KR101409907B1 - Managing method of message for controlling job in container terminal - Google Patents

Abstract

According to a method for managing a work control message in a container terminal of the present invention, an application server and a message server communicating with a client terminal wired or wirelessly in a work environment such as the container terminal are built so that the identification of a client for an answer to a work message is easy, and transaction (data integrity) management to multiple clients for the inquiry, update, and deletion of a specific single information is easy. The same information is provided to a manager and the clients through one work message so that the management and maintenance of a work message list are simplified based on a corresponding client and a work message processing time for a work message requiring a long processing time can be reduced through parallel processing.

Description

Technical Field [0001] The present invention relates to a message management method for a container terminal,

The present invention relates to a message management method for a job control in a container terminal, and more particularly, to a job control message management method in a container terminal, And more particularly, to a method of managing messages for job control in a container terminal capable of ensuring the accuracy and reliability of message communication.

Generally, in a working environment such as a container terminal of a port, several tens to several hundreds of workers in a limited space use a communication means such as a computer, a vehicle terminal (VMT), a portable terminal, a smart phone and a tablet to report work orders, And monitoring the progress of the work, and each worker performs about 30 to 60 jobs per hour.

That is, in the container terminal, as shown in FIG. 1, a gate checker, a truck driver, a QC under man, a lashing man, a rich stuck / (RS / YC Driver), Refer Container Checker, Control Planner, ATC Remote Operator, Terminal Operator, Equipment Management and Repair Center (M & R Center) , High-load environments in which clients such as prefectural and immigration office managers deliver messages about their work through communications.

As an example, a system and method for operating and controlling a container terminal is disclosed in Patent Publication No. 10-2011-0066564.

A method for operating and controlling a conventional container terminal is as follows. As shown in FIGS. 2 and 3, a central container work process manager (central server) 11 manages a pier crane operation manager 12, a ship manager 13 A centralized operation control system structure that manages both the transportation vehicle operation manager 14, the cradle space manager 15, the rear location manager 16 and the cradle operation manager 17, Creates a work process from the information such as the unloading / loading / unloading / unloading job message received from the ship manager 13 and the rearrangement manager 16, transfers it to the equipment operation management subsystem 11 to 17, And updates it whenever it occurs.

In addition, the process manager 11 mediates the exchange of messages (information) between different subsystems, and manages the reservation and occupancy of the TP (Transfer Point) for container exchange between the quay crane, the transfer vehicle, Synchronize the operations of the devices.

Thereby, the crane crane operation manager 12 that manages the crane crane control system 20, the transport vehicle operation manager 14 that manages the transport vehicle control system 30, and the cage control system 40 The crane operation manager 17 is also managed by the central process manager 11.

In the conventional container terminal operation control system 10 having such a structure, when the operation processing request of the job message information increases due to an increase in the container processing amount and an increase in the number of operation equipment, the operation load is concentrated in the process manager 11 do.

When expanding the information processing capability of the system to cope with the increase in the work message information processing request amount, there is a problem in that it requires expansion of the qualitative performance of replacing the process manager 11 with a higher performance apparatus, have.

The exchange of work message information between the subsystems 11 to 17 such as the crane crane operation manager 12, the transport vehicle operation manager 14 and the crane operation manager 17 is also performed through the process manager 11 When the communication traffic between the subsystems increases, the bottleneck occurs and the delay of the central server spreads throughout the system, which may degrade the responsiveness and reliability of the system.

Therefore, ensuring reliability such that work messages can be correctly delivered to a receiver in a work environment such as a container terminal, ensuring the integrity of processing such as generation, inquiry, change and deletion of work message data, List maintenance, and parallel processing of task messages with long processing time are required.

Korean Patent Application Publication No. 10-2011-0066564 (entitled: Agent-Based Distributed Operation Control System and Method for Container Terminal, Published on 2011, 06, 17)

It is an object of the present invention to provide a message server and an application server in a work environment such as a container terminal so as to easily identify a client for returning a task message, (Data integrity) management for requests to inquire, update, and delete specific single information with a single job message. It is possible to support multiple clients and administrators to receive the same information through one job message, The present invention provides a message management method for a job control in a container terminal that can simplify maintenance and management of a job message list and shorten a job message processing time by parallel processing of a job message requiring a long processing time.

