KR20120076646A - Apparatus and method for port logistics management using middleware - Google Patents

Abstract

PURPOSE: A logistics management apparatus and method using middleware are provided to integrate various types of hardware without recomposition or modification of program. CONSTITUTION: When collected data is inputted to a reader interface part(103) of a middleware unit(160), the reader interface part discriminates whether the collected data is for adding hardware or data collected through an RFID/USN system. A parsing component(106) analyzes and parses data for compatibility between a legacy allocation(109), an RFID application(110), and a USN(Ubiquitous Sensor Network) application(111). A context component extracts an error in logistics management.

Description

 Apparatus and method for Port Logistics management using Middleware}

The present invention relates to a logistics management apparatus and method using the middleware, and more particularly, to a logistics management apparatus and method for providing an application service without conflict or error between heterogeneous systems using the middleware.

Radio Frequency Identification (RFID), a radio frequency identification technology, was developed in the middle of the 20th century and used in inventory management and supply chain management in the late 1990s.

RFID technology is a non-contact automatic identification technology that stores item identification information and the like in a very small RFID tag and transmits the goods and the surrounding environment information to the network at a radio frequency through an antenna and a reader.

In addition, RFID technology is a promising technology that will lead the future IT (Information Technology) market from the conventional people-oriented informatization to goods-oriented.

In addition, RFID technology is a next-generation core technology that can be applied to various fields such as information communication, logistics, supply chain, transportation, environment, and security as well as general purpose that can be easily applied to various fields by changing frequency bands.

The RFID system overcomes the limitations and problems of the existing barcode system by attaching an RFID tag to the object to automatically recognize the information about the object and manage the information in real time by connecting to the network to provide a convenient service. It became.

Ubiquitous Sensor Network (USN) is a system that collects environmental information such as temperature information, humidity, and pressure in real time by using sensors, and processes the collected information by connecting to wired and wireless networks to provide the necessary environmental information. it means.

By using the RFID and USN systems, the inspection time, arrival and departure time, and entry / exit time in the port logistics business can be reduced to increase the efficiency of the work and manage the history information such as the direction, location, quantity, safety status of containers or cargoes, Although it attempts to check and control environmental information in the cargo warehouse to enable receipt and delivery and to store containers and cargo efficiently and safely, there are difficulties in integrated operation due to the different types of RFID and USN node sensors installed in the port logistics system.

In addition, when new hardware is added or replaced, the program needs to be rewritten or modified in order to integrate with the existing system.

Tasks such as developing an integrated system or rewriting or modifying a program can be expensive and resource-intensive, requiring a system and method for integrating various hardware.

The technical problem to be achieved by the embodiment of the present invention is to solve the problems caused by the absence of a conventional middleware system supporting the integrated RFID and USN, using a middleware, a collision or error between heterogeneous systems, RFID devices and USN devices It is to provide a logistics management apparatus and method for providing an application service.

Logistics management apparatus using the middleware according to an embodiment of the present invention for achieving the technical problem, the interface unit for distinguishing a plurality of sensing data collected by different communication methods according to a communication method; A data parsing unit for parsing sensing data; And a situation recognition unit extracting an error generated in logistics management based on the logistics management status information included in the parsed sensing data and generating logistics management data including information for correcting the extracted error. It features.

Preferably, the different communication schemes include RFID and USN schemes.

Preferably, the data parsing unit parses the sensing data based on a communication method, a data type, a data value, and a collection time.

Preferably the logistics management status information includes the storage time of the logistics, the current position of the logistics, the movement direction of the logistics, the movement speed of the logistics, the preservation state of the logistics, the storage temperature of the logistics and the storage storage humidity It is characterized by.

Preferably, the situation recognition unit comprises a classification unit for classifying the parsed sensing data according to logistics management situation information; Logistics management data generation unit for generating logistics management data based on the classified logistics management status information; And an output unit for transmitting the logistics management data to a logistics management controller for correcting and controlling the extracted error.

Preferably, the parsed sensibility data, the logistics management data and the database for storing the information received from the logistics management control unit; further comprises a.

The application interface unit may further include modulating and outputting the logistic management data according to a communication method.

Logistics management method using the middleware according to an embodiment of the present invention for achieving the technical problem, Sensing data classification step of distinguishing a plurality of sensing data collected by different communication methods according to the communication method; Parsing data sensed according to the communication scheme; A situation analysis step of extracting an error occurring in logistics management based on the logistics management status information included in the parsed sensing data and generating logistics management data including information for correcting the extracted error; and the logistics management data Logistics management control step of correcting the extracted error on the basis of; characterized in that it comprises a.

Preferably, the different communication schemes include RFID and USN schemes.

Preferably, the data parsing step includes parsing the sensed data based on a communication method, a data type, a data content, and a collection time.

