KR20110076142A - Management system of service periodic table and product method of service periodic table - Google Patents

Abstract

PURPOSE: A system for managing a periodic table of services and method for generating the periodic table of services are provided to enable a user to easily understand a configuration of a ubiquitous service by schematizing information about whether the ubiquitous service is realized by combining some IT techniques by a service periodic table. CONSTITUTION: Field code data is given to a plurality of integrated services fields. Service code data is given to individual service fields according to an individual integrated service field. Technique code data is given to each individual technique field(S03). Applied service code data is obtained according to each applied service applied to the embedded service field(S04). Applied service code data of the applying service which is applied to the embedded service field is read. The read data is displayed on a GUI(Graphic User Interface) screen of a user(S05).

Description

MANAGEMENT SYSTEM OF SERVICE PERIODIC TABLE AND PRODUCT METHOD OF SERVICE PERIODIC TABLE}

The present invention relates to a service periodic table management system, and more particularly, by classifying the service areas of the past and the present and the technical fields for realizing the service by item, so as to grasp the development direction of services and technologies for each field. Generates charts and classification data that arrange services and technologies according to the specifications of each item corresponding to the characteristics of each technology to classify the characteristics of services and technologies, and uses these data to predict the main points of future technology development Periodic Table Management System and Service Periodic Table Generation Method.

In general, the development of technology will evolve and change with the development of humanity.

Particularly in the modern and modern times, technology is highly developed, and with the use of simple tools, electronic related technologies, chemical related technologies, and life related technologies are being developed.

In recent years, these technologies are being combined with each other and advanced, and are being comprehensively made for more human convenience.

The details to support this include the technology of the sensor that can detect the state of technology, the automatic convenience device technology that operates by detecting the sensor detected, and the network technology for the operation of these sensors and automation facilities integrated with each other. And the like.

However, it is common for each technology to operate independently of each other, and in this state-of-the-art technology that operates independently and independently, overlapping parts of each technology or duplicate data generated by not forming a network, even though some networks are formed Problems due to the compatibility of the data also act as an inhibitor.

In particular, in addition to the ubiquitous system using advanced technologies, U-Eco City's services and technologies are required to make living and living environments convenient and comfortable. Future services and technologies that will be applied to this, and the solution of current services and technologies will need to be addressed.

However, it is difficult to classify services and technologies to be applied to U-Eco City, because it is difficult to know the flow of the past and present services and technologies, and it is difficult to easily distinguish them.

In particular, the criteria for evaluating and classifying the services and technologies for realizing such an U-Eco City or the items of evaluation are difficult to calculate, and thus, many technical difficulties must be solved to realize the U-Eco City.

The present invention for solving the above problems by classifying the past and present service field and the technical field for realizing the service by item, to grasp the development direction of the service and technology for each field, the characteristics of each technology By identifying the characteristics of services and technologies by creating charts and classification data that arrange services and technologies according to the specifications of each item with the corresponding items, it is easy to predict the points of future technology development using these data. The purpose is to.

In particular, it is possible to easily understand the composition of ubiquitous service by diagramming what IT technologies are combined to implement ubiquitous service.

In addition, various services and technologies are applied to U-Eco-Citi, and it is easy to look at the technologies applied to these main services, and it is easy to know what functions each element technology plays in a specific service.

In addition, it is possible to observe the change in the importance of each item to be considered in the evaluation process when the main technology plays a role in the service and when the same technology is applied to different services.

Service periodic table generation method using the service periodic table management system according to the present invention for achieving the above object, to calculate and input the service field data and technical field data of the service periodic table management target and stored in the memory unit 20 Service period table management target selection step (S01) to be made; An integrated service calculation step (S02) of integrating and displaying a plurality of service field data and a plurality of technical field data so that the integrated service field data of the service is calculated and the integrated service field data is stored; Field code data is assigned and stored for each integrated service field, service code data is assigned and stored for each service area according to individual integrated service field, and code for granting and storing technology code data for each technology field Grant step (S03); Applied service code granting step (S04) to be applied and stored by the applied service code data for each applied service applied to the field of the embedded service provided by the service periodic table management target; The application service code data of the applied service applied to the embedded service field is read and displayed as one side of the user's GUI screen, and the technical code data of the individual technical field is read and displayed on the other side of the user's GUI screen. Service display step (S05) to be displayed on the GUI screen of the user according to the applied service code and technology code is characterized in that it is provided.

