KR20120025044A - Software development and design system base on online-outsourcing - Google Patents

Abstract

PURPOSE: A software development and a design system based on online outsourcing are provided to perform smooth task through systematic information share. CONSTITUTION: An application server(20) includes an information transmission module(22). The information transmission module generates an information matrix. The information transmission module generates a new information matrix through the selection, removal, and merge of the generated information matrix according to data selection information. The information transmission module transmits the generated information matrix to a corresponding client. A database(30) stores software development related data which is from the application server.

Description

Software development and design system based on online outsourcing {SOFTWARE DEVELOPMENT AND DESIGN SYSTEM BASE ON ONLINE-OUTSOURCING}

The present invention relates to software development, and more particularly, online outsourcing-based software development and distribution that can be distributed and notified on-line software development and design work, and integrated management of the software development process based on the unspecified number of developer verification It relates to a design system.

The biggest problem with current software production methods is that there are so many things that people, developers, must do. In today's software development process and development work using the tools used for development, developers must perform source coding tasks to implement business logic under the direction of the requester (business executive) or software designer. All functions such as database I / O, hardware control, operating system control, and security management needed to implement business logic must be created for each module.

In a nutshell, this may not seem like a great deal of work, and it may seem too natural for those who are used to the existing technology paradigm. Exists.

The first false premise is that the developer receives instructions from the claimant. Of course, this is inevitable given the development tools and platforms used so far. However, business practitioners who have accepted this as a matter of fact, who have a long experience and knowledge of the business and clearly understand the functions that business software should perform (when these people become demanders when developing business software). This has caused a variety of problems in the actual development and use of software because of the need to address requirements to developers with skills in handling complex and difficult programming languages. Aside from the problems that arise from communication between two completely different tiers, both basic knowledge and mindset, as well as the professional skills they possess, they do not know the business logic that is the core competency in software development for business. The fact that all the practical work is done by professional developers is in itself a bigger problem.

Republic of Korea Patent No. 10-0633478 'Software development system and its development method based on a professional operating system for business' is disclosed. This is a software development system that enables users who are new to programming languages to produce application software by defining only the document contents (interface screens, etc.) and business logic necessary for business activities using automated tools. Then, it will be described in detail based on the accompanying drawings as follows. First, FIG. 1 shows a functional block of a software development system 1 based on a conventional BOS. The software development system 1 based on a "business specialized operating system" (hereinafter referred to as a business operating system (BOS)) includes a business object storage unit 2, a business object operation attribute setting unit 3, and program execution. It comprises a unit (4) and operating environment connection (5). In addition, the lower device controlled by the system 1 includes a CPU 81, a memory 82, an operating system (O / S) 83, a DBMS 84, a network 85, and the like. It comprises a business object motion information storage file (6), which can be called a core information file generated in units. The business component storage layer 2 stores at least one business standard object constituting a software program. Here, the business standard object is an object selected by the user to perform business logic and is an object that is displayed graphically to the user and has a specific function. When the user implements the interface screen, the business object operating attribute setting unit 3 selects a necessary object from among the business objects stored in the business object storage unit 2 and arranges it on the screen. It is possible to set the attribute information including the detailed type of the object, operation method, execution condition, execution order and DB connection information. In addition, after the developer configures the interface screen, the business object operation attribute setting unit 3 generates a business object operation information storage file 6 which is a separate structure data file by binding only the setting information of the screen. The Application Program Execution Layer 4 reads the business object operation information storage file 6 when the developed software is actually operated, interprets the information set by the developer, and then stores the required business object. It operates according to the setting information defined by the business object storage unit 2. The environment abstraction layer 5 may include a CPU 81, a memory 82, an operating system 83, and a DBMS 84 according to the attribute information set when the software is executed by the program execution unit 4. Control the BOS subsystems, such as network 85, to take advantage of each unique function. As described above, a part of defining a system (1) based on a conventional BOS according to a function required for a physical storage of a business object (business object storage unit 2) and an interface screen for developing an operation attribute of a business object (business object Operation attribute setting unit (3), a part for controlling the operation related to the business logic performed by the business object (program execution unit (4)) and a separate part for controlling only the subsystem commonly used by business objects (operating environment connection unit) (5)) to minimize the duplication of software development work and operational inefficiency. Therefore, in the conventional software development system, the process of designing a task through the GUI interface by a practitioner who is familiar with the task is directly related to the software development process, and most of the functions are provided in advance in the BOS or automatically implemented. The development speed is dramatically improved, and the mechanism functions that control the hardware and the operating system and the business logic that is the core of the application are completely separated to realize the systematic accumulation of knowledge and increase the efficiency of software development and operation. However, since the software development environment is formed based on the GUI as described above, a person having no development experience or knowledge can easily participate in the development, so the scope of software development for outsourcing is inevitably limited. Software development involves planning, developing, and designing, and then fusion of each developed software module in one program. Even if a GUI-based development tool is provided, it is only a small part of development. This does not increase the efficiency of development.

