KR20170028463A

KR20170028463A - A sw engineering system for partitioning order and implementation of collaborative support

Info

Publication number: KR20170028463A
Application number: KR1020150122395A
Authority: KR
Inventors: 박병용
Original assignee: (주)지산웨어
Priority date: 2015-08-31
Filing date: 2015-08-31
Publication date: 2017-03-14
Also published as: KR101727186B1

Abstract

A software engineering system for software development is disclosed. The software engineering system for split ordering and remote development support according to the present invention comprises: a design terminal unit setting a work processor and requesting data process, thereby developing and designing software; a design support server supporting a design program screen, defining, supporting, and processing the work processor according to a request of the design terminal unit, and supporting such that the software according to the processing result is displayed on a screen; and a verification terminal verifying the software according the processing result by confirming the software through the screen and executing the same, and then establishing requirements such that the design terminal can change the work processor according to customer requirements and process data. The present invention provides an advantageous effect of reducing time for software development and verification, and improving development efficiency.

Description

[0002] Software Engineering System for Supporting Split Ordering and Remote Development [0003]

The present invention provides software development and verification time by designing and displaying the process of changing and setting according to customer's demand, data model and screen layout by prototyping method when designing program and software through split ordering and remote development method And a software engineering system for supporting split development and remote development so as to improve development efficiency.

In recent years, project clients including public institutions have been evaluating and evaluating the developed software after developing or ordering software using a split order method or a remote development system.

The split ordering method is a method that has been used mainly in civil engineering and building design and construction in the past. This is a method in which a design contractor and a construction contractor are separately ordered and a design contractor and a construction contractor are determined differently. In recent years, the PPS has been promoting the use of software designers, software developers, and software developers as a way to develop and implement software. Such a split ordering method is a way for a developer to develop a development company that must clearly finalize the required verification.

The remote development method is a system in which the software design area is different from the software development and operation area. In other words, the software is designed in detail at the remote site, while the development site in the other region develops and implements the software based on the analytical design output of the remote site. This remote development approach requires a variety of communication between the remote site and the development site.

However, when designing a program through a conventional split-ordering and remote development method, the process of modifying the designed program or software according to the result of verification is repeated after the developer or client and the customer verify the problem. there was. In other words, after the development of software, the time taken for a series of cycles to be revised and re-validated according to the verification result and requirements of the client or the customer is inevitably delayed. Therefore, the efficiency of program design through the conventional split- I could not help it.

Published Japanese Patent Application No. 10-2015-0012023 (published Feb. 20, 2013)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a method and apparatus for designing programs and software using a split ordering and remote development method, And to provide a software engineering system for supporting split ordering and remote development so as to reduce software development and verification time and improve development efficiency.

According to an aspect of the present invention, there is provided a software engineering system for supporting divisional ordering and remote development, comprising a design terminal unit for setting up a business processor and requesting data processing to develop and design software, A design support server that supports to define and support a business processor according to a request of a design terminal and to display the software according to a processing result on a screen, And a verification terminal unit for verifying that the design processor changes and processes data according to the requirements of the customer at the design terminal unit by establishing the requirements.

According to the above-described software engineering system for supporting divisional ordering and remote development of the present invention, when designing programs and software through split ordering and remote development, a process of changing and setting according to a customer's demand, a data model, and a screen layout The prototype method is implemented and displayed so that the software development and verification time can be reduced and the development efficiency can be improved.

In other words, the prototype that can verify the customer's requirements is actually implemented and displayed on the screen, and the customer can execute and check the processor according to the requirements on the actual screen, The design product can be automatically generated.

1 is a block diagram illustrating a software engineering system for supporting split development and remote development according to an embodiment of the present invention.
FIG. 2 is a configuration diagram specifically showing a design support server together with the design software shown in FIG. 1. FIG.
FIG. 3 is a diagram for explaining software definition, design, implementation, verification, and outputting process through the design support server shown in FIG.
FIG. 4 is a diagram for explaining the software verification process of FIG. 3 in more detail.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram illustrating a software engineering system for supporting split development and remote development according to an embodiment of the present invention.

The software engineering system shown in FIG. 1 includes a design terminal unit 400 for developing and designing software, a design support server 300 for supporting software to display the software, a verification terminal unit 200 for verifying designed software, .

