KR101963303B1 - A S-100 standard information transmission data simplification method and a computer-readable recording medium recording the same - Google Patents

Abstract

The present invention relates to an S-100 standard information transmission data simplification method and a computer-readable recording medium recording thereof. The method comprises the following steps: (a) organizing and cataloging additional catalog items, combining and converting them into an object catalog, by an object catalog unit; and (b) identifying, by a data set unit, the object by receiving the converted object catalog, and converting a data set, which is a set of the identified objects and attributes, into the length value of the catalog item. According to the present invention, through the catalog conversion and data set conversion process of large volume data of S-100 standard information, preventing reception of information unrelated to a ship such as non-navigation-related messages and error messages among conventional marine safety information can be possible, thereby simplifying data transmission in a marine communication.

Description

[0001] The present invention relates to a method for simplifying S-100 standard information transmission data and a computer readable recording medium storing the same,

The present invention relates to a database design method, and more particularly, to an S-100 standard information transmission data simplification method capable of improving a comprehensive situation recognition and an incident response technology at sea by simplifying a large amount of data of S-100 standard information in an e- And a computer readable recording medium storing the program.

According to the Maritime Safety Convention of the International Maritime Organization (IMO), which specifies matters relating to the security and safety of ships, automatic identification of ships and security surveillance of ships are to be installed on various international sailing vessels.

In addition, international agreements such as discussing the long-range location of vessels, including the Convention for the Safety of Life, the Anti-Piracy Agreement and the International Maritime Security Regulations in Asia, are state obligations of the Contracting Parties.

In Korea, it is stipulated in the Vessel Safety Act to install passenger ships for international voyages and ship positioning devices to vessels of 300 tons or more in order to ensure safe operation of vessels through real-time monitoring of vessel operating conditions and to promptly respond to accidents And the National Crisis Management System is in place to jointly utilize marine disaster information among major national agencies such as National Security Council, National Intelligence Service, Ministry of Public Administration and Security, and Marine Police Agency.

However, conventional communication systems between ships, ships, and onshore (control systems) have been exchanging navigation information with ship automatic identification devices in coastal waters, and satellite communications in coastal waters, for example, depending on the type of ship and the range of navigation.

In particular, since most fishing vessels use voice communication systems managed by fishery stations, communication between vessels using different communication systems is not performed properly, resulting in frequent collisions between small fishing vessels and large vessels near the coast. .

On the other hand, in Korea, the Ministry of Land, Transport and Maritime Affairs manages the ship automatic identification device communication network and the Maritime Police Agency manages the VHF / DSC communication network, Construction of marine resources, and construction of comprehensive marine management system.

In addition, even when the size of data to be transmitted / received is large, there is a problem in that the speed of data transmission is slow because data is transmitted to one communication means.

E-navigation systems have been attracting attention for providing various ship navigation information and navigational environment information, and for efficient use of vessels in stable operation, life-saving rescue operations, marine safety assurance, marine environmental protection activities, and correction of marine resources.

 The e-navigation strategy of the International Maritime Organization is to introduce new technologies to the ship to support easier and safer navigation.

In line with the e-navigation strategy, ships will be equipped with various equipment and will have a system structure linked to onshore systems.

As a result, a common data structure between systems became necessary and the S-100 data standard developed by the International Hydrographic Organization was finally selected.

Here, the S-100 data refers to data transmitted and received via the S-100 bus, which is a backplane connection specification for a computer having a 100-pin connection point first used in a Altair 8800, which is a personal computer.

The S-100 bus, based on Intel's 8080 processor, determined the data, address, and power bus specifications and became the first industry standard specification for microcomputers as IEEE-696 in the late 1980s.

In general, electronic navigation (e-navigation) refers to the ship navigation system that the International Maritime Organization (IMO) is promoting in 2019 to protect marine safety and the marine environment.

It is a system that collects and analyzes ship and land related information to enhance safety and security related services and marine environmental protection in all processes from departure to return.

In other words, by utilizing information and communication technology (ICT), the ship will automate and standardize the navigation system based on the electronic chart and improve the marine radio communication environment in order to remotely support the safe operation of the ship through monitoring and monitoring on the land. It is a comprehensive safety management system.

Especially, in Korea, development of e-navigation system is very advantageous because it is a world-recognized powerhouse in both shipbuilding and information technology (ICT).

1 is a conceptual diagram for explaining the e-navigation system of Korea, which is presented by the Ministry of Maritime Affairs and Fisheries of Korea.

As shown in FIG. 1, when the e-navigation system is established, burdens of the navigator are reduced, marine accidents due to insufficient flight or negligence are reduced, and ship navigation information is shared with the land in real time.