These and other objects of the present invention will be apparent to those skilled in the art without departing from the scope of the present invention by the appended claims.

According to another aspect of the present invention, there is provided a method for managing a job control message in a container terminal, the method comprising the steps of: (a) receiving a task message transmitted from a plurality of client terminals, ); (b) determining whether the message server 200 receives a task message from one or more of the plurality of client terminals 100 (S520); (c) If the message server 200 receives a job message from one client terminal 100 as a result of the determination in step (b), the message editor 200 identifies the corresponding client terminal 100 through the message editor 220 Editing the message by including an identifier (ID) in the message (S530); (d) the message server 200 transmits a message including at least one identifier (ID) to the application server 300 (S540); (e) The application server 300 analyzes the message transmitted through the message server 200 through the message analyzer 320 and transmits the identifier of the corresponding client terminal 100 through the reply message generator 330 (S550) of generating a reply message (R-MSG) including the ID (ID) and transmitting it to the message server 200; And (f) transmitting, by the message server 200, a reply message including an identifier (ID) capable of identifying the client terminal 100 to the corresponding client terminal 100, and performing a message communication (S560) do.

If the message server 200 receives the same message from the plurality of client terminals 100 in step S570, the message server 200 determines whether the same message is received from the plurality of client terminals 100 (S571) of sequentially recording an identifier (ID) in the message queue unit 230 and assigning an identifier (ID) to the message queue unit 230; (b2) the message queue unit 230 of the message server 200 operates as a first in first out (FIFO) and sequentially transmits a plurality of identical message information to the application server 300 (S572) ; And (b3) analyzing the message information sequentially received by the application server 300 through the message analyzer 320 and performing an error and an ok process (S573) ) And (f) are performed.

More preferably, between the steps (c) and (d), (c1) the message server 200 transmits the group IDs of the client terminals 100 to the group registration unit 240 If the identifier of the corresponding client terminal is not registered in the same group, the process proceeds to step (d). If the identifier of the corresponding client terminal is registered in the same group, .

If the message server 200 simultaneously receives another message from the plurality of client terminals 100 (S580), the message server 200 determines whether the message received from the plurality of client terminals 100 (S582) of sequentially recording another message in the message queue unit 230 and assigning each identifier (ID) to the application server 300; (h) The application server 300 processes individual messages simultaneously received from the message server 200 through the multi-threading unit 340 (S584), and then proceeds to step (e).

A message edited through the message editor 220 of the message server 200 includes a start argument for identifying a start of a task message, a control message having a flow of a message and an identifier (ID) (R) generated by the response message generator 330 of the application server 300, including a body factor in which body information of a message is described, and an ending factor for separating the end of the message, (MSG) includes a start argument for identifying the start of a message, a control parameter to which an additional identifier (ID) of a client terminal capable of receiving a reply message is given, a body factor body, and an ending argument that delimits the end of the message.

According to the method for managing message for job control in a container terminal according to the present invention, by constructing a message server and an application server in a work environment such as a container terminal, it is possible to easily identify a client for returning a job message, (Data integrity) management for requests to inquire, update, and delete specific single information. It is possible to support multiple clients and administrators to receive the same information through one task message, It is possible to simplify the maintenance and management of the message list, and shorten the task message processing time through the parallel processing for the task message requiring the long processing time.