The present invention was created to solve such a problem, and an object of the present invention is to integrate the overall software development system so that smooth work can be performed through systematic information sharing between related organizations (management, development, support, business). In addition, it provides an online outsourcing-based software development and design system that can formalize the request and provision of technical support, test, manual, and design service for development software.

Online outsourcing-based software development and design system according to an aspect of the present invention for achieving the above object, in the networked client / server method software development support system, using the login information input from the client to verify the user A user authentication module for granting system use rights according to a user; At least one or more functional modules which are broken down by unit of software development and provide management and sharing of information on the whole process from planning to production, and which are operated independently from other functional modules; In response to the request for information of the client authorized to use the data, the data is received from the corresponding function module to generate an expandable information matrix, and the selection, removal, and merging of the generated information matrix according to the data selection information at the time of the information request is performed. An application server configured to generate a new information matrix and transmit the new information matrix to a corresponding client through the information transmission module for integrating and linking the function module; And a database storing and managing software development related data transmitted from the application server.

In the online outsourcing-based software development and design system proposed in the present invention, by integrating the project management aspect and the system modeling aspect when developing a software system, an administrator can make a quick and easy decision on project management, and a developer can This work is performed through a predefined tool according to the work schedule, and the resultant document is registered and approved online, thereby improving efficiency and productivity in project execution.

In addition, the ability to verify the consistency between models in the modeling support editing tool enables the tool user to immediately check the consistency between the diagram and the components they are working on, thereby reducing logical errors in the modeling process. The automatic verification has the effect of efficiently modeling the system.

1 is a block diagram illustrating a conventional software development method.
2 is a block diagram for software development and design according to the present invention.
3 is a flowchart illustrating a software development integration support process according to the present invention.
FIG. 4 is a diagram illustrating a module for each function for executing FIG. 3.
5 is a flowchart for explaining a software development procedure according to the present invention.

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

2 is a block diagram illustrating a software development and design environment based on online outsourcing according to the present invention. First, it is composed of a client 10, an application server 20, and a database 30 connected by a network. Users may access the application server 20 through the Internet or an intranet using the client 10 supported by a TCP / IP network to execute software development related information and services.

The application server 20 includes a user authentication module 21 for confirming a user with login information input from the client 10 and granting a system use right according to the user; At least one functional module (23 to 28) which is divided into software development business units and provides management and sharing of information on the whole process from planning to production; In response to a request from the client 10 to which the use right is granted, the data transmission module 22 receives data from at least one corresponding function module 23 to 28, processes it, and transmits the data to the corresponding client 10. It is.

The database 30 stores software development related data transmitted from the application server 20, and provides the stored data to the application server 20. Software development and design environment according to the present invention is based on the application server 20 to support the Internet, intranet, distributed environment and component environment, if the database 30 exists outside the system through the TCP / IP network Each function module is structured to operate in a physically separate system.

The functional modules 23 to 28 are divided into software development task units to provide management and sharing of information on the entire process from planning to production. The software information management module 23, the technical support management module 24, The development resource management module 25, the shipment information management module 26, the logistics management module 27, the design support management module 28, etc. are comprised.

The software information management module 23 manages and provides development software and submodule information. The technical support management module 24 informs the technical information of the corresponding software about the technical support request made by the requestor when a technical request or a problem occurring in each software development occurs, and the technical support procedure is received. It provides a function that enables the stakeholders to check the whole process from completion to completion.

The development resource management module 25 manages detailed information on hardware and software necessary for software development, and provides information on hardware and software resources input to the development software to enable efficient resource management. The shipment information management module 26 manages and provides information such as defects, defect rates, and inspection schedules generated during a shipment process or a product test process of the developed software.

