WO2014017694A1 - Wireless clock system for sea - Google Patents

Abstract

The present invention relates to a wireless clock system for sea and includes: a signal converter for converting a signal transmitted from a GPS terminal for a ship; and a network time protocol (NTP) server that receives a network protocol converted signal from the signal converter, generates standard time information in a ship based on the received signal, and transmits the generated standard time information through a wireless communication network for time information synchronization.

Description

Marine Wireless Clock System

The present invention relates to a maritime wireless clock system, and more particularly, converts a signal transmitted from a GPS terminal into a TCP / IP, UDP signal, etc., generates standard time information (synchronization information) in the ship, Standard time information can be provided to wireless watch devices in ships, navigation devices in ships, and IP-based devices (servers, PCs, smartphones, tablets, etc.) through IEEE 802.11b / g / n. It is about the system.

The marine clock system means a system for managing time information in a ship or offshore plant in floating equipment such as a ship or offshore plant. Specifically, it refers to a system constructed to synchronize time information of various equipments used in a ship. Such a marine clock system provides crews with time information appropriate to the ship's operating conditions in a batch, or It is used to synchronize time information of various electronic devices used in a batch.

Looking at the prior art for building such a clock clock system, in the prior art to build a system with a basic configuration of a master clock (slave clock) master clock (slave clock), the master clock and the slave clock The time information for synchronization was provided by connecting through a general communication cable. Therefore, it was very cumbersome to construct a system by installing a separate coaxial cable in various cabins (cabin, public area) in the ship where the slave clock is mounted, and it was very difficult to expand the system even after the system was built. In addition, other equipment in the ship that is not connected to the master clock through the general communication cable has a problem that can not receive the synchronized time information, the IP-based equipment (server, PC, tablet, Also, since the time information is not provided to the devices in the ship, such as smart phones and IP-based devices, the time information between the IP-based devices owned by the crew and the devices in the marine vessel may be inconsistent and cause confusion. there was.

Therefore, there is a need for the development of a new marine clock system that can solve these problems.

The present invention has been invented to meet the technical needs described above, to solve the above problems, as well as to provide a technology that can be easily developed by those skilled in the art.

The marine wireless clock system according to the present invention solves the problems of the conventional clock system based on a general communication cable, and provides standard time information (synchronized time information) to various devices existing in a ship through a wireless communication network. Making it possible is a challenge.

According to another aspect of the present invention, there is provided a maritime wireless clock system comprising: a signal converter for converting a signal transmitted from a marine GPS terminal; And receiving a signal in which a network protocol is converted from the signal converter, generating standard time information in the ship based on the received signal, and generating a wireless communication network for synchronizing the time information with the generated standard time information. Characterized in that it comprises a NTP (Network Time Protocol) server to transmit through.

In addition, the maritime wireless clock system according to an embodiment of the present invention, the signal converter, the signal transmitted from the GPS terminal TCP / IP (Transfer Control Protocol / Internet Protocol) signal or UDP (User Datagram Protocol) signal It characterized by converting to.

In addition, the maritime wireless clock system according to an embodiment of the present invention, the signal transmitted from the GPS terminal, RS422 (Recommended Standard-422), RS485 (Recommended Standard-485), NMEA0183 (National Marine Electronics Association 0183) Or a National Marine Electronics Association 2000 (NMEA2000) signal.

In addition, the maritime wireless clock system according to an embodiment of the present invention, characterized in that it further comprises a wireless clock (Wireless clock) for receiving the standard time information transmitted from the NTP server via a wireless communication network.

In addition, the maritime wireless clock system according to an embodiment of the present invention, characterized in that it further comprises an IP-based device for receiving the standard time information transmitted from the NTP server via a wireless communication network.

In addition, the maritime wireless clock system according to an embodiment of the present invention, the wireless communication network is characterized in that the IEEE 802.11 b / g / n.

In addition, the maritime wireless clock system according to an embodiment of the present invention, the AP (Access Point) device for receiving the standard time information from the NTP server, and transmits the received standard time information through a wireless communication network further And the wireless watch device or the IP based device receives the standard time information through the AP device.