This will enable scientific and rapid information exchange, reduce marine accidents caused by human error, enable international standardization and digitization of marine observation and navigation information, and improve the national marine management ability.

Conventionally, various technical fields such as ocean radio communication and ocean observation have been individually implemented and ineffective in the integration process. On the other hand, after utilizing the e-navigation system, communication is linked with marine geographic information system and marine traffic management system, Information utilization and smooth navigation system can be constructed.

This allows the ship's voyage plan to be communicated with the control center and other vessels to prevent accidents due to automatic alarm measures when departing from the planned route and to speed up the structure in the event of an accident.

In addition, by reporting the main equipment or condition of the ship, it is possible to report the equipment and operation status inside the ship to the control center to prevent appropriate measures and accidents.

And, it can provide algae and weather information of a specific sea area, and can alleviate the risk of sailing and vessel accident by automatically notifying the alert message according to the bird.

In addition, it is anticipated that maritime logistics and transportation efficiency will be further enhanced by integrating port operations, such as rapid entry and departure procedures and preparation for unloading.

The Ministry of Maritime Affairs and Fisheries (MOFE) believes that when the system is fully implemented, a market of 300 trillion won in direct market and 900 trillion won in indirect market will be formed over the next 10 years. Korea will be able to occupy 20 trillion won I expect.

On the other hand, Korean e-navigation service among e-navigation system provides various purpose information to marine activity of ship.

Since the service to be provided is a query request such as a location based search and an information based search, various information utilizing techniques considering this are required.

To meet this demand, the e-navigation system should utilize information based on the S-100 standard model, and a query-based system should be prepared.

In other words, the Korean e-navigation service supports various services for safe marine activities of the ship.

This service is information-driven and each piece of information is digitized based on the S-100 standard model developed by the International Hydrographic Organization (IHO).

The e-navigation service should provide a variety of information to support the S-100 standard model and be able to accommodate the requirements of the system that accesses the service.

The system accessing the e-navigation service requires registration or query response according to the S-100 standard model for information such as ocean weather, surface current, and navigation warning.

For this purpose, the e-navigation service should be designed to accommodate various S-100 standard models.

In order to design an e-navigation service like this, a Geography Markup Language (GML) should be used as an XML grammar language for expressing geographical characteristics.

Here, the geographic information markup language refers to an XML-based geographic information encoding language developed by the Open GIS Consortium (OGC) for the purpose of enhancing interoperability of geographical information.

The geographic information markup language is an open exchange format for transmitting and receiving geographic data on the Internet, and is also used as a modeling language for geographic data systems.

Like most XML based grammar, it is divided into two parts: the description part of the document and the actual data part.

Geographic Information Markup Language documents are described using geographic information markup language schemas.

This allows users and developers to describe common geodatas datasets that contain points, lines, and polygons.

The Open Geospatial Consortium is an XML-based platform that enables geographical and location-based services to be provided regardless of platform and client type (web client, PDA, mobile phone, etc.) Early recognition of the need for a standard encoding language.

Since 1998, the Open Geospatial Consortium has begun to develop a geographic information standard encoding language based on XML.

The geographic information markup language is basically introduced by the open geographic information system consortium for the encoding of spatial information, and is an XML technology for handling spatial data on the Internet.

Meanwhile, the current maritime safety information service is provided in the form of telex message via NAVTEX and SafetyNet, and some devices display the corresponding telex message on the screen as a graphic or text.

The ship interlocking software required for this purpose is software installed in the hardware of the e-navigation operation center and is included in the support service for accident vulnerable vessel monitoring, and collects the ship information inputted to the e-navigation operation center.

The structure of ship interlocking software is composed of interlocking control function to control start and end of interworking with Maritime Cloud which is an external interlocking system, transmission / reception processing of input / output information through message validity, and status processing for interlocking state with maritime cloud Function.

In addition, the data of the real-time attribute is data such as the ship dynamic information requiring the utilization of the changed information immediately after the change of the information in each service, using the standard middleware of the data distribution system.

However, Maritime Safety Information (MSI), which is currently being operated by NAVTEX, is a problem that needs to receive information that is not relevant to the ship, such as navigation-related messages, error messages, There was a low limit on the side.

In addition, the S-57 model, which is a conventional waterway data standard, has many difficulties in editing such as adding, deleting, and modifying objects.

This is because the database, which deals with most electronic charts, is constructed without considering the addition and editing of each object.