The logistic management module 27 manages and provides logistical task information related to product manuals and commercialization of the developed software. The design support management module 28 manages and provides design support information such as a design request required for software development, a design request processing result, and the like. Here, each of the functional modules 23 to 28 stores the information received from the administrator of the module, through which the relevant persons can be provided with the information service of the currently developed software. The information of developed software is classified and managed by version, submodule, and type of information, and can be inquired by related organizations that need information.

Here, each of the function modules 23 to 28 is integrated around the development software information due to the characteristics of the service provided by the system, so that the function modules 23 to 28 are shown to be dependent on the development software information. However, internally, each functional module 23 to 28 divided into a function or a task unit is designed not to depend on other functional modules, so that the functional modules can operate independently from other functional modules.

However, since the role of integration or linkage of the function modules 23 to 28 in the system is performed through the information transmission module 22, each function module 23 to 28 is dependent on the information transmission module 22. Therefore, when adding, changing, or removing each functional module, only the compatibility with the information transmission module 22 needs to be considered, so that the maintenance of the functional module is easy.

The functional modules 23 to 28 are subdivided internally for systematic information management. For example, the information processed by the software information management module 23 is as follows.

<Basic Software Information>

-Software ID, Software Name, Development Department, Software Type, Development Overview

<Software submodule information>

-Software ID, Submodule ID, Module Name, Development Team, Module Version, Language, Platform Information, Development Overview

<Detailed technical information of software submodule>

-Submodule ID, Development OS, Development HW, Development Platform, Development Language, Development Tools, Core Technology, Application Technology, Additional Technology

<Status of Software Development Personnel>

-Submodule ID, development manager, designer, developer, developer (outsourcing)

In each of the classified information, various ID fields are main key values, and other fields may also serve as key values in the system.

3 is a flowchart illustrating a software development integration support process according to the present invention, in which a person concerned with software development accesses a software development integration support system according to the present invention and selects a desired function module (23 to 28). It shows the overall flow of the process of performing a task or querying information.

The user connects to the software development integration support system (ie, the application server 20) according to the present invention through the network using the client 10, and inputs login information (ID, Password) (S200). The user authentication module 21 confirms the user through the received login information and grants the system use authority according to the user (S201). When the user authentication is normally performed, the work menu is output (S202). When the user selects a work menu that is limitedly available according to the use authority, the related function module (23 to 28) is selected (S203, S204) to execute the necessary service to perform a task or to query the information (S205 ~ S210). When the service of the other function modules 23 to 28 is to be executed (S211), the function module 23 to 28 is selected again to execute the service.

4 is a diagram illustrating an example of software development according to the present invention.

Referring to FIG. 4, the information managed in the system is mutually transmitted from each function module 23 to 28 and transmitted to the client 10 through the information transmission module 22. The transmitted information has a certain format through the information transmission module 22. In the information transmission module 22, data fields generated by the respective function modules 23 to 28 are formed into an expandable multi-matrix data structure. . Step by step, the function modules 23 to 28 read the information data requested by the other function modules 23 to 28 or the client 10 and sequentially transfer the information data to the information transmission module 22 in such a manner as to list them. The information transmission module 22 cuts a series of data to be transmitted into meaningful information units to form a matrix, and then transmits the data to other function modules 23 to 28 or the client 10. In addition, even if two or more characteristics require processed information from different function modules (23 to 28), the process of creating a matrix is the same. Will be sent. Therefore, even when it is necessary to receive and process information from other function modules 23 to 28, it is possible to select and utilize only the data of the required field received in the data matrix.

In FIG. 4, white arrows indicate directions in which information can be transmitted, and black arrows indicate current transmission directions of data. When the technical support management module 24 requests the necessary software information and resource information, the data 123 generated by the software information management module 23 and the data 125 generated by the development resource management module 25 are respectively sequentially. The information is transmitted to the module 22 for processing (selection → removal → merging), and the information 224 of the multi-matrix data structure thus generated is transmitted to the technical support management module 24.

5 is a flowchart illustrating a process from the information request of FIG. 3 to the provision of information in detail. Referring to FIG. 5, the information request module refers to a function module 23 to 28 selected in FIG. 2, and the selected information providing module refers to a function module 23 to 28 that provides information requested by the information request module. In this case, the information requesting module may also be an information providing module. Thus, the function requesting module 23 to 28, which is the selected information providing module, also includes an information requesting module.

