WO2014020688A1 - Navigation device - Google Patents
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- WO2014020688A1 WO2014020688A1 PCT/JP2012/069422 JP2012069422W WO2014020688A1 WO 2014020688 A1 WO2014020688 A1 WO 2014020688A1 JP 2012069422 W JP2012069422 W JP 2012069422W WO 2014020688 A1 WO2014020688 A1 WO 2014020688A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/30—Services specially adapted for particular environments, situations or purposes
- H04W4/40—Services specially adapted for particular environments, situations or purposes for vehicles, e.g. vehicle-to-pedestrians [V2P]
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01C—MEASURING DISTANCES, LEVELS OR BEARINGS; SURVEYING; NAVIGATION; GYROSCOPIC INSTRUMENTS; PHOTOGRAMMETRY OR VIDEOGRAMMETRY
- G01C21/00—Navigation; Navigational instruments not provided for in groups G01C1/00 - G01C19/00
- G01C21/005—Navigation; Navigational instruments not provided for in groups G01C1/00 - G01C19/00 with correlation of navigation data from several sources, e.g. map or contour matching
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/02—Services making use of location information
- H04W4/024—Guidance services
Definitions
- the present invention relates to a navigation device mounted on a moving body such as a ship. More specifically, the navigation device of the present invention displays the current position of a moving body on a contour map indicating the electric field strength of radio waves transmitted to and received from a communication satellite.
- Patent Document 1 a system that connects a control earth station installed on land and a marine vessel so that they can communicate with each other via a communication satellite in the sky is known (for example, Patent Document 1).
- This system is used for the purpose of, for example, navigating the route of a ship and notifying an emergency signal to the ship.
- Patent Document 1 describes a marine navigation system for navigating a marine route.
- a ship station device provided on a ship detects information relating to the sea area currently being navigated from its own optical disk or the like based on position information from a GPS satellite.
- the ship station device transmits data indicating the version of the information relating to the sea area to the ground station device via the communication satellite, and detects whether the version is new or old. Then, when the information that the ship station device has is old as a result of the response from the ground station device, the ship station device requests the ground station device to transmit information regarding the sea area.
- the ground station device stores the latest information such as map data, construction information, and regulatory information for each sea area.
- the ground station apparatus can transmit the latest information to the ship side in response to a request from the ship station apparatus.
- the ship station apparatus displays a chart and the like based on the latest information, and writes and saves it on the optical disk. As a result, it is said that the ship can always obtain the latest information and perform safe navigation.
- a ship station apparatus mounted on a ship has a communication satellite transmission EIRP (effective isotropic radiated power) and a communication satellite reception G / T (gain-to-noise temperature ratio) of a certain value or more.
- EIRP effective isotropic radiated power
- G / T gain-to-noise temperature ratio
- the conventional navigation system can grasp the current position of the ship.
- communication with the ground station apparatus cannot be performed even if the shipboard station apparatus is disassembled and repaired. As described above, there are many cases in which the crew misunderstands that the shipboard station device has failed even though the ship cannot simply transmit and receive radio waves with the communication satellite. It was.
- the inventor of the present invention synthesized a map including a nautical chart and a contour map related to transmission / reception performance of radio waves transmitted / received by a communication satellite.
- a map including a nautical chart and a contour map related to transmission / reception performance of radio waves transmitted / received by a communication satellite By displaying the current position of the moving object on the composite map, it is possible to easily determine whether the current position of the ship is in an area where radio waves transmitted to and received from the communication satellite can be appropriately transmitted and received. I got the knowledge that I can do it.
- the inventor has conceived that the problems of the prior art can be solved based on the above knowledge, and has completed the present invention. More specifically, the present invention has the following configuration.
- the present invention relates to a navigation device mounted on a moving body.
- the navigation device of the present invention includes: A map storage unit storing map data; A contour map storage unit storing contour map data related to the transmission and reception performance of radio waves transmitted and received by a communication satellite; A map synthesis unit that reads out the map data and the contour map data from the map storage unit and the contour map storage unit, and generates a composite map in which the map and the contour map are superimposed; A position information detection unit capable of detecting information on a current position of the mobile body; A display unit that displays a current position of the moving body detected by the position information detection unit on the composite map generated by the map synthesis unit;
- the contour map preferably includes two types of contour maps: a transmission EIRP (effective isotropic radiated power) of the communication satellite and a reception G / T (gain-to-noise temperature ratio) of the communication satellite.
- a transmission EIRP effective isotropic radiated power
- G / T gain-to-noise temperature ratio
- the navigation device of the present invention includes: A storage unit for accumulating and storing the position information detected by the position information detection unit; A route detection unit for detecting a route traveled by the mobile body based on the position information stored in the storage unit; Preferably, the display unit displays the route detected by the route detection unit on the composite map.
- the mobile body is a ship, and the map preferably includes a chart.
- the navigation apparatus further includes a transmission unit that transmits the information on the current position detected by the position information detection unit to a sea area information processing apparatus included in a land station on land via a communication satellite in the sky. It is preferable.
- the navigation device is based on the contour map and the current position information of the mobile body, and in the contour map, in the area where the transmission / reception performance of radio waves transmitted and received by the communication satellite is below a predetermined value, It is preferable to have a ship information processing unit that includes an alarm device that displays or emits an alert when it is determined that there is a current position, and that automatically roams to a communication satellite or transponder having an optimal contour map.
- the present invention can synthesize a contour map related to transmission / reception performance of radio waves transmitted / received between a map and a communication satellite, and display the current position of the moving object on the synthesized map. Therefore, according to the present invention, it is possible to easily determine whether or not the current position of the mobile body is within an area where radio waves transmitted to and received from the communication satellite can be appropriately transmitted and received.
- the navigation device of the present invention selects a communication satellite or transponder so that an optimum radio wave can be transmitted and received automatically when a moving object exists within a range where a plurality of communication satellites or transponders can be used. Has a roaming function that can.
- FIG. 1 shows an outline of a navigation support system including a navigation device of the present invention.
- FIG. 2 shows a functional block diagram constituting the navigation support system.
- FIG. 3 shows an example of a composite map of a map and a contour map.
- FIG. 4 shows an example of a composite map of a map and a contour map.
- FIG. 1 shows an example of a navigation support system 100 including a navigation device 20 according to the present invention.
- the navigation support system 100 includes a sea area information processing apparatus 10 disposed on a land station 1 on land and a navigation apparatus 20 mounted on a ship 2.
- the marine area information processing apparatus 10 and the navigation apparatus 20 are connected to each other via an information communication network so that wireless communication can be performed.
- the marine information communication network includes a GPS network, a mobile communication network, and a VHF broadcast network.
- the GPS network is represented by a dotted line A
- the mobile communication network is represented by a solid line B
- the VHF broadcast network is represented by a one-dot chain line C.
- the GPS network A includes a GPS satellite 3 in the sky and a GPS differential reference station 4 disposed on land.
- the GPS network establishes communication between the GPS satellite 3, the GPS differential reference station 4, and the navigation device 20 mounted on each ship 2.
- the navigation device 20 includes a GPS receiver, as will be described later.
- GPS Global Positioning System
- GPS Global Positioning System
- each ship 2 can obtain information such as the position, speed, and azimuth of the ship as an accurate value by GPS.
- the GPS measures the time required to receive each radio wave based on the radio wave transmission time information included in the radio waves sent from the plurality of GPS satellites 3, and indicates the time indicating the time. Based on the information, information on the latitude and longitude of the current position of each ship 2 is calculated.
- the mobile communication network B includes a communication satellite 5 in the sky, a sea area information processing device 10 disposed in the ground station 1, and a navigation device 20 mounted on each ship 2.
- the mobile communication network B may include a transponder.
- the transponder is mounted on an artificial satellite such as a communication satellite or a broadcasting satellite, and has a function as a repeater for receiving a weak radio wave transmitted from the ground and amplifying the power to send it back to the ground.
- the mobile communication network can establish communication between the sea area information processing device 10 of the ground station 1 and the navigation device 20 of the ship 2 via the communication satellite 5.
- the sea area information processing apparatus 10 includes a communication antenna 11 and the navigation apparatus 20 includes a communication device.
- the VHF broadcast network C includes a sea area information processing apparatus 10 disposed on the ground station 1 and a navigation apparatus 20 mounted on the ship 2.
- the sea area information processing apparatus 10 includes a VHF broadcast antenna 12.
- the VHF broadcast broadcast by the VHF broadcast antenna 12 is configured to be received by the navigation device 20 of each ship 2.
- the VHF broadcast antenna 12 is connected to the ship information processing unit 13 of the sea area information processing apparatus 10 by a cable.
- the sea area information display device 10 includes a VHF broadcast receiver (not shown).
- the navigation 20 of each ship 2 supplies its own ship information to the communication antenna 11 of the ground station 1 via the communication satellite 5.
- the own ship information includes, for example, the identification name of the own ship, the position of the own ship, the heading and speed of the own ship, the size and type of the own ship, the set route, and the navigation state.
- the identification name of the ship is used in the ground station 1 to identify each ship 2.
- the sea area information processing apparatus 10 of the ground station 1 can individually transmit, for example, the following information to the ship 2 via the communication antenna 11. (1) Requesting a ship that sails in the vicinity to rescue a ship that has encountered a marine accident. (2) When a small ship that is not equipped to use the navigation support system is discovered by radar monitoring of the ground station, notify the ship that navigates around the small ship to that effect . (3) When a ship navigating a route deviating from the set route is discovered, the ship is informed that the vessel deviates from the set route. (4) Ask the ship that has stopped transmitting to the ground station to that effect, and if the ship's communication device is faulty, notify the ship that is sailing to that effect. (5) Notify ships that are obliged to evacuate but have not evacuated.
- the sea area information processing apparatus 10 of the ground station 1 constantly monitors the reception status of each mobile unit (ship 2).
- the EIRP transmission power
- the sea area information processing apparatus 10 of the ground station 1 can also improve the reception margin of the mobile body by controlling the modulation parameter when the radio wave from the ground station 1 to each mobile body (out-band) is weak.
- information on all ships collected by the communication antenna 11 of the ground station 1 can be supplied to the VHF broadcast transmission antenna 12 via a cable.
- the VHF broadcast transmission antenna 12 can supply information of all ships to each ship 2.
- Vessel information includes, for example, all vessel identification names, all vessel locations, all vessel heading and speed, all vessel dimensions and types, all vessel set routes, and all vessel The navigational state is included.
- This ship information includes the own ship information. Accordingly, each ship can identify its own ship information from other ship information by the identification name.
- the marine area information processing apparatus 10 is provided in the land station 10 on the land, and the navigation apparatus 20 is mounted on the marine vessel 2.
- the sea area information processing apparatus 10 includes a ship information processing unit 13, a ship information receiving unit 14, and a ship information transmitting unit 15.
- the ship information receiving unit 14 is configured to include the communication antenna 11 described above.
- the ship information transmitting unit 15 is configured to include a communication antenna 11 and a VHF broadcast transmission antenna 12.
- a signal instructing ship information supplied by each ship 2 is received by the ship information receiving unit 14 including the communication antenna 11.
- the ship information includes identification names, positions, heading and speeds, dimensions and types, set routes, and navigation states of all ships including the own ship.
- All ship information received by the ship information receiving unit 14 is transmitted to the ship information processing unit 13, and analysis processing and calculation processing are performed by the ship information processing unit 13.
- the ship information processing unit 13 supplies all ship information to the ship information transmission unit 14.
- All ship information is transmitted to each ship 2 by the VHF broadcast transmitting antenna 12 of the ship information transmitting unit 15.
- the sea area information processing apparatus 10 can also call each ship 2 individually by the communication antenna 11 of the ship information transmission part 15 as mentioned above.
- the navigation device 20 mounted on each ship 2 includes a ship information transmitting unit 21, an other ship information receiving unit 22, a position information detecting unit 23, a map information generating unit 24, A ship information processing unit 25 and a display unit 26 are provided.
- the own ship information transmission unit 21 includes a communication antenna for transmission, and transmits, for example, own ship information detected by the position information detection unit 23 to the sea area information processing apparatus 10 of the ground station 1 via the communication satellite 5. be able to.
- the other ship information receiving unit 22 includes a receiving communication antenna, and can receive ship information transmitted from the sea area information processing apparatus 10 of the ground station 1 via the mobile communication network or the VHF broadcast network. . That is, the other ship information receiving unit 22 includes a receiving communication antenna and a VHF broadcast receiving antenna.
- the position information detection unit 23 includes a measurement unit 23a, a route detection unit 23b, and a storage unit 23c.
- the measurement unit 23a includes a GPS receiver that can receive the radio waves from the GPS satellite 3 and the GPS differential reference station 4 and detect the position of the ship.
- the measurement unit 23a further includes a gyrocompass that detects the heading of the ship and a log speedometer that measures the navigation speed of the ship.
- the measurement unit 23a automatically performs measurement at predetermined time intervals (for example, 1 to 10 minutes) using a GPS receiver, a gyrocompass, and a log measurement meter.
- the route detection unit 23b detects the navigation route of the ship based on the information measured by the GPS receiver, the gyro compass, and the log meter included in the measurement unit 23a.
- the navigation route includes a route on which the ship 2 has traveled in the past and a route on which the ship 2 is expected to travel in the future.
- the storage unit 23c appropriately accumulates and stores information measured by the GPS receiver, gyro compass, and log meter included in the measurement unit 23a.
- the storage unit 23c stores information regarding the navigation route obtained by the route detection device 23b.
- storage part 23c has memorize
- information including position information detected by the position information detection unit 23 is referred to as “own ship information”.
- the route detection unit 23b can confirm the point that the ship has passed in the past based on the past position information of the ship that is measured by the GPS receiver and accumulated in the storage unit 24c. And the route detection part 23b can detect the past navigation route of the own ship by calculating
- the map information generation unit 24 includes a map storage unit 24a, a contour map storage unit 24b, and a map composition unit 24c.
- the map storage unit 24a can store a plurality of types of map data including nautical charts and land charts.
- the map may be a plan view that represents a certain range two-dimensionally, or may be a bird's-eye view that is three-dimensionally drawn using a perspective projection method.
- the map storage unit 24a preferably stores map data having a plurality of types of scales. If the map storage unit 24a stores a plurality of types of scale maps for the same point, the map can be reduced or enlarged.
- the map storage unit 24a stores a world map, a full map of Japan, a map of each country, and a nautical chart, and further stores map data having various scales such as 1/100000, 1/100000, and 1/3000. It is preferable.
- the map storage unit 24a may store known map data provided on a website on the Internet.
- the contour map storage unit 24b stores contour map data related to the transmission and reception performance of radio waves transmitted and received by the communication satellite 5.
- a contour map is a contour map displaying contour lines connecting equal numerical values on the drawing.
- the contour map storage unit 24b stores, for example, a contour map of transmission EIRP (effective isotropic radiated power) of a communication satellite. Further, the contour map storage unit 24b stores, for example, a contour map of the reception G / T (gain to noise temperature ratio) of the communication satellite. This means a contour map indicating the electric field strength of radio waves transmitted to and received from a communication satellite.
- the reception level when receiving radio waves transmitted from a communication satellite in a normal reception state using an antenna correctly installed on the ship 2 is the transmission output (EIRP) of the communication satellite and the reception sensitivity of the ship 2. It is determined based on the performance (G / T ratio). For this reason, in order to confirm the reception level in the ship 2, the contour map of the transmission output (EIRP) of a communication satellite should just be confirmed. Further, in order to confirm the transmission power from the ship 2 to the communication satellite, it is only necessary to confirm the contour map of the reception G / T (gain to noise temperature ratio) of the communication satellite.
- the contour map storage unit 24b preferably stores a contour map of transmission EIRP (effective isotropic radiated power) of the communication satellite and reception G / T (gain-to-noise temperature ratio) of the communication satellite.
- the mobile communication network includes a plurality of communication satellites 5.
- the contour map storage unit 24 b stores a transmission EIRP and reception G / T contour map for each communication satellite 5. Thereby, if the contour map of each communication satellite 5 is taken into consideration, it becomes possible to select a communication satellite that can perform optimal communication according to the current position of the ship 2.
- the navigation information processing unit 25 performs an optimal communication satellite selection process.
- the contour map storage unit 24b may store a known communication satellite contour map provided by a satellite operator.
- the map composition unit 24c reads the map data from the map storage unit 24a, reads the contour map data from the contour map storage unit 24b, and performs a composition process for superimposing the two.
- the map synthesis unit 24 synthesizes the map and the contour map so that the latitude, longitude, and scale of the map and the contour map match. As a result, a contour map of the electric field strength of radio waves transmitted and received with the communication satellite is shown on the map.
- the composite map generated by the map composition unit 24c is temporarily stored in a storage unit (not shown).
- the own ship information detected by the position information detecting unit 23 is transmitted to the own ship information transmitting unit 21 and the navigation information processing 25. Further, the other ship information received by the other ship information receiving unit is transmitted to the navigation information processing 25. Furthermore, the composite map data generated by the map composition unit 24 c of the map information generation unit 24 is transmitted to the navigation information processing 25.
- the navigation information processing unit 25 acquires own ship information from the position information detection unit 23, acquires other ship information from the other ship information reception unit 22, and acquires composite map data from the nautical chart information generation 24. .
- Information is transmitted and received by the inboard LAN.
- the navigation information processing unit 25 has, for example, a known CPU.
- the navigation information processing unit 25 generates the navigation status of the ship and other ships.
- the navigation information processing unit 25 converts the composite map data generated by the chart information generation 24 into a displayable format.
- the navigation information processing unit 25 can display the composite map on the display unit 26.
- the display unit 26 is, for example, an LCD (Liquid It can be realized by hardware such as a crystal display (LCD) or OELD (Organic Electro Luminescence Display).
- the navigation information processing unit 25 displays the composite map on the display unit 26
- the navigation information processing unit 25 displays the current position of the ship on the composite map based on the information on the current position of the ship detected by the position information detection unit 23.
- the current position of the ship may be indicated by an icon, may be displayed by blinking the icon, or may be displayed prominently surrounded by an icon frame. .
- the navigation information processing unit 25 displays the current position of the ship on the composite map based on the information on the heading of the ship detected by the position information detection unit 23 on the display unit 26. It is preferable to display the heading. For example, the heading of the ship may be displayed by the direction of the ship icon, or may be displayed by an arrow.
- the navigation information processing unit 25 displays the past navigation route detected by the route detection unit 23b of the position information detection unit 23 on the display unit 26 when displaying the current position of the ship on the composite map. Is preferred.
- the navigation information processing unit 25 can also display the future navigation route of the ship on the display unit 26.
- the ship's past navigation route can be displayed, for example, by connecting points that the ship has passed in the past with a line.
- FIG. 3 and 4 show an example of the composite map displayed on the display unit 26.
- FIG. 3 shows an example of a composite map in which a contour map of transmission EIRP (effective isotropic radiated power) of a communication satellite is superimposed on the map.
- FIG. 4 shows an example of a composite map in which a contour map of the received G / T (gain to noise temperature ratio) of the communication satellite is superimposed on the map.
- the current position P of the ship 2 is displayed on the composite map.
- the ship's crew looks at the composite map displayed on the display unit 26 so that the current position of the ship is in an area where radio waves transmitted to and received from the communication satellite can be appropriately transmitted and received. It can be easily determined whether or not.
- the ship's crew confirms the contour map so that the ship's current position is at a position where the reception level of radio waves transmitted from the communication satellite is low, or where the radio wave from the communication satellite cannot be received. Understand that the cause of the inability to communicate with the ground station is simply that the ship cannot receive radio waves from the communication satellite.
- FIGS. 3 and 4 on the composite map, a point where the ship 2 passes from the navigation start point S to the current point P is displayed as a navigation route R. For this reason, the crew of a ship can confirm the navigation route R of own ship instantaneously by visually observing the display part 26.
- a danger signal is supplied to the alarm device 27 when the navigation status of the ship 2 displays danger.
- the navigation information processing unit 25 confirms the numerical value of the radio wave transmission / reception performance indicated in the contour map and the current position information of the ship.
- a danger signal is supplied to the alarm device 27.
- the predetermined value of the transmission / reception performance that generates the danger signal can be arbitrarily determined.
- the alarm device 27 includes a display 27a and / or a speaker 27b. For this reason, when the danger signal is supplied from the navigation information processing unit 25, the alarm device 27 can display the alert as an image on the display 27a or emit the alert as a sound from the speaker 27b.
- the navigation information processing unit 25 of the present invention collates the current position of the ship 2 detected by the position information detection unit 23 with the contour maps of the plurality of communication satellites 5 stored in the contour map storage unit 24b. , It may have a roaming function for automatically selecting one communication satellite 5 that can perform the best communication with the ship. That is, the navigation information processing unit 25 can automatically switch to communication with the communication satellite 5 or transponder having the optimum contour when the ship is located in a range where a plurality of communication satellites 5 or transponders can be used. it can.
- the navigation information processing unit 25 notifies the warning device 27 when the own ship may collide with another ship based on the own ship information and the other ship information.
- a danger signal can also be supplied.
- the warning device 27 that has received the danger signal issues a warning to the crew of the ship by sound or image.
- the marine vessel operator visually observes the navigation status displayed on the display unit 26 to determine the avoidance behavior, and manually operates the marine vessel maneuvering device 38.
- the marine vessel maneuvering device 28 includes, for example, a marine vessel maneuvering controller 28a and a console 28b.
- the marine vessel maneuvering controller 28a functions to receive own ship information and other ship information via a normal inboard LAN and to control the own ship to always navigate along the set route.
- the ship maneuvering controller 28a changes the speed by changing the number of rotations of the screw propeller of the ship, and determines the distance deviation between the set route and the current position of the ship and the set route and the current heading of the ship. The azimuth deviation is detected and feedback control is performed to control the steering so that this deviation becomes zero.
- the boat maneuvering controller 28a accepts a manual boat maneuvering signal from the marine vessel operator, thereby maneuvering the vessel.
- a change in the set route and a change in the set speed are transmitted by the console 28b.
- the present invention relates to a navigation device mounted on a moving body such as a ship. Therefore, the present invention can be suitably used not only in the device manufacturing industry but also in the logistics industry and the fishery industry.
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Abstract
[Problem] The present invention addresses the problem of making it possible to easily determine whether the current position of a moving body is in a region in which radio waves can be properly sent to and received from communication satellites. [Solution] This navigation device is provided with: a map storage unit in which map data is stored; a contour map storage unit in which contour map data pertaining to transmission and reception performance for radio waves sent to and received from communication satellites is stored; a map synthesis unit that reads the map data and contour map data from the map storage unit and the contour map storage unit and generates a composite map that superimposes the map and contour map; a position search and acquisition unit capable of finding information on the current position of the moving body; and a display unit that displays the current position of the moving body that the position search and acquisition unit has found on the composite map generated by the map synthesis unit.
Description
本発明は,船舶などの移動体に搭載されるナビゲーション装置に関するものである。具体的に説明すると,本発明のナビゲーション装置は,移動体の現在位置を,通信衛星との間で送受信する電波の電界強度を示すコンターマップ上に表示するというものである。
The present invention relates to a navigation device mounted on a moving body such as a ship. More specifically, the navigation device of the present invention displays the current position of a moving body on a contour map indicating the electric field strength of radio waves transmitted to and received from a communication satellite.
従来から,陸上に設置された制御地球局と海上の船舶を,上空の通信衛星を介して,相互に無線通信可能に接続するシステムが知られている(例えば,特許文献1)。このシステムは,例えば,船舶の航路のナビゲートすること,及び船舶に対し緊急信号を通知することを目的として利用される。
2. Description of the Related Art Conventionally, a system that connects a control earth station installed on land and a marine vessel so that they can communicate with each other via a communication satellite in the sky is known (for example, Patent Document 1). This system is used for the purpose of, for example, navigating the route of a ship and notifying an emergency signal to the ship.
特許文献1には,船舶の航路のナビゲートを行う船舶用ナビゲーションシステムが記載されている。このナビゲーションシステムでは,船舶に設けられた船舶局装置が,GPS衛星からの位置情報に基づいて,自己が有する光ディスク等から現在航行中の海域に関する情報を検出する。また,船舶局装置は,通信衛星を介して,海域に関する情報のバージョンを示すデータを地上局装置に送信し,バージョンの新旧を検出する。そして,船舶局装置は,地上局装置からの回答により,自己が有する情報が古いものであった場合に,地上局装置にその海域に関する情報の送信依頼を行う。地上局装置には,各海域の地図データ,工事情報,規制情報等の最新の情報が記憶されている。このため,地上局装置は,船舶局装置からの依頼に応じて最新の情報を船舶側に送信できる。船舶局装置は,この最新の情報に基づいて海図等の表示を行うと共に,これを上記光ディスクに書き込み保存する。これにより,船舶は,常に最新に情報を入手することができ,安全な航行を行うことができるとされている。
Patent Document 1 describes a marine navigation system for navigating a marine route. In this navigation system, a ship station device provided on a ship detects information relating to the sea area currently being navigated from its own optical disk or the like based on position information from a GPS satellite. In addition, the ship station device transmits data indicating the version of the information relating to the sea area to the ground station device via the communication satellite, and detects whether the version is new or old. Then, when the information that the ship station device has is old as a result of the response from the ground station device, the ship station device requests the ground station device to transmit information regarding the sea area. The ground station device stores the latest information such as map data, construction information, and regulatory information for each sea area. For this reason, the ground station apparatus can transmit the latest information to the ship side in response to a request from the ship station apparatus. The ship station apparatus displays a chart and the like based on the latest information, and writes and saves it on the optical disk. As a result, it is said that the ship can always obtain the latest information and perform safe navigation.
また,近年,航空機や船舶などの移動体を対象としたブロードバンド通信サービスの要求が高まっている。特に,海上分野において,高速かつ大容量のデータ通信の需要が,世界的に高まっている。このような状況を踏まえ,2003年の世界無線通信会議“WRC-03”で,船上地球局(ESV:Earth Stations on board Vessels)が審議され,Cバンド及びKuバンドの静止人工衛星を利用した衛星固定業務の一環であるESVシステムが導入されている。
In recent years, there has been an increasing demand for broadband communication services for mobile objects such as aircraft and ships. In particular, in the marine field, demand for high-speed and large-capacity data communication is increasing worldwide. Based on this situation, the Earth Radio Stations (ESV: Earth Station on board Vessels) were deliberated at the 2003 World Radio Communications Conference “WRC-03”, and satellites using C-band and Ku-band geostationary satellites. An ESV system, which is part of fixed operations, has been introduced.
ところで,船舶用ナビゲーションシステムにおいて,通信衛星を介して,船舶局装置と地上局装置を無線接続するためには,船舶が,通信衛星から送受信される電波を送受信可能な領域に位置していることが必要となる。具体的に説明すると,船舶に搭載された船舶局装置は,通信衛星の送信EIRP(実効等方放射電力),及び通信衛星の受信G/T(利得対雑音温度比)が,一定値以上の領域に位置している場合に,通信衛星を介して,地上局との無線通信が可能となる。
By the way, in a ship navigation system, in order to wirelessly connect a ship station apparatus and a ground station apparatus via a communication satellite, the ship must be located in an area where radio waves transmitted and received from the communication satellite can be transmitted and received. Is required. More specifically, a ship station apparatus mounted on a ship has a communication satellite transmission EIRP (effective isotropic radiated power) and a communication satellite reception G / T (gain-to-noise temperature ratio) of a certain value or more. When located in an area, wireless communication with a ground station is possible via a communication satellite.
従来のナビゲーションシステムは,船舶の現在位置を把握することは可能である。しかしながら,従来のナビゲーションシステムでは,船舶の現在位置が,通信衛星との間で送受信される電波を適切に送受信可能な領域にあるかどうかを判定することが困難であった。このため,船舶が通信衛星との間で電波を送受信できない領域に位置し,地上局装置との無線通信ができなくなった場合に,船舶の乗組員が,船上局装置が故障したものと勘違いしてしまう恐れがあった。ただし,船舶が通信衛星との間で電波を送受信できない領域に位置している以上,船上局装置を解体して修理したとしても,地上局装置との通信を行うことはできない。このように,地上局装置と無線通信を行えない原因が,単に通信衛星との電波を船舶が送受信できないだけであるのに,乗組員が,船上局装置が故障したと誤解する事例が多く見受けられた。
The conventional navigation system can grasp the current position of the ship. However, in the conventional navigation system, it is difficult to determine whether the current position of the ship is in an area where radio waves transmitted to and received from the communication satellite can be appropriately transmitted and received. For this reason, when the ship is located in an area where radio waves cannot be transmitted to or received from the communication satellite and wireless communication with the ground station device is no longer possible, the ship crew member misunderstands that the shipboard station device has failed. There was a fear. However, as long as the ship is located in an area where radio waves cannot be transmitted to or received from the communication satellite, communication with the ground station apparatus cannot be performed even if the shipboard station apparatus is disassembled and repaired. As described above, there are many cases in which the crew misunderstands that the shipboard station device has failed even though the ship cannot simply transmit and receive radio waves with the communication satellite. It was.
このため,現在では,船舶が通信衛星との間で送発信される電波を適切に送受信可能な領域内に位置しているかどうかを容易に判断できるようにするための技術が求められている。
For this reason, at present, there is a demand for a technique for easily determining whether or not a ship is located within an area where radio waves transmitted to and received from communication satellites can be appropriately transmitted and received.
そこで,本発明の発明者は,上記の従来発明の問題点を解決する手段について鋭意検討した結果,海図を含む地図と,通信衛星により送受信される電波の送受信性能に関するコンターマップを合成し,この合成地図上に,移動体の現在位置を表示することにより,船舶の現在位置が,通信衛星との間で送受信される電波を適切に送受信可能な領域にあるかどうかを容易に判定することができるという知見を得た。そして,本発明者は,上記知見に基づけば,従来技術の課題を解決できることに想到し,本発明を完成させた。
具体的に説明すると,本発明は以下の構成を有する。 Therefore, as a result of intensive investigations on the means for solving the problems of the conventional invention, the inventor of the present invention synthesized a map including a nautical chart and a contour map related to transmission / reception performance of radio waves transmitted / received by a communication satellite. By displaying the current position of the moving object on the composite map, it is possible to easily determine whether the current position of the ship is in an area where radio waves transmitted to and received from the communication satellite can be appropriately transmitted and received. I got the knowledge that I can do it. The inventor has conceived that the problems of the prior art can be solved based on the above knowledge, and has completed the present invention.
More specifically, the present invention has the following configuration.
具体的に説明すると,本発明は以下の構成を有する。 Therefore, as a result of intensive investigations on the means for solving the problems of the conventional invention, the inventor of the present invention synthesized a map including a nautical chart and a contour map related to transmission / reception performance of radio waves transmitted / received by a communication satellite. By displaying the current position of the moving object on the composite map, it is possible to easily determine whether the current position of the ship is in an area where radio waves transmitted to and received from the communication satellite can be appropriately transmitted and received. I got the knowledge that I can do it. The inventor has conceived that the problems of the prior art can be solved based on the above knowledge, and has completed the present invention.
More specifically, the present invention has the following configuration.
本発明は,移動体に搭載されるナビゲーション装置に関する。
本発明のナビゲーション装置は,
地図のデータを記憶した地図記憶部と,
通信衛星により送受信される電波の送受信性能に関するコンターマップのデータを記憶したコンターマップ記憶部と,
前記地図記憶部及び前記コンターマップ記憶部から前記地図のデータ及びコンターマップのデータを読み出し,前記地図と前記コンターマップを重ね合わせた合成地図を生成する地図合成部と,
前記移動体の現在位置の情報を検出可能な位置情報検出部と,
前記地図合成部が生成した前記合成地図上に,前記位置情報検出部が検出した前記移動体の現在位置を表示する表示部と,を備える。 The present invention relates to a navigation device mounted on a moving body.
The navigation device of the present invention includes:
A map storage unit storing map data;
A contour map storage unit storing contour map data related to the transmission and reception performance of radio waves transmitted and received by a communication satellite;
A map synthesis unit that reads out the map data and the contour map data from the map storage unit and the contour map storage unit, and generates a composite map in which the map and the contour map are superimposed;
A position information detection unit capable of detecting information on a current position of the mobile body;
A display unit that displays a current position of the moving body detected by the position information detection unit on the composite map generated by the map synthesis unit;
本発明のナビゲーション装置は,
地図のデータを記憶した地図記憶部と,
通信衛星により送受信される電波の送受信性能に関するコンターマップのデータを記憶したコンターマップ記憶部と,
前記地図記憶部及び前記コンターマップ記憶部から前記地図のデータ及びコンターマップのデータを読み出し,前記地図と前記コンターマップを重ね合わせた合成地図を生成する地図合成部と,
前記移動体の現在位置の情報を検出可能な位置情報検出部と,
前記地図合成部が生成した前記合成地図上に,前記位置情報検出部が検出した前記移動体の現在位置を表示する表示部と,を備える。 The present invention relates to a navigation device mounted on a moving body.
The navigation device of the present invention includes:
A map storage unit storing map data;
A contour map storage unit storing contour map data related to the transmission and reception performance of radio waves transmitted and received by a communication satellite;
A map synthesis unit that reads out the map data and the contour map data from the map storage unit and the contour map storage unit, and generates a composite map in which the map and the contour map are superimposed;
A position information detection unit capable of detecting information on a current position of the mobile body;
A display unit that displays a current position of the moving body detected by the position information detection unit on the composite map generated by the map synthesis unit;
本発明において,コンターマップには,通信衛星の送信EIRP(実効等方放射電力),及び通信衛星の受信G/T(利得対雑音温度比)の二通りのコンターマップが含まれることが好ましい。
In the present invention, the contour map preferably includes two types of contour maps: a transmission EIRP (effective isotropic radiated power) of the communication satellite and a reception G / T (gain-to-noise temperature ratio) of the communication satellite.
本発明のナビゲーション装置は,
前記位置情報検出部により検出された位置情報を蓄積して記憶する記憶部と,
前記記憶部に記憶されている位置情報に基づいて,前記移動体が移動したルートを検出するルート検出部と,をさらに備え,
前記表示部は,前記合成地図上に,前記ルート検出部により検出された前記ルートを表示することが好ましい。 The navigation device of the present invention includes:
A storage unit for accumulating and storing the position information detected by the position information detection unit;
A route detection unit for detecting a route traveled by the mobile body based on the position information stored in the storage unit;
Preferably, the display unit displays the route detected by the route detection unit on the composite map.
前記位置情報検出部により検出された位置情報を蓄積して記憶する記憶部と,
前記記憶部に記憶されている位置情報に基づいて,前記移動体が移動したルートを検出するルート検出部と,をさらに備え,
前記表示部は,前記合成地図上に,前記ルート検出部により検出された前記ルートを表示することが好ましい。 The navigation device of the present invention includes:
A storage unit for accumulating and storing the position information detected by the position information detection unit;
A route detection unit for detecting a route traveled by the mobile body based on the position information stored in the storage unit;
Preferably, the display unit displays the route detected by the route detection unit on the composite map.
本発明において,移動体は船舶であり,地図には海図が含まれることが好ましい。
In the present invention, the mobile body is a ship, and the map preferably includes a chart.
本発明のナビゲーション装置は,陸上の地上局が備える海域情報処理装置に対し,上空の通信衛星を介して,前記位置情報検出部が検出した前記現在位置の情報を発信する発信部を,さらに備えることが好ましい。
The navigation apparatus according to the present invention further includes a transmission unit that transmits the information on the current position detected by the position information detection unit to a sea area information processing apparatus included in a land station on land via a communication satellite in the sky. It is preferable.
本発明のナビゲーション装置は,前記コンターマップ及び前記移動体の現在位置の情報に基づき,前記コンターマップにおいて,前記通信衛星により送受信される電波の送受信性能が所定値以下を示す領域に,前記移動体の現在位置があると判断した場合に,アラートを表示又は放音する警報装置を備えると共に、最適コンターマップを有する通信衛星やトランスポンダに自動的にローミングを行う船舶情報処理部を有することが好ましい。
The navigation device according to the present invention is based on the contour map and the current position information of the mobile body, and in the contour map, in the area where the transmission / reception performance of radio waves transmitted and received by the communication satellite is below a predetermined value, It is preferable to have a ship information processing unit that includes an alarm device that displays or emits an alert when it is determined that there is a current position, and that automatically roams to a communication satellite or transponder having an optimal contour map.
本発明は,地図と通信衛星との間で送受信される電波の送受信性能に関するコンターマップとを合成し,その合成地図上に,移動体の現在位置を表示できる。従って,本発明よれば,移動体の現在位置が,通信衛星との間で送受信される電波を適切に送受信可能な領域にあるかどうかを容易に判断できるようになる。
The present invention can synthesize a contour map related to transmission / reception performance of radio waves transmitted / received between a map and a communication satellite, and display the current position of the moving object on the synthesized map. Therefore, according to the present invention, it is possible to easily determine whether or not the current position of the mobile body is within an area where radio waves transmitted to and received from the communication satellite can be appropriately transmitted and received.
また、本発明のナビゲーション装置は,複数以上の通信衛星やトランスポンダが利用出来る範囲内に移動体が存在している場合には、自動的に最適な電波を送受信出来るように通信衛星やトランスポンダを選択出来るローミング機能を有する。
The navigation device of the present invention selects a communication satellite or transponder so that an optimum radio wave can be transmitted and received automatically when a moving object exists within a range where a plurality of communication satellites or transponders can be used. Has a roaming function that can.
以下,図面を用いて本発明を実施するための形態について説明する。本発明は,以下に説明する形態に限定されるものではなく,以下の形態から当業者が自明な範囲で適宜修正したものも含む。
Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings. The present invention is not limited to the embodiments described below, but includes those appropriately modified by those skilled in the art from the following embodiments.
図1は,本発明に係るナビゲーション装置20を含む航行支援システム100の例を示している。航行支援システム100は,陸上の地上局1に配置された海域情報処理装置10と,船舶2に搭載されたナビゲーション装置20を含む。海域情報処理装置10と,ナビゲーション装置20は,情報通信ネットワークを介して,互いに無線通信ができるように接続されている。
FIG. 1 shows an example of a navigation support system 100 including a navigation device 20 according to the present invention. The navigation support system 100 includes a sea area information processing apparatus 10 disposed on a land station 1 on land and a navigation apparatus 20 mounted on a ship 2. The marine area information processing apparatus 10 and the navigation apparatus 20 are connected to each other via an information communication network so that wireless communication can be performed.
海域情報通信ネットワークは,GPSネットワークと,移動体通信ネットワークと,VHF放送ネットワークとを含む。図において,GPSネットワークは点線Aによって表され,移動体通信ネットワークは実線Bによって表され,VHF放送ネットワークは一点鎖線Cによって表されている。
The marine information communication network includes a GPS network, a mobile communication network, and a VHF broadcast network. In the figure, the GPS network is represented by a dotted line A, the mobile communication network is represented by a solid line B, and the VHF broadcast network is represented by a one-dot chain line C.
図1に示されるように,GPSネットワークAは,上空のGPS衛星3と,陸上に配置されたGPSディファレンシャル基準局4を含む。GPSネットワークは,GPS衛星3,GPSディファレンシャル基準局4,及び各船舶2に搭載されたナビゲーション装置20との間の通信を構築する。ナビゲーション装置20は,後に説明するように,GPS受信機を含む。
As shown in FIG. 1, the GPS network A includes a GPS satellite 3 in the sky and a GPS differential reference station 4 disposed on land. The GPS network establishes communication between the GPS satellite 3, the GPS differential reference station 4, and the navigation device 20 mounted on each ship 2. The navigation device 20 includes a GPS receiver, as will be described later.
GPS(Global Positioning
System)は,複数のGPS衛星3より発信された電波を受信し,それによって得られたデータにより,自船の位置,速度,方位角等を3次元的に計測するシステムである。従って,各船舶2は,GPSによって,自船の位置,速度,方位角等の情報を正確な値として得ることができる。具体的に説明すると,GPSは,複数のGPS衛星3から送られた電波に含まれる電波送信時間の情報に基づき,それぞれの電波を受信するのに要した時間を測定し,その時間を示す時間情報に基づいて,各船舶2の現在位置の緯度経度に関する情報を算出する。 GPS (Global Positioning
System) is a system that receives radio waves transmitted from a plurality ofGPS satellites 3 and three-dimensionally measures the position, velocity, azimuth, etc. of the ship based on data obtained thereby. Accordingly, each ship 2 can obtain information such as the position, speed, and azimuth of the ship as an accurate value by GPS. More specifically, the GPS measures the time required to receive each radio wave based on the radio wave transmission time information included in the radio waves sent from the plurality of GPS satellites 3, and indicates the time indicating the time. Based on the information, information on the latitude and longitude of the current position of each ship 2 is calculated.
System)は,複数のGPS衛星3より発信された電波を受信し,それによって得られたデータにより,自船の位置,速度,方位角等を3次元的に計測するシステムである。従って,各船舶2は,GPSによって,自船の位置,速度,方位角等の情報を正確な値として得ることができる。具体的に説明すると,GPSは,複数のGPS衛星3から送られた電波に含まれる電波送信時間の情報に基づき,それぞれの電波を受信するのに要した時間を測定し,その時間を示す時間情報に基づいて,各船舶2の現在位置の緯度経度に関する情報を算出する。 GPS (Global Positioning
System) is a system that receives radio waves transmitted from a plurality of
図1に示されるように,移動体通信ネットワークBは,上空の通信衛星5と,地上局1に配置された海域情報処理装置10,各船舶2に搭載されたナビゲーション装置20を含む。また,図示は省略するが,移動体通信ネットワークBは,トランスポンダを含むものであってもよい。トランスポンダは,通信衛星や放送衛星のような人工衛星に搭載され,地上から送られた微弱な電波を受信し,地上に送り返すために電力増幅するための中継器としての機能を持つ。移動体通信ネットワークは,通信衛星5を経由して,地上局1の海域情報処理装置10と船舶2のナビゲーション装置20の間の通信を構築することができる。後に説明するように,海域情報処理装置10は通信アンテナ11を含み,ナビゲーション装置20は通信機器を含む。
As shown in FIG. 1, the mobile communication network B includes a communication satellite 5 in the sky, a sea area information processing device 10 disposed in the ground station 1, and a navigation device 20 mounted on each ship 2. Although not shown, the mobile communication network B may include a transponder. The transponder is mounted on an artificial satellite such as a communication satellite or a broadcasting satellite, and has a function as a repeater for receiving a weak radio wave transmitted from the ground and amplifying the power to send it back to the ground. The mobile communication network can establish communication between the sea area information processing device 10 of the ground station 1 and the navigation device 20 of the ship 2 via the communication satellite 5. As will be described later, the sea area information processing apparatus 10 includes a communication antenna 11 and the navigation apparatus 20 includes a communication device.
図1に示されるように,VHF放送ネットワークCは,地上局1に配置された海域情報処理装置10と,船舶2に搭載されたナビゲーション装置20を含む。また,海域情報処理装置10は,VHF放送アンテナ12を含む。このVHF放送アンテナ12によって放送されたVHF放送は,各船舶2のナビゲーション装置20によって受信されるように構成されている。図1に示されるように,VHF放送アンテナ12は,ケーブルによって海域情報処理装置10の船舶情報処理部13に接続されている。海域情報表示装置10は,VHF放送受信機(図示省略)を含む。
As shown in FIG. 1, the VHF broadcast network C includes a sea area information processing apparatus 10 disposed on the ground station 1 and a navigation apparatus 20 mounted on the ship 2. The sea area information processing apparatus 10 includes a VHF broadcast antenna 12. The VHF broadcast broadcast by the VHF broadcast antenna 12 is configured to be received by the navigation device 20 of each ship 2. As shown in FIG. 1, the VHF broadcast antenna 12 is connected to the ship information processing unit 13 of the sea area information processing apparatus 10 by a cable. The sea area information display device 10 includes a VHF broadcast receiver (not shown).
図1に示されるように,移動体通信ネットワークBにおいて,各船舶2のナビゲーション20は,通信衛星5を介して,地上局1の通信アンテナ11に,自己の自船情報を供給する。この自船情報には,例えば,自船の識別名,自船の位置,自船の船首方位及び速度,自船の寸法及び種別,設定航路,及び航行状態等が含まれる。自船の識別名は,地上局1において,各船舶2を識別するために使用される。
As shown in FIG. 1, in the mobile communication network B, the navigation 20 of each ship 2 supplies its own ship information to the communication antenna 11 of the ground station 1 via the communication satellite 5. The own ship information includes, for example, the identification name of the own ship, the position of the own ship, the heading and speed of the own ship, the size and type of the own ship, the set route, and the navigation state. The identification name of the ship is used in the ground station 1 to identify each ship 2.
地上局1の海域情報処理装置10は,通信アンテナ11を介して,船舶2に対し,例えば以下の情報を個別に送信できる。
(1)海難に遭遇した船舶の救助をその周囲を航行する船舶へ要請すること。
(2)地上局のレーダ監視によって航行支援システムを使用するための装備をしていない小型船を発見した場合に,その小型船の周囲を航行する船舶にその旨を通知して注意を促すこと。
(3)設定航路より逸脱した航路を航行している船舶を発見したときに,その船舶に対して設定航路より逸脱している旨を打診すること。
(4)地上局に対する送信が途絶えた船舶に対してその旨を打診し,その船舶の通信装置が故障している場合には,その旨を航行中の船舶に通知して注意を促すこと。
(5)避航義務があるにも拘わらず避航しなかった船舶へその旨を通知して注意すること。 The sea areainformation processing apparatus 10 of the ground station 1 can individually transmit, for example, the following information to the ship 2 via the communication antenna 11.
(1) Requesting a ship that sails in the vicinity to rescue a ship that has encountered a marine accident.
(2) When a small ship that is not equipped to use the navigation support system is discovered by radar monitoring of the ground station, notify the ship that navigates around the small ship to that effect .
(3) When a ship navigating a route deviating from the set route is discovered, the ship is informed that the vessel deviates from the set route.
(4) Ask the ship that has stopped transmitting to the ground station to that effect, and if the ship's communication device is faulty, notify the ship that is sailing to that effect.
(5) Notify ships that are obliged to evacuate but have not evacuated.
(1)海難に遭遇した船舶の救助をその周囲を航行する船舶へ要請すること。
(2)地上局のレーダ監視によって航行支援システムを使用するための装備をしていない小型船を発見した場合に,その小型船の周囲を航行する船舶にその旨を通知して注意を促すこと。
(3)設定航路より逸脱した航路を航行している船舶を発見したときに,その船舶に対して設定航路より逸脱している旨を打診すること。
(4)地上局に対する送信が途絶えた船舶に対してその旨を打診し,その船舶の通信装置が故障している場合には,その旨を航行中の船舶に通知して注意を促すこと。
(5)避航義務があるにも拘わらず避航しなかった船舶へその旨を通知して注意すること。 The sea area
(1) Requesting a ship that sails in the vicinity to rescue a ship that has encountered a marine accident.
(2) When a small ship that is not equipped to use the navigation support system is discovered by radar monitoring of the ground station, notify the ship that navigates around the small ship to that effect .
(3) When a ship navigating a route deviating from the set route is discovered, the ship is informed that the vessel deviates from the set route.
(4) Ask the ship that has stopped transmitting to the ground station to that effect, and if the ship's communication device is faulty, notify the ship that is sailing to that effect.
(5) Notify ships that are obliged to evacuate but have not evacuated.
また,地上局1の海域情報処理装置10は,各移動体(船舶2)の受信状況を常時監視しており,移動体の位置や伝搬路の降雨減衰等が原因となり,各移動体から地上局1(インバンド)への電波が弱い場合に,移動体のEIRP(送信電力)を増加したり,変調パラメータを制御して制御地球局の受信マージンを改善したりすることもできる。地上局1の海域情報処理装置10は,地上局1から各移動体(アウトバンド)への電波が弱い場合,変調パラメータを制御して移動体の受信マージンの改善等を行うこともできる。
In addition, the sea area information processing apparatus 10 of the ground station 1 constantly monitors the reception status of each mobile unit (ship 2). When the radio wave to station 1 (in-band) is weak, the EIRP (transmission power) of the mobile body can be increased, or the reception margin of the control earth station can be improved by controlling the modulation parameter. The sea area information processing apparatus 10 of the ground station 1 can also improve the reception margin of the mobile body by controlling the modulation parameter when the radio wave from the ground station 1 to each mobile body (out-band) is weak.
図1に示されるように,地上局1の通信アンテナ11によって収集された全船舶の情報は,ケーブルを介して,VHF放送送信アンテナ12に供給することができる。VHF放送ネットワークを利用することで,VHF放送送信アンテナ12よって,各船舶2に対し,全ての船舶の情報を供給することができる。船舶の情報には,例えば,全ての船舶の識別名,全ての船舶の位置,全ての船舶の船首方位と速度,全ての船舶の寸法及び種別,全ての船舶の設定航路,及び全ての船舶の航行状態等が含まれる。なお,この船舶の情報には,自船の情報も含まれる。従って,各船舶では,識別名によって,自船情報を他船情報より識別することができる。
As shown in FIG. 1, information on all ships collected by the communication antenna 11 of the ground station 1 can be supplied to the VHF broadcast transmission antenna 12 via a cable. By using the VHF broadcast network, the VHF broadcast transmission antenna 12 can supply information of all ships to each ship 2. Vessel information includes, for example, all vessel identification names, all vessel locations, all vessel heading and speed, all vessel dimensions and types, all vessel set routes, and all vessel The navigational state is included. This ship information includes the own ship information. Accordingly, each ship can identify its own ship information from other ship information by the identification name.
図2を参照して,航行支援システム100に使用される海域情報処理装置10とナビゲーション装置20の構成及び機能を説明する。上述したとおり,海域情報処理装置10は,陸上の地上局10に設けられ,ナビゲーション装置20は海上の船舶2に搭載される。
With reference to FIG. 2, the structure and function of the marine area information processing apparatus 10 and the navigation apparatus 20 used in the navigation support system 100 will be described. As described above, the marine area information processing apparatus 10 is provided in the land station 10 on the land, and the navigation apparatus 20 is mounted on the marine vessel 2.
海域情報処理装置10は,船舶情報処理部13と,船舶情報受信部14と,船舶情報発信部15を有する。船舶情報受信部14は,上述した通信アンテナ11を含むように構成される。また,船舶情報発信部15は,通信アンテナ11及びVHF放送送信アンテナ12を含むように構成される。
The sea area information processing apparatus 10 includes a ship information processing unit 13, a ship information receiving unit 14, and a ship information transmitting unit 15. The ship information receiving unit 14 is configured to include the communication antenna 11 described above. Further, the ship information transmitting unit 15 is configured to include a communication antenna 11 and a VHF broadcast transmission antenna 12.
通信アンテナ11を含む船舶情報受信部14によって,各船舶2により供給された船舶情報を指示する信号が受信される。この船舶情報には,上述したように自船を含む全ての船舶の識別名,位置,船首方位及び速度,寸法及び種別,設定航路,及び航行状態等が含まれる。船舶情報受信部14により受信された全船舶情報は,船舶情報処理部13に伝達され,船舶情報処理部13によって解析処理及び演算処理が行われる。船舶情報処理13は,全船舶情報を,船舶情報発信部14へと供給する。
A signal instructing ship information supplied by each ship 2 is received by the ship information receiving unit 14 including the communication antenna 11. As described above, the ship information includes identification names, positions, heading and speeds, dimensions and types, set routes, and navigation states of all ships including the own ship. All ship information received by the ship information receiving unit 14 is transmitted to the ship information processing unit 13, and analysis processing and calculation processing are performed by the ship information processing unit 13. The ship information processing unit 13 supplies all ship information to the ship information transmission unit 14.
全船舶情報は,船舶情報発信部15のVHF放送送信アンテナ12によって,各船舶2へと送信される。なお,海域情報処理装置10は,上述のように船舶情報発信部15の通信アンテナ11によって,各船舶2を個別的に呼び出すこともできる。
All ship information is transmitted to each ship 2 by the VHF broadcast transmitting antenna 12 of the ship information transmitting unit 15. In addition, the sea area information processing apparatus 10 can also call each ship 2 individually by the communication antenna 11 of the ship information transmission part 15 as mentioned above.
図2に示されるように,各船舶2に搭載されたナビゲーション装置20は,自船情報発信部21と,他船情報受信部22と,位置情報検出部23と,地図情報発生部24と,船舶情報処理部25と,表示部26を有する。
As shown in FIG. 2, the navigation device 20 mounted on each ship 2 includes a ship information transmitting unit 21, an other ship information receiving unit 22, a position information detecting unit 23, a map information generating unit 24, A ship information processing unit 25 and a display unit 26 are provided.
自船情報発信部21は,発信用通信アンテナを含み,例えば位置情報検出部23により検出された自船情報を,通信衛星5を介して,地上局1の海域情報処理装置10へと送信することができる。また,他船情報受信部22は,受信用通信アンテナを含み,移動体通信ネットワーク又はVHF放送ネットワークを介して,地上局1の海域情報処理装置10から送信された船舶情報を受信することができる。すなわち,他船情報受信部22は,受信用通信アンテナ及びVHF放送受信アンテナを含む。
The own ship information transmission unit 21 includes a communication antenna for transmission, and transmits, for example, own ship information detected by the position information detection unit 23 to the sea area information processing apparatus 10 of the ground station 1 via the communication satellite 5. be able to. The other ship information receiving unit 22 includes a receiving communication antenna, and can receive ship information transmitted from the sea area information processing apparatus 10 of the ground station 1 via the mobile communication network or the VHF broadcast network. . That is, the other ship information receiving unit 22 includes a receiving communication antenna and a VHF broadcast receiving antenna.
位置情報検出部23は,計測部23a,ルート検出部23b,及び記憶部23cを含む。計測部23aは,GPS衛星3及びGPSディファレンシャル基準局4からの電波を受信して自船の位置を検出可能なGPS受信機を含む。また,計測部23aは,さらに,自船の船首方位を検出するジャイロコンパス,及び自船の航行速度を測定するログ速度計を含む。計測部23aは,GPS受信機,ジャイロコンパス,及びログ計測計を利用して,所定時間間隔(例えば1分~10分)毎に自動的に計測を行う。ルート検出部23bは,計測部23aに含まれるGPS受信機,ジャイロコンパス,及びログ計測計により計測した情報に基づいて,自船の航行ルートを検出する。なお,航行ルートには,船舶2が過去に進行してきた経路,及び船舶2が将来的に進行するであろうと予測される経路が含まれる。記憶部23cは,計測部23aに含まれるGPS受信機,ジャイロコンパス,及びログ計測計により計測した情報を適宜,蓄積して記憶する。また,記憶部23cは,ルート検出装置23bにより求められた航行ルートに関する情報を記憶する。さらに,記憶部23cは,自船の識別名,寸法,及び種別を記憶している。なお,本願明細書において,この位置情報検出部23により検出された位置情報を含む情報を,「自船情報」という。
The position information detection unit 23 includes a measurement unit 23a, a route detection unit 23b, and a storage unit 23c. The measurement unit 23a includes a GPS receiver that can receive the radio waves from the GPS satellite 3 and the GPS differential reference station 4 and detect the position of the ship. The measurement unit 23a further includes a gyrocompass that detects the heading of the ship and a log speedometer that measures the navigation speed of the ship. The measurement unit 23a automatically performs measurement at predetermined time intervals (for example, 1 to 10 minutes) using a GPS receiver, a gyrocompass, and a log measurement meter. The route detection unit 23b detects the navigation route of the ship based on the information measured by the GPS receiver, the gyro compass, and the log meter included in the measurement unit 23a. The navigation route includes a route on which the ship 2 has traveled in the past and a route on which the ship 2 is expected to travel in the future. The storage unit 23c appropriately accumulates and stores information measured by the GPS receiver, gyro compass, and log meter included in the measurement unit 23a. In addition, the storage unit 23c stores information regarding the navigation route obtained by the route detection device 23b. Furthermore, the memory | storage part 23c has memorize | stored the identification name of the own ship, a dimension, and a classification. In the present specification, information including position information detected by the position information detection unit 23 is referred to as “own ship information”.
具体的に説明すると,ルート検出部23bは,GPS受信機により計測され記憶部24cに蓄積されている自船の過去の位置情報に基づいて,自船が過去に通過したポイントを確認できる。そして,ルート検出部23bは,ジャイロコンパスにより計測された自船の船首方位の情報に基づいて,過去に通過したポイントを繋ぐ線を求めることで,自船の過去の航行ルートを検出できる。また,ルート検出部23bは,ジャイロコンパスにより計測された自船の船首方位の情報,及びログ計測計により計測された自船の航行速度に基づいて計算を行うことにより,自船の将来の航行ルートを予測することもできる。ルート検出部23bにより検出された航行ルートは,記憶部23cに記憶される。
More specifically, the route detection unit 23b can confirm the point that the ship has passed in the past based on the past position information of the ship that is measured by the GPS receiver and accumulated in the storage unit 24c. And the route detection part 23b can detect the past navigation route of the own ship by calculating | requiring the line which connects the point which passed through the past based on the information of the heading direction of the own ship measured by the gyrocompass. In addition, the route detection unit 23b performs future navigation of the ship by performing calculations based on the ship heading information measured by the gyrocompass and the navigation speed of the ship measured by the log meter. Routes can also be predicted. The navigation route detected by the route detection unit 23b is stored in the storage unit 23c.
図2に示されるように,地図情報発生部24は,地図記憶部24aと,コンターマップ記憶部24bと,地図合成部24cを含む。
As shown in FIG. 2, the map information generation unit 24 includes a map storage unit 24a, a contour map storage unit 24b, and a map composition unit 24c.
地図記憶部24aは,海図及び陸図を含む複数種類の地図のデータを記憶することができる。地図は,一定範囲を二次元的に表す平面図であってもよいし,透視図法を使った三次元的な描画が施された俯瞰図であってもよい。地図記憶部24aは,複数種類の縮尺を有する地図データを記憶していることが好ましい。地図記憶部24aが同じポイントについて複数種類の縮尺の地図を記憶していれば,地図の縮小又は拡大表示を行うことができる。例えば,地図記憶部24aには,世界地図,日本全図,各国図,及び海図が記憶され,さらに,1/100000,1/100000,1/3000など各種の縮尺を有する地図のデータが記憶されていることが好ましい。地図記憶部24aには,インターネット上のウェブサイトで提供されている公知の地図データを記憶すればよい。
The map storage unit 24a can store a plurality of types of map data including nautical charts and land charts. The map may be a plan view that represents a certain range two-dimensionally, or may be a bird's-eye view that is three-dimensionally drawn using a perspective projection method. The map storage unit 24a preferably stores map data having a plurality of types of scales. If the map storage unit 24a stores a plurality of types of scale maps for the same point, the map can be reduced or enlarged. For example, the map storage unit 24a stores a world map, a full map of Japan, a map of each country, and a nautical chart, and further stores map data having various scales such as 1/100000, 1/100000, and 1/3000. It is preferable. The map storage unit 24a may store known map data provided on a website on the Internet.
コンターマップ記憶部24bは,通信衛星5により送受信される電波の送受信性能に関するコンターマップのデータを記憶している。コンターマップとは,図面上の等しい数値を結ぶ等高線を表示した等高線図である。コンターマップ記憶部24bは,例えば,通信衛星の送信EIRP(実効等方放射電力)のコンターマップを記憶している。また,コンターマップ記憶部24bは,例えば,通信衛星の受信G/T(利得対雑音温度比)のコンターマップを記憶している。これは,通信衛星との間で送受信される電波の電界強度を示すコンターマップを意味する。すなわち,船舶2に正しく設置されたアンテナを用いて,正常受信状態で,通信衛星から発信された電波を受信する場合の受信レベルは,通信衛星の送信出力(EIRP),及び船舶2の受信感度性能(G/T比)を基にして決定される。このため,船舶2での受信レベルを確認するためには,通信衛星の送信出力(EIRP)のコンターマップを確認すればよい。また、船舶2から通信衛星への送信電力を確認するためには、通信衛星の受信G/T(利得対雑音温度比)のコンターマップを確認すればよい。このため,コンターマップ記憶部24bには,通信衛星の送信EIRP(実効等方放射電力)と,通信衛星の受信G/T(利得対雑音温度比)のコンターマップが記憶されていることが好ましい。移動体通信ネットワークには,複数の通信衛星5が含まれる。この場合,コンターマップ記憶部24bは,それぞれの通信衛星5について,送信EIRP及び受信G/Tのコンターマップを記憶している。これにより,各通信衛星5のコンターマップを参酌すれば,船舶2の現在位置に応じて,最適な通信を行うことができる通信衛星を選定することが可能になる。最適な通信衛星の選定処理は,航行情報処理部25によって行われる。なお,コンターマップ記憶部24bには,衛星オペレータにより提供される公知の通信衛星のコンターマップを記憶すればよい。
The contour map storage unit 24b stores contour map data related to the transmission and reception performance of radio waves transmitted and received by the communication satellite 5. A contour map is a contour map displaying contour lines connecting equal numerical values on the drawing. The contour map storage unit 24b stores, for example, a contour map of transmission EIRP (effective isotropic radiated power) of a communication satellite. Further, the contour map storage unit 24b stores, for example, a contour map of the reception G / T (gain to noise temperature ratio) of the communication satellite. This means a contour map indicating the electric field strength of radio waves transmitted to and received from a communication satellite. That is, the reception level when receiving radio waves transmitted from a communication satellite in a normal reception state using an antenna correctly installed on the ship 2 is the transmission output (EIRP) of the communication satellite and the reception sensitivity of the ship 2. It is determined based on the performance (G / T ratio). For this reason, in order to confirm the reception level in the ship 2, the contour map of the transmission output (EIRP) of a communication satellite should just be confirmed. Further, in order to confirm the transmission power from the ship 2 to the communication satellite, it is only necessary to confirm the contour map of the reception G / T (gain to noise temperature ratio) of the communication satellite. For this reason, the contour map storage unit 24b preferably stores a contour map of transmission EIRP (effective isotropic radiated power) of the communication satellite and reception G / T (gain-to-noise temperature ratio) of the communication satellite. . The mobile communication network includes a plurality of communication satellites 5. In this case, the contour map storage unit 24 b stores a transmission EIRP and reception G / T contour map for each communication satellite 5. Thereby, if the contour map of each communication satellite 5 is taken into consideration, it becomes possible to select a communication satellite that can perform optimal communication according to the current position of the ship 2. The navigation information processing unit 25 performs an optimal communication satellite selection process. The contour map storage unit 24b may store a known communication satellite contour map provided by a satellite operator.
地図合成部24cは,地図記憶部24aから地図のデータを読み出すとともに,コンターマップ記憶部24bからコンターマップのデータを読み出して,両者を重ね合わせる合成処理を行う。地図合成部24は,地図とコンターマップの緯度,経度,及び縮尺が一致するようにして,地図とコンターマップを合成する。これにより,地図上に,通信衛星との間で送受信される電波の電界強度の等高線図が示されるようになる。地図合成部24cにより生成された合成地図は,記憶部(図示省略)に一時記憶される。
The map composition unit 24c reads the map data from the map storage unit 24a, reads the contour map data from the contour map storage unit 24b, and performs a composition process for superimposing the two. The map synthesis unit 24 synthesizes the map and the contour map so that the latitude, longitude, and scale of the map and the contour map match. As a result, a contour map of the electric field strength of radio waves transmitted and received with the communication satellite is shown on the map. The composite map generated by the map composition unit 24c is temporarily stored in a storage unit (not shown).
図2に示されるように,位置情報検出部23によって検出された自船情報は,自船情報発信部21及び航行情報処理25に伝達される。また,他船情報受信部が受信した他船情報は,航行情報処理25に伝達される。さらに,地図情報発生部24の地図合成部24cにより生成された合成地図のデータは,航行情報処理25に伝達される。このように,航行情報処理部25は,位置情報検出部23から自船情報を取得し,他船情報受信部22から他船情報を取得し,海図情報発生24から合成地図のデータを取得する。情報の送信受信は,船内LANによって行われる。
As shown in FIG. 2, the own ship information detected by the position information detecting unit 23 is transmitted to the own ship information transmitting unit 21 and the navigation information processing 25. Further, the other ship information received by the other ship information receiving unit is transmitted to the navigation information processing 25. Furthermore, the composite map data generated by the map composition unit 24 c of the map information generation unit 24 is transmitted to the navigation information processing 25. Thus, the navigation information processing unit 25 acquires own ship information from the position information detection unit 23, acquires other ship information from the other ship information reception unit 22, and acquires composite map data from the nautical chart information generation 24. . Information is transmitted and received by the inboard LAN.
航行情報処理部25は,例えば公知のCPUを有する。この航行情報処理部25によって,自船及び他船の航行状況が生成される。また,航行情報処理部25によって,海図情報発生24により生成された合成地図のデータが,表示可能な形式に変換される。そして,航行情報処理部25は,合成地図を,表示部26に表示することができる。表示部26は,例えばLCD(Liquid
Crystal Display;液晶ディスプレイ)やOELD(Organic Electro Luminescence Display;有機ELディスプレイ)のようなハードウェアにより実現できる。 The navigationinformation processing unit 25 has, for example, a known CPU. The navigation information processing unit 25 generates the navigation status of the ship and other ships. The navigation information processing unit 25 converts the composite map data generated by the chart information generation 24 into a displayable format. The navigation information processing unit 25 can display the composite map on the display unit 26. The display unit 26 is, for example, an LCD (Liquid
It can be realized by hardware such as a crystal display (LCD) or OELD (Organic Electro Luminescence Display).
Crystal Display;液晶ディスプレイ)やOELD(Organic Electro Luminescence Display;有機ELディスプレイ)のようなハードウェアにより実現できる。 The navigation
It can be realized by hardware such as a crystal display (LCD) or OELD (Organic Electro Luminescence Display).
航行情報処理部25は,表示部26に合成地図を表示する際,位置情報検出部23によって検出された自船の現在位置の情報に基づいて,合成地図上に,自船の現在位置を表示する。自船の現在位置は,例えばアイコンで示すものであてもよいし,アイコンを点滅させて表示するものであってもよいし,アイコンの枠で囲って目立つように表示するものであってもよい。
When the navigation information processing unit 25 displays the composite map on the display unit 26, the navigation information processing unit 25 displays the current position of the ship on the composite map based on the information on the current position of the ship detected by the position information detection unit 23. To do. For example, the current position of the ship may be indicated by an icon, may be displayed by blinking the icon, or may be displayed prominently surrounded by an icon frame. .
また,航行情報処理部25は,合成地図上に自船の現在位置を表示する際,位置情報検出部23によって検出された自船の船首方位の情報に基づいて,表示部26に自船の船首方位を表示することが好ましい。自船の船首方位は,例えば,自船アイコンの向きによって表示するものであってもよいし,矢印によって表示するものであってもよい。
The navigation information processing unit 25 displays the current position of the ship on the composite map based on the information on the heading of the ship detected by the position information detection unit 23 on the display unit 26. It is preferable to display the heading. For example, the heading of the ship may be displayed by the direction of the ship icon, or may be displayed by an arrow.
さらに,航行情報処理部25は,合成地図上に自船の現在位置を表示する際,位置情報検出部23のルート検出部23bによって検出された過去の航行ルートを,表示部26に表示することが好ましい。また,航行情報処理部25は,自船の将来の航行ルートを,表示部26に表示することも可能である。自船の過去の航行ルートは,例えば,自船が過去に通過したポイントを線で繋ぐことにより表示することができる。
Further, the navigation information processing unit 25 displays the past navigation route detected by the route detection unit 23b of the position information detection unit 23 on the display unit 26 when displaying the current position of the ship on the composite map. Is preferred. The navigation information processing unit 25 can also display the future navigation route of the ship on the display unit 26. The ship's past navigation route can be displayed, for example, by connecting points that the ship has passed in the past with a line.
図3及び図4は,表示部26に表示された合成地図の一例を示している。
図3は,地図上に,通信衛星の送信EIRP(実効等方放射電力)のコンターマップを重ね合わせた合成地図の例を示している。また,図4は,地図上に,通信衛星の受信G/T(利得対雑音温度比)のコンターマップを重ね合わせた合成地図の例を示している。 3 and 4 show an example of the composite map displayed on thedisplay unit 26. FIG.
FIG. 3 shows an example of a composite map in which a contour map of transmission EIRP (effective isotropic radiated power) of a communication satellite is superimposed on the map. FIG. 4 shows an example of a composite map in which a contour map of the received G / T (gain to noise temperature ratio) of the communication satellite is superimposed on the map.
図3は,地図上に,通信衛星の送信EIRP(実効等方放射電力)のコンターマップを重ね合わせた合成地図の例を示している。また,図4は,地図上に,通信衛星の受信G/T(利得対雑音温度比)のコンターマップを重ね合わせた合成地図の例を示している。 3 and 4 show an example of the composite map displayed on the
FIG. 3 shows an example of a composite map in which a contour map of transmission EIRP (effective isotropic radiated power) of a communication satellite is superimposed on the map. FIG. 4 shows an example of a composite map in which a contour map of the received G / T (gain to noise temperature ratio) of the communication satellite is superimposed on the map.
図3及び図4に示されるように,合成地図上には,船舶2の現在位置Pが表示される。このため,船舶の乗組員は,表示部26に表示された合成地図を目視することにより,自船の現在位置が,通信衛星との間で送受信される電波を適切に送受信可能な領域にあるかどうかを容易に判断できる。すなわち,船舶の乗組員は,コンターマップを確認することにより,自船の現在位置が,通信衛星から発信される電波の受信レベルが低い位置にある場合,又は通信衛星からの電波を受信できない位置にある場合に,地上局装置と無線通信を行えない原因が,単に通信衛星からの電波を船舶が受信できないだけであると理解する。このため,乗組員が船舶に搭載された受信アンテナや受信機器の故障であると誤解する事態を回避できる。同様に、通信衛星へ到達する電波の受信レベルが低い位置にある場合,又は通信衛星が船舶からの電波を受信できない位置にある場合に,船舶局装置と無線通信を行えない原因が,単に船舶からの電波を通信衛星が受信できないだけであると理解する。このため,乗組員が船舶に搭載された送信アンテナや送信機器の故障であると誤解する事態を回避できる。
3 and 4, the current position P of the ship 2 is displayed on the composite map. For this reason, the ship's crew looks at the composite map displayed on the display unit 26 so that the current position of the ship is in an area where radio waves transmitted to and received from the communication satellite can be appropriately transmitted and received. It can be easily determined whether or not. In other words, the ship's crew confirms the contour map so that the ship's current position is at a position where the reception level of radio waves transmitted from the communication satellite is low, or where the radio wave from the communication satellite cannot be received. Understand that the cause of the inability to communicate with the ground station is simply that the ship cannot receive radio waves from the communication satellite. For this reason, it is possible to avoid a situation in which a crew member misunderstands that the receiving antenna or receiving device mounted on the ship is faulty. Similarly, when the reception level of radio waves reaching the communication satellite is at a low position, or when the communication satellite is at a position where the radio wave from the ship cannot be received, the cause of the inability to perform wireless communication with the ship station apparatus is simply the ship. Understand that the communication satellite cannot only receive radio waves from For this reason, it is possible to avoid a situation in which a crew member misunderstands that the transmission antenna or the transmission device mounted on the ship is defective.
また,図3及び図4に示されるように,合成地図上には,船舶2が,航行発進地点Sから現在地点Pまでに通過したポイントが,航行ルートRとして表示されている。このため,船舶の乗組員は,表示部26を目視することにより,自船の航行ルートRを瞬時に確認できるようになる。
Further, as shown in FIGS. 3 and 4, on the composite map, a point where the ship 2 passes from the navigation start point S to the current point P is displayed as a navigation route R. For this reason, the crew of a ship can confirm the navigation route R of own ship instantaneously by visually observing the display part 26. FIG.
また,本発明のナビゲーション装置20において,船舶2の航行状況が危険を表示している場合には危険信号が警報装置27に供給される。例えば,航行情報処理部25は,コンターマップに示された電波の送受信性能の数値と,自船の現在位置の情報を確認する。そして,航行情報処理部25は,コンターマップ上において,通信衛星との間で送受信される電波の送受信性能が所定値以下を示す領域内に,自船が位置していると判断した場合に,警報装置27に対し危険信号を供給する。なお,危険信号を発生させる送受信性能の所定値は,任意に定めることができる。警報装置27は,ディスプレイ27a及びスピーカ27bの両方又はいずれか一方を含む。このため,警報装置27は,航行情報処理部25から危険信号が供給されたときに,アラートを画像としてディスプレイ27aに表示するか,アラートをスピーカ27bから音として放音することができる。
In the navigation device 20 of the present invention, a danger signal is supplied to the alarm device 27 when the navigation status of the ship 2 displays danger. For example, the navigation information processing unit 25 confirms the numerical value of the radio wave transmission / reception performance indicated in the contour map and the current position information of the ship. When the navigation information processing unit 25 determines that the ship is located in a region where the transmission / reception performance of radio waves transmitted / received to / from the communication satellite is below a predetermined value on the contour map, A danger signal is supplied to the alarm device 27. The predetermined value of the transmission / reception performance that generates the danger signal can be arbitrarily determined. The alarm device 27 includes a display 27a and / or a speaker 27b. For this reason, when the danger signal is supplied from the navigation information processing unit 25, the alarm device 27 can display the alert as an image on the display 27a or emit the alert as a sound from the speaker 27b.
また,本発明の航行情報処理部25は,位置情報検出部23によって検出した船舶2の現在位置と,コンターマップ記憶部24bに記憶されている複数の通信衛星5それぞれのコンターマップを照合して,自船と最も良好な通信を行うことができる一の通信衛星5を自動的に選定するローミング機能を持つこととしても良い。すなわち,航行情報処理部25は、自船が複数の通信衛星5やトランスポンダを利用出来る範囲に位置する場合には、自動的に最適なコンターを有する通信衛星5やトランスポンダとの通信に切替えることができる。
The navigation information processing unit 25 of the present invention collates the current position of the ship 2 detected by the position information detection unit 23 with the contour maps of the plurality of communication satellites 5 stored in the contour map storage unit 24b. , It may have a roaming function for automatically selecting one communication satellite 5 that can perform the best communication with the ship. That is, the navigation information processing unit 25 can automatically switch to communication with the communication satellite 5 or transponder having the optimum contour when the ship is located in a range where a plurality of communication satellites 5 or transponders can be used. it can.
また,本発明のナビゲーション装置20において,航行情報処理部25は,自船情報及び他船情報に基づいて,自船が他船に衝突する可能性がある際に,警報装置27に対して,危険信号を供給することもできる。危険信号を受信した警報装置27は,音声又は画像によって,船舶の乗組員に対し警報を発する。このような場合,操船者は,表示部26に表示された航行状況を目視によって観察して避航行動を決定し,手動によって操船装置38を操作する。
In the navigation device 20 of the present invention, the navigation information processing unit 25 notifies the warning device 27 when the own ship may collide with another ship based on the own ship information and the other ship information. A danger signal can also be supplied. The warning device 27 that has received the danger signal issues a warning to the crew of the ship by sound or image. In such a case, the marine vessel operator visually observes the navigation status displayed on the display unit 26 to determine the avoidance behavior, and manually operates the