In addition, since the S-57 model creates an object unit table of the database based on only information on the electronic charts, it can not provide information on various domains such as seabed topography, marine alarm, navigation mark, There was a limit.

Accordingly, in order to prevent receipt of marine safety information, the present inventor collects marine information associated with the maritime cloud to prevent the reception of marine related information such as a message related to navigation, And developed a method for simplifying S-100 standard information transmission data through interface data conversion for large-capacity data linked with e-navigation.

US 2014-0129701 A1

It is an object of the present invention to provide a system and method for transmitting large-volume data of S-100 standard information such as ship position information and ship operation information transmitted through a maritime cloud from a ship to a ship, The present invention provides a method for simplifying the S-100 standard information transmission data, which can convert a catalog of an object, convert a data set that is a minimum unit of information transfer, and simplify it as a length value of a catalog item.

Another object of the present invention is to provide a recording medium on which a program for executing a method for simplifying the S-100 standard information transmission data in a computer is loaded.

According to another aspect of the present invention, there is provided a method for simplifying an S-100 standard information transmission data, the method comprising the steps of: (a) And (b) identifying the object by the data set unit receiving the transformed object catalog, and transforming the data set, which is a set of the identified objects and attributes, into the length value of the catalog item; And a control unit.

According to another aspect of the present invention, there is provided a recording medium including: (a) organizing object catalogs with a catalog item; And (b) identifying the object by the data set unit receiving the transformed object catalog, and transforming the data set, which is a set of the identified objects and attributes, into the length value of the catalog item; And a control unit.

Specific details of other embodiments are included in the " Detailed Description of the Invention " and the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and / or features of the present invention and the manner of achieving them will be apparent by reference to various embodiments described in detail below with reference to the accompanying drawings.

However, the present invention is not limited to the configurations of the embodiments described below, but may be embodied in various other forms, and each embodiment disclosed in this specification is intended to be illustrative only, It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

According to the present invention, the large-scale data of the S-100 standard information is converted through the catalog conversion of the object and the data set conversion process to receive the marine safety information, So that the transmission data in the maritime communication is simplified.

In addition, it collects ship information related to marine cloud and requests for transfer function through mass data management software, requests classification of data type according to the target ship, and requests real time information according to the attribute of collected data. .

In addition, it can collect and analyze mass data linked with e-navigation, classify data according to data type and data source, provide real-time information according to collected data attributes, store DB server of related information, It is possible to convert the interface data of the ship with respect to the identification and fusion of the information collected from the ship.

1 is a conceptual diagram for explaining the e-navigation system of Korea, which is presented by the Ministry of Maritime Affairs and Fisheries of Korea.
2 is a schematic block diagram of an S-100 standard information transmission data simplification apparatus of the present invention.
3 is a block diagram of a data flow according to an interface definition language catalog conversion rule in the data simplifying apparatus shown in FIG.
4 is a flowchart illustrating an overall operation of the S-100 standard information transmission data streaming method of the present invention.
5 is a flowchart showing a schematic partial operation of a step S100 in the data simplification method shown in Fig.
FIG. 6 is a diagram illustrating an exemplary simplified program for the data simplification apparatus shown in FIG. 2, which is an example program programmed in the S-100 standards-based geographic information markup language requested and responded between the S-100 exchange set structure unit 100 and the data structure conversion unit 200 to be.
7 is an example program and an interface definition language data string programmed in the interface definition language through the data distribution service between the data structure conversion unit 200 and the interface definition language data structure unit 300 in the data simplifying apparatus shown in FIG. .
FIG. 8 is a block diagram of an S-100 interchange set structure 100 in the data simplification device shown in FIG.
FIG. 9 is a flowchart showing partial operations of the S-100 exchange set structure 100 in the data simplification method shown in FIG.
10 is a block diagram of a data structure conversion unit 200 in the S-100 standard information transmission data simplification apparatus of the present invention.
11 is a flowchart showing a partial operation of the step S200 in the data simplification method shown in FIG.
FIG. 12 is a block diagram of an interface definition language data structure unit 300 in the S-100 standard information transmission data streaming apparatus of the present invention.
13 is a flowchart showing a partial operation of the step S300 in the data simplification method shown in FIG.
FIG. 14 is a diagram illustrating a result of simplifying the S-100 geographic information markup language into an interface definition language according to the method for simplifying the S-100 standard information transmission data according to the present invention.
FIG. 15 is a table of identification number indexes for each type defined when transforming an object catalog according to the method for simplifying the S-100 standard information transmission data according to the present invention.