Additional features and advantages of the present invention will become more apparent from the following description.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a diagram illustrating a working environment in a typical container terminal;
2 illustrates a configuration of a centralized operation control system according to the prior art;
3 is a view showing an example of a quay wall and a yard area of a conventional conventional container terminal;
4 is a view showing a configuration of a system applied to a message control method for a job control in a container terminal according to the present invention.
5 is a flowchart illustrating a method of managing a message for job control in a container terminal according to the present invention.
6 is a block diagram illustrating an example of delivering a reply message to a corresponding client terminal that has sent a message applicable to the present invention;
Fig. 7 is a subroutine of part A in the flowchart of Fig. 5 applied to the present invention; Fig.
8 is a block diagram illustrating an example of a transaction management method for a job message applied to the present invention.
9 is a block diagram showing an example of a message sharing method according to group registration applied to the present invention.
Fig. 10 is a subroutine of part B in the flowchart of Fig. 5 applied to the present invention. Fig.
11 is a block diagram showing an example of a parallel processing method for a plurality of messages applied to the present invention.
12 is a view showing an example of a software program of a message management method for job control according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a message management method for a job control in a container terminal according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Prior to the detailed description of the present invention, the same or corresponding components in the drawings are denoted by the same reference numerals, and if a detailed description of related known configurations or functions is deemed to blur the gist of the present invention, Is omitted.

Also, in the present specification, the following embodiments and embodiments are to be considered as being illustrative and not restrictive, and the invention is not to be limited to the details given herein but is to be accorded with the scope of the appended claims and their equivalents, It can be changed to another embodiment.

First, a system applied to a message control method for work control in a container terminal according to the present invention will be described with reference to FIG.

4 is a diagram illustrating a configuration of a system applied to a method for managing message for job control in a container terminal according to the present invention.

As shown in FIG. 4, the system applied to the present invention includes a plurality of client terminals 100, a message server 200, and an application server 300.

1, the client terminal 100, the message server 200, and the application server 300 include a Gate Checker, a Truck Driver, a QC Under Man, Rushing man, RS / YC Driver, Refer Container Checker, Planner, ATC Remote Operator, Equipment Management and Repair Center M & R Center), dispatcher, transporter, shipowner and departing office manager, and terminal operators, for example, in the port container terminal, mutual work orders, A mobile terminal (VMT), a portable terminal, a smart phone, a netbook, and a tablet.

4, the client terminal 100 may support a plurality of communication protocols required for transmission and reception of job related message information and data with the message server 200 through a wired / wireless communication network, An input unit such as a keyboard, a mouse, and a touch pad for requesting or inquiring a work related message by a user of the client terminal 100; and an input unit for inputting reply message information provided from the message server 200 An output unit such as a monitor and a printer for displaying or outputting information, a storage unit for storing operation information for operating the client terminal 100 and an identifier of the terminal user, and a control unit for controlling functions of the respective units The message server 200 and the application server 300, which will be described later, An interface unit, an input unit, an output unit, a storage unit, and a control unit.

In addition, the client terminal 100, the message server 200, and the application server 300 send and receive job related message information through a wireless network such as a TCP / IP protocol that can be connected by wire and a WAP protocol that can be wirelessly connected .

The message server 200 transmits the task related message request and inquiry information received from the client terminal 100 to the application server 300 and transmits the reply message received from the application server 300 to one or more clients To the terminal (100).

Specifically, the message server 200 includes a message transmission / reception unit 210 for transmitting / receiving job related message information and data to / from the client terminal 100 and the application server 300, A message editor 220 for editing message information by adding identifier information identifying the corresponding client terminal to the message related to the task associated with the received message, a message queue unit 230 for sequentially performing processes such as generation, update and deletion through a first out method when a plurality of client terminals 100 need to share the same message A group registration unit 240 for registering and managing corresponding client terminals in the same group, The control unit 250 controls the message editing unit 220, the message queue unit 230, and the group registration unit 240 to enable communication with respect to a work instruction through a message, .

In addition, the application server 200 analyzes and processes a message edited and received through the message server 200, generates a reply message, and transmits the reply message to the message server 200.

Specifically, the application server 300 includes a message receiving and transmitting unit 310 for receiving and transmitting task related message information and data to and from the message server 200, a task related message received from the message server 200, A message analyzing unit 320 for analyzing the request and inquiry related information related to the request and the inquiry related information, and an identifier (ID) information for identifying the corresponding client terminal with respect to the task related message received from the message server 200, A multithreading unit 340 for simultaneously generating a reply message for a plurality of job related messages transmitted from the plurality of client terminals 100 to the message server 200, , The message receiving and transmitting unit 310, the message analyzing unit 320, the reply message generating unit 330, and the multi-threading unit 340, And a control unit 350 that enables processing of related information.