Preferably the logistics management status information includes the storage time of the logistics, the current position of the logistics, the movement direction of the logistics, the movement speed of the logistics, the preservation state of the logistics, the storage temperature of the logistics and the storage storage humidity It is characterized by.

Preferably, the application output step of modulating and outputting the logistics management data in accordance with a communication method; characterized in that it further comprises.

According to the logistics management apparatus and method using the middleware according to the present invention, in order to interwork with an existing system when adding or replacing new hardware, rewriting or modifying of a program is not required, and operations such as rewriting or modifying a program are required. There is an advantage that can integrate various hardware without.

According to the logistics management apparatus and method using the middleware according to the present invention, the program modification time and cost that occur when new hardware is added in the port system, reduce the entry and exit L / T, real-time movement tracking, logistics cost reduction, overall logistics It is possible to intelligently handle the problems occurring in the port system by using the processor speed up and situation information.

BRIEF DESCRIPTION OF THE DRAWINGS In order to better understand the drawings cited in the detailed description of the invention, a brief description of each drawing is provided.
1 is a view showing the configuration of a logistics management apparatus using the middleware according to an embodiment of the present invention.
2 is a flowchart illustrating a logistics management based on logistics management status information in a logistics management apparatus using a middleware according to an embodiment of the present invention.
3 is a flowchart illustrating a logistics management method using middleware according to an embodiment of the present invention.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings. Like reference numerals in the drawings denote like elements.

An object of the present invention is to provide an application service without conflict or error between heterogeneous systems using middleware.

The present invention is to solve the problems of the cost and time and the compatibility problems in the integrated operation by using different types of RFID / USN system in the port logistics system using the middleware.

According to the present invention, additional hardware can be replaced without additional cost and program rewriting and modification, and even if new applications such as legacy application, USN application, and RFID application are added, no additional work is required. Interoperability is possible for integrated system operation.

Legacy applications collectively refer to applications and data written in languages and platform techniques prior to current technology.

As an example of legacy applications, in the past, much programming was written for the operating system (OS) of a particular product, but nowadays a new language and OS with an open or standard programming interface makes it easy to update and other OSes without having to rewrite the whole thing. The application can be used.

1 is a view showing the configuration of a logistics management apparatus using the middleware according to an embodiment of the present invention.

As shown in FIG. 1, the logistics management apparatus using the middleware of the present invention is collected by the hardware unit 150 and the hardware unit 150 which delivers raw data collected from RFID and USN to the middleware unit through an interface. By parsing raw data and extracting logistic management situation information, the legacy application 109, the RFID application 110, and the USN application 111 are configured to include the middleware unit 160 that is compatible without any other program modification.

Legacy application 109, RFID Application 110, and USN Application 111 are operating application applications. When new hardware is added, an application for the added hardware will be added.

The hardware unit 150 includes an RFID reader 100, a USN sensor 101, and a hardware interface 102.

When information is collected from the RFID reader 100 and the USN sensor 101 or new hardware is added, the hardware interface unit 102 automatically detects the information and transmits the collected information to the middleware unit 160.

The middleware unit 160 includes a reader interface unit 103, a DB interface unit 104, an application interface unit 105, a parsing component 106, and a situation recognition component 107.

When the information collected by the hardware interface unit 102 is input to the reader interface unit 103 of the middleware unit 160, the reader interface unit 103 distinguishes information collected by RFID / USN as hardware additional information and adds hardware additional information. In one case, the information is stored in the DB 108 through the DB interface unit 104.

In the case of RFID / USN information, the reader interface unit 103 passes the information to the parsing component 106.

The parsing component 106 analyzes (or parses) the data as shown in Table 1 for interoperability between the Legacy Application 109, the RFID Application 110, and the USN Application 111.

Data Packet variable Explanation Remarks ID RFID / USN Classification Type Type representation of information Data Information data Time Data time collected

The ID in Table 1 is assigned a value for classifying whether the information collected by the hardware unit 150 is collected by the RFID system or the USN system.

Type is divided into variables indicating the type of information collected from the RFID, that is, time, location, direction, speed, and security, if the ID value is an RFID value.

Data includes specific values of information distinguished by type. In other words, the data value of the moving time, position, direction, speed, and safety value of the container of the information collected by the type is input.

Time means the time when the information was collected.

If the ID value is USN value, the type is divided into temperature and humidity, and the actual temperature and humidity values are stored in the data.

In addition, seven types of container and logistics status information collected through RFID and USN are known to users through parsing of data packets.

The analyzed (or parsed) information is stored in the DB 108 through the DB Interface unit 104 or transmitted to the situation recognition component 107 for intelligent control of the port system.

The situation recognition component 107 extracts an error occurring in logistics management based on the logistics management situation information necessary for the port system included in the parsed information, and generates information for correcting the extracted error as data.

