Referring to FIG. 3, the service server 100 may provide a management item of a project manager to the project manager terminal 300, and may receive feedback information from the project manager terminal 300. The feedback information can include task-specific management items of the project manager.

The project monitoring apparatus 400 may transmit image information on the work being performed on the work area to the service server 100. [ The project monitoring apparatus 400 may transmit the image information to the terminal 300 of the project manager. In this way, when the project monitoring apparatus 400 transmits image information to the terminal 300 of the project manager, the terminal 300 of the project manager can transmit the image information to the service server 100.

In addition, the terminal 300 of the project manager transmits image information about the operation status on the work area photographed by the project manager to the service server 100, instead of only transmitting the image information received from the project monitoring apparatus 400 to the service server 100 And may transmit it to the server 100.

The image information of the task being performed may include image information of a wavelength measured in a work area of the task being performed.

That is, the terminal 300 of the project manager or the project monitoring device 400 may transmit the image information of the wavelength measured in the work area to the service server 300.

For example, when the project is cultivated crops, the light wavelength may be emitted from the cultivation environment, such as the lighting of crop plants or the soil. Also, a specific sound field may be generated from the cultivation environment. At this time, the terminal 300 of the project manager or the project monitoring apparatus 400 may measure and record at least one of the light wavelength and the sound wavelength.

To this end, the terminal 300 of the project manager and the project monitoring device 400 may further include a wavelength measurement module capable of measuring at least one of a light wavelength and a sound wavelength of a work area in which a work is being performed, have.

The terminal 300 of the project manager or the project monitoring device 400 may process the measured wavelength to generate image information of the wavelength when the wavelength is measured. In addition, the terminal 300 of the project manager or the project monitoring device 400 may transmit the image information of the wavelength to the service server 300.

When the feedback information including the item management result of the project manager is transmitted from the terminal 300 of the project manager, the service server 100 can determine the execution status of the work based on the feedback information. That is, the control module 30 can determine whether the project is progressing according to the process based on the feedback information. In addition, the control module 30 may determine the achievement of each task, the performance of each task, or whether a decision has been made by the project operator.

Here, the feedback information may include image information about a work area photographed from the project monitoring apparatus 400 or a work being performed. Accordingly, the service server 100 may analyze the received image information to determine the current status of the task. The control module 30 can compare the image information received through the image analysis module 31 with the reference image information to determine the execution status of the corresponding operation.

Figure 4 is an illustration of a project monitoring device 400. Referring to FIG. 4, the project monitoring apparatus 400 captures the current state of the work in the CCTV 420 or the work area 410 used to acquire image information on the work execution status on the work area 410 And the like.

The satellite device 440 is also an example of the project monitoring device 400. Also, the photographing vehicle for moving the work area 410 at a predetermined cycle and photographing the work execution status may also be included in the project monitoring apparatus 400. The project monitoring apparatus 400 may refer to each of the above-described apparatuses. However, the entire apparatus for photographing the operation status including at least one of the above-described apparatuses may be referred to as a project monitoring apparatus 400.

The project monitoring apparatus 400 can transmit the photographed image information to the terminal 300 or the service server 100 of the project manager as described in the description of FIG.

The service server 100 may receive the image information of the job being performed from the project monitoring apparatus 400 and may determine whether the decision information on the process information is generated based on the received image information.

Meanwhile, the project monitoring apparatus 400 may perform an operation of classifying the photographed image information by the work area before transmitting the photographed image information to the service server 100 or the terminal 300 of the project manager. According to another embodiment of the present invention, the project monitoring apparatus 400 includes a server monitoring apparatus 400 shown in FIG. 4, a server apparatus for collecting and classifying image information photographed from a plurality of the project monitoring apparatuses 400 .

5 is a view for explaining an example of process information applied to a project in some embodiments of the present invention. The process information 500 includes job schedule information of the work groups A, B, and C, and the work group A includes a series of tasks a1, a2, and a3. In addition, the work group B includes a series of operations of b1, b2, b3. Workgroup C contains a series of tasks c1, c2, c3.

In addition, the process information 500 may include resource supply information so that the service server 100 performs a resource supply automation process according to the schedule information.

In the process information 500, the areas shown in the work groups A, B, and C have different sizes, which means that the periods during which each job is performed are different. In addition, each of the jobs included in the work groups A, B, and C may also be performed in different periods. The process information 500 may include information (510 to 580) about services provided according to the schedule information in the progress of each job.

Hereinafter, the case where the project selected through the terminal 300 of the project operator is rice growing will be described as an example. When the project is selected as rice growing, the service server 100 can load the process information stored in the process storage module 20. [ At this time, it is assumed that the loaded process information is the process information 500. In addition, if the project is a rice plant, the work group A may include a planting work, the work group B may include an agrochemical spraying work, and the work group C may include a harvest work.

The service server 100 may transmit the process information 500 to the terminal of the project manager 300. [ Accordingly, the rice cultivation in the work area 410 starts from the a1 work of the rice planting work (work group A) along with the process information 500.

When the completion of the a1 job is confirmed from the project manager terminal 300, the control module 30 confirms the schedule information on the process information 500 before the start of the a2 job. At this time, the schedule information may include resource supply information matching the next schedule a2 job. The job supply information is information on resources required to perform the job a2.

It is assumed that the process information 500 includes the fertilizer supply information 510 as the resource supply information for the a2 job. The service server 100 can perform the resource supply automation process described above to supply the fertilizer to the work area 410. [

The process information 500 may include schedule information for providing various services such as a material supply 520, a channel opening support 530, and an agricultural chemical supply 540 to the work area 410. The service server 100 may perform the resource supply automation process using the schedule information and the resource supply information. This provides the workspace with the resources needed to perform each task.

The process information 500 also includes schedule information 550 for providing the output amount forecasting service to the terminal 200 of the project operator 100 before the tasks of the work group B are terminated and the operation is transferred to the work group C ). The service server 100 can transmit the information that the project operator can refer to in the future management plan to the terminal 200 of the project operator through the prediction of the yield before harvesting, such as farm equipment lending, financial support, sales and distribution.

In addition, the process information 500 may include schedule information 560 for supplying the work area 410 with a machine necessary for the harvesting process. According to this, the service server 100 may perform a resource supply automation process after the completion of the c1 work so that the work area 410 may be supplied with a machine for performing the c2 work.

In addition, the process information 500 may include schedule information 570 for supplying a material such as a bag for packing rice harvested to the buyer (Agricultural Cooperatives) after harvest. The service server 100 may perform a resource supply automation process after the completion of the c2 job so that the packaging material is supplied to the purchaser.

