KR20090106450A - Marine network system, its antenna assembly and communication method - Google Patents

Abstract

A maritime network system, its antennae combination structure and its communication method are provided, wherein the maritime network system includes: the first wireless network base station and the second wireless network base station. The first wireless network base station is mounted on the first maritime carrier, and communicates wireless signal with the third wireless network base station mounted on the land in accordance with a wireless communication protocol, while the second wireless network base station is mounted on the second maritime carrier, and communicates wireless signal with the first wireless network base station in accordance with the wireless communication protocol, as well as sends data to the third wireless network base station via the first wireless network base station. The maritime carrier could be a ship, a maritime platform or a floating maritime structure. The present invention enables the electronic devices on all of the maritime carriers to communicate data with each other via the maritime network system of the present invention and connect to the Internet or the Intranet, therefore improving the convenience of the usage of network on the maritime carrier, and being suitable to be put into practice.

Description

Marine network system and its antenna combination structure and communication method {MARINE NETWORK SYSTEM, ITS ANTENNA ASSEMBLY AND COMMUNICATION METHOD}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a marine network system, an antenna combination structure, and a communication method, and more particularly, to a technical area in which a wireless network base station is installed on a plurality of corresponding transmission media to construct one corresponding network.

Currently, network systems are very common in daily life, and users can operate network devices to connect with the Internet or the corporate Internet, and then upload and download data, browse websites, and perform various commercial activities. However, the use of electronic devices or users on the marine transmission media still has a problem inconvenient compared to land. Existing method has a problem in that it is necessary to transmit a radio signal through a satellite in order to connect to the Internet in a marine vessel, there is a problem of excessive waste and low convenience. In addition, the method of connecting to a base station on land by wireless communication in a marine vessel has a problem that the radio transmission efficiency is greatly reduced when the vessel is too far from the land. In addition, when a ship and a ship communicate with each other or transmit data by using an infrared communication method or a wireless communication method, a plurality of ships are connected as one and cannot transmit data. There is a problem that the connection range is limited. Based on the problems of the existing structure, the present inventors have tried to solve the problems of the existing structure by providing a new marine network system, its antenna combination structure and communication method through many years of research and development and practical experience. .

Looking at the above description, there are many inconveniences and disadvantages of existing maritime communication methods that still need to be improved in the structure and use of the product. In order to solve these problems, companies in this field have not yet made a breakthrough, despite a lot of research and efforts. In addition, there are no existing methods and methods that can specifically solve the above-mentioned problems with existing products and methods. In light of the current situation, it is possible to know what problems the companies in the field are trying to solve most urgently. In other words, developing a new maritime network system and its antenna combination structure and communication methods to solve these problems It is said to be the biggest improvement goal of.

Understand the shortcomings of the existing maritime communication method described above, the inventors can improve the existing maritime communication method and obtain more practical effect through many years of research and development based on rich manufacturing experience, practical experience and professional knowledge. The present invention provides a new marine network system, its antenna combination structure and communication method.

An object of the present invention is to solve the shortcomings of the existing maritime communication method, a new maritime system that allows the electronic devices on the maritime transmission medium to transmit data to each other through a maritime network system, and also can be connected to the general Internet and the corporate Internet The present invention provides a network system, an antenna combination structure, and a communication method to more conveniently and practically improve the use of the Internet on a marine transmission medium.

It is still another object of the present invention to provide a new maritime network system, wherein the maritime network system includes a first wireless network base station, and the first wireless network base station is installed on a first maritime transmission medium. The first wireless network base station performs wireless signal transmission with a third wireless network base station installed on land by a wireless communication protocol; The maritime network system includes a second wireless network base station, the second wireless network base station is installed in a second maritime transmission medium, and the second wireless network base station is connected to the first wireless network base station by a wireless communication protocol. The present invention provides a new maritime network system, an antenna combination structure, and a communication method for transmitting radio signals to each other and transmitting data to a third wireless network base station through the first wireless network base station.

The present invention also provides a marine communication method, the contents proceed in the following order. First installing a first wireless network base station on a first maritime transmission medium, the first wireless network base station performing wireless signal transmission with a third wireless network base station installed on land by a wireless communication protocol; A second wireless network base station is installed in the second maritime transmission medium, and the second wireless network base station performs wireless signal transmission with the first wireless network base station by a wireless communication protocol, and also establishes the first wireless network base station. The data is transmitted to the third wireless network base station through.