More specifically, the software engineering system shown in FIG. 1 includes a design terminal unit 400 for designing a business processor and requesting data processing to develop and design software, a design program screen 100 and a design terminal unit 400 ), A design support server (300) for defining, supporting and processing a business processor according to the design of the business process, and displaying the software according to the process result on a screen, and a software And a verification terminal unit 200 for verifying that the design terminal unit 400 changes the business processor and can process data by establishing the requirements.

The design terminal unit 400 may be a designer's personal computer or design terminal for designing software in response to a software order. The designer executes a design program supported by the design support server 300 through the design terminal unit 400, and then performs a series of design processes such as setting a business processor and requesting data processing according to a request of a customer, Development and design.

The verification process is performed at the completion of the first software design through the design terminal unit 400. At this time, the design terminal unit 400 performs the process of changing and modifying the software by changing the business processor and requesting the data processing according to the verification result of the designed software, that is, the customer's modification request.

The design support server 300 supports the design program screen by the verification terminal unit 200 and the design terminal unit 400. At this time, the design support server 300 defines a business processor according to the design of the design terminal 400, processes the business processor, manages the business processor, and finally generates a software display screen and supports the screen .

In particular, the design support server 300 realizes software that can verify the requirements of the customer as a prototype and displays it on the screen, so that the customer can execute the processor according to the requirements on the actual screen for the finalized software Generate and support end result and source data for verification. The detailed configuration of the design support server 300 and its operation and support method will be described in more detail with reference to the accompanying drawings.

The verification terminal unit 200 may be a personal computer of a client or a customer, a design terminal, and the client or the customer checks the designed software on the screen of the verification terminal unit 200 and executes it. In addition, the design terminal unit 400 supports and verifies that the business processor can be changed and processed according to the requirements by establishing the requirements according to the execution result.

FIG. 2 is a configuration diagram specifically showing a design support server together with the design software shown in FIG. 1. FIG.

The design support server 300 shown in FIG. 2 includes a BP processing support unit 350 that performs a BP (Business Process) processing function, a process setting and support unit 310 that performs a data modeler function, A screen design support unit 330 for performing a UI Builder function, and an output support unit 340.

Specifically, the design support server 300 includes a BP processing support unit 350 for executing and processing a business process according to design and request of the design terminal unit 400, a request of the design terminal unit 400, A data processing support unit 320 for managing defined business processes and supporting data for each business process, a design tool on a program, A screen design support unit 330 for constructing a final screen of the software by supporting a UI screen design function, and a result support unit 340 for generating and outputting a guide or an output or an output according to a request of the customer.

Specifically, the BP processing support unit 350 loads a process setting and support unit 310, which is a processor modeler, as a BP (Business Process) processing engine and processes a business processor. The BP processing support unit 350 is a processor for defining tasks and defines the work flow and defines conditions and procedures for each task, which are data to be managed for each set work flow.

The data processing support unit 320 performs a data modeler function. The data processing support unit 320 defines what data is required for each task according to the task flow (menu and list) Management and support.

The screen design support unit 330 performs a UI Builder function, and supports a design tool and a UI screen design function on a program, thereby creating a final screen of software by setting a list, an inquiry, an edit screen, and the like.

Thus, the customer who verifies the software can actually implement and execute the designed software and verify it. In addition, it supports the verification and revision process repeatedly, and the generated prototyping can be verified by confirming the shape of the customer and the final system with one complete system.

FIG. 3 is a diagram for explaining software definition, design, implementation, verification, and outputting process through the design support server shown in FIG.

Referring to FIG. 3, software definition, design, implementation, verification, and output process are sequentially described. In the initial requirement definition process (S1), a system required by a customer is defined according to a request of a customer.

The AS-IS analysis process (S2) is a process of analyzing the current customer's system. The AS-IS analysis process (S1) and the AS-IS analysis process (D2) According to the analysis result, the customer can analyze and confirm the requested design business.

After that, in the present invention, the software designing process and the verification process are repeatedly performed by defining and setting a business process, supporting the corresponding data, and performing prototyping with the UI screen designing function and generating the software.

Finally, when the software design is completed, all analytical basic design artifacts presented in the ordering guide of related organizations or customers can be automatically generated and output.

In addition to the function of automatically generating the resultant or output, it is also possible to provide and share the program source so that the developer can easily modify and modify the source program as a source program. (S4) After implementing and testing the final software, you can easily modify and modify the source program as needed.

FIG. 4 is a diagram for explaining the software verification process of FIG. 3 in more detail.