Table 2 shows seven types of logistics management status information.

Context Data Information variable Explanation Remarks
ContainerTime Container storage time (notice when shelf life is over if shelf life is over)
ContainerLocation Current location of the container (when the product is refrigerated food, it is not stored in the freezer, but detected and informed if it is stored in a warm place)
ContainerDirection Container direction (informs when the movement direction is abnormal due to malfunction of the device)
ContainerSpeed Container speed (informed when there is a problem with the transport speed due to malfunction of the machine)
ContainerSecurity Container safety (informs you if there is something wrong with the container)
ContainerTemperature Container Storage Temperature (Informs when the product storage temperature in the container is wrong)
ContainerHumidity Container Storage Humidity (Informs you if the product storage humidity in the container is wrong)

The situation recognition component 107 generates logistics management data for correcting an error in logistics management based on the parsed data, and transmits the generated management data to the control system to properly manage and classify the logistics through the control system. do.

Logistics management status information in Table 2 includes container storage time, container current position, container direction, container speed, container safety status, container storage temperature, container storage humidity.

 The application interface 105 of FIG. 1 is a service (legacy application, USN application, and RFID) to check the status information and environment information stored in the DB 108 in each application of FIG. application).

2 is a flowchart illustrating a logistics management based on logistics management status information in a logistics management apparatus using a middleware according to an embodiment of the present invention.

As shown in FIG. 2, when an error occurs while checking the seven kinds of water regulation status information one by one, the logistics management data is generated and transmitted to control the corresponding logistics through the control system, and information about the logistics management data is shown in FIG. 1. To the DB 108.

3 is a flowchart illustrating a logistics management method using middleware according to an embodiment of the present invention.

The plurality of sensing data collected by different communication methods are distinguished according to the communication method (S310).

In operation S320, the sensing data classified according to the communication method is analyzed (or parsed).

An error generated in logistics management is extracted based on the logistics management status information included in the parsed sensing data, and logistics management data including information for correcting the extracted error is generated (S330).

The logistics management data includes information for solving the error.

The extracted error is corrected based on the logistics management data (S340).

The extracted error is made through a logistics control system, and error correction information and logistics management data related thereto are stored in a DB (108 of FIG. 1).

As described above, optimal embodiments have been disclosed in the drawings and the specification. Although specific terms have been used herein, they are used only for the purpose of describing the present invention and are not used to limit the scope of the present invention as defined in the meaning or claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

Claims (12)

An interface unit for distinguishing a plurality of sensing data collected by different communication methods according to a communication method;
A data parsing unit for parsing the sensed data classified according to the communication scheme; And
And a situation recognition unit extracting an error generated in logistics management based on the logistics management status information included in the parsed sensing data and generating logistics management data including information for correcting the extracted error. Logistics management device using middleware. The method of claim 1,
The different communication method is a logistics management device using a middleware, characterized in that the RFID and USN method. The method of claim 1,
And the data parsing unit parses the sensing data based on a communication method, a data type, a data value, and a collection time. The method of claim 1,
The logistics management status information includes a storage time of logistics, a current position of the logistics, a moving direction of the logistics, a moving speed of the logistics, a preservation state of the logistics, a storage temperature of the logistics, and a storage storage humidity. Logistics management device using the middleware. The method of claim 1, wherein the situation recognition unit
A classification unit classifying the parsed sensing data according to logistics management status information;
Logistics management data generation unit for generating logistics management data based on the classified logistics management status information; And
And an output unit which transmits the logistics management data to a logistics management controller for correcting and controlling the extracted error. The method of claim 5, wherein
And a database for storing the parsed sensation data, the logistics management data, and the information received from the logistics management controller. The method of claim 1,
Logistics management apparatus using the middleware, further comprising; an application interface unit for modulating the logistics management data in accordance with a communication method. A sensing data classification step of distinguishing a plurality of sensing data collected by different communication schemes according to a communication scheme;
Parsing data sensed according to the communication scheme;
A situation analysis step of extracting an error occurring in logistics management based on the logistics management status information included in the parsed sensing data and generating logistics management data including information for correcting the extracted error; and
Logistics management method using a middleware comprising a; logistics management control step of correcting the extracted error based on the logistics management data. The method of claim 8,
The different communication method is a logistics management method using a middleware, characterized in that the RFID and USN method. The method of claim 8,
In the data parsing step, the sensing data is parsed based on a communication method, data type, data content, and collection time (Time). The method of claim 8,
The logistics management status information includes a storage time of logistics, a current position of the logistics, a moving direction of the logistics, a moving speed of the logistics, a preservation state of the logistics, a storage temperature of the logistics, and a storage storage humidity. Logistics management method using middleware. The method of claim 8,
And an application output step of modulating and outputting the logistics management data according to a communication method.

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