Among them, the transmission medium may be a ship, a sea stationary building, a sea mobile building, or the like. In addition, it is preferable to use a WiFi communication protocol, a WiMAX communication protocol, a VHF communication protocol, or a UHF communication protocol as a wireless communication protocol, and the present invention is not limited thereto.

In addition, the present invention provides an antenna combination structure, the antenna combination structure is installed in the base station of the wireless network to send and receive radio signals, wherein the antenna combination structure includes a plurality of directional antennas, these Each directional antenna is installed in a different direction so that the antenna detection area can cover a range close to 360 degrees around the wireless network base station. In addition, the antenna combination structure includes at least one omni-directional antenna, if necessary, to eliminate the blind spots that do not reach the near-field radio waves emitted by the directional antenna using the omni-directional antenna.

The present invention provides another antenna combination structure, wherein the antenna combination structure is installed in a land-based first wireless network base station, and the antenna combination structure includes at least one omni-directional antenna and a plurality of directional antennas. In this case, the detection distance of the directional antenna is farther than the detection distance of the omni-directional antenna, and the installation direction of the directional antenna is directed toward the second wireless network base station on the maritime transmission medium, thereby the second wireless The radio signal of the network base station can be received. On the other hand, the omni-directional antenna is able to eliminate the blind spot that the near-field radio waves emitted by the directional antenna does not reach.

The main object and problem solving method of the present invention can be realized through the following technical solutions. The marine network system of the present invention for achieving the above object includes the following contents. A first wireless network base station is provided, wherein the first wireless network base station is installed on a first maritime transmission medium, and the first wireless network base station is wirelessly connected with a second wireless network base station installed on land by a wireless communication protocol. Proceed with signal transmission; The maritime network system includes a third wireless network base station, the third wireless network base station is installed in a second maritime transmission medium, and the third wireless network base station is connected to the first wireless network base station by a wireless communication protocol. Wireless signals are transmitted to each other, and data is transmitted to the second wireless network base station through the first wireless network base station.

In the above-described maritime network system, a positioning system is installed on the second maritime delivery medium, and the positioning system provides location information of the second maritime delivery medium. The location information is transmitted to the second wireless network base station through a wireless network base station.

The above-described maritime network system also includes an information server, which receives the location information of the second maritime delivery medium via the second wireless network base station and generates electronic maritime map information.

The above-mentioned maritime network system is also provided with an identification system on the second maritime delivery medium, the identification system generates identification information, and the second maritime transport medium is the third wireless network base station, the first The identification information is transmitted to the information server through a wireless network base station and the second wireless network base station, wherein the identification information includes information related to static information, dynamic information, route and safety.

The main object and problem solving method of the present invention can be realized through the following technical solutions. The marine network system of the present invention for achieving the above object includes the following contents. First, a first wireless network base station and a second wireless network base station are respectively installed on the first marine transmission medium and the second transmission medium, and the first wireless network base station and the third wireless network base station installed on land by a wireless communication protocol. Wireless signal transmission between the second wireless network base station and the first wireless network base station according to a wireless communication protocol, and further transmitting data through the first wireless network base station. 3 Transmit to wireless network base station.

The above-described communication method of the marine network system includes the following contents. First, a positioning system is installed on the second maritime delivery medium, and the location measurement system provides location information of the second maritime delivery medium, and the second maritime delivery medium provides the first wireless network base station. The location information is transmitted to the second wireless network base station.

The communication method of the above-mentioned maritime network system also includes an information server, which receives the location information of the second maritime delivery medium via the second wireless network base station and generates electronic resolution map information.

In the above-described communication method of the marine network system, the identification system is also installed on the second marine delivery medium, the identification system generates identification information, the second marine delivery medium is the third wireless network base station, The identification information is transmitted to the information server through the first wireless network base station and the second wireless network base station, and the identification information includes information related to static information, dynamic information, route and safety.