Hereinafter, a method of managing a message for job control in a container terminal according to the present invention will be described with reference to FIG. 4 and FIG. 5 to FIG.

FIG. 5 is a flowchart illustrating a message management method for a work control in a container terminal according to the present invention, and FIG. 6 is a block diagram illustrating an example of delivering a reply message to a corresponding client terminal that has transmitted a message applied to the present invention.

7 shows a subroutine of part A in the flowchart of FIG. 5 applied to the present invention, and FIG. 8 is a block diagram showing an example of a transaction management method for a job message applied to the present invention.

9 is a block diagram showing an example of a message sharing method according to group registration applied to the present invention. FIG. 10 shows a subroutine of a part B in the flowchart of FIG. 5 applied to the present invention, FIG. 12 is a block diagram illustrating an example of a parallel processing method for a plurality of messages according to an embodiment of the present invention, and FIG. 12 is a diagram illustrating an example of a software program for a message management method for job control according to the present invention.

Referring to FIGS. 5 and 6, a method of transmitting a reply message to a corresponding client terminal 100 that has transmitted a task related message will be described. A plurality of client terminals 100 send a work instruction, And transmits a task request and an inquiry message such as monitoring of the progress of the task to the message server 200 (S510).

Next, the message server 200 determines whether a message is received from one or more client terminals 100 of the plurality of client terminals 100 (S520).

As a result of the determination in step S520, if the message server 200 receives a job request and an inquiry message from one client terminal 100, the message server 200 can identify the corresponding client terminal 100 through the message editor 220 The message is edited by including an identifier (ID) in the message (S530).

At this time, the message edited through the message editor 220 of the message server 200 may be configured as, for example, a message (MSG) = "Start + Control + Body + End".

Here, 'Start' is an element separating the start of a task related message, 'Control' is an element to which a message flow and an identifier (ID) are assigned, 'Body' And 'End' consists of the elements that distinguish the end of the message.

That is, 'Control' is given an identifier (ID) that identifies a client terminal as a sender of a message, and 'Body' is a classification factor that can distinguish each message data so as to form a one- For example, in the case of a one-dimensional array, the delimiter can be defined as '+', and each item can be distinguished by constituting as "A + B + C + ..." A + B + C + D + E + F "or" (A + B + C) * (D + E + F) "by using '/' or '*' .

Subsequently, after step S530, the message server 200 transmits a message including the identifier (ID) to the application server 300 (S540).

The application server 300 analyzes the message transmitted through the message server 200 through the message analyzer 320 and transmits the identifier of the corresponding client terminal 100 through the response message generator 330 ID) to the message server 200 and transmits the message to the message server 200 (S550).

At this time, for example, the reply message (R-MSG) = "Start + Control + Body + End" may be configured as a reply message generated through the reply message generating unit 330 of the application server 300 .

'Control' is an element to which an identifier (ID) of a client terminal capable of receiving a reply message is given, 'Body' is an element to which a message related to a task related message is received 'End' is composed of elements that distinguish the end of a message.

Meanwhile, a delimiter such as 'R' is specified in the item 'Control (cntr)' among the elements constituting the reply message (R-MSG) The components' Start '='<',' Control (cntr) '='# Select cntr_no from tb_master> message (MSG) for "Select cntr_no from tb_cntr", for example, by replacing "Separator" with " , And a reply message (R-MSG) for this can be configured as &lt;# R # cntr0000001 + cntr0000002 + cntr0000003 &gt;.

Subsequently, after step S550, the message server 200 transmits a reply message to which the identifier (ID) capable of distinguishing the client terminal 100 is added to the corresponding client terminal 100, And performs message communication with respect to monitoring of the progress of the report and work (S560).