In addition, in the maritime wireless clock system according to an embodiment of the present invention, the IP-based device is a mobile device, Internet phone, PC, tablet or smartphone, the IP-based device based on the standard time information It is characterized in that the time information can be synchronized through the daemon method.

In addition, the maritime wireless clock system according to an embodiment of the present invention, the NTP server is connected to the Ethernet (Ethernet) network in the ship, providing the standard time information to the ship devices connected to the Ethernet network It is characterized by.

In addition, the maritime wireless clock system according to an embodiment of the present invention is connected to the Ethernet network further receives the standard time information, and further includes an AP device for transmitting the received standard time information through a wireless communication network; The wireless clock device or the IP-based device may receive the standard time information through the AP device.

In addition, in the maritime wireless clock system according to an embodiment of the present invention, the wireless clock device synchronizes the time information based on the standard time information, and displays the synchronized time information by the hour hand, minute hand, second hand, And receiving additional local time information from the NTP server, and displaying the received local time information together with the standard time information in the form of hour hand.

In addition, the maritime wireless clock system according to an embodiment of the present invention, the wireless clock device, if a failure in the process of synchronizing the time to the NTP server using a protocol of NTP or Simple Network Management Protocol (SNMP). It is characterized by reporting.

In addition, in the maritime wireless clock system according to an embodiment of the present invention, the NTP server is connected to the external Internet network through a satellite modem, and receives the synchronization time information from the clock system of another ship through the Internet network In addition, the standard time information is generated based on the received information.

In addition, the maritime wireless clock system according to an embodiment of the present invention, characterized in that the NTP server is embedded in the signal converter, it is formed integrally with the signal converter.

In addition, the maritime wireless clock system according to an embodiment of the present invention, the NTP server, a transceiver for transmitting and receiving a signal; A standard time information manager for generating the standard time information and managing the generated standard time information; A UI providing unit providing a user interface (UI) environment to a device connected to a server; A data storage unit for storing signal data transmitted / received through the transceiver unit, data for implementing the standard time information managing unit, and data for implementing the UI providing unit; And a controller for controlling operations of the transceiver, the standard time information manager, the UI provider, and the data storage.

In addition, the maritime radio clock system according to an embodiment of the present invention, characterized in that the transceiver provides the standard time information to a radio clock device or an IP-based device in the ship through a wireless communication network.

In addition, the maritime wireless clock system according to an embodiment of the present invention, the standard time information management unit, when the ship passes the date change line automatically UTC (Universal Time Coordinated) time to local time (Local) automatically It is characterized by correcting.

In addition, the maritime wireless clock system according to an embodiment of the present invention, it is possible to send and receive data through the transceiver, it may further include a control terminal for implementing a UI environment provided through the UI providing unit. It is done.

In addition, the maritime wireless clock system according to an embodiment of the present invention, characterized in that the control terminal can control the operation of the standard time information management unit through the UI environment.

In addition, the maritime wireless clock system according to an embodiment of the present invention, the standard time information management unit, regardless of the actual position of the ship, can set the local time selected by the control terminal to the standard time, The standard time may be set by applying summer time according to the selection of the control terminal.

The marine radio clock system according to the present invention converts a GPS signal into a TCP / IP signal, generates standard time information on an NTP server based on the signal, and transmits the generated information to devices in the ship through a wireless communication network. Can be delivered to synchronize time information. Therefore, unlike the conventional clock system operated based on the general communication cable, it is easy to expand the system, and various in-board devices other than the slave clock can be incorporated into the synchronization system.

In addition, the wireless clock system according to an embodiment of the present invention, since the standard time information for time synchronization is managed integrally through the NTP server, it is possible to effectively synchronize the time information according to the ship operating situation. Specifically, when the ship passes the date change line through the operation of the NTP server, the standard time information can be updated to reflect the situation, and after setting the standard time different from the local time to which the ship actually belongs, It can be automatically reflected to all devices.