The main object and problem solving method of the present invention can be realized through the following technical solutions. The marine network system of the present invention for achieving the above object includes the following contents. The present invention provides an antenna combination structure, the antenna combination structure is installed in a wireless network base station installed on the transmission medium on the sea, and through this to send and receive a radio signal, the antenna combination structure is a plurality of directional designation Antennas, each of these directional antennas installed in different directions so that the antenna probe area can cover a range of nearly 360 degrees around the wireless network base station.

The main object and problem solving method of the present invention can be realized through the following technical solutions. The marine network system of the present invention for achieving the above object includes the following contents. The present invention provides another antenna combination structure, wherein the antenna combination structure is installed in a land-based first wireless network base station, and the antenna combination structure includes at least one omni-directional antenna and a first directional antenna. In this case, the detection distance of the first directional antenna is farther than the detection distance of the omni-directional antenna, and the installation direction of the first directional antenna is directed toward the second wireless network base station on the maritime transmission medium. As a result, the wireless signal of the second wireless network base station can be received.

The above-described antenna combination structure includes an adjustment mechanism, and the direction of detection of the antenna can be changed while rotating the first directional antenna through the adjustment mechanism.

The above-described antenna combination structure includes another second directional antenna, and the detection distance of the second directional antenna is farther than the detection distance of the omni-directional antenna, and also the installation of the second directional antenna. The direction is directed towards the second wireless network base station, whereby the wireless signal of the second wireless network base station can be received.

The above-described antenna combination structure includes an adjustment mechanism, and the direction of detection of each antenna can be changed while rotating the first directional antenna and the second directional antenna through the adjustment mechanism.

1 is a rectangular diagram showing an internal structure of a marine network system according to the present invention.

Fig. 2 is a perspective view showing an embodiment of the present inventors marine network system.

Figure 3 is a perspective view showing the application of the present inventors maritime network system on the maritime information system.

4 is a perspective view showing the electronic resolution map information of the present invention.

5 is a perspective view showing a communication method of the present inventors marine network system.

6 is a perspective view showing an embodiment of a communication method of a marine network system according to the present invention.

 7A is a perspective view showing that the present invention is applied to an antenna combination structure of a wireless network base station installed on a marine transmission medium.

 7B is a perspective view showing a signal range in a state where the present invention is applied to an antenna combination structure of a wireless network base station installed on a marine transmission medium.

8 is a perspective view showing that the present invention is applied to an antenna combination structure of a land wireless network base station.

FIG. 9 is a rectangular diagram showing an embodiment of the present invention applied to an antenna combination structure of a land-based wireless network base station.

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

111 First Wireless Network Base Station 112 Second Wireless Network Base Station

113 Third Wireless Network Base Station 121 First Marine Transmission Media

122 Second Marine Transport Media 131 Wireless Communication Protocols

14 Onshore 211 First Wireless Network Base Station

212 Second Wireless Network Base Station 213 Third Wireless Network Base Station

221 First Ship 222 Second Ship

231 WiFi Communication Protocol 24 Onshore

251 1st antenna group 252 2nd antenna group

261 First AP Group 262 Second AP Group

271 Data Link Layer Exchanger 272 Data Link Layer Exchanger

281 Omnidirectional Antennas 282 Directional Antennas

29 Portable Electronics 291 Internet

292 Enterprise Internet 311 First Wireless Network Base Station

312 Second Wireless Network Base Station 313 Third Wireless Network Base Station

319 Information Server 321 First Maritime Delivery Media

322 Second Marine Transmission Media 331 WiFi Communication Protocol

34 on land 361 first identification system

362 Second Identification System 371 First Positioning System

372 Second Position Measuring System 51-53 Flow

61-66 Sequence Flow 7 Antenna Combination Structure

711-714 Directional Antenna 72 Signal Ranges

73 signal ranges 8 antenna combination scheme

81 Omnidirectional Antenna 811 Signal Detector

82 First directional antenna 821 Signal detection range

83 Maritime Transfer Media 84 Second Wireless Network Base Station

9 Antenna Combination Structure 91 Omni-directional Antenna

92 First Directional Antenna 93 Second Directional Antenna

94 adjusting mechanism

The present invention will be described in more detail with reference to specific embodiments and drawings with respect to specific embodiments, structures, methods, procedures, features, and effects thereof.