That is, for example, in step S530, the message server 200 transmits '1' to the first connected client terminal 100 for identification of the client terminal 100, '2', '3' (MSG) is configured as &lt;# 1 # select cntr_no from tb_master &gt; after assigning an identifier to the message of the first client terminal 100 by assigning an identifier (ID)

In step S550, the application server 200 configures the response message (R-MSG) for the message (MSG) illustrated immediately above as <# 1R # cntr0000001 + cntr0000002 + cntr0000003> And transmits the reply message to the corresponding client terminal 100 having the corresponding identifier (ID).

Hereinafter, a transaction management method for the same task message will be described with reference to FIGS. 5, 7, and 8. FIG.

That is, as a result of the determination in step S520, the message server 200 receives, from the plurality of client terminals 100, for example, a process of generating (Crdate), reading, updating, When the same message is received (S570), the same message from the plurality of client terminals 100 is sequentially recorded in the message queue unit 230 and an identifier (ID) is given at S571.

Next, the message queue unit 230 of the message server 200 operates as a FIFO to sequentially transmit a plurality of identical message information to the application server 300 (S572).

Then, the application server 300 analyzes the sequentially received message information through the message analyzer 320, and then updates, deletes, and deletes the nonexistent message information, An error is generated for the creation of the message information and the other is processed ok (S573), and then the above-described steps S550 and S560 are performed.

# 1 # insert 'cntr0000004' into tb_master &gt;, and &lt;# 2 # &gt;, which are the same operation messages, are transmitted through the first client terminal and the second client terminal to the operation message such as "insert 'cntr0000004'into tb_master & insert 'cntr0000004' into tb_master> is transmitted to the application server 300 through the message server 200, the application server 300 transmits a reply message (R-MSG) according to normal processing from the first client terminal to the application server 300, (R-MSG) according to the message duplication error from the second client terminal as &lt;# 2R # error: data duplicated &gt;, and generates a message To the server (200).

That is, the message server 200 receiving the same operation message 'Create / Update / Delete' from the first client terminal and the second client terminal can guarantee the integrity of data processing for the individual operation message.

Meanwhile, between step S530 and step S540, when the message is edited by including an identifier (ID) capable of identifying the corresponding client terminal 100 in step S530, It is determined whether the identifiers of the terminal 100 are registered in the same group in the group registering unit 240 in step S535 and if the identifier of the corresponding client terminal is not registered in the same group, If the identifiers of the client terminals are registered in the same group, the process proceeds to step S550.

For example, as shown in FIG. 9, when the message server 200 receives the task message from the first client terminal, the identifier (ID) of the first client terminal can share a message with the second client terminal The IP address and the port number of the access terminal are registered in the group registration unit 240 so that the reply message received from the application server 300 can be simultaneously transmitted to the first client terminal and the second client terminal, do.

As a result of the determination in step S520, when the message server 200 simultaneously receives another message from the plurality of client terminals 100 (S580), as shown in FIGS. 10 and 11, the plurality of client terminals 100 100 to the message queue unit 230 and simultaneously assigns the identifiers to the application server 300 at step S582.

Next, the application server 300 processes individual messages simultaneously received from the message server 200 through the multi-threading unit 340 (S584), and then performs the operations of S550 and S560.

Accordingly, by performing parallel processing on a plurality of different messages requiring a long processing time, the time for the entire work message can be shortened.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Of course.

100: client terminal 200: message server
210: message transmission / reception unit 220: message editing unit
230: message queue unit 240: group registration unit
250: control unit 300: application server
310: message reception and transmission unit 320: message analysis and processing unit
330: reply message generating unit 340: multi-
350:

Claims (6)