The process information 500 may include schedule information 580 that the service server 100 provides the project result analysis service to the terminal 200 of the project operator after the completion of the project. The above-described process information 500 is an example of the process information in the case where the decisions of the project operator do not occur during the progress of the project.

Hereinafter, a description will be given of the process in which the decision information of the project operator is generated and the process information is changed in the description of FIG. An example of the changed process information will be described later with reference to FIG.

6 is a conceptual diagram for explaining a case in which process information as a reference of project progress is changed and applied to a project during the progress of the project. Referring to FIG. 6, the project selected by the project manager proceeds (620) along the loaded process information 610. At this time, the project is carried out under the control of the project manager.

At the node B 630, the service server 100 receives feedback information from the terminal 300 of the project manager. At this time, the feedback information may include decisions of the project operator. The project operator can make decisions on the decision items through the terminal 200 of the project operator.

Accordingly, when the project manager's decision item is received (640) from the terminal 200 of the project operator in the service server 100, the control module 30 in the node A 650 transmits the decision item to the loaded process 610 ). The process information is updated accordingly, and then the project proceeds along the updated process information (620).

Hereinafter, the project progress and the process change process during the project progress will be described in detail from the viewpoint of the service server 100 with reference to FIG.

7 is a flowchart illustrating a method of providing a process-based project guide according to another embodiment of the present invention. Referring to FIG. 7, the service server 100 receives a selection of a project from the terminal 200 of the project operator (S710). As referred to in the description of FIG. 5, a project may consist of a series of tasks.

The service server 100 may load the process information of the selected project (S720). At this time, the control module 30 receives the stored process information from the process storage module 20. The loaded process information corresponds to the process information such as the process information 500 in which the decision items are not reflected. For example, if the project is a rice plant, the loaded process information may be information on the order of work progress in general agricultural progress.

The loaded process information includes resource supply information for timely supplying resources necessary for performing each task of the project. According to the resource supply information, the service server 100 may perform a resource supply automation process for supplying manpower and materials necessary for each task of the project (S725). The service server 100 may perform a resource supply automation process so that the work area is supplied with resources required for performing the work. The resources required to perform each task can be supplied according to the schedule information on the process information. Hereinafter, the resource supply automation process will be described in detail with reference to FIG.

According to the resource supply automation process of step S725, if a project is selected in step S710, the service server 100 may transmit a supply request for the resource required for each task of the selected project to the resource matching server (S727). The control module 30 can determine the resources required for each task based on the resource supply information on the process information loaded in the step S720. However, step S720 is not essential for performing the resource supply automation process.

If the supply request is matched, the service server 100 transmits the matching result to the terminal 300 of the project manager designated by the project operator (S729). Accordingly, the resources required for performing the work are supplied to the work area, and the work is performed using the supplied resources.

The service server 100 may receive information on the result of performing the job using the matching resource from the terminal 300 of the project manager (S731). At this time, step S731 may be included in step S730 of FIG.

The resource supply information includes human resource information required to perform each task of the project. In addition, the supply request for the resource may include a human resource supply request.

In step S725, the resource matching server may receive from the service server 100 the human resource information necessary for performing the tasks. The resource matching server performs job search matching based on the received human resource information, considering the capability and the number of manpower required for each job.

That is, the service server 100 may provide a service to the project operator through the resource matching server, which provides the personnel required to perform the tasks. The service server 100 may transmit the result of the job search matching to the terminal 300 of the project manager. The result of the job search matching may include information on the human resource being sought.

When the workers for each job are requested according to the job search matching, the workers perform each task of the project. The project manager manages the work performance of the worker and transmits feedback information on the performance status of each work to the service server 100 through the terminal 300 of the project manager (S730, S731).

At this time, the control module 30 can determine the number of persons required for each job based on the loaded process information. Alternatively, in addition to the loaded process information, the control module 30 may calculate the number of persons required for each job in consideration of the area of the work area in which the project operator proceeds the project.

In step S710 of selecting the project, the service server 100 may receive information on the work area from the terminal 200 of the project operator. The information on the work area may include area information on the work area.

In step S727, the control module 30 may calculate the number of people required to perform each task on the process information based on the information on each task and the information on the task area. The information about each job may be information on the number of people required for performing the job included in the process information.

The control module 30 can update the process information based on the number of persons required to perform each calculated operation.

Accordingly, in step S720, the service server 100 may load the human resource information necessary for performing the task reflecting the work area information input by the project operator.

In addition, the resource supply information includes material resource information required to perform each task of the project. In other words, the service server 100 may provide a service that matches and supplies the physical resources necessary for performing the tasks through the resource matching server, . The service server 100 may transmit the result of the material resource matching to the terminal 300 of the project manager. The result of the material resource matching may include information on the material resource for which the supply is determined.

In step S710, the service server 100 may receive information on the work area from the terminal 200 of the project operator.

In step S727, the control module 30 may determine the supply amount of the material resources required to perform the respective tasks on the process information based on the information on each job and the information on the work area. The information on each job may be information on materials, machines, and the like necessary for performing an operation included in the process information.

For example, when the work on the process information is the rice planting work, the control module 30 can determine the supply amount of the physical resources such as the base plate, the farm equipment, and the farm machinery in consideration of the area of the work area. The control module 30 may update the process information based on the determined supply amount of the material resources.

Accordingly, in step S720, the service server 100 may load the material resource information necessary for performing the work reflecting the work area information input by the project operator.

The service server 100 may perform the resource supply automation process using the updated human resource information and the updated physical resource information.

Next, the service server 100 receives the feedback information (S730), and the service server 100 determines whether the feedback information through the control module 30 corresponds to the decision matter stored in the decision item analysis module 32 (S740).

For example, if the project is a rice crop, the decision may include whether to open additional channels in response to the drought, whether to add pesticide supply and sprinkling due to pests and diseases, and so on. In addition to the above-listed examples, the decision items may include the progress of an unusual operation that is not considered in the loaded process.

Hereinafter, in step S740, it is assumed that the process information includes reference image information for a series of jobs, and the feedback information includes image information of a job being performed.

In this case, the control module 30 can determine the degree of matching between the image information of the job being performed and the reference image information corresponding to the job being performed. Also, the control module 30 can determine whether the determination result of the degree of matching corresponds to the decision item. The control module 30 may store the criteria for the degree of matching in advance.

For example, when the stored reference level is 80%, the image analysis result of the control module 30 indicates that the degree of matching between the reference image information corresponding to the job being performed and the image information of the job being performed is 70% If it is determined that they match, the control module 30 can determine that the feedback information corresponds to a decision item.