Accordingly, the service field data may include traffic service, facility management service, environmental service, crime prevention service, disaster prevention service, and education service, and the service display step corresponds to a technology selected to be displayed among individual technical fields. The technology code data may be extracted to be displayed on the GUI screen, and the applicable service code data may be extracted to be displayed on the GUI screen for the application service selected to be displayed among the application services in the respective embedded service field.

In another aspect, the present invention, the service periodic table management target selection step (S01) for calculating and selecting the service field data and technical field data for one or a plurality of service periodic table management targets; An integrated service calculation step (S02) of allowing a plurality of service field data and a plurality of technical field data to be displayed integrated so that an integrated service field of a service is calculated; Code granting step (S03) to be given a field code for each of a plurality of integrated service sectors, a service code is provided for each individual service field according to an individual integrated service field, and a technology code for each individual technical field; Applied service code granting step (S04) to be applied to the applied service code for each applied service applied to the field of embedded services provided by the service periodic table management target; The service display step of displaying the applied service code of the applied service applied to the embedded service field on one side, the technology code of the individual technical field on the other side, and the individual service is displayed by the applied service code and the technology code ( S05) may be provided to include a service periodic table generation method characterized in that it is provided.

Furthermore, the present invention provides a service periodic table management system for controlling the service periodic table data to be displayed in the service periodic table generation method, wherein service field data and technical field data of a service periodic table management object are input through an input unit 12. An input data management unit 13 to be stored in the memory unit 20; An integrated data extraction engine 14 for classifying service field data and technology field data read from the memory unit 20 to extract and store integrated service field data; A code assigning engine 15 for assigning and storing individual codes for service field data, technical field data, integrated service field data, and embedded service field data read from the memory unit 20; A display engine 16 for extracting selected data to be displayed for each data stored in the memory unit 20 to be displayed on the GUI screen 17 or to be output to the printing apparatus 18; The service periodic table management system is characterized in that it comprises a main controller 11 for controlling the input data management unit 13, the integrated data extraction engine 14, the code applying engine 15, the display engine 16 Can be provided.

The present invention, which is configured as described above, by categorizing the past and the current service field and the technical field for realizing the service by item, it is possible to grasp the development direction of the service and technology for each field, corresponding to the characteristics of each technology By distinguishing the characteristics of services and technologies by generating charts and classification data that arrange services and technologies according to the specifications of each item as items, it is an excellent effect that makes it easy to predict the point of future technology development using these data. There is.

In particular, it is easy to understand the composition of the ubiquitous service by diagramming what IT technologies are combined to implement the ubiquitous service.

In addition, various services and technologies are applied to U-Eco-Citi, and it is easy to look at the technologies applied to these main services, and it is easy to know what function each element technology plays in a specific service.

In addition, it is possible to observe the change in the importance of each item to be considered in the evaluation process when the main technology plays a role in the service and when the same technology is applied to different services.

Hereinafter, with reference to the accompanying drawings will be described in detail.

1 is a schematic configuration diagram of a service periodic table management system according to the present invention, FIG. 2 is a control flowchart for a service periodic table management system according to the present invention, and FIGS. 3 to 6 are data input for a service periodic table management target business district. 7 to 9 is an example of an embedded that can be applied in the UCT, Figure 10 is a service example in the UCT, Figure 11 is a business district illustrated in the service periodic table management system according to the present invention 12 is an exemplary view of a service field code in a service periodic table management system according to the present invention, and FIG. 13 is an illustration of a sensing code in a service periodic table management system according to the present invention. 14 is an exemplary diagram of an applied service code in a service periodic table management system according to the present invention, and FIG. 15 is a service periodic rate according to the present invention. An illustration of the service periodic table for the table management system is shown.

In other words, the service periodic table management system and the service periodic table generation method according to the present invention, as shown in Figures 1 to 15, the service that can be applied and operated in the U-Eco City and technical matters related to the service of the U-Eco-Citi In order to make it easier to see and distinguish the information on the service periodic table, it is to be displayed and classified.

The type of service indicated by the service periodic table management system is a service that can be operated and provided in U-Eco City (U-Eco City, Ubiquitous Eco-City). Such as may be provided.