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

Before describing the present invention in detail, terms and words used herein should not be construed as being unconditionally limited in a conventional or dictionary sense, and the inventor of the present invention should not be interpreted in the best way It is to be understood that the concepts of various terms can be properly defined and used, and further, these terms and words should be interpreted in terms of meaning and concept consistent with the technical idea of the present invention.

That is, the terms used herein are used only to describe preferred embodiments of the present invention, and are not intended to specifically limit the contents of the present invention, It should be noted that this is a defined term.

Also, in this specification, the singular forms "a", "an", and "the" include plural referents unless the context clearly dictates otherwise, and it should be understood that they may include singular do.

Where an element is referred to as " comprising " another element throughout this specification, the term " comprises " does not exclude any other element, It can mean that you can do it.

Further, when it is stated that an element is " inside or connected to " another element, the element may be directly connected to or in contact with the other element, A third component or means for fixing or connecting the component to another component may be present when the component is spaced apart from the first component by a predetermined distance, It should be noted that the description of the components or means of 3 may be omitted.

On the other hand, it should be understood that there is no third component or means when an element is described as being "directly connected" or "directly connected" to another element.

Likewise, other expressions that describe the relationship between the components, such as "between" and "immediately", or "neighboring to" and "directly adjacent to" .

In this specification, terms such as "one side", "other side", "one side", "other side", "first", "second" Is used to clearly distinguish one element from another element, and it should be understood that the meaning of the element is not limited by such term.

It is also to be understood that terms related to positions such as "top", "bottom", "left", "right" in this specification are used to indicate relative positions in the drawing, Unless an absolute position is specified for these positions, it should not be understood that these position-related terms refer to absolute positions.

Furthermore, in the specification of the present invention, the terms "part", "unit", "module", "device" and the like mean a unit capable of handling one or more functions or operations, Or software, or a combination of hardware and software.

In this specification, the same reference numerals are used for the respective components of the drawings to denote the same reference numerals even though they are shown in different drawings, that is, the same reference numerals throughout the specification The symbols indicate the same components.

In the drawings attached to the present specification, the size, position, coupling relationship, and the like of each constituent element of the present invention may be partially or exaggerated or omitted or omitted for the sake of clarity of description of the present invention or for convenience of explanation May be described, and therefore the proportion or scale may not be rigorous.

Further, in the following description of the present invention, a detailed description of a configuration that is considered to be unnecessarily blurring the gist of the present invention, for example, a known technology including the prior art may be omitted.

Data Distribution Service

The present invention is designed to utilize S-100 data in Data Distribution Service (DDS) communication.

The data distribution service sends and receives data packets through publishing and subscription processes.

At this time, the basis of the communication model is " unidirectional data exchange ".

That is, the issuer publishes and subscribers receive when they want to be issued.

First, the publication process defines the data to be transmitted and transmits it through a write command after communication for communication.

At this time, the transmission target is set by the data distribution service middleware.

The subscription process defines the data to be received and receives it via a take-after-setting command for communication.

After receiving the data, it is determined whether it is necessary data or not, and if necessary, the data is used.

As described above, the data distribution service provides convenience to the application programmer only by issuing the data without having to worry about the client status or data type at the issuing side and by receiving only the self regardless of what the issuing side issues at the subscriber side .

The S-100 data of the present invention has a Plug & Play concept in which, when a system is installed, it is automatically started without any other setting.

In order for a system to have a plug-and-play concept, the concept of plug-and-play must also be followed in the transmission of system information.

In the present invention, a method of encoding and decoding information of an object catalog (Feature Catalog) and a data set (Dataset) is designed in order to easily transfer and process information of the S-100 in data transfer.

In the present invention, in order to digitize S-100 data, a real-life object is defined as an object, and the color, size, and state of the object are defined as an attribute.

That is, an object is a concept including an attribute, and expresses property information of an object of real life.

The Feature Catalog contains information about the type and description of objects and attributes, and includes information about the combination of objects and attributes.

In addition, real information is created by a combination of object and attribute, which is defined as a dataset.

Data set is the minimum unit of information transfer of S-100 data.

S-100 standard information transmission data simplification device

FIG. 2 is a schematic configuration diagram of an S-100 standard information transmission data simplifying apparatus according to the present invention, which includes an S-100 exchange set structure unit 100, a data structure conversion unit 200, and an interface definition language data structure unit 300 do.

3 is a block diagram of a data flow according to an interface definition language catalog conversion rule in the data simplifying apparatus shown in FIG.

4 is a flowchart illustrating an overall operation of the S-100 standard information transmission data streaming method of the present invention.