Hereinafter, the operation in which the control module 30 determines the feedback information as a decision item is described once again as an example of the case where the project is a rice growing operation and the operation being performed is a rice growing operation. The control module 30 determines that the shape and color of the rice on the image information about the growing operation of the rice photographed from the project monitoring apparatus 400 is 70% of the shape and color of the rice on the reference image information for the rice growing operation , It can be judged that the growing operation of the rice of the ongoing project according to the loaded process does not meet the standard.If the case where the growing operation of the rice does not meet the above criteria is a decision matter, The control module 30 may determine that a decision has been made.

The service server 100 may receive, for example, the discussion image information shot in the air by the drones 430 among the project monitoring apparatuses 400 of FIG. 4, as image information of a task being performed. Accordingly, the control module 30 can use the image analysis module 31 to compare the discussed image information with the reference image information. At this time, the reference image information may be reference image information photographed in the air as well as the image information photographed by the drone 430.

At this time, the control module 30 can determine that the color of the discussion image information on the reference image information, particularly, the green color of the discussion color and the image information of the photographed image match at a level of 70%.

If the criterion matching degree is 80%, the control module 30 can judge that a decision item has occurred in the work performance status based on the 70% level matching degree judgment.

In addition, the feedback information may include image information obtained from the various project monitoring apparatuses 400. [ The control module 30 may determine whether or not the decision item is generated through the image information photographed by the photographing vehicle that photographs the shape and color of the rice moving in the CCTV 420 or each area of the discussion.

At this time, the feedback information may include image information about the specific shape of the rice, and image information about the state of the pest damage occurring in the work area.

In addition, when the service server 100 acquires image information about the padding that is the work area 410 through the satellite device 440, the image information may include information about the amount of water to be discussed. In addition, the image information may include predicted weather information of a region to which the rice field belongs, and information on the possibility of occurrence of a natural disaster.

The control module 30 can determine that decision information has occurred when the image information acquired from the satellite device 440 is sufficient for water supply to the rice field and the flood is expected in the area where the rice field is located.

To this end, the reference image storage module 21 stores standard image information on the weather information on the reference image information, and the control module 30 determines whether the image information acquired from the satellite device 440 matches the standard image information Can be determined. The control module 30 can determine whether a decision item is generated based on the matching degree.

In addition, the feedback information may include image information of the wavelength measured in the work area 410. The control module 30 may receive the image information of the wavelength for the work area 410 measured from the terminal 300 of the project manager or the project monitoring device 400 as feedback information.

The control module 30 can determine the degree of matching between the image information of the received wavelength and the reference wavelength image information. To this end, the reference image storage module 21 may store reference wavelength image information for each operation being performed.

The control module 30 can determine whether a decision item is generated based on the degree of matching. For example, the reference image storage module 21 may store the reference wavelength image information and the reference standard wavelength image information as the reference wavelength image information during the growth of the rice.

In this case, if the degree of matching between the wavelength image information of the work area 410 undergoing the rice growing process and the reference wavelength image information does not meet a predetermined criterion, the control module 30 determines that decision matters have occurred can do.

The control module 30 may determine that the feedback information of the task being executed corresponds to the decision item and may diagnose the cause of the decision item. If it is determined that the feedback information corresponds to the decision item, the control module 30 may generate the decision item related information. The service server 100 transmits the decision-related information generated in the terminal 200 of the project operator (S750).

Decision-making information The decision-making information includes decisions that have occurred. In addition, the decision item related information may include information about a cause of the decision item diagnosed by the control module 30 and an appropriate action for the decision item. To this end, the control module 30 may store a table of measures for each cause of the decision.

In addition, the decision-related information may include map information in which the work area on which the job is performed is partitioned and mapped by a predetermined unit. In addition, the decision-related information may include status information of a task being performed by the predetermined unit and menu information for inputting a decision of a project operator by the predetermined unit. Hereinafter, with reference to FIG. 8, information related to a decision item will be described.

Figure 9 is an illustration of a decision input interface that is referenced in some embodiments of the invention. Referring to Fig. 9, the work area 410 may be partitioned. Project managers can organize and operate workspaces to manage the project's characteristics and work effectively, if the project is conducted in a large work area.

For example, if the project is about a primary industry, work areas such as rice fields and farms can be compartmentalized and operated. This can be applied to industrial fields other than the primary industry. For example, in the case of manufacturing, each production line of a factory can be divided and operated.

It is assumed that the project is rice growing and the work area 410 is rice. The work area 410 may be partitioned according to a predetermined unit. It is assumed that the work area 410 is partitioned into nine zones 411 to 419.

The project monitoring apparatus 400 can acquire images of the papers 410 partitioned in a predetermined unit. The drone 430, and the satellite device 440 can photograph the corresponding image information in the air. In addition, the CCTV 420, or the photographic car, can also photograph each segmented area. An image photographed in each zone through various devices as described above may be generated as image information of the papers 410 through image merging. The control module 30 may perform an image merging operation on the image received from the project monitoring apparatus 400. [

Each zone may be under different work depending on the status of the work. For example, as illustrated in the description of FIG. 5, when the A job is a rice planting operation, the work performed in the rice plant 410 is planting, but in each of the sections, different jobs a1, a2, and a3 are being performed .

Zone 411, 412, 413, 414, 416, 419 is in the process of a2 operation (e.g., a platoon operation), zone 415 remains in a1 operation (e.g., fertilizer application) (417, 418) assume that a3 work (e. G., Monitor) is started. At this time, it is assumed that the appropriate work schedule corresponding to the process information is a2.

The control module 30 may receive feedback information for each zone from the terminal 300 of the project manager or the project monitoring device 400. If the work is not performed according to the schedule information in a specific area, this may correspond to a decision matter.

Accordingly, in the case of the zones 411, 412, 413, 414, 416, and 419, the control module 30 determines that the task is being performed according to the normal schedule, and in the case of the zone 415, . In the case of the zones 417 and 418, the control module 30 determines that the job is performing faster than the zones 411, 412, 413, 414, 416, and 419 that are normally performing operations according to the loaded process information 500 .

When the service server 100 generates a decision item based on the feedback information, the service server 100 transmits the decision item information to the terminal 200 of the project operator. The terminal 200 of the project operator can display the received decision-related information.

An example of decision-related information in FIG. 9 shows a screen 800 displayed on the terminal 200 of the project operator. The screen 800 may include map information 810 obtained by dividing a work area 410 in which a job is to be performed by a predetermined unit. Also, the screen 800 may include status information (815) of work being performed for each of the predetermined units. The screen 800 may include menu information 820 for inputting the decision of the project operator by the predetermined unit.

The map information 810 may be image information of the work area 410 or processed image information thereof. Depending on the setting of the project operator, the control module 30 may change the size and number of zones displayed in the map information 810. The project operator can operate the menu information 820 through the terminal 200 of the project operator. When the terminal 200 of the project operator is equipped with a touch screen, the project operator can easily move the area by touch inputting the map information 810 and grasp the current work status information 815. An example of the job status information 815 being executed in FIG. 8 shows an image indicating that the zone 415 is performing an job a1.