In each service provided by the U-Eco-Citi, technologies for realizing the service should be provided together.

Therefore, in order to realize U-Eco-Citi, it is possible to realize which service and which technology are connected, and which technology is applied to the service to be used in U-Eco-Citi, which is to be operated, and the form of the technology. Should be.

Among them, the service periodic table management system according to the present invention generates a service periodic table, based on the services operated or adopted in the business districts known to be applied or operated by U-Eco-Citi and on the technology applied for the realization of these services. It is to provide a system and a method of providing a service for identifying the main services and the technologies for these services.

In particular, in the provision of services according to the realization of U-Eco-Citi, a service periodic table is provided so that the relationship between each service technology field and the sensor technology field can be easily seen and distinguished.

First, referring to FIG. 1, a service periodic table management system 10 for generating a service periodic table for services to be applied and operated in the U-Eco-Citi and technologies to be realized for the realization of these services will be described.

Accordingly, the input data management unit 13 is provided through the input unit 12 so that service field data and technical field data of the service periodic table management target are input and stored in the memory unit 20. Thus, a process of inputting data on a service, a technology, or the like as shown in FIGS. 3 to 6 is performed and stored.

In addition, an integrated data extraction engine 14 for classifying service field data and technical field data read from the memory unit 20 to extract and store integrated service field data is provided. The integrated data extraction engine 14 may classify a plurality of services and a plurality of technologies as shown in FIGS. 10 and 11.

In addition, a code granting engine 15 is provided to store and store individual codes for service field data, technology field data, integrated service field data, and embedded service field data read from the memory unit 20. Accordingly, codes for each service and technology will be given by the code granting engine 15 as shown in FIGS. 12 to 14.

In addition, a display engine 16 for extracting selected data to be displayed for each data stored in the memory unit 20 to be displayed on the GUI screen 17 or to be output to the printing apparatus 18 is provided. Similarly, the service periodic table may be displayed on the GUI screen of the administrator or the user or may be output to the printing apparatus 18.

Of course, the main controller 11 and the memory unit 20 for controlling the input data management unit 13, the integrated data extraction engine 14, the code applying engine 15, and the display engine 16 will be provided together. .

In addition, the memory unit 20 may be provided with a periodic table management target data storage unit 21 for storing data input by the input unit 12, the input data management unit 13, and the like, together with the service classification data. The storage unit 22 may store data extracted from only data related to a service from data of each business district input and stored by the integrated data extraction engine 14.

In addition, the technology classification data storage unit 23 may store data extracted only from the data related to the technology from the data of each business district input and stored by the integrated data extraction engine 14.

In addition, the field code data storage unit 24 may store data values of each code as shown in FIGS. 12 and 13 for each service, technology, etc. classified and assigned by the code granting engine 15.

Furthermore, as shown in FIG. 14, the embedded service data storage unit 25 may store data about an application service that allows a plurality of services to be applied as an embedded service for realization of U-Eco-Citi. The data storage unit 26 may store data displayed or outputted on the GUI screen 17, the print apparatus 18, or the like as shown in FIG. 15.

Therefore, the service periodic table generation method for providing a service periodic table with the service and technology that can be applied and operated in U-Eco City by the service periodic table management system 10 according to the present invention prepared as described above. Looking at it as follows.

First, a service periodic table management target selection step (S01) of calculating and selecting service field data and technical field data for one or a plurality of service periodic table management targets is performed. 3 to 6, the data for the already implemented and operated U-Eco-Citi, or the U-Eco-Citi, etc. planned or expected to be implemented in the future may be inputted first.

Of course, a service or technology may be described that can be planned and considered in the future, but in order to make it more realistic and feasible, data on the business district of the currently operated or planned and highly feasible UeCiti area is entered. Would be preferred.

As described above, the data of a plurality of business districts for the realization of U-Eco-Citi is input. In the present invention, as shown in FIGS. 3 to 6, the data of a plurality of U-Eco-Citi is inputted. Data on the case of U-Eco-Citi may be input so that it can be more objectively identified and classified in services and technologies.