In addition, the wireless clock system according to an embodiment of the present invention, the standard clock information can be provided to other equipment in the ship that is not directly connected to the master clock-slave clock system to synchronize the time, the crew carried or Standard time information can also be provided to IP-based devices installed in a network. Therefore, the time information of all equipment existing in the ship as well as the navigation device of the ship can be synchronized through the wireless communication network, it is possible to prevent the confusion caused by the inconsistency of the time information that could occur in the ship.

In addition, the wireless clock system according to an embodiment of the present invention, it is possible to install the radio clock device in various locations in the ship, even if using the analog time representation method, providing a plurality of local time information other than the standard time information of the ship can do. Specifically, the standard time information of the ship can be displayed as hour hand, minute hand, and second hand, but the local time information of other main points (ex: world cities, other ships) can be displayed together in the form of an additional hour hand. Even if the expression method is used, a plurality of local time information may be provided together.

1 is a block diagram showing the configuration of a maritime wireless clock system according to an embodiment of the present invention.

2 is a block diagram showing the configuration of a maritime wireless clock system according to another embodiment of the present invention.

3 is a block diagram showing the configuration of an NTP server according to an embodiment of the present invention.

4 is a diagram illustrating an embodiment of a UI environment for management of standard time information that may be provided by the NTP server of the present invention.

5 and 6 are views showing an embodiment of a wireless clock device that can be included in a wireless clock system according to an embodiment of the present invention.

In addition, the code | symbol used in drawing is as follows.

100: GPS terminal 200: signal converter

300: NTP server 310: transceiver

320: data storage unit 330: standard time information management unit

340: UI providing unit 350: control unit

400: IP based device 500: Wireless clock device

600: inboard device 700: AP device

Hereinafter, a maritime wireless clock system according to the present invention will be described in detail with reference to the accompanying drawings. The described embodiments are provided to enable those skilled in the art to easily understand the technical spirit of the present invention, and the present invention is not limited thereto. In addition, matters represented in the accompanying drawings may be different from the form actually embodied in the schematic drawings in order to easily explain the embodiments of the present invention.

On the other hand, the expression "comprising" some components, as an "open representation" simply refers to the presence of the components, and should not be understood as excluding additional components.

In addition, the term 'ship' expressed in the present invention is a generic term for marine floating apparatus water operated in the sea in a movable form, and may be configured in various ways such as ships, marine plants, and other floats.

1 to 5, the embodiments of the maritime wireless clock system according to the present invention will be described in detail.

Hereinafter, a detailed look at the marine wireless clock system according to an embodiment of the present invention.

Referring to Figure 1, the maritime wireless clock system according to an embodiment of the present invention, a signal converter 200 for converting a signal transmitted from the ship GPS terminal 100, a network protocol from the signal converter (Network Protocol NTP (Network Time Protocol) server that receives the converted signal, generates the standard time information in the vessel based on the received signal, and transmits the generated standard time information through a wireless communication network for synchronization of time information. 300, a wireless clock device 400 for receiving the standard time information transmitted from the NTP server through a wireless communication network, and an IP based device for receiving the standard time information transmitted from the NTP server through a wireless communication network. 500 may be included.

The signal converter 200 converts a signal transmitted from the GPS terminal 100 into a signal of another network protocol after being transmitted from the GPS satellite to the GPS terminal 100, and converts the converted signal into the NTP server 300. ) Is the configuration to pass.

Here, the signal transmitted from the GPS terminal 100, the signal transmitted from the GPS terminal 100, RS422 (Recommended Standard-422), RS485 (Recommended Standard-485), NMEA0183 (National Marine Electronics Association 0183) or It may be a National Marine Electronics Association 2000 (NMEA2000) signal, and the signal converter 200 receives these signals and converts them into signals of other network protocols.

In addition, the signal converter 200 may convert a signal transmitted from the GPS terminal 100 into a signal such as a TCP / IP (Transfer Control Protocol / Internet Protocol) signal or a UDP (User Datagram Protocol). The signal converted by the protocol is transmitted to the NTP server 300.