The following detailed description has been given by way of example only in order to explain in detail the features and advantages of the present invention as a relatively good embodiment, the scope of the present patent application is not limited to this modification and within the scope without departing from the spirit and scope of the patent application All other modifications and other processes are included in the scope of this patent application. In addition, in order to make description more convenient, the same component in an Example is shown using the same number.

1 is a rectangular diagram showing an internal structure of a marine network system according to the present invention. As shown in FIG. 1, the maritime network system includes a first wireless network base station 111 and a second wireless network base station 112, wherein the first wireless network base station is a first maritime transmission medium. And a first wireless network base station 111 installed on the land 14 by a wireless communication protocol 131 such as a WiFi communication protocol, a WiMAX communication protocol, a VHF communication protocol, or a UHF communication protocol. The wireless signal transmission is performed with the third wireless network base station 113. In addition, the second wireless network base station 112 is installed in the second maritime transmission medium 122, the second wireless network base station 112 is a wireless communication protocol 131 by the first wireless network base station 111 Wireless signal transmission with each other, and also transmits data to the third wireless network base station 113 through the first wireless network base station 111.

The first maritime delivery medium 121 and the second maritime delivery medium 122 may be a ship, a maritime fixed building, a maritime mobile building, and the like. In addition, the embodiments of the wireless communication protocol 131 are listed only for the description of the present embodiment, and are not limited thereto, and all protocols defined in the wireless communication technology that are commonly used in the market are also included in the scope of the patent application. .

The wireless network base station includes a plurality of antennas, a plurality of transmit / receive electric circuit modules and a switch, among which a bandwidth range applied to the plurality of antennas is, for example, 5175 MHz to 5875 MHz when using a WiFi communication antenna. It is not limited. In addition, the transmission and reception module may use a wireless access point (AccessPoint, AP), and the exchange may use a data link layer (DataLinklayer) exchange, which may be referred to as a second layer exchange. The plurality of antennas to be installed on the medium is preferably configured as a directional antenna, and may further include an omni-directional antenna if necessary. Preferably, the antenna comprises at least one directional antenna, and the purpose of using the omni-directional antenna is to eliminate blind spots that do not reach near-field radio waves emitted by the directional antenna.

Fig. 2 is a perspective view showing an embodiment of the present inventors marine network system. As shown in FIG. 2, data can be transmitted between ships at sea through the marine network system of the present invention, and also connected to the Internet or the internal Internet through a wireless network base station on land. Referring to FIG. 2, the maritime network system includes a first wireless network base station 211 installed on a first vessel 221 and a second wireless network base station 212 installed on a second vessel 222. Doing. The first wireless network base station 211 includes a first antenna group 251 composed of four directional antennas, a first AP group 261 composed of four APs, and a first data link layer (DataLinklayer). And a switch 271, and the second wireless network base station 212 includes a second antenna group 252 consisting of four directional antennas, a second AP group 262 consisting of four APs, And a data link layer switch 272. The second wireless network base station 212 performs wireless signal transmission with the first wireless network base station 211 according to the WiFi communication protocol. The bandwidth range applied to the plurality of directional antennas is 5175 MHz to 5875 MHz, which is a bandwidth range used for the WiFi communication protocol.

The use of the above-described WiFi communication protocol, antenna and AP number, etc. are listed only for the description of the present embodiment, and all protocols defined in the wireless communication technology that are commonly used in the market are also included in the scope of the patent application, The number of antennas and APs that can be used is also not limited to this.

The first vessel 221 is located relatively close to the land 24, and the second vessel 222 is located relatively far away from the land 24. In addition, the second wireless network base station 213 is installed on the land 24, the second wireless network base station 213 is a omni-directional antenna 281, the directional antenna 282, two AP (not shown) Not shown) and a DataLinklayer switch (not shown), etc. Since the first ship 221 is located relatively close to the land 24, the WiFi communication protocol 231 is used. Wireless signal transmission is performed with the third wireless network base station 213. Since the first vessel 222 is located relatively far away from the land 24, the omni-directional antenna 281 and the directional antenna ( 282 does not receive the radio signal emitted by the directional antenna of the second antenna group 252. Therefore, the second wireless network base station 212 first transmits data to the first wireless network base station 211, Third wireless yes, back this The network is transmitted to the network base station 213 and then to the general Internet 291 or the corporate Internet 292. As a result, even if the second ship 222 is located relatively far away from the land 24, the second ship ( A user on 222 can still connect to the public Internet or the corporate Internet using a portable electronic device 29. The marine network system includes two or more wireless network base stations, each of which is a marine network base station. Installed on the carrier, one of the radio network base stations is connected to the base station on land, and the installation distance between the other radio network base stations does not exceed the radio signal transmission distance of the antenna. The electronic devices of the present invention can exchange data with each other using the present inventors' marine network system, You will be able to connect to the Internet or the corporate Internet.