After such a service periodic table management target selection step, the integrated service calculation step (S02) is performed so that the integrated service field of the service is calculated by integrating and displaying a plurality of service field data and a plurality of technical field data. Thus, the classification data group as shown in FIGS. 10 and 11 will be formed by the data of the multiple business districts of U-Eco-Citi as shown in FIGS. 3 to 6.

In addition, a code granting step (S03) is performed so that field codes are provided for a plurality of integrated service fields, service codes are provided for individual service areas according to individual integrated service areas, and technology codes are assigned for individual technology fields. will be.

That is, a code will be assigned to each service as shown in FIG. 12, FIG. 13, and the like.

In addition, an application service code granting step (S04) of applying an application service code for each application service applied to an embedded service field provided by a service periodic table management object will be performed. That is, a code will be given as a service to be applied to a technology to be embedded as shown in FIG. 14.

Such embedded may be composed of hardware (Hardware) and software (Software), as shown in Figure 7, and, as shown in the example of Figure 8, through the configuration of the hardware of the developer, the software for realization of the ubiquitous embedded The service will be used by users.

When services and technologies are classified and codes are assigned to the classified services and technologies, the service periodic table is provided for the classified data as shown in FIG. 15. That is, the service display step of applying the service code of the applied service applied to the embedded service field is displayed on one side, the technology code of the individual technical field is displayed on the other side, and the individual service is displayed by the applied service code and the technology code. (S05) is performed.

In this method of generating a service periodic table, some steps may be applied by the service periodic table management system 10, and some steps may be realized by an administrator's work.

In this regard it will be seen that the generation of the entire flow applied by the service periodic table management system 10 is realized as follows.

That is, as shown in FIGS. 3 to 6, for a plurality of business districts of U-Eco-Citi, a service periodic table for calculating and inputting service field data and technical field data to be managed and being stored in the memory unit 20 The management target selection step (S01) is performed.

In addition, the integrated service calculation step (S02) is performed so that a plurality of service field data and a plurality of technical field data are displayed and integrated so that the integrated service field data of the service is calculated and the integrated service field data is stored.

In particular, the main service field in the service periodic table management system 10 according to the present invention is a service field, and includes transportation (field code T), facility management (field code F), environment ( It can be arranged to be classified into six service field areas such as field code E), crime prevention (field code CP), disaster prevention (field code D) and education (field code Ed). There will be.

In the classification field of the detailed service field among the field fields, in the transportation field, a real time transportation control service (RTCS) (service code T1) and a traffic information providing service (TIOS) are provided. (Service Code T2), Bus Information System (BIS) (Service Code T3), Parking Management Service (PMS) (Service Code T4), Illegal Parking Enforcement Service (Illegal Parking) Regulation Service) (Service Code T5), Handicapped Person Safety Service (HPS) (Service Code T6).

In addition, in the field of facility management, water supply facility management service (WFMS) (service code F1), telemetering service (TS) (service code F2), street light control service (SCS (Streetlight Control) Service) (Service Code F3), Underground Facility Management Service (UFMS (Underground Facility Management Service) (Service Code F4), Road Facility Management Service (RFMS) (Service Code F5). .

And in the environment, weather information service (FIOS (Forecast Information Offering Service) (service code En1), environmental pollution information service (EPIS (Environment Pollution Information Service) (service code En2), green transportation service (GTS) Service) (Service Code En3) and the like, and in the field of crime prevention, Public Crime Prevention Service (PCPS) (Service Code CP1), Child Safety Service (CSS) (Service Code CP2), and the disaster prevention field may be Disaster Prevention Service (DPS) (Service Code D1). Finally, as an example of the education field, distance education service (RES) (Remote Education Service) (Service Code Ed1), Library Automation Service (LAS (Library Automation Service)) (Service Code Ed2), and the like.

Accordingly, the service field data includes traffic service, facility management service, environmental service, crime prevention service, disaster prevention service, and education service.

Thereafter, field code data is assigned and stored for each integrated service field, service code data is assigned and stored for each service area according to an individual integrated service field, and technology code data is assigned and stored for each technology field. The code attaching step S03 may be performed.

That is, the service field code in FIG. 12 and the sensing code in FIG. 13 may be classified. Therefore, in the realization of U-Eco-City, hardware configuration and software configuration are required as in the data of FIGS. 7 to 9 and the like, and in particular, the configuration of the sensor is essential for the embedded sphere.