The menu information 820 may include various kinds of information on decision-making matters. For example, the menu information 820 may include a state of the zone 415, link information for grasping the cause thereof, and a menu for making a decision on the cause. In addition, the menu information 820 may include a zone movement menu for viewing the status of work performed in another zone in which a decision is made, or in another normal zone.

When a project operator inputs a menu for making a decision among the menu information 820, a decision item is transmitted from the terminal 200 of the project operator to the service server 100. When a response to the decision item related information is received from the terminal 200 of the project operator, the service server 100 may update the loaded process information 500 in step S760. Alternatively, the service server 100 may generate new process information by reflecting the response.

That is, the control module 30 reflects the response to the decision item related information to the existing loaded process information 500, and updates the process information 500 to process information suitable for performing the task in which the decision item is generated can do. The service server 100 may perform a resource supply automation process for each task of the project according to the updated process information (S770).

On the other hand, if no decision has been made in step S740, step S740 branches and the service server 100 continues to process the process information 500 according to the process information 500 loaded from the terminal 300 of the project manager Feedback information on the task being performed may be received (S730).

FIG. 10 is an exemplary diagram illustrating a process of transferring a decision referenced in some embodiments of the present invention. FIG. It is assumed that the operation according to the loaded process information 500 is the operation B (the pesticide spraying operation), and the decision item is generated in the zone 415 during the operation b2 of the operation B.

Even if the pesticide spraying operation is performed, if the growth of rice in the zone 415 due to the feedback information is poor, the control module 30 can determine that decision-making matters have occurred. It is assumed that the cause of the decision on the zone 415 diagnosed by the control module 30 is a disease or a disease. In other words, even when the pesticide was sprayed according to the loaded process information 500 (task B), it is the case that the insect damage occurred while the work b2 of the task B was performed. The service server 100 can receive feedback on the growth of rice growing due to the occurrence of insect pests.

Accordingly, the terminal 200 of the project operator can receive the decision-related information from the service server 100. When the project operator accesses the link information for identifying the cause of the decision item among the menu information 820 shown in FIG. 9, the terminal 200 of the project operator can display the screen 830.

Screen 830 may include job performance status 833 and menu information 835 of zone 415.

The menu information 835 may include information on a cause of a decision item, advise information for helping decision making, and link information for accessing information on a specific action. The service server 100 may transmit the information included in the screen 830 to the terminal 100 of the project operator at the time of transmitting the decision related information.

A case in which a pest and disease has occurred (840) as a cause of generating a decision item on the screen 830 is shown as an example. Accordingly, the project operator can confirm the advise information for the decision on the zone 415, and then determine the additional pesticide supply and the additional pesticide application to the zone 415 by specific measures. The service server 100 can receive this and transmit it to the terminal 300 of the project manager.

Also, in the process-based project guide providing system of FIG. 1, the service server 100 may provide the information about the supply of the pesticide to the terminal 200 of the project operator in order to additionally supply the pesticide to the work area. The project operator can use the information on the supply of the pesticide to further supply the pesticide to the work area.

For example, the project operator can input the additional pesticide supply through the terminal 200 of the project operator according to the pesticide supply information received from the service server 100. Accordingly, the service server 100 can update the process information so as to include schedule information that the pesticide is additionally supplied to the work area. The service server 100 can perform the resource supply automation process according to the updated process information.

The resource matching server can receive from the service server 100 information on the type and amount of the pesticide requiring additional supply. Accordingly, the resource matching server attempts to match the type and amount of the pesticide. The resource matching server may acquire the pesticide to a predetermined route and cause the obtained pesticide to be supplied to the work area 410. [

The resource matching server may be controlled by the service server 100. When the service server 100 instructs the transportation system to additionally supply the pesticide, the resource matching server may further supply a predetermined amount of pesticide to the work area 410 according to the command.

The terminal 300 of the project manager can receive the pesticide addition spray command from the service server 100. [ The screen 850 is an example of a case where the received command is displayed on the terminal 300 of the project manager.

The screen 850 may include an area to be commanded and an operation execution status information 853, information on specific instructions, and menu information 860 for reporting the information. An additional pesticide spraying 855 command is shown as an example for zone 415 for five days at the command of the project operator on screen 850. The project manager can perform a task according to the command, and then transmit the report to the terminal 200 of the service server 100 or the project operator.

11 is a diagram for explaining a case where the decision of the project operator is transmitted to the service server 100 and the loaded process information 500 is changed to the process information 900 as described above with reference to FIG. 10 .

Hereinafter, the case where the first decision item and the second decision item are generated in the example of the loaded process information 500 will be described as an example. Accordingly, the changed schedule information 910, 920, 930, and 940 is displayed to be distinguished from the schedule information 510, 520, 540, 550, 560, 570 having no change according to the existing loaded process information 500 .

Herein, the first decision is made based on the loaded process information 500, while performing a3 (for example, seedling work) which is a part of the work (work of rice planting) of the work group A, ) Receives the flood prediction for the work area as feedback information. In addition, the second decision item is determined based on the loaded process information 500, during execution of b2 (for example, a rice growing operation), which is a part of the operation of the work group B (pesticide spraying operation) 100) receives information on the occurrence of the pest and disease as feedback information.

The first case of decision making should be explained first. Among the monitoring devices 400, the satellite device 440 can capture an image in the work area that is expected to be flooded with weather information. The control module 30 may match the weather image information included in the reference image information on the loaded process information 500 with the weather image information received with the feedback information. The control module 30 can determine the occurrence of decision items due to flood prediction based on the matching result. Alternatively, the control module 30 may receive meteorological information from an external server such as a meteorological office and judge the occurrence of a decision item, instead of comparing the image information.

The service server 100 may transmit the decision-related information to the terminal 200 of the project operator. The control module 30 can generate advise information recommending the addition of a channel to the decision items generated based on the feedback information. The service server 100 may transmit advise information to the terminal 100 of the project operator at the time of transmitting the decision-related information.

The project operator can make a decision to command the addition of channels and send the command to the service server 100 through the terminal 200 of the project operator according to the advise information. Accordingly, the control module 30 can update the loaded process information 500 by reflecting the received command. Or the control module 30 may generate new process information.

Referring to the updated process information 900, the number of opened schedule information 530 on the loaded process information 500 has been changed to the schedule information of the additional establishment (920) in the number of process information 900.