FIG. 8 is a block diagram of an S-100 exchange set structure unit 100 in the data simplifying apparatus shown in FIG. 2. The exchange set unit 110, the catalog file unit 120, the support file unit 130, 140, an object catalog unit 150, and a drawing catalog unit 160.

The overall operation of the S-100 standard information transmission data simplification apparatus according to the present invention will now be described with reference to FIGS. 2 to 8. FIG.

The object catalog unit 150 receives and organizes catalog items (S101).

The object catalog unit 150 combines the sorted catalog items into an object catalog and converts the combined catalog items into an object catalog (S102).

The data set 140 receives the converted object catalog and identifies the object using the object catalog ID (S201).

The data set 140 lists the converted object catalog information after the identified object (S202).

The data set 140 analyzes the length value of the catalog item (S203).

The data set 140 transforms the data set that is a set of objects and attributes identified as the analyzed length value (S204).

5 is a flowchart showing a schematic partial operation of a step S100 in the data simplification method shown in Fig.

FIG. 6 is a diagram illustrating an exemplary simplified program for the data simplification apparatus shown in FIG. 2, which is an example program programmed in the S-100 standards-based geographic information markup language requested and responded between the S-100 exchange set structure unit 100 and the data structure conversion unit 200 to be.

7 is an example program and an interface definition language data string programmed in the interface definition language through the data distribution service between the data structure conversion unit 200 and the interface definition language data structure unit 300 in the data simplifying apparatus shown in FIG. .

The function of each component of the S-100 standard information transmission data simplification apparatus according to the present invention will be described with reference to FIG. 2 to FIG.

The S-100 exchange set structure unit 100 transmits a data set containing information in the encoding format as shown in FIG. 6 with the exchange set as a basic exchange unit to the data structure To the converting unit 200 (S130).

The data structure conversion unit 200 converts the object catalog and the data string using the S-100 conversion library at the request of the S-100 exchange set structure unit 100 (S140) To the exchange set structure unit 100 (S150).

At this time, conversion is performed between the S-100 Geographic Information Markup Language (GML) data and the Interface Definition Language (IDL) data string.

The interface definition language data structure unit 300 transmits and decodes a data packet such as an example definition program language data string and an interface definition language data string of FIG. 6 and FIG. 7 through a data distribution service (DDS) (S160) to the data structure conversion unit 200 (S160), and provides the data to a plurality of systems (S170).

Operation of the S-100 exchange set structure 100

FIG. 8 is a block diagram of an S-100 exchange set structure unit 100 in the data simplifying apparatus shown in FIG. 2. The exchange set unit 110, the catalog file unit 120, the support file unit 130, 140, an object catalog unit 150, and a drawing catalog unit 160.

FIG. 9 is a flowchart showing partial operations of the S-100 exchange set structure 100 in the data simplification method shown in FIG.

A partial operation of the S-100 exchange set structure unit 100 in the S-100 standard information transmission data streaming method according to the present invention will be described with reference to FIGS. 2 to 9 as follows.

The S-100 exchange set structure unit 100 sets an exchange set as a basic exchange unit.

The exchange setter 110 outputs a dataset containing information in encoding such as electronic chart standard encoding (ISO / IEC 8211), S-100 geographic information markup language (GML), HDF-5 or the like (S131 ).

The data set 140 stores space and attribute information corresponding to the real information to be exchanged (S132), and the support file unit 130 is an external file belonging to the data.

The feature catalog unit 150 performs a function of describing information to be exchanged (S133), and the drawing catalog unit 160 displays information to be exchanged on the screen (S134).

The operation of the data structure conversion unit 200

FIG. 10 is a block diagram of a data structure conversion unit 200 in the S-100 standard information transfer data simplification apparatus of the present invention. The S-100 object catalog analysis unit 201, the object catalog conversion unit 202, An object catalog transmitting unit 203, an S-100 geographic information markup language receiving unit 204, an S-100 geographic information markup language analyzing unit 205, a character first converting unit 206, 207, an interface definition language data string receiving unit 208, an interface definition language data string analysis unit 209, a character second conversion unit 210 and an S-100 geographic information markup language transmission unit 211.

11 is a flowchart showing a partial operation of the step S200 in the data simplification method shown in FIG.

A partial operation of step S200 in the method of simplifying the S-100 standard information transmission data according to the present invention will be described with reference to FIGS. 2 to 11. FIG.

The S-100 object catalog analysis unit 201 receives the data set from the S-100 exchange set structure unit 100, analyzes and processes the S-100 object catalog, and outputs the processed S-100 object catalog (S210).