Meanwhile, the signal converter 200 may transmit the converted signal to the NTP server 300 using various methods. Specifically, the signal converter 200 may transmit a signal using a communication cable or a signal using a wireless communication network. have.

In addition, the signal converter 200 may be integrally formed with the NTP server 300. In this case, the NTP server 300 may be configured to be embedded in the signal converter 200. have.

The NTP server 300 receives a signal in which a network protocol is converted (TCP / IP, UDP, etc.) from the signal converter 200 and generates standard time information in the ship based on the received signal. The standard time information can be transmitted through a wireless communication network to synchronize time information.

Here, the NTP server 300 may include a wireless transceiver 310 for transmitting and receiving a signal through a wireless communication network, and through the wireless transceiver 310, a wireless communication network such as IEEE 802.11 b / g / n. Signal can be transmitted. In addition, the signal transmitted through the wireless communication network is similar to the wireless watch device 500 or the IP-based devices (400, PC, smart phone, IP phone, tablet, IP TV, etc.) having a wireless transmission and reception unit 310 The wireless clock device 500 or the IP-based device 400 may synchronize time information by using the standard time information included in a signal transmitted from the NTP server 300. .

In addition, the NTP server 300 is connected to the Ethernet network in the ship, it is possible to provide the standard time information to the ship device 700 connected to the Ethernet network, accordingly various installed in the ship Time information of ship-related devices can also be synchronized. Specifically, the electronic chart (ECDIS, Electronic Chart Display and Information System), AIS (Automatic Identification System), AMS (Alarm Monitoring System), fuel equipment, GYRO, radar, engine, The standard time information may be transmitted to a vessel navigation apparatus, a voice data recorder (VDR), etc., and the apparatuses 700 may synchronize the time information using the transferred standard time information.

On the other hand, the NTP server 300, based on the information transmitted from the signal converter 200, can generate the standard time information in a variety of ways, the generated standard time information through a wireless communication network or Ethernet network Can be delivered to synchronize time information.

Specifically, the NTP server 300 may set the local time to the standard time based on the GPS position of the ship to the standard time, by transmitting the standard time information set through the wireless communication network or Ethernet network As the position of the ship is changed, the standard time may be automatically updated according to the changed position to dynamically synchronize time information.

In addition, when the ship passes the date change line, the NTP server 300 may reset the standard time information by reflecting the fact and synchronize the time information. For example, when the ship crosses a date change line, Universal Time Coordinated (UTC) time can be automatically corrected to Local Time, and standard time information can be reset based on the corrected information. .

In addition, the NTP server 300 may set a randomly selected time as a standard time regardless of the actual GPS position of the ship. For example, the NTP server 300 sets a standard time based on local time of a location other than the actual GPS position of the ship, sets a standard time based on standard time information of another ship, or inputs from the outside. After setting the standard time, the time information can be synchronized.

In addition, the NTP server 300 may be connected to a control terminal to control the operation. In this case, the NTP server 300 may provide a user interface (UI) environment for controlling the operation of the server for the convenience of the control terminal. Can provide. In this case, the control terminal may be connected to the NTP server 300 through a wireless communication network or an Ethernet network. In addition, the control terminal may be connected in various ways such as a communication cable. In addition, the control terminal controls the NTP server 300 based on the provided UI environment. Specifically, the control terminal supervises and controls operations related to setting and managing standard time information. On the other hand, the control terminal may be a variety of electronic devices, PC, tablet, smart phone, IPTV can be a variety of electronic devices that can be connected to the network.

Also, the NTP server 300 receives fault information related to time synchronization from the wireless clock device 500 or the IP-based device 400 (a protocol such as NTP or SNMP) to solve the fault information. You can proceed with the process. For example, when the NTP server 300 receives failure information (synchronization of time information) from the wireless clock device 500 or the IP-based device 400, the NTP server 300 transmits the failure information. The process of transmitting the standard time information to the device can be performed once again. If the time information of the corresponding device is not synchronized even by such a process, the process of regenerating the standard time information and retransmitting all the devices is performed. You can. In addition, if the time information of the corresponding device is not synchronized even by this process, the information received from the GPS terminal 100 or the setting information input from the outside is once again reviewed, and all the devices are once again regenerated. If the time information of the device is not synchronized even by this process, it is determined that the device itself is defective.