The control module 30 may control the schedule information to be included in the process information 900 so as to recruit 910 the workforce before proceeding with the work according to the water channel addition opening 920 schedule information. That is, when additional channels are provided, the service server 100 may provide a service for supporting the human resource search to the terminal 200 of the project operator because additional human resources may be required. The project operator can receive additional support for the workforce through the above services.

At this time, the control module 30 can determine the number of waterways to be additionally opened due to the flood prediction. In addition, it is also possible to determine the optimum number of positions by using the image information of the work area included in the feedback information. Further, the control module 30 may determine the range of the additional attraction force required based on the number and position of the additional channels determined above.

Specifically, the control module 30 can determine the moisture content, drainage capability, and the like of the working area land based on the image information received from the satellite device 440. As a result of the determination, the control module 30 can determine the number of channels required for further opening by simulating the quantity of one channel to be opened. In addition, the control module 30 can calculate the number of additional workforce according to the number of channels added by calculating the workforce per channel.

The service server 100 sends a command to continue the task (task B) according to the process information 900 including the added personnel recruitment 910 schedule information of the project and the number addition schedule 920 schedule information, To the terminal 300 of FIG.

Next, a case where a second decision is made will be described. The CCTV 420, the drone 430, or a photographing vehicle for photographing the rice of the monitoring device 400 can take an image of the degree of growth of rice in the working area.

The photographed rice image may be included in the feedback information and transmitted to the service server 100 from the monitoring device 400 or the terminal 300 of the project manager. The control module 30 may determine whether the degree of matching corresponds to a decision item as a result of matching the image of the rice included in the reference image information on the loaded process information 500 with the image of the rice received with the feedback information . Alternatively, the control module 30 may receive the report of the project manager received from the terminal 300 of the project manager to determine the occurrence of a decision item.

The service server 100 may transmit the decision-related information to the terminal 200 of the project operator. The control module 30 can generate advise information for recommending additional pesticide spraying to the decision items generated based on the feedback information. The service server 100 may transmit the advise information to the terminal 200 of the project operator at the time of transmitting the decision item related information.

10, the project manager makes a decision to command the addition of the pesticide according to the advise information, and sends the command to the service server 100 through the terminal 200 of the project operator Can be transmitted. Accordingly, the control module 30 can update the loaded process information 500 by reflecting the received command. Or the control module 30 may generate new process information.

With reference to the updated process information 900, the pesticide addition spraying 930 schedule information on the process information 900 is added to the process information 500. [ The control module 30 may control the pesticide addition supply schedule information to be included in the process information 900 prior to the pesticide additive spraying 930 schedule information when the supplied pesticide is insufficient in accordance with the pesticide supply 540 schedule information . In this case, the control module 30 can determine the amount of the pesticide to be additionally supplied or further sprayed, based on the degree of pest-disease occurrence and feedback information on the growth of rice.

On the other hand, such additional or changed schedule information may incur additional costs depending on the decision of the project operator. For example, if additional waterways are opened and the manpower is added or the pesticide application work must be carried out separately, labor costs are incurred separately, and the cost of purchasing the related materials is also required.

Therefore, project operators may need financial support for unanticipated costs incurred. Or, even if there is no added or changed schedule information, the project manager may need financial assistance during the project.

For example, the budget for planting and spraying of pesticides is reflected in the management budget, but in the case of harvesting work (work C), the budget is insufficient. In this case, the decision-making analysis module 32 may store the case where the financial support is required in the loaded process information 500 or the process information 900 as a decision item.

In step S750, the control module 30 may transmit the details of the occurrence of the financial support need to the terminal 200 of the project operator, including the decision item related information. At this time, the decision-related information may include an interface for receiving a decision on the financial support application from the project operator.

When the project operator transmits the financial support application through the terminal 200 of the project operator, the service server 100 receives the financial support application and the control module 30 can inquire past project execution history information of the project operator. In other words, the control module 30 can determine the past history of the project operator performing the project according to the method according to an embodiment of the present invention. Accordingly, when the accumulated project execution history exists, the control module 30 can determine the financial support range for the project operator based on the accumulated project execution history. For example, when the execution history is present a predetermined number of times or more and the evaluation of the project execution process is equal to or greater than a predetermined score, the financial support range may become large.

Also, the control module 30 can inquire about the valuation information of the work area in which the work of the project is performed. The control module 30 may determine the financial support scope for the project operator based on the land value of the work area. For this, the control module 30 may store information on the value of the land in the work area in advance.

In order to determine the financial support scope, the control module 30 may determine the fitness information of the project for the work area.

That is, the control module 30 may determine the financial support scope for the project operator according to the suitability of the project to the work area. For example, when the project is rice growing, the control module 30 may determine the fitness of the project with respect to the work area to be low when the mountain area is an inadequate area where rice cultivation is inappropriate. The control module 30 can determine the financial support range according to the determined fitness level.

Further, according to another embodiment of the present invention, the control module 30 may use feedback information when determining the financial support range.

That is, the control module 30 determines the received feedback information, predicts the result of the project, and determines the financial support range for the project operator.

Further, even after the financial support range has been determined, the control module 30 can use the feedback information to determine whether or not each job is performed in accordance with the standard process on the process information. And may adjust the range of the financial support determined according to the determination result.

In order to explain the method of predicting the result of the project according to the feedback information and determining the credit rating, it is assumed that the pesticide is additionally sprayed during the operation b2 according to the process information 900. [ The control module 30 may compare the image information of the rice taken from the project monitoring apparatus 400 (feedback information) with the image of the rice on the reference image information before starting the harvest operation (work group C).

In this way, the control module 30 can predict the output of the project output. If the control module 30 judges that the degree of growth of rice is superior to the reference image information, the increase in the output of the project result can be predicted. At this time, the control module 30 can compose information on the color, shape, land condition, etc. of rice on the reference image information and compare it with the image of rice on the feedback information.

If the output of the project output is expected to increase, the control module 30 may reflect this in determining the scope of financing for the project operator.

Also, according to another embodiment of the present invention, the control module 30 can determine the expected income of the project operator by analyzing the expected output amount and the expected demand supply amount for the project output. The control module 30 may determine the financial support scope for the project operator, reflecting the expected income.

The control module 30 may utilize the image information received from the satellite device 440 for the analysis of the expected demand supply of the project results. The satellite device 440 may capture image information of a project manager's project and other work areas in which a project of the same type is in progress.

The control module 30 can receive the image information of the other work area as feedback information and determine the project progress status of another work area. The project progress status of the other work area can be used to analyze the expected output amount of the project result of another work area.

In addition, the control module 30 analyzes the expected demand supply amount of the project result using the estimated output amount information of the work area, the estimated output amount information of the other work area, and the weather image information captured by the satellite device 440 It is possible.