The object catalog converting unit 202 receives the S-100 object catalog processed by the S-100 object catalog analyzing unit 201, converts the received S-100 object catalog into an interface definition language object catalog, and outputs the converted S-100 object catalog (S215).

Here, the Interface Definition Language (IDL) is a language for specifying the operation provided by an object and the method in which the object is to be called. The interface definition between the client and the server is defined as IDL and then compiled. C, C ++, Java, and COBOL.

The interface definition language object catalog sending unit 203 receives the converted interface definition language object catalog from the object catalog converting unit 202 and transmits the received interface definition definition language object catalog to the interface definition language data structure unit 300 at step S220.

The S-100 geographic information markup language receiving unit 204 receives the S-100 geographic information markup language from the S-100 exchange set structural unit 100 (S225).

The S-100 geographic information markup language analyzing unit 205 receives the S-100 geographic information markup language from the S-100 geographic information markup language receiving unit 204 (S200) and analyzes and processes the geographic information markup language (S230).

The character first converting unit 206 receives the S-100 geographic information markup language processed by the S-100 geographic information markup language analyzing unit 205, converts the received S-100 geographic information markup language into an interface definition language data string, and outputs the converted SIFT data.

The interface definition language data string transmission unit 207 receives the interface definition language data string converted from the character first conversion unit 206 and transmits the received interface definition language data string to the interface definition language data structure unit 300 at step S240.

Meanwhile, the interface definition language data string receiving unit 208 receives the interface definition language data string from the interface definition language data structure unit 300 (S245).

The interface definition language data string analyzing unit 209 receives the interface definition language data string from the interface definition language data string receiving unit 208, analyzes the interface definition language data string, and outputs the interface definition language data string in operation S250.

The character second conversion unit 210 receives the interface definition language data string processed by the interface definition language data string analysis unit 209, converts the received interface definition language data string into the S-100 geographic information markup language, and outputs the converted S-100 geographic information markup language (S255).

The S-100 geographic information markup language transmission unit 211 receives the converted S-100 geographic information markup language from the character second conversion unit 210 and transmits it to the S-100 exchange set structure unit 100 (S260) .

The operation of the interface definition language data structure unit 300

12 is a block diagram of an interface definition language data structure unit 300 in the S-100 standard information transmission data simplification apparatus of the present invention. The interface definition language data structure unit 300 includes an interface definition language object catalog unit 310 and an interface definition language data string unit 320 do.

13 is a flowchart showing a partial operation of the step S300 in the data simplification method shown in FIG.

A partial operation of the step S300 in the method for simplifying the S-100 standard information transmission data according to the present invention will be described with reference to FIGS. 2 to 13 as follows.

The interface definition language object catalog unit 310 receives the interface definition language object catalogs transmitted from the interface definition language object catalog transmission unit 203 in the data structure conversion unit 200 through a data distribution service (DDS) (S310), receives the subscription signal from the corresponding system, and transmits the subscription signal to the data structure conversion unit 200 through the data distribution service (DDS) (S320).

The interface definition language data string unit 320 receives the interface definition language data string transmitted from the interface definition language data string transmission unit 207 in the data structure conversion unit 200 through the data distribution service (DDS) (S330), receives the subscription signal from the corresponding system, and transmits the subscription signal to the interface definition language data string receiving unit 208 in the data structure converting unit 200 through the data distribution service (DDS) (S340).

How to simplify S-100 standard information transmission data

FIG. 14 is a diagram illustrating a result of simplifying the S-100 geographic information markup language into an interface definition language according to the method for simplifying the S-100 standard information transmission data according to the present invention.

FIG. 15 is a table of identification number indexes for each type defined when transforming an object catalog according to the method for simplifying the S-100 standard information transmission data according to the present invention.

Detailed operation and results of the S-100 standard information transmission data streaming method of the present invention will be described with reference to FIGS. 2 to 15 as follows.

The data simplification method of the present invention comprises the following two steps.

Object Catalog Conversion Steps

First, the object catalog unit 150 in the S-100 exchange set structure unit 100 has information for receiving, organizing, and binding catalog items from the catalog file unit 120.

That is, in order to simplify the information of the catalog item applied from the catalog file unit 120, it is converted into the form of a unique ID_Tag Name_Binding ID.

Here, the tag name is a name of an object or an attribute, and the connection identification number is an identification number of an attribute to be combined with an object or an attribute.

The ID index for each type is defined as shown in FIG.

That is, when the range of the identification number index is from 0 to 999, it is an object, from 1000 to 1999, from information, from 2000 to 2999, from a simple attribute, from 3000 to 3999, A Complex Attribute, a Role for 4000 to 4999, an Information Association for 5000 to 5999, and a Feature Association for 6000 to 6999.