The IP-based device 400 refers to a device based on IP (Internet Protocol), and is a device that receives standard time information transmitted from the NTP server 300 through a wireless communication network.

The IP-based device 400 receives a protocol signal such as TCP / IP transmitted from the NTP server 300 through a wireless communication network and based on standard time information included in the transmitted signal. Synchronize the time information of. Here, the process of receiving the standard time information and synchronizing the time information may be performed by various methods, preferably by the DaeMone method.

In addition, the IP-based device 400 may report the fact to the NTP server 300 (protocol such as NTP or SNMP) and request processing when there is a failure in the synchronization process of time information. For example, if the received standard time information data is lost and accurate standard time information cannot be obtained, the NTP server 300 may report a failure and request processing. In addition, the IP-based device 400 may check whether the synchronized time information of each other matches while exchanging data with other devices in the ship. The occurrence may be reported to the NTP server 300.

On the other hand, the IP-based device 400 may be a variety of IP-based devices, such as PCs, notebooks, smartphones, tablets, IP phones, IP TV existing on the ship, is connected to the network inside the ship There is no need to connect directly to the master clock through the communication line. In addition, the wireless communication network may be implemented in various ways, but preferably may be implemented in the manner of IEEE 802.11 b / g / n.

The wireless clock device 500 refers to an electronic clock device capable of transmitting and receiving wireless signals, and means a configuration of receiving standard time information transmitted from the NTP server 300 through a wireless communication network.

The wireless clock device 500 may update and display time information on the basis of the standard time information transmitted from the NTP server 300. The display of such time information is preferably displayed as shown in FIG. It can be made through, and can be made in a variety of ways, such as the analog method (hour hand, minute hand, second hand is represented in a rotating form) or digital method (indicated by numbers). In addition, other additional information may be provided in addition to the synchronized time information as shown in FIG. 6.

In addition, the wireless clock device 500 receives a protocol signal such as TCP / IP transmitted from the NTP server 300 through a wireless communication network and based on standard time information included in the transmitted signal. Synchronize the time information of. Here, the process of receiving the standard time information and synchronizing the time information may be performed by various methods, preferably by the DaeMone method.

In addition, when there is a failure in the synchronization process of time information, the wireless clock device 500 may report the fact to the NTP server 300 (a protocol such as NTP or SNMP) and request processing. For example, if the received standard time information data is lost and accurate standard time information cannot be obtained, the NTP server 300 may report a failure and request processing. In addition, the wireless clock device 500 may exchange data with other devices (such as other wireless clock device 500 and IP-based device 400) in the ship, and check whether the synchronized time information of each other matches. In the case where the confirmed standard time information is inconsistent with each other as a result of the check, the occurrence of failure may be reported to the NTP server 300.

Meanwhile, the wireless watch device 500 may be installed at a plurality of places inside the ship. Since the wireless watch device 500 receives standard time information through a wireless communication network instead of a cable, various locations regardless of physical limitations in the ship may be used. Can be installed on In addition, the wireless clock device 500 may receive additional local time information together with standard time information from the NTP server 300, and display the received local time information together with the standard time information in the form of hour hand. It may be. Therefore, even if an analog time representation method is used, a plurality of local time information may be provided together. For example, the wireless clock device 500 may be configured as shown in FIG. 5. Specifically, the basic hour, minute and second hands display standard time information of the ship, and additional local time information (ex: clock). Local time information of major cities) can be displayed together in the shape of a rotating hour hand.

Hereinafter, a detailed description will be given of a maritime wireless clock system according to another embodiment of the present invention.

Referring to FIG. 2, in the maritime wireless clock system according to another embodiment of the present invention, an AP (Access Point) device capable of relaying transmission of standard time information generated by an NTP server 300 through a wireless communication network may be used. 700 may be further included, and may further include a satellite modem 800 for connecting the NTP server 300 to an external network such as the Internet.