On the other hand, the process information 900 may further include scheduler information of the vendor 940. A detailed description thereof will be given later with reference to Figs. 12 and 13.

12 is a flowchart illustrating a process of creating a new process according to some embodiments of the present invention. 7 and 12, even if the service server 100 determines that a decision item has occurred in step S740, the service server 100 transmits information about the decision item to the terminal 200 of the project operator It may not transmit. This may be the case where the project operator has delegated the decision on the decision item to the service server 100.

In step S710, the project operator may transmit a delegation setting entry for the decision item to the service server 100. [ In this case, the project is fully automated.

In any one of the steps of FIG. 7, the service server 100 may receive a decision-making delegation setting input from the terminal 200 of the project operator. In this case, the project manager makes a decision on some decision items, and the control module 30 can make a decision on the decision items that are generated after the delegation setting input is received. The service server 100 may provide an interface to the terminal 200 of the project operator to select various options for the decision-making method.

In particular, the service server 100 may provide the fully automatic mode of the decision making method to the terminal 200 of the project operator. In this case, if the project operator selects the fully automatic mode, the control module 30 judges that the decision of the project operator regarding the decision items generated in the execution of each task of the project is completely delegated to the service server 100 can do. That is, when the project operator selects the decision-making method in automatic mode, each task of the project is performed without participating in the project's decision-making.

For example, if the project is a rice plant, if the project operator selects the fully automatic mode, each operation of the rice farming is performed automatically without project manager's decision input. That is, the control module 30 automatically determines (S1010) whether or not the decision-making items generated in the entire work, from job seeking to planting, growing, harvesting, distribution and collection of rice are automatically performed. The method of determining the actions of the control module 30 for the decision items will be described in detail below.

The control module 30 may generate the process information corresponding to the matching degree of the reference image information included in the feedback information and the image information of the job being performed (S1010). Alternatively, the control module 30 may previously store various process information corresponding to the degree of image matching.

At this time, the control module 30 can previously store a table of the action for each cause of the decision. If there is no response to the decision item related information, the control module 30 can determine an action on the decision item according to the matching degree. The service server 100 may update the process information by reflecting the determined decision item (S1020).

As the process information is updated, the control module 30 can control the process information corresponding to the image matching degree for the job in which the decision item is generated to be applied to the project. The service server 100 may perform a resource supply automation process for each task of the project based on the updated process information (S 1030).

Next, we explain the authentication and sales process when the output of the project is produced. For example, if the project is rice farming, rice is harvested, and authentication and sales work are performed.

The work of the project may include an authentication of the outcome of the project. The authentication operation may be performed by a third party, and the project manager may also be a third party.

For the authentication operation, the process information may include authentication operation performing information on the result of the project. Therefore, the project manager can supervise the execution of the authentication work on the project result according to the information of performing the authentication work on the process information. The authentication job performance information may include information on an authority for authenticating the result of the project, an authentication date, an authentication method, and the like.

At this time, if the authentication operation is completed according to the process information, the service server 100 can receive authentication completion information on the result of the project in step S730.

The control module 30 may generate an authentication document according to the authentication completion information. The service server 100 may transmit the authentication document to the server of the certification authority for the result of the project.

For example, if the project is rice farming, after harvesting the rice, the project operator may be certified that the rice planting has been performed according to the quality certification or process for the rice harvested from the buyer side or the certification body side in the work area. At this time, when the authentication is completed, the project manager transmits the authentication completion information to the service server 100 through the terminal 300 of the project manager. The control module 30 accordingly generates the authentication document and the service server 100 can transmit the generated document to the server of the certification authority.

On the other hand, the work of the project described above may include sales and distribution operations. It is assumed that the buyer's terminal for the project result is included in the process-based project guide providing system of FIG. Here, the buyer may be a seller who sells the resultant to the general public.

The service server 100 can transmit the shipment information on the result of the project to the buyer's server when the result is calculated according to the project execution. The shipment information may include output information of the project result, work area information, project operator information, and shipment timing.

Further, according to another embodiment of the present invention, the service server 100 may transmit an update order of the shipping list stored in the buyer's server. The update command is for reflecting the shipment information of the project result to the shipment list.

The control module 30 may access the shopper server and store in advance the authority to update the shipment list of the shopper server. The service server 100 may transmit the update command together with the shipment information to the buyer's server.

On the other hand, the control module 30 can receive the buyer's location information from the buyer's server or terminal. The control module 30 may store list information for a plurality of purchasers in advance.

The service server 100 can transmit the shipment information to the server of the purchaser closest to the work area among the purchasers. In addition, the service server 100 may transmit packaging material delivery information for packaging the result of the project to the buyer server. The purchaser may be provided with a UI for the packaging material delivery information through the purchaser's terminal.

When the output of the project is calculated, it is assumed that packaging is required to sell the result of the project. The control module 30 may determine that the decision result is generated when packaging of the result of the project is required. The service server 100 may transmit the packaging material delivery information to the terminal 200 of the project operator as information related to decision making matters.

The packaging material delivery information may include information on the purchaser information to be delivered, the location information of the purchaser, the date and time of delivery, the quantity and type of the packaging material, and the like. In addition, the packaging material delivery information may include authentication information on the project result displayed on the packaging material.

The project operator can input the delivery decision through the terminal 200 of the project operator. Accordingly, the service server 100 may perform the resource supply automation process so that the packaging material is supplied to the purchaser server or the terminal. At this time, an identification code for inquiring the production history of the result of the project can be displayed on the outer surface of the packaging material.

The service server 100 can operate the packaging material delivery system according to the resource supply automation process. The packaging material delivery system may consist of a service server 100, a server of a packaging production company, and a server of a packaging material transportation company. When the service server 100 commands the supply of the packaging material to the packaging material delivery system, the packaging material transportation system can supply the packaging material according to the command to the position of the specific purchaser.

A plurality of project operators using the process-based project guide providing method referred to in some embodiments of the present invention can supply a uniformly-packaged project result to the market.

On the other hand, a case where the control module 30 determines the purchaser based on the expected demand supply amount without storing the list information for the purchaser in advance will be described with reference to FIG. 13 and FIG.

Suppose the project operator has a working area of the project being operated at location A. If a project of the same type as the project is in progress at another location, the other location in the same project is called location B. It is also assumed that the project at location B is operated by an operator other than the project operator.

In step S730 of receiving the feedback information, the service server 100 may receive location information (location B) of the project operated by the other operator from the terminal of the other operator. In addition, the service server 100 may receive an image of the status of the job being performed at the position B. [

In step S740, the control module 30 can determine the degree to which the image information for the job being performed at location A and the image information for the job being performed at location B are each matched to the reference image information. The reference image information is reference image information corresponding to an operation being performed at positions A and B.