In FIG. 3, a client selecting a function module 23 to 28 according to a task inputs request information to request information. The selected function module 23 to 28 having received the request information of the client selects the information providing module according to the request information and transmits a key / key field / field for the information required by the selected information providing module to transmit the information request. do. The selected information providing module searches for information based on the transmitted key / key field / field value and checks whether the request information exists. If the request information exists, the data field is selected to read the data, and the read data is transmitted to the information transmission module 22. If the request information does not exist, data indicating the absence of information is transmitted. The information transmission module 22 receiving the data from the information providing module checks whether data exists in the received data, processes the data if the data exists, and transmits a data reception confirmation signal to the information request module. The information request module confirming the data reception confirms whether additional information is needed, and if no additional information is required, the information transmitting module 22 transmits the completed information to the information request module. If additional information is needed as a result of checking the additional information, the information requesting module requests information from the other information providing module in the same manner, and the information transmitting module 22 receiving the data transmitted from the other information providing module is after processing the data. In addition, after confirming whether the additional information is additional information, the newly added information is merged with the preprocessed data through the data merging process to complete the information. The completed information is transmitted to the information request module and output to the corresponding client who requested the information.

As an example of FIG. 5, a process of requesting technical support by selecting a technical support management module 24 to solve a problem occurring in a software development process will be described below.

The technical support management module 24 reads basic information necessary for a technical support request from another function module, and requests additional information through a technical support application input by a user. The technical support management module 24 requests basic information, technical information, and hardware / software information of the software under development by the user belonging to the software information management module 23 and the development resource management module 25 for technical support basic information. do. The software information management module 23 that has received the information request completes the process by transmitting the software submodule information and the technical information to the information transmission module 22 using the team of the user as the key value. Next, if the hardware / software information being used by the development software is requested to the development resource management module 25 using the software submodule information as a key value, the development resource management module 25 retrieves the data and transmits the data to the information transmission module 22. To the end of the process. Data received from the two modules 23 and 25 is generated as information requested by the information transmission module 22 through a process (selection, removal, merging).

The technical support management module 24 reads the generated information and displays it on the application screen, and is registered in the system as technical support application input data along with additional information input by the technical support applicant.

Therefore, information processing (selection → removal → merging) using an information matrix can be performed independently for each module, and information matrices generated from data received from two or more modules merge a matrix through a given key field value. In the process, by selecting the desired field (O mark) of each matrix, unnecessary information (X mark) is naturally removed to create a new information matrix.

When the information matrix generation is completed, the information request module passes the matrix and the matrix information so that the desired data can be read and processed. In the case of a multi-dimensional matrix, access to individual elements is possible by combining numbers and field or index names of the corresponding data, and in the case of a 2-dimensional matrix, only numbers using information nodes can be used.

10: client 20: application server
21: user authentication module 22: information transmission module
23: Software Information Management Module 24: Technical Support Management Module
25: development resource management module 26: shipping information management module
27: Logistics Management Module 28: Design Support Management Module
30: database

Claims (2)

In the client / server network software development support system,
A user authentication module for confirming a user by using the login information input from the client and granting a system use right according to the user;
At least one or more functional modules which are broken down by unit of software development and provide management and sharing of information on the whole process from planning to production, and which are operated independently from other functional modules;
In response to the request for information of the client authorized to use the data, the data is received from the corresponding function module to generate an expandable information matrix, and the selection, removal, and merging of the generated information matrix according to the data selection information at the time of the information request is performed. An application server configured to generate a new information matrix and transmit the new information matrix to a corresponding client through the information transmission module for integrating and linking the function module; And
On-line outsourcing-based software development and design system comprising a database for storing and managing software development-related data transmitted from the application server. The method of claim 1, wherein the function module,
A software information management module for managing and providing development software and submodule information; A technical support management module for providing technical information of the corresponding software with respect to technical requests or problems occurring in software development;
A development resource management module for managing and providing detailed information about hardware and software necessary for software development; A shipment information management module that manages and provides defects, defect rates, and inspection schedule information generated during a shipment process or a product test process of the developed software;
A logistic management module for managing and providing logistical task information related to product manuals and commercialization of the developed software; And
An online outsourcing-based software development and design system comprising a design support management module for managing and providing design support information such as design requests required for software development and design request processing results.

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