The AP device 700 is a component that serves as a relay so that the standard time information generated by the NTP server 300 can be transmitted to various locations in the ship through a wireless communication network.

The AP device 700 directly receives a signal from the NTP server 300 through a wired or wireless communication network, and then receives the IP device 700 or the wireless clock device 500 through the wireless communication network. It can convey standard time information. In addition, the AP device 700 is connected to the Ethernet network in the vessel connected to the NTP server 300, after receiving the standard time information through the Ethernet network, the IP-based device through a wireless communication network The standard time information received by the 400 or the wireless watch device 500 may be transmitted.

Here, the wireless communication network used by the AP device 700 to transmit a signal to the IP-based device 400 or the wireless watch device 500 may preferably be IEEE 802.11 b / g / n. The AP device 700 may transmit various information in addition to the standard time information.

In addition, the AP device 700 may also relay reverse data transmission in which the IP-based device 400 or the wireless clock device 500 transmits data to the NTP server 300. Data can be exchanged in both directions between devices.

The satellite modem 800 is connected to the NTP server 300, which means that the NTP server 300 can be connected to an external network such as the Internet.

Through the satellite modem 800, the NTP server 300 can exchange data with external devices. Accordingly, the standard time information of the ship is provided to the outside or the standard time information set from the outside is internal to the system. Can be imported. For example, the NTP server 300 may be connected to the ship's headquarters of the land or the system of other ships in voyage, and may share standard time information. It is possible to synchronize the information (without setting the local time of the current ship's location to standard time, but by referring to the standard time information of other ships or headquarters). Therefore, when working at sea in cooperation with other ships, it is possible to prevent the confusion that may occur because the time information between the devices of each ship is not synchronized, it is possible to induce effective work performance.

Hereinafter, an embodiment of the NTP server 300 that may be included in the maritime wireless clock system according to the present invention will be described in detail.

Referring to Figure 3, NTP server 300 according to an embodiment of the present invention, the transceiver 310 for transmitting and receiving a signal, generating the standard time information, and manages the generated standard time information, Standard time information management unit 330, UI providing unit 340 for providing a user interface (UI) environment to the device connected to the server, signal data transmitted and received through the transceiver, data for implementing the standard time information management unit, A control unit 350 for storing data for implementing the UI providing unit, a transmitting / receiving unit, the standard time information management unit, the UI providing unit, and a data storage unit 320. It may include.

In addition, a control terminal for controlling the NTP server 300 may be connected to the NTP server 300 according to an embodiment of the present invention.

As a configuration for transmitting and receiving the signal to and from the transceiver 310, it may preferably include both a wired transceiver 310 and a wireless transceiver 310, through this configuration GPS terminal 100, IP-based The device 400, the wireless clock device 500, and an in-vehicle device 600 to be connected to the Ethernet network may exchange data.

The signal transmitted and received through the transceiver 310 may preferably be a TCP / IP signal, and the signal transmitted to the wireless watch device 500 or the IP-based device 400 may be IEEE 802.11 b / g /. n may be transmitted through a wireless communication network.

The standard time information manager 330 is configured to generate standard time information for synchronizing time information in a ship, and to manage the generated standard time information.

Specifically, the standard time information management unit 330 may set a local time to the standard time based on the GPS position of the ship to the standard time, and the standard time information thus set through the transceiver 310 In addition, as the position of the ship is changed, the standard time may be automatically updated according to the changed position to dynamically manage standard time information.

In addition, when the ship passes the date change line, the standard time information management unit 330 may reset the standard time information and synchronize the time information by reflecting the fact. For example, when the ship crosses a date change line, Universal Time Coordinated (UTC) time can be automatically corrected to Local Time, and standard time information can be reset based on the corrected information. .

In addition, the standard time information manager 330 may set a randomly selected time as standard time regardless of the actual GPS position of the ship. For example, the standard time information management unit 330 sets a standard time based on local time of a location other than the actual GPS position of the ship, sets a standard time based on standard time information of another ship, or The standard time can be set based on the information input from

The UI providing unit 340 refers to a configuration for providing data for implementing a UI environment to the control terminal connected for control of the NTP server 300.