Referring to FIG. 4, in the software design process, the verification process may be sequentially and repeatedly performed along with the calculation of the design result. First, in the actual screen design process ST1 for supporting prototyping, the BP process support module 350, And designing the To-Be system through the support unit 310 and the data processing support unit 320.

That is, the work flow is set through the BP processing support unit 350, and conditions and procedures for each task, which is data to be managed for each set work flow, are defined. Then, the data processing support unit 320 performs a data modeler function to define what data is required for each task according to the work flow (menu and list), manage data for each business process defined according to each task attribute Support.

Accordingly, in the prototyping screen display process (ST2), the process modeling data and the modeling screen design design information are automatically generated by prototyping, and the prototyping is executed and completed immediately without designing it separately for prototyping. In other words, the data processing support unit 320 performs a data modeler function to define what data is required for each task according to the workflow (menu and list), and the screen design support unit 330 performs an infant builder function Supports the design tool and UI screen design function on the screen to set the list, view, edit screen, etc. and create the final screen of the software.

Thereafter, the customer actually implements and executes the software and verifies the process (ST3), so that the software is directly modified at the request of the customer to design and display the actual screen.

By repeatedly performing, verifying, and designing this verification process, the prototype generated during the verification process can immediately confirm the shape of the customer and the final system with one complete system. It is also necessary to modify the process and screen data at the time of retesting, and it is possible to re-verify ST1 to ST3 in real time in sequence.

According to the above-described software engineering system for supporting divisional ordering and remote development of the present invention, when designing programs and software through split ordering and remote development, a process and data model and screen By allowing the layout to be implemented and displayed with prototyping techniques, software development and verification time can be reduced and development efficiency can be improved.

In other words, the prototype that can verify the customer's requirements is actually implemented and displayed on the screen, and the customer can execute and check the processor according to the requirements on the actual screen, Design artifacts can be automatically generated.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the following claims And changes may be made without departing from the spirit and scope of the invention.

100: design program screen 200: verification terminal unit
300: Design Support Server 310: Process Setup & Support
320: Data processing support section 330: Screen design support section
340: Result support part 350: BP processing support part
400: design terminal unit

Claims

A design terminal unit for setting up a business processor and requesting data processing to develop and design software;
A design support server that supports a design program screen and defines, supports, and processes a business processor in response to a request of the design terminal unit, and displays software corresponding to a process result on a screen; And
A verification terminal unit for verifying the software corresponding to the processing result on the screen and executing the software to establish a requirement so that the design terminal unit can change the business processor according to the requirement and process data;
Software Engineering System for Split Ordering and Remote Development Support.

The method according to claim 1,
The design support server
A BP processing support unit for executing and processing a business process according to design and request of the design terminal unit;
A process setting and support unit for defining and supporting a business process according to a request of the design terminal unit and a process of the BP processing support unit;
A data processing support unit for managing the defined business process and supporting the data for each business process;
A screen design support unit for supporting a design tool on a program and supporting a UI screen design function to configure a final screen of the software;
A result support unit for generating and outputting a result or an output according to a guide of the related organization or the request of the customer;
Software Engineering System for Split Ordering and Remote Development Support.

The method according to claim 1,
The design support server
Defining a system requested by a customer according to a request of a customer, defining an initial requirement, analyzing a system currently operated by the customer, determining a design project requested by the customer,
By defining and setting the business process and supporting the corresponding data, prototyping is performed and created by the UI screen design function, so that the software design process and the verification process are repeatedly performed, and then the analysis basic design product is automatically generated,
A software engineering system for split-order and remote development support to support and share program source so that developers can easily modify, modify and use it as a source program.

The method according to claim 1,
The design support server
After designing the To-Be system through the actual screen design process supporting prototyping,
Process modeling data and modeling screen design Design information is automatically generated by prototyping, and it is possible to execute and complete prototype immediately after design without having to develop separately for prototyping,
Software engineering system for supporting divisional ordering and remote development that enables customers to actually implement and execute software to verify and modify the software according to customer's request and to design and display it on actual screen.

The method according to claim 1,
The design support server
After defining the work flow and defining the condition and procedure for each job, which is the data to be managed according to the set work flow, the data modeler function is performed to define what data is required for each job according to the work flow,
It supports the program design tool and the UI screen design function by performing the infant builder function, thereby setting the list, the inquiry, the edit screen, etc., and creating the final screen of the software,
Software engineering system for supporting divisional ordering and remote development that enables customers to actually implement and execute software to verify and modify the software according to customer's request and to design and display it on actual screen.