Accordingly, in the embodiment of the service periodic table management system 10 according to the present invention, the embodiment focuses on the implementation of the periodic table for the sensor technology among the services that can be applied to the embedded field among the realization elements of UeCoC and the technologies required therefor. Will be shown. Of course, other service areas and embodiments of the periodic table to which other technologies apply may be fully feasible.

As shown in FIG. 13, which shows a more preferred embodiment of the technology, a sensing code for the sensor technology can be found in the traffic field such as loop detection, accident detection, etc., in the field of facility management, flow rate, pressure, Sensors in the fields of leaks, tap water metering, heating, electricity, leaks, gas, roughness, slope, vibration, deformation, freezing, concrete stress, process, section deflection, joint meta, etc. may be used.

In many other service areas, various sensor technologies may be used as in FIG.

Next, an application service code granting step S04 is performed to apply and store the application service code data for each application service applied to the embedded service field provided by the service periodic table management object.

That is, in the embedded field, it may be made of hardware and software as shown in the example of FIGS. 7 to 9, and the user is provided with the corresponding service by realizing the embedded.

As such, each code may be assigned to the embedded application service code for the embedded application service field.

In this way, the applied service code data of the applied service applied to the embedded service field is read and displayed as one side of the user's GUI screen, and the technical code data of the individual technical field is read and displayed on the other side of the user's GUI screen. The service display step (S05) is performed so that the service is displayed on the GUI screen of the user according to the applied service code and description code.

In the service display step, the technology code data may be extracted for the technology selected to be displayed in the individual technology fields, and may be provided to be displayed on the GUI screen. The applicable service code data for the applied service may be extracted and displayed on the GUI screen.

That is, in the example of FIG. 15, the technical code for the sensor technology is sequentially described among the technologies adopted in each service for realizing a service that can be realized and provided in U-Eco Citi on the left vertical axis. Therefore, the technical code of the sensor may be displayed in the order of transportation, facility management, environment, crime prevention, disaster prevention, education, etc. from the top.

On the horizontal axis below, an applicable service code for a service that can be applied and provided in an embedded field may be indicated. In other words, even in the applied service code, it may be indicated in the order of traffic, facility management, environment, crime prevention, disaster prevention, education, etc. from the left.

According to the display of the service periodic table expressed as described above, according to the data of the multiple business districts of U-Eco-Citi, the total data of six service fields, 19 service type data, and corresponding sensor technology types Is illustrated. As shown in FIG. 14, the relationship between sensor technologies in a plurality of embedded application service fields may be generated as shown in FIG. 15.

Accordingly, according to the service periodic table of FIG. 15, in the Library Automatic Service (LAS) part of the Ed2 service, SEd 2-1 (book loan return sensor), SEd 2-2 (anti-theft sensor), The sensor technology code section, such as SEd 2-3 (book collection inspection sensor), will be applied.In addition, the embedded service section includes AEd 2-1 (library S / W) and AEd 2-2 (loan return S / W). , AEd 2-3 (Reading and Seating S / W) and AEd 2-4 (Voice Support S / W).

Therefore, in order to realize the library automation service of Ed2 for the embedded application service of U-Eco-City using Ed2, hardware using three sensor technologies such as book loan return sensor, anti-theft sensor, and collection inspection sensor is important. In addition, it will be necessary to have four embedded softwares: library software, loan return software, reading and seating software, and voice support software. In particular, technologies such as RFID Tag-RFID Reader are applied to book loan return sensor, anti-theft sensor and collection inspection sensor technology, and may be applied to RFID technology in library automation service.

In this way, the implementation and realization of U-Eco-Citi can easily identify and check the hardware and software status in the technical and service areas to be applied, prepared, or checked for each service. In the library automation service applied with RFID technology, the library's ID must always be carried, light in weight, and durable in RFID tags to reduce inconvenience caused by frequent replacement. Therefore, in the realization of library automation service using RFID technology, items such as accuracy, size, weight, and durability, and technology items such as recognition distance and data transmission amount can be presented as major evaluation items. In the older version, there is an advantage in that it is easy to discern whether the technical considerations of the provided services are evaluated.

The embodiments of the present invention have been described in detail above, but since the embodiments have been described so that those skilled in the art to which the present invention pertains can easily carry out the present invention, The technical spirit of the present invention should not be interpreted limitedly.