The marine network system of the present invention can be used as a marine information system in combination with a position measuring system or an identification system, and thus, a significant cost reduction effect can be obtained compared to the conventional method of constructing a marine information system through a satellite. .

3 and 4 are perspective views showing the application of the present invention the marine network system on the marine information system and a perspective view showing the electronic resolution map information. 3 and 4, the maritime network system includes a first wireless network base station 311, a second wireless network base station 312, a first identification system 361, a second identification system 362, The first position measuring system 371, the second position measuring system 371 and the information server 319 are included. Among them, the first wireless network base station 311, the first identification system 361, the first positioning system 371, and the like are installed on the first marine transmission medium 321, and the second wireless network base station ( 312), the second identification system 362, the second positioning system 372, and the like are installed on the second maritime delivery medium 322. The first positioning system 371 provides position information of the first maritime transmission medium 321, and the first identification system 361 identifies the position information received from the first positioning system 371. The first wireless network base station 311 transmits location information and identification information to the third wireless network base station 313 installed on land through the first wireless network base station 311 by the WiFi communication protocol 331. do.

Also in the same structure, the second positioning system 372 provides the position information of the second maritime delivery medium 322, the second identification system 362 is the identification information of the second maritime delivery medium 322 The second wireless network base station 312 transmits the location information and the identification information to the first wireless network base station 311 through the second wireless network base station 312 by the WiFi communication protocol 331, The first wireless network base station 311 transmits the received information to the third wireless network base station 313. The information server 319 receives location information and identification information of the first maritime delivery medium 321 and the second maritime delivery medium 322 through the third wireless network base station 313, and then the electronic resolution map information. Create As shown in FIG. 4, the position and identification data of the vessel are displayed on the electronic maritime map information, thereby enabling safe operation and efficient management of the vessel.

Among them, the location information system may use a GPS system, the identification system may use an identification system, and the identification information may include the following contents.

    (i) Static information: information such as ship identification code, ship call number, ship name, ship length and width

    (ii) Dynamic information: information such as the accuracy of the ship's position (accuracy and reliability), the ship's GPS positioning time, the ship's route, the ship's speed, and the ship's navigational status (e.g., deficiencies in the ship's ability to operate).

    (iii) vessel operation information: information such as the nature of the cargo on board (whether carrying dangerous goods), the destination of operation and the estimated time of arrival and route planning;

    (iV) Safety Information: Updates on DGPS, updates on wind, tidal currents, and other environmental information, identification of other maritime carriers, and information to increase the safety of maritime operations.

It should be noted that in the present embodiment, the information server 319 is installed on land, and is independently connected to the wired network server of the third wireless network base station 313, but the present invention is not limited thereto. Do not. The information server 319 may also be installed in combination with the third wireless network base station 313 or may be installed in one of all the maritime transmission media included in the maritime information network system.

5 is a perspective view showing a communication method of the present inventors marine network system. As shown in Fig. 5, the order of the communication method of the present inventors maritime network system is as follows.

Step 51: The first wireless network base station and the second wireless network base station are respectively installed on the first maritime delivery medium and the second maritime delivery medium.

Step 52: The wireless communication protocol causes the first wireless network base station to transmit radio signals with the third wireless network base station installed on land.

Step 53: The wireless communication protocol causes the second wireless network base station to transmit radio signals with the first wireless network base station, and also transmits information to the third wireless network base station through the first wireless network base station.

By the above-described sequence, it is possible to connect to the general Internet or the corporate Internet on the second marine transmission medium relatively far from the land. This method can also be extended to the installation of two or more wireless network base stations on two or more maritime carriers, and when one of these maritime wireless network base stations is connected to a land-based wireless network base station, The other remaining wireless network base stations can be connected to each other. However, at this time, the installation distance of the other remaining wireless network base stations is shorter than the radio signal transmission distance of the antenna. In this way, the electronic devices on all maritime transmission media can exchange data with each other using the present inventors' maritime network system, and also connect to the general Internet or the corporate Internet.