A sample of the simplified object catalog is:

0001_RequestModel_3001,2000

2000_CONTACT_3002,3003

3001_MRN

3002_DATE

3003_Organization

Conversion steps in a dataset

The data set 140 in the S-100 exchange set structure unit 100 can identify an object or the like using the ID of the simplified object catalog.

Further, information to be combined in the object catalog unit 150 is listed after the identified object, and the length value of each item can be interpreted in the header.

The basic data structure is set as follows.

(LengthLength) + IDLength + ValueLength + IDValue + ParentIDValue + Value In this case,

A sample of the dataset structure is shown below.

[Total Length (8 digits)]

[index length (1 digit)] [Value length (3 digits)] [index] [parent index]

[index length] [value length] [index] [index] [parent index] [value]

[index length] [value length] [index] [parent index]

[index length] [value length] [index] [parent index] [value]

[index length] [value length] [index] [parent index] [value]

An example of structuring the sample of the data set structure is as follows.

[00000088]

[0001] [0001]

[8] [0071] [3001] [SRC MRN]

[8] [000] [2000] [3001]

[8] [008] [3002] [2000] [20180323]

[8] [005] [3003] [2000] [KRISO]

Examples of data sets actually simplified by the present invention are as follows. 00000088800000010000800730010001SRCMRN80002000300180083002200020180323800530032000KRISO

Meanwhile, a recording medium according to the present invention includes a program for executing a method for simplifying the S-100 standard information transmission data according to the present invention.

(A) organizing and cataloging object catalogs as additional catalog items and combining them into object catalogs; And (b) identifying the object by the data set unit receiving the transformed object catalog, and transforming the data set, which is a set of the identified objects and attributes, into the length value of the catalog item; .

Here, the recording medium includes all kinds of recording devices capable of storing data that can be read by a computer system. As an example, there are ROM, RAM, CD-ROM, magnetic tape, floppy disk, USB memory or optical data device.

As described above, the present invention is a real-life object defined in order to digitize data in transmitting large volume data of S-100 standard information such as ship position information and ship operation information transmitted through a maritime cloud from a ship The present invention provides a method for simplifying S-100 standard information transmission data, which can convert a catalog of an object, convert a data set which is a minimum unit of information transfer, and simplify it as a length value of a catalog item, and a computer-

Through this process, large volume data of S-100 standard information is transformed through object catalog conversion and dataset conversion to prevent receipt of maritime safety information, The transmission data at the time of transmission is simplified.

In addition, it collects ship information related to marine cloud and requests for transfer function through mass data management software, requests classification of data type according to the target ship, and requests real time information according to the attribute of collected data. .

In addition, it can collect and analyze mass data linked with e-navigation, classify data according to data type and data source, provide real-time information according to collected data attributes, store DB server of related information, It is possible to convert the interface data of the ship with respect to the identification and fusion of the information collected from the ship.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

In addition, since the present invention can be embodied in various other forms, the present invention is not limited by the above description, and the above description is intended to be a complete description of the present invention, It will be understood by those of ordinary skill in the art that the present invention is only provided to fully inform the person skilled in the art of the scope of the present invention and that the present invention is only defined by the claims of the claims.

100: S-100 exchange set structure
110: exchange set
120: catalog file part
130: Support file part
140:
150: Object catalog section
160: Drawing catalog section
200: Data structure conversion unit
300: interface definition language data structure

Claims (15)