1 is a schematic configuration diagram of a service periodic table management system according to the present invention.

2 is a control flowchart for a service periodic table management system according to the present invention.

3 to 6 is an example of data input for the service period table management target business district.

7-9 illustrate an example of an embedded that may be applied in UCT.

10 is an exemplary view of a service in UCT.

Figure 11 is an illustration of the integrated service in the business district exemplified in the service periodic table management system according to the present invention.

12 is an exemplary view of a service field code in a service periodic table management system according to the present invention.

13 is an exemplary view of a sensing code in the service periodic table management system according to the present invention.

14 is an exemplary view of an applied service code in a service periodic table management system according to the present invention.

15 is an exemplary view of a service periodic table for the service periodic table management system according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: Service Periodic Table Management System 11: Main Controller

12: input unit 13: input data management unit

14: integrated data extraction engine 15: code granting engine

16: display engine 17: GUI

18: printing apparatus 20: memory section

21: Periodic table management target data storage unit 22: Service classification data storage unit

23: Technical classification data storage 24: Field code data storage

25: embedded service data storage unit 26: display data storage unit

Claims (5)

A service periodic table management target selection step (S01) for calculating and inputting service field data and technical field data of a service periodic table management target and storing the data in the memory unit 20; An integrated service calculation step (S02) of integrating and displaying a plurality of service field data and a plurality of technical field data so that the integrated service field data of the service is calculated and the integrated service field data is stored; Field code data is assigned and stored for each integrated service field, service code data is assigned and stored for each service area according to individual integrated service field, and code for granting and storing technology code data for each technology field Grant step (S03); Applied service code granting step (S04) to be applied and stored by the applied service code data for each applied service applied to the field of the embedded service provided by the service periodic table management target; The application service code data of the applied service applied to the embedded service field is read and displayed as one side of the user's GUI screen, and the technical code data of the individual technical field is read and displayed on the other side of the user's GUI screen. Service display step (S05) to be displayed on the GUI screen of the user in accordance with the applied service code and technology code; Service periodic table generation method, characterized in that it is provided with. The method of claim 1, The service field data is a service periodic table generation method, characterized in that it is provided, including transportation services, facility management services, environmental services, security services, disaster prevention services, education services. The method of claim 1, The service display step, The technology code data is extracted for the technology selected to be displayed among the individual technology fields and displayed on the GUI screen. Method for generating a service periodic table, characterized in that the applied service code data is selected to be displayed in the GUI screen for the applied service selected to be displayed among the applied services in the individual embedded service field. A service periodic table management target selection step of calculating and selecting service field data and technical field data for one or a plurality of service periodic table management targets (S01); An integrated service calculation step (S02) of allowing a plurality of service field data and a plurality of technical field data to be displayed integrated so that an integrated service field of a service is calculated; Code granting step (S03) to be given a field code for each of a plurality of integrated service sectors, a service code is provided for each individual service field according to an individual integrated service field, and a technology code for each individual technical field; Applied service code granting step (S04) to be applied to the applied service code for each applied service applied to the field of embedded services provided by the service periodic table management target; The service display step of displaying the applied service code of the applied service applied to the embedded service field on one side, the technology code of the individual technical field on the other side, and the individual service is displayed by the applied service code and the technology code ( S05); Service periodic table generation method, characterized in that it is provided with. A service periodic table management system for controlling the service periodic table data to be displayed in the method of generating a service periodic table according to any one of claims 1 to 4, An input data management unit 13 through which the service field data and technical field data of the service periodic table management object are input and stored in the memory unit 20 through the input unit 12; An integrated data extraction engine 14 for classifying service field data and technology field data read from the memory unit 20 to extract and store integrated service field data; A code granting engine 15 for assigning and storing individual codes for service field data, technical field data, integrated service field data, and embedded service field data read from the memory unit 20; A display engine 16 for extracting selected data to be displayed for each data stored in the memory unit 20 to be displayed on the GUI screen 17 or to be output to the printing apparatus 18; A main controller (11) for controlling the input data management unit (13), integrated data extraction engine (14), code applying engine (15), and display engine (16); Service periodic table management system, characterized in that is provided is included.

Images