6 is a perspective view showing an embodiment of a communication method of a marine network system according to the present invention. This communication method corresponds to the maritime network system of FIG. 3 and the order thereof is as follows.

Step 61: A first wireless network base station 311, a first identification system 361, a first positioning system 371 and the like are installed on the first maritime transmission medium 321, the second wireless network base station 312 ), A second identification system 362, a second position measurement system 372, and the like, are installed on the second marine delivery medium 322.

Step 62: The first wireless network base station 311 performs wireless data transmission with the second wireless network base station 312 by the WiFi communication protocol 331, and the first wireless network base station 311 is also installed on land. Wireless data transmission is performed with the third wireless network base station 313.

Step 63: generating location information and identification information of the first maritime transmission medium 321 by using the first positioning system 371 and the first identification system 361, respectively, and converts the first wireless network base station 311 into It transmits to the third wireless network base station 313 through.

Step 64: location information and identification information of the second maritime transmission medium 322 are generated using the second positioning system 372 and the second identification system 362, respectively, and the second wireless network base station 312 is generated. The first wireless network base station 331 transmits the location information and the identification information received from the second wireless network base station 332 to the third wireless network base station 333 again. do.

Step 65: Install an information server 319 connected to the third wireless network base station 333, wherein the information server 319 is the location information of the first maritime transmission medium 321 from the third wireless network base station 333 After receiving the and identification information,

Step 66: Using this, the information server 319 generates the electronic resolution map information, and as shown in FIG. 4, the first wireless network base station 331 transmits the resolution map information through the third wireless network base station 333. And the resolution map information to the second wireless network base station 332 through the first wireless network base station 331 again. In this manner, the first maritime delivery medium 321 and the second maritime delivery medium 322 further increase the safety of the ship navigation using the sea map information.

In addition, if the distance between the maritime transmission medium is relatively far, the long distance wireless signal is transmitted through the antenna combination structure, and in addition, the maritime transport media are different from the land station, because they have the characteristic of moving by the sea current. Due to the very difficult nature, such antenna combination structures must have a large angle detection range to enable radio carriers to receive radio signals from other base stations even after relocation.

    7A and 7B are perspective views showing that the present invention is applied to an antenna combination structure of a wireless network base station installed on a marine transmission medium, and a state in which the present invention is applied to an antenna combination structure of a wireless network base station installed on a marine transmission medium. This is a perspective view showing the signal range at. As shown in Figs. 7A and 7B, the antenna combination structure of the present invention includes a plurality of directional antennas, and the antenna combination structure 7 in the drawing includes a plurality of directional antennas 711, 712, 713, 714) and at least one omni-directional antenna. Each directional antenna is installed in a different direction so that the antenna detection area can cover a range close to 360 degrees around the wireless network base station. In this embodiment, the vertical and level HPBW is 9 degrees, and a directional antenna having a gain intensity of 23 dB or more is used. That is, it is relatively small but has a relatively long distance, and the gain value is remarkably dropped in the area other than 9 degrees, so that the signal range angle is relatively large but 73 degrees, but the distance is relatively short. . In addition, as shown in FIG. 7B, the plurality of directional antennas 711, 712, 713, and 714 are installed at regular intervals, for example, at predetermined angles, such as 90 degrees. The signal of may cover all of the ranges close to 360 degrees.

That is, even if the transmission medium of the sea moves by the current, the antenna combination structure of the present invention is capable of transmitting long distance wireless signals in multiple directions because the detection zone is 360 degrees around the wireless network base station. Here, the transmission medium may be a ship, a sea stationary building, a sea mobile building, or the like.

8 is a perspective view showing that the present invention is applied to an antenna combination structure of a land wireless network base station. As shown in FIG. 8, the present antenna combination structure includes an omnidirectional antenna 81 and a first directional antenna 82, wherein the detection distance of the first directional antenna 82 is equal to the front antenna. Farther than the detection distance of the directional antenna 81, the installation direction of the first directional antenna 82 is directed toward the second wireless network base station 84 on the maritime transmission medium 83, thereby a second wireless The radio signal of the network base station 84 can be received. Since the HPBW of the omni-directional antenna 81 is 360 degrees, the signal detection range 811 is included around the radio network base station on land, and as a result, it is possible to receive all radio signals in the vicinity. In addition, since the signal detection range 821 of the first directional antenna 82 is relatively far, it includes up to a relatively long distance delivery medium 83.

In addition, the antenna combination structure 8 may additionally install a second directional antenna if necessary based on the distance of the marine transmission medium to be transmitted and received, the second directional antenna is HPBW width Since it is possible to select and use a smaller and larger gain intensity, the detection distance can be set farther than the detection distance of the first directional antenna. In addition, the second directional antenna may be installed facing the second wireless network base station to receive a radio signal of the second wireless network base station.

For example, if using the WiFi communication, the bandwidth range applied to the omni-directional antenna includes 5175MHz one 5875MHz, and the bandwidth range applied to the first directional antenna includes 5175MHz one 5875MHz.

In addition, if the land wireless network base station is responsible for a relatively wide sea surface, the antenna combination structure 8 can be installed by adding an adjustment mechanism, through which the direction of the antenna is adjusted while changing the detection direction It is possible to receive signals transmitted from all maritime carriers on the sea surface.

FIG. 9 is a rectangular diagram showing an embodiment of the present invention applied to an antenna combination structure of a land-based wireless network base station. As shown in Fig. 9, the present antenna combination structure 9 includes an omnidirectional antenna 91, a first directional antenna 92, a second directional antenna 93 and an adjustment mechanism 94. Doing. Among them, the detection distance of the first directional antenna 92 is farther than the detection distance of the omni-directional antenna 91, and the detection distance of the second directional antenna 93 is the first directional antenna 92. Farther than). In addition, the first directional antenna 92 and the second directional antenna 93 is installed facing the second wireless network base station of the maritime transmission medium to receive a radio signal transmitted from the second wireless network base station. The adjustment mechanism 94 may receive a signal transmitted from all the maritime transmission media on the sea surface while adjusting the directions of the first directional antenna 92 and the second directional antenna 93.

The foregoing description has been given by way of example only in order to explain in detail the features and advantages of the present invention in a relatively good embodiment, the scope of the patent application is not limited to this without departing from the spirit and scope of the patent application and All other modifications and other processes are included in the scope of this patent application.

[Effects of the Invention]

Comparing the prior art to the present invention has the following distinct advantages and effects. In summary, the present invention, the marine network system, the antenna combination structure and the communication method thereof have at least the following advantages and effects.

1. By applying the present inventors 'maritime network system and its antenna combination structure and communication method, electronic devices on all maritime transmission media can exchange data with each other through the present inventors' maritime network system. You can also connect to the Internet.

2. The present inventors can use the marine network system as a marine information system in combination with a position measuring system or an identification system, thereby achieving a significant cost reduction effect compared to the conventional method of constructing the marine information system through satellite. Can be.

3. The marine network system of the present invention has a feature capable of long-distance transmission of radio signals and a relatively wide angle detection range, so that the antenna combination structure of the present invention has a detection zone even if the transmission medium of the sea moves by the current. It spans 360 degrees around a wireless network base station, enabling long-distance wireless signal transmission in multiple directions.

4. The present invention omni-directional antenna can be eliminated blind spots that do not reach near-field radio waves emitted from the directional antenna.

5. The marine network system of the present invention includes an adjustment mechanism, and through the adjustment mechanism, it is possible to receive signals sent from all marine transmission media by changing the detection direction of the antenna while rotating the directional antenna.

6. The present inventors maritime network system can generate the electronic maritime map information, thereby displaying the position and identification information of the vessel, it is possible to implement the safe operation and effective vessel management of the vessel.

In summary, the present invention relates to a marine network system, an antenna combination structure, and a communication method. More specifically, the marine network system includes a first wireless network base station and a second wireless network base station. The first wireless network base station is installed on the first maritime transmission medium, and performs a wireless signal transmission with a third wireless network base station installed on land by a wireless communication protocol, and the second wireless network base station is installed on the second maritime transmission medium. Installed in the wireless communication protocol and performing wireless signal transmission with the first wireless network base station, and also transmitting data to the third wireless network base station through the first wireless network base station, wherein the transmission medium is a ship or a sea. It may be a fixed structure, a mobile moving structure, and the like. According to the present invention, the electronic devices provided on all transmission media on the sea can transmit data to each other, and also the effect of making the network connection between the general Internet system or the corporate Internet system and the marine transmission medium more convenient and practical. You can get it.

Claims (13)

A maritime network system, wherein the maritime network system includes a first wireless network base station, wherein the first wireless network base station is installed on a first maritime transmission medium and is installed on land by a wireless communication protocol. Proceed with wireless signal transmission with the base station, In addition, the maritime network system includes a third wireless network base station, the third wireless network base station is installed on the second maritime transmission medium, and performs a wireless signal transmission with the first wireless network base station by a wireless communication protocol and And transmitting data to the second wireless network base station through a first wireless network base station. The method of claim 1, A positioning system is installed on the second maritime delivery medium, and the positioning system provides location information of the second maritime delivery medium, and the second maritime delivery medium is provided through the first wireless network base station. The marine network system, characterized in that for transmitting the location information to the second wireless network base station. The method of claim 2, The maritime network system includes an information server, wherein the information server receives the location information transmitted from the second maritime transmission medium through the second wireless network base station to generate electronic maritime map information. The method of claim 3, In the maritime network system, an identification system is installed on the second maritime transmission medium, and the identification system generates identification information, and the second maritime transmission medium is the third wireless network base station and the first wireless network base station. And transmitting the identification information to the information server through the second wireless network base station, wherein the identification information includes static information, dynamic information, route, and information related to safety. A method of maritime network communication, comprising: installing a first wireless network base station and a second wireless network base station on a first maritime transport medium and a second maritime transport medium, According to a wireless communication protocol, the first wireless network base station performs wireless signal transmission with a third wireless network base station installed on land. The second wireless network base station performs wireless signal transmission with the first wireless network base station by a wireless communication protocol, and also transmits data to the third wireless network base station through the first wireless network base station. Maritime network communication method. The method of claim 5, In the maritime network communication method, a positioning system is installed on a second maritime transmission medium, and the location measuring system provides location information of the second maritime transmission medium, and the second maritime transmission medium is the first radio. And transmitting the location information to the second wireless network base station through a network base station. The method of claim 6, The maritime network communication method includes an information server, wherein the information server receives location information transmitted from a second maritime delivery medium through a second wireless network base station and generates electronic maritime map information. . The method of claim 7, wherein In the maritime network communication method, an identification system is installed on the second maritime transmission medium, and the identification system generates identification information, and the second maritime transmission medium is the third wireless network base station and the first wireless network. And a base station and the second wireless network base station to transmit the identification information to the information server, wherein the identification information includes static information, dynamic information, route, and information related to safety. An antenna combination structure is provided, wherein the antenna combination structure is installed in a wireless network base station on the sea to transmit and receive radio signals, wherein the antenna combination structure includes a plurality of directional antennas, each of which is directed. The antennas are installed in different directions so that the antenna detection area can cover a range close to 360 degrees around the wireless network base station. An antenna combination structure is provided, wherein the antenna combination structure is installed in a land-based first wireless network base station, and further includes an omni-directional antenna and a first directional antenna, and the detection distance of the first directional antenna is Farther than the detection distance of the omni-directional antenna, the installation direction of the first directional antenna is directed toward the second wireless network base station on the marine transmission medium, thereby receiving a radio signal of the second wireless network base station. Antenna combination structure, characterized in that the. The method of claim 10, The antenna combination structure includes an adjustment mechanism, wherein the direction in which the antenna is detected can be changed while rotating the first directional antenna through the adjustment mechanism. The method of claim 10, The antenna combination structure includes another second directional antenna, wherein the detection distance of the second directional antenna is farther than the detection distance of the first directional antenna, and the installation of the second directional antenna. The direction is directed toward the second wireless network base station, whereby it is possible to receive a radio signal of the second wireless network base station. The method of claim 10, The antenna combination structure includes an adjustment mechanism, and the detection direction of the first and second directional antennas can be changed while rotating the first and second directional antennas. Antenna combination structure.

Images