A method of managing a job control message in a container terminal,
A message server 200 that transmits job message request and inquiry information received from the client terminal 100 to the application server 300 and transmits the reply message received from the application server 300 to one or more client terminals 100 ),
The message server 200 includes a message transmission / reception unit 210 for transmitting / receiving work message information to / from the client terminal 100 and the application server 300, A message editing unit 220 for editing the message information by adding identifier information that identifies the client terminal of the client terminal 100 to the client terminal 100 through the first in first out (FIFO) A message queue unit 230 for sequentially generating, updating and deleting a plurality of client terminals 100, and client terminals corresponding to the same message among the plurality of client terminals 100, A message registration unit 220, a message queue unit 230, and a group registration unit 240. The group registration unit 240 controls the message sending / receiving unit 210, the message editing unit 220, , A work order through the message, and a control unit (250) that performs communication relating to operation processing result reporting and monitoring of the working progress,
The application server 300 analyzes and processes a message edited and processed through the message server 200 and generates a reply message and transmits the reply message to the message server 200. The application server 300 is connected to the message server 200, A message analyzer 320 for analyzing request and inquiry information related to a task message received from the message server 200, a message analyzer 320 for analyzing request and inquiry information about the task message received from the message server 200, A response message generating unit 330 for generating a reply message by adding identifier information capable of identifying each client terminal to the task message received from the plurality of client terminals 100, A multi-threading unit 340 for simultaneously generating a reply message for a plurality of task messages transmitted to the mobile terminal 200, a message receiving and transmitting unit 310, To control the functionality of seokbu 320, the reply message generating unit 330, and multi-threaded section 340, hayeoseo a control unit 350 that allows processing of the reply message information,
(a) receiving (S510) a task message including a task instruction, a task task result report, and a task progress monitoring transmitted from the plurality of client terminals 100;
(b) determining whether the message server 200 receives a task message from one or more of the plurality of client terminals 100 (S520);
(c) If the message server 200 receives a job message from one client terminal 100 as a result of the determination in step (b), the message editor 200 identifies the corresponding client terminal 100 through the message editor 220 Editing the message by including an identifier (ID) in the message (S530);
(d) transmitting (S540) the message including at least one identifier (ID) to the application server 300 by the message server 200;
(e) The application server 300 analyzes the message transmitted through the message server 200 through the message analyzer 320 and transmits the identifier of the corresponding client terminal 100 through the reply message generator 330 (S550) of generating a reply message (R-MSG) including the ID (ID) and transmitting it to the message server 200; And
(f) The message server 200 transmits a reply message including an identifier (ID) capable of identifying the client terminal 100 to the corresponding client terminal 100, (S560) of performing message communication including monitoring of the message,
As a result of the determination in step (b)
(b1) When the message server 200 receives the same message from the plurality of client terminals 100 (S570), the same message from the plurality of client terminals 100 is sequentially transmitted to the message queue unit 230 (S571) of recording an identifier (ID) at the same time;
(b2) the message queue unit 230 of the message server 200 operates as a first in first out (FIFO) and sequentially transmits a plurality of identical message information to the application server 300 (S572) ; And
(b3) The application server 300 sequentially analyzes the received message information through the message analyzer 320 and performs an error and an ok process (S573) And step (f) are performed,
Between the step (c) and the step (d)
(c1) determining whether the message server 200 is registered in the group registration unit 240 in the same group as the identifiers of the client terminals 100 (S535) If the identifiers of the client terminals are not registered in the same group, the process proceeds to step (d). If the identifiers of the corresponding client terminals are registered in the same group, the process proceeds to step (e)
As a result of the determination in step (b)
(g) When the message server 200 simultaneously receives another message from the plurality of client terminals 100 (S580), the message server 200 transmits another message received from the plurality of client terminals 100 to the message queue 230 (S582) of assigning each identifier (ID) to the application server 300;
(h) The application server 300 processes individual messages simultaneously received from the message server 200 through the multi-threading unit 340 (S584), and then proceeds to step (e) Parallel processing is performed on a plurality of different long messages so that the processing time for the entire task message can be shortened,
The message edited through the message editing unit 220 of the message server 200 includes a start argument for identifying a start of a task message, a flow of a message from the client terminal 100 as a sender of a task message, A body argument in which body information of a message is written, and a message identifier, which identifies each message data so as to form a control parameter, a one-dimensional or multi-dimensional array, And an ending factor (end)
The response message (R-MSG) generated through the reply message generator 330 of the application server 300 includes a start indicator for identifying the start of a message and a delimiter capable of receiving a reply message A control parameter to which an additional identifier (ID) of the client terminal is given, a body factor in which the body information of the message is written, and an ending factor to identify the end of the message. A message management method for job control. delete delete delete delete delete

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