In detail, the UI providing unit 340 may provide a user interface (UI) environment for controlling the operation of the server as shown in FIG. 4 for convenience of the control terminal, and the control terminal may provide an implemented UI. Through this, it is possible to supervise and control the operation of the standard time information manager 330.

The control terminal may be connected to the transceiver 310 through a wireless communication network or an Ethernet network, or may be connected in various ways such as a communication cable. The data provided by the UI providing unit 340 through such a connection may be provided. Will be received. In addition, the control terminal may be a variety of electronic devices, PC, tablet, smart phone, IPTV can be a variety of electronic devices that can be connected to the network.

The data storage unit 320 is a configuration in which data related to the operation of the NTP server 300 is stored. Specifically, data transmitted / received through the transceiver 310, data for implementing the standard time information manager 330, data for implementing the UI provider 340, and controlling the operation of the NTP server 300. Various data such as data, operating system data, and the like may be stored. In addition, various information related to the NTP server 300 may be stored.

The controller 350 is a component for controlling the operation of the NTP server 300. In detail, the controller 350 controls operations of the transceiver 310, the standard time information manager 330, the UI provider 340, and the data storage 320, in addition to the NTP. Control various configurations related to the operation of the server 300.

As described above, the maritime wireless clock system according to the present invention converts a GPS signal into a TCP / IP signal, generates standard time information on the NTP server 300 based on the signal, and generates the generated information in a wireless communication network. Through this, it is possible to synchronize time information by transmitting to devices in the ship. Therefore, unlike the conventional clock system operated based on the general communication cable, it is easy to expand the system, and various in-board devices other than the slave clock can be incorporated into the synchronization system.

In addition, the wireless clock system according to an embodiment of the present invention, since the standard time information for time synchronization is managed integrally through the NTP server 300, it is possible to effectively synchronize the time information according to the ship operating situation. Specifically, when the ship passes the date change line through the operation of the NTP server 300 can update the standard time information to reflect the situation, and set a standard time different from the local time to which the ship actually belongs Later, it can be automatically reflected to all equipment in the ship.

In addition, the wireless clock system according to an embodiment of the present invention, the standard clock information can be provided to other equipment in the ship that is not directly connected to the master clock-slave clock system to synchronize the time, the crew carried or Standard time information may also be provided to the IP-based device 400 installed therein. Therefore, the time information of all equipment existing in the ship as well as the navigation device of the ship can be synchronized through the wireless communication network, it is possible to prevent the confusion caused by the inconsistency of the time information that could occur in the ship.

In addition, the wireless clock system according to an embodiment of the present invention, the wireless clock device 500 can be installed at various locations in the ship, even if using an analog time representation method, a plurality of local time other than the standard time information of the ship Information can be provided. Specifically, the standard time information of the ship can be displayed as hour hand, minute hand, and second hand, but the local time information of other main points (ex: world cities, other ships) can be displayed together in the form of an additional hour hand. Even if the expression method is used, a plurality of local time information may be provided together.

The embodiments of the present invention described above are disclosed for the purpose of illustration, and those skilled in the art may make various modifications, changes, and additions within the spirit and scope of the present invention. Changes, changes, and additions should be considered to be within the scope of the claims.

Claims (20)

1. A signal converter for converting a signal transmitted from the marine GPS terminal; And

   Receives a signal converted by the network protocol from the signal converter, generates standard time information in the vessel based on the received signal, and generates the standard time information through a wireless communication network for synchronization of time information. A NTP (Network Time Protocol) server for transmitting;

   Maritime wireless clock (clock) system comprising a.
2. The method of claim 1,

   The signal converter,

   And a signal transmitted from the GPS terminal to a TCP / IP (Transfer Control Protocol / Internet Protocol) signal or a UDP (User Datagram Protocol) signal.
3. The method of claim 2,