(a) organizing and cataloging additional catalog items and combining them into an object catalog; And
(b) identifying, by the data set, the object by receiving the transformed object catalog, and transforming the data set, which is a set of the identified objects and attributes, into the length value of the catalog item;
Lt; / RTI >
The step (a)
(a-1) requesting the data set by encoding an exchange set by an S-100 exchange set structure;
(a-2) the data structure conversion unit converts the object catalog and the data string according to the request to respond to the S-100 exchange set structure; And
(a-3) transmitting and receiving data packets to and from the data structure conversion unit through the interface definition language data structure attachment data distribution service and providing the data packets to a plurality of systems;
≪ / RTI >
S-100 standard information transmission method of data simplification.
delete The method according to claim 1,
The step (a-1)
Outputting a data set with an exchange set portion encoding in an electronic chart standard encoding and a geographic information markup language;
Storing the space and attribute information to be exchanged by the data set with the output data set;
The object catalog unit receiving the output data set through the catalog file unit and describing information to be exchanged; And
Requesting the data structure conversion unit to request the data structure conversion unit to display the information on the screen after the drawing catalog receives the information to be exchanged;
≪ / RTI >
S-100 standard information transmission method of data simplification.
The method of claim 3,
The exchange set
And the exchange set is set as a basic exchange unit.
S-100 standard information transmission method of data simplification.
The method of claim 3,
The data set section
And setting the data set as a minimum unit of information transfer of S-100 data.
S-100 standard information transmission method of data simplification.
The method according to claim 1,
In the step (a)
Wherein the catalog item is converted into a form of a unique identification number_tag name combination identification number and is simplified.
S-100 standard information transmission method of data simplification.
The method according to claim 6,
The unique identification number
Information, simple attribute, complex attribute, role, information association and object association according to the range of the identification number index.
S-100 standard information transmission method of data simplification.
The method of claim 3,
The step (a-2)
Analyzing, processing and outputting the S-100 object catalog by receiving the output data set;
The object catalog conversion unit accepts the processed S-100 object catalog, converts the converted S-100 object catalog into an interface definition language object catalog, and outputs the converted interface definition language object catalog;
The interface definition language object catalog transmitting unit receiving the converted interface definition language object catalog and transmitting the received interface definition language object catalog to the interface definition language data structure unit;
≪ / RTI >
S-100 standard information transmission method of data simplification.
9. The method of claim 8,
The step (a-2)
The S-100 geographic information markup language receiving unit receiving the S-100 geographic information markup language from the S-100 exchange set structure unit;
The S-100 geographic information markup language analyzing unit receives the received S-100 geographic information markup language, analyzes and processes the geographic information markup language, and outputs the geographic information markup language;
Converting the processed S-100 geographic information markup language into an interface definition language data string and outputting the same; And
Receiving the converted interface definition language data string and transmitting the converted interface definition language data string to the interface definition language data structure unit;
Lt; RTI ID = 0.0 > 1, < / RTI &
S-100 standard information transmission method of data simplification.
9. The method of claim 8,
The step (a-2)
Receiving an interface definition language data string from the interface definition language data structure unit;
Analyzing, processing, and outputting the received interface definition language data string;
Converting the interface definition language data string to the S-100 geographic information markup language and outputting the received interface definition language data string; And
The S-100 geographic information markup language transmission unit receives the converted S-100 geographic information markup language and transmits the received S-100 geographic information markup language to the S-100 exchange set structure unit;
Lt; RTI ID = 0.0 > 1, < / RTI &
S-100 standard information transmission method of data simplification.
11. The method of claim 10,
The step (a-3)
The interface definition language object catalog unit 310 publishes an interface definition language object catalog transmitted from the data structure conversion unit through a data distribution service and provides the interface definition language object catalog to a corresponding system;
The interface definition language object catalog unit 310 receives a subscription signal from the system and transmits the subscription signal to the data structure conversion unit through a data distribution service;
Providing an interface definition language data string including interface definition language data strings output from the data structure conversion unit through a data distribution service and providing the interface definition language data string to a corresponding system;
Receiving the subscription signal from the corresponding system of the interface definition language data string part and delivering the subscription signal to the interface definition language data string receiving part through the data distribution service;
≪ / RTI >
S-100 standard information transmission method of data simplification.
The method according to claim 1,
The step (b)
The data set unit receiving the converted object catalog and identifying an object using the object catalog ID;
The data set segmenting the transformed object catalog information after the identified object;
Analyzing the length value of the catalog item; And
Transforming a dataset in which the data set is a collection of the objects and attributes;
The method according to claim 1,
In the step (b)
The basic data structure of the catalog item is
(IDLength) + a value length (ValueLength) + an identification number value (IDValue) + a parent identification number value (ParentIDValue) + a value (Value)
S-100 standard information transmission method of data simplification.
The method of claim 3,
The object
S-100 is a real-life object defined to digitize data,
The attribute
The color, size and state of the object.
S-100 standard information transmission method of data simplification.
(a) organizing and cataloging additional catalog items and combining them into an object catalog; And
(b) identifying the object by the data set unit receiving the converted object catalog, and converting the data set, which is the set of the identified object and attribute, into the length value of the catalog item;
Including,
The step (a)
(a-1) requesting the data set by encoding an exchange set by an S-100 exchange set structure;
(a-2) the data structure conversion unit converts the object catalog and the data string according to the request to respond to the S-100 exchange set structure; And
(a-3) transmitting and receiving data packets to and from the data structure conversion unit through the interface definition language data structure attachment data distribution service and providing the data packets to a plurality of systems;
A method for simplifying the S-100 standard information transmission data, comprising the steps of:

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