That is, the control module 30 can determine the degree of matching between the image information of the task being performed and the reference image information corresponding to the task being performed (hereinafter referred to as a first matching value). In addition, the control module 30 can determine the degree of matching between the image information of the job being performed at the position B and the reference image information corresponding to the job being performed (hereinafter referred to as a second matching value). Or the control module 30 may determine the degree of matching between the image information of the job being performed at the location A and the image information of the job being performed at the location B. [

The image information of the operation being performed and the image information of the operation of the other operator may include image information of a wavelength measured in each work area. Also, the reference image information corresponding to the job being performed may include reference wavelength image information of the job being performed. Accordingly, the service server 100 can receive the measured wavelength image information as the feedback information in the work area of another operator. The control module 30 may compare the image information of the wavelength of the working area of the project operator with the image information of the wavelength of the other operator's working area with the reference wavelength image information.

If the second matching value exceeds the first matching value, the control module 30 may analyze the cause of the generated decision item based on the image information comparison result of the wavelength. In addition, the control module 30 may determine an action to change the wavelength measured in the work area in which the current operation is being performed.

In step S740, the control module 30 may compare the first matching value and the second matching value. As a result of the comparison, if the first matching value is less than the second matching degree, the control module 30 may determine that a decision has been made.

The control module 30 determines the expected amount of the project of the position A and the position B according to the degree of matching between the image of the respective project and the reference image information at the positions A and B can do.

In addition, the control module 30 can analyze the expected demand supply of the project results for each position based on the expected output of the project.

The control module 30 may generate the supply map information on the result of the project based on the comparison result of the first matching value and the second matching value and the project position information (position B) of the other operator .

For example, if the first matching value exceeds the second matching value as a result of the comparison between the first matching value and the second matching value, the control module 30 determines in step S740 whether a decision is made .

At this time, the control module 30 can generate the supply map information on the result according to the project, using the project location information of the other operator. In step S750, the service server 100 may transmit the supply map information to the terminal 200 of the project operator in the decision-related information.

Through the supply map information, the project operator can make a decision about whether to deliver the project outcome to location B.

Referring to FIG. 13, the control module 30 can determine the expected demand supply amount 1130 of the location A 1120 based on the estimated amount of the output of the project at the location A 1120. It is assumed that the expected demand supply amount 1130 for the project result of the location A 1120 is expected to be larger than the demand amount. For example, if the project is rice farming, the rice farming at location A is a good year compared to the demand.

The service server 100 receives the image information of the work being performed at the location B 1140 belonging to the same country 1110 as the location A 1120 as feedback information and the control module 30 receives the image information It is possible to determine the expected yield of the result of the test. Accordingly, the control module 30 can determine the expected demand supply amount 1150 of the location B 1140 based on the estimated yield of the project result at the location B (1140). It is assumed that the expected demand supply amount 1150 for the project result of the location B (1140) is expected to be larger than the supply amount. For example, if the project is rice farming, the rice farming at location B is more than the demand.

The service server 100 may transmit the map information 1100 including the above-described analysis result to the terminal 200 of the project operator. The map information 1100 can be referred to as a supply map information for the project operator to supply the project result to another area (location B).

Referring to the loaded process information 500 of FIG. 5 and the process information 900 of FIG. 10, the control module 30 can generate the supply map information according to the output amount prediction 550 schedule information. The project manager can use the supply map information 1100 to predict the demanded supply amount of the project result during the execution of the project. Therefore, the project operator can acquire the sales person in advance even before the project result is calculated.

The supply map information 1100 may include menu information 1160. The control module 30 can provide the expected sales volume information at the position B according to the expected demand supply volume through the menu information 1160. [ In addition, the control module 30 may provide the consumer information of location B and may provide a service for online transaction based on the consumer information. In addition, the control module 30 can provide the optimal distribution route information on the project result to the terminal 200 of the project operator through the menu information 1160.

The supply map information 1100 for supplying the project result may include information for supplying the project result to the location B as well as information for a plurality of other areas.

When the terminal 200 of the project operator receives the supply map information 1100 for supplying the project result, the project operator can select the supply of the project result to the supply area using the menu information 1160. [ To this end, the process 900 may include vendor confirmation 940 schedule information. Thus, a process-based project guide providing system referenced in some embodiments of the present invention may provide project outputs to location B if the project continues along process 900 to produce the output of the project.

Referring to Fig. 14, an example of the case where the location B (1240) is an overseas area. The description overlapping with the description of FIG. 13 will be omitted. Referring to FIG. 14, the service server 100 may provide the supply map information 1200 for the project result including the sales area in the overseas region to the terminal 200 of the project operator.

Accordingly, by using the supply map information of the project result referenced in some embodiments of the present invention, the project operator and other operators can keep the inventories according to the project results, thereby making it possible to stably operate the project.

Meanwhile, in step S710, the service server 100 selecting the project from the terminal 200 of the project operator may include transmitting the simulation result of the selected project to the terminal 200 of the project operator have.

The service server 100 may receive feedback information on the same kind of project from the terminals of a plurality of operators in advance. In addition, the service server 100 may receive feedback information on various projects in advance. The control module 30 may previously store feedback information received from a plurality of operator terminals. Accordingly, the control module 30 can perform simulation on the result of the project selected by the project operator based on the accumulated information.

The control module 30 may also store other operator's selection status for the selected project, the expected demand amount information for the selected project, and the expected output amount information of the other operators in advance. The service server 100 may transmit the simulation results of the project selected by the project manager to the terminal 100 of the project operator including the previously stored information. Accordingly, the method according to an embodiment of the present invention can provide advice to help a project operator select a project.

In the meantime, the control module 30 considers the abnormal situation in the ongoing project according to the loaded process information 500 as a decision item to be determined. However, as described above, the service server 100 can provide various decision modes to the terminal 200 of the project operator.

For example, when the project operator manually sets the decision mode, the service server 100 may transmit decision-related information to the terminal 200 of the project operator prior to performing each task of the project. In this case, the control module 30 can determine the start of each task as a decision matter.

Accordingly, the project operator may input various commands for performing the task through the terminal 200 of the project operator at the start of each task. The service server 100 may transmit a continuation command of the project according to the various commands to the terminal 300 of the project manager.

The methods according to embodiments of the present invention described above with reference to the accompanying drawings can be performed by the execution of a computer program embodied in computer readable code. The computer program may be transmitted from a first computing device to a second computing device via a network, such as the Internet, and installed in the second computing device, thereby enabling it to be used in the second computing device. The first computing device and the second computing device all include mobile computing devices such as a server device, a fixed computing device such as a desktop PC, a notebook, a smart phone, and a tablet PC.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, You will understand. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

Claims

Selecting a project composed of a series of tasks from a terminal of the project operator;
Transmitting a request for a resource for each task of the selected project to a resource matching server;
Transmitting the matching result to a terminal of a project manager designated by the project operator when the matching of the supply request is performed by the resource matching server; And
And receiving from the terminal of the project manager information on a result of performing the job using the matched resource,
How to provide process-based project guides.

The method according to claim 1,
Wherein the supply request includes a human resource supply request,
And transmitting the matching result to the terminal of the project manager,
And transmitting information on the human resources requested through the matching to the terminal of the project manager.
How to provide process-based project guides.

3. The method of claim 2,
The step of selecting the project includes:
And receiving information on a work area of the project from a terminal of the project operator,
Wherein the step of transmitting, to the resource matching server, a supply request for resources required for each task of the selected project,
Automatically determining the number of people required to perform each task using each task of the process and information about the task area; And
And transmitting a human resource provision request according to the determined number of persons.
How to provide process-based project guides.

The method according to claim 1,
Wherein the supply request includes a physical resource supply request, and the transmitting the matching result to the terminal of the project manager comprises:
And transmitting information on the material resources determined through the matching to the terminal of the project manager.
How to provide process-based project guides.

5. The method of claim 4,
The step of selecting the project includes:
And receiving information on a work area of the project from a terminal of the project operator,
Wherein the step of transmitting, to the resource matching server, a supply request for resources required for each task of the selected project,
Automatically determining a supply amount of material resources necessary for performing each of the jobs using information about the jobs and the work areas of the processes; And
And transmitting a physical resource supply request according to the determined supply amount.
How to provide process-based project guides.

Selecting a project composed of a series of tasks from a terminal of the project operator;
Loading the process information of the selected project;
Performing a resource supply automation process for each task of the project according to the loaded process information;
Receiving, from a terminal of a project manager designated by the project operator, feedback information on a task being performed according to the process information;
Determining whether a decision item on the process information occurs based on the received feedback information;
Transmitting decision-related information to the terminal of the project manager when it is determined that the decision item has occurred;
Updating the process information according to the received response when the response to the decision item related information is received; And
And performing a resource supply automation process for each task of the project according to the updated process information.
How to provide process-based project guides.

The method according to claim 6,
Wherein the process information includes reference image information for the series of jobs, the feedback information includes image information of the job being performed,
Wherein the step of determining whether or not a decision item on the process information occurs,
Determining a degree of matching between reference image information corresponding to the job being performed and image information of the job being performed; And
And determining whether the determination result of the degree of matching corresponds to the decision item.
How to provide process-based project guides.

8. The method of claim 7,
Wherein the image information of the job being performed includes image information of a wavelength measured in a work area of the job being performed,
Wherein the reference image information corresponding to the job being performed includes reference wavelength image information of the job being performed,
How to provide process-based project guides.

8. The method of claim 7,
Wherein the step of determining whether a decision item on the process information is generated, based on the feedback information,
Determining, when a delegation setting for the decision item is received from the terminal of the project operator, an action for a decision item according to the degree of matching;
Updating the process information according to the determined action; And
And performing a resource supply automation process for each task of the project according to the updated process information.
How to provide process-based project guides.

The method according to claim 6,
Wherein the step of receiving the feedback information comprises:
And receiving image information of a job and location information of a project that is similar to the project operated by the other operator from a terminal of an operator other than the project operator,
Wherein the step of determining whether or not a decision item on the process information occurs,
A first matching value that is an extent to which the image information of the job being performed matches with the reference image information corresponding to the job being performed and the image information of the job of the other operator matches the reference image information corresponding to the job being performed Determining a second matching value on the basis of the first matching value; And
Comparing the first matching value with the second matching value to determine that a decision has occurred if the first matching value is less than the second matching value;
How to provide process-based project guides.

11. The method of claim 10,
Wherein the image information of the operation being performed and the image information of the operation of the other operator include image information of a wavelength measured in each work area,
Wherein the reference image information corresponding to the job being performed includes reference wavelength image information of the job being performed,
How to provide process-based project guides.

11. The method of claim 10,
Wherein the step of determining whether or not a decision item on the process information occurs,
Comparing the first matching value and the second matching value;
Determining that a decision has occurred if the first matching value exceeds the second matching value;
Generating supply map information on the result of the project using the project position information of the other operator; And
And transmitting the generated supply map information to the terminal of the process operator.
How to provide process-based project guides.

The method according to claim 6,
Wherein the step of selecting the project from the terminal of the project operator comprises:
And transmitting a simulation result for the selected project to a terminal of the project operator,
Wherein the simulation result includes information on another operator's selection status of the selected project, estimated demand amount information on the result of the selected project, and expected output amount information on the project result of the other operator,
How to provide process-based project guides.

The method according to claim 6,
Wherein the step of determining whether a decision item on the process information is generated, based on the feedback information,
Receiving image information of the job being performed from the project monitoring device; And
Further comprising determining whether a decision item on the process information is generated based on the image information of the job being executed,
How to provide process-based project guides.

The method according to claim 6,
Wherein the decision-related information includes an interface for receiving a decision on a financial support application from the project operator,
Upon receipt of the financial support application from the terminal of the project operator in the response,
Determining a range of the financial support using at least one of past project execution history information of the project manager, value evaluation information of a work area where the project is performed, and fitness of the project with respect to the work area Including,
How to provide process-based project guides.

16. The method of claim 15,
Wherein the step of determining the range of financial assistance comprises:
And predicting a result of the project based on the feedback information to determine a range of financial support.
How to provide process-based project guides.

16. The method of claim 15,
Wherein the step of determining the range of financial assistance comprises:
Using the feedback information to determine whether each task is performed in compliance with a standard process on the process information;
And adjusting the determined range of financial support in accordance with the determination result.
How to provide process-based project guides.

The method according to claim 6,
Further comprising transmitting shipping information on the result of the project and an update command for the shipping list stored in the buyer's server to the buyer's server,
How to provide process-based project guides.

19. The method of claim 18,
And transmitting the delivery information on the packaging material for packaging the result of the project to the terminal of the buyer.
How to provide process-based project guides.

20. The method of claim 19,
Wherein the packaging material includes an indication portion of an identification code for inquiring a production history of a result of the project on an outer surface of the packaging material,
How to provide process-based project guides.

The method according to claim 6,
Wherein the work of the project includes at least one third party authentication job,
How to provide process-based project guides.

The method according to claim 6,
The decision-related information includes map information in which a work area on which the job is performed is divided into a predetermined unit and mapped, status information of a job being performed by the predetermined unit, and decision of a project operator by a predetermined unit &Lt; / RTI >
How to provide process-based project guides.