   The signal transmitted from the GPS terminal is marine standard, characterized in that the RS422 (Recommended Standard-422), RS485 (Recommended Standard-485), NMEA0183 (National Marine Electronics Association 0183) or NMEA2000 (National Marine Electronics Association 2000) signal Wireless clock system.
4. The method of claim 2,

   A wireless clock device for receiving the standard time information transmitted from the NTP server through a wireless communication network;

   Maritime wireless clock (clock) system characterized in that it further comprises.
5. The method of claim 4, wherein

   An IP-based device for receiving standard time information transmitted from the NTP server through a wireless communication network;

   Maritime wireless clock (clock) system characterized in that it further comprises.
6. The method of claim 5,

   The wireless communication network,

   Marine wireless clock system, characterized in that IEEE 802.11 b / g / n.
7. The method of claim 5,

   An access point (AP) device for receiving the standard time information from the NTP server and transmitting the received standard time information through a wireless communication network;

   More,

   The wireless clock device or the IP clock-based radio clock system, characterized in that for receiving the standard time information through the AP device.
8. The method of claim 5,

   The IP-based device is a mobile device, Internet phone, PC, tablet or smartphone,

   The IP based device is a wireless clock system for marine, characterized in that to synchronize the time information based on the standard time information, the daemon.
9. The method of claim 5,

   The NTP server is connected to the Ethernet (Ethernet) network in the ship, marine radio clock system characterized in that to provide the standard time information to the ship devices connected to the Ethernet network.
10. The method of claim 9,

    An AP device connected to the Ethernet network to receive the standard time information and transmit the received standard time information through a wireless communication network;

    More,

    The wireless clock device or the IP clock-based radio clock system, characterized in that for receiving the standard time information through the AP device.
11. The method of claim 4, wherein

    The wireless clock device,

    Synchronize time information based on the standard time information, and display the synchronized time information as hour, minute, and second hands,

    Receiving additional local time information from the NTP server, and displaying the received local time information together with the standard time information in the form of an hour hand.
12. The method of claim 11,

    The wireless clock device,

    When a failure in the process of synchronizing the time, the radio clock clock system for marine, characterized in that for reporting to the NTP server using a protocol of NTP or Simple Network Management Protocol (SNMP).
13. The method of claim 2,

    The NTP server is connected to an external internet network through a satellite modem, receives synchronization time information from another ship's clock system via the internet network, and generates standard time information based on the received information. Marine wireless clock system.
14. The method of claim 1,

    The NTP server is embedded in the signal converter (embedded), characterized in that the radio clock system for a wireless clock, characterized in that formed integrally with the signal converter.
15. The method of claim 1,

    The NTP server,

    Transmitting and receiving unit for transmitting and receiving a signal;

    A standard time information manager for generating the standard time information and managing the generated standard time information;

    A UI providing unit providing a user interface (UI) environment to a device connected to a server;

    A data storage unit for storing signal data transmitted / received through the transceiver unit, data for implementing the standard time information managing unit, and data for implementing the UI providing unit; And

    A controller for controlling operations of the transceiver, the standard time information manager, the UI provider, and the data storage;

    Maritime wireless clock (clock) system comprising a.
16. The method of claim 15,

    The transceiver unit,

    A radio clock system for marine use, characterized by providing the standard time information to a radio clock device or an IP-based device in a ship through a wireless communication network.
17. The method of claim 15,

    The standard time information management unit,

    When the ship crosses the date change line, a marine radio clock system, characterized in that for automatically correcting the Universal Time Coordinated (UTC) time to Local (Local) time.
18. The method of claim 15,

    A control terminal capable of transmitting and receiving data through the transceiver, and implementing a UI environment provided through the UI providing unit;

    Maritime wireless clock (clock) system, characterized in that it can further include.
19. The method of claim 18,

    The control terminal is a marine clock clock for marine, characterized in that for controlling the operation of the standard time information management unit through the UI environment.
20. The method of claim 19,

    The standard time information management unit may set the local time selected by the control terminal to the standard time regardless of the actual position of the ship,

    And the standard time can be set by applying summer time according to the selection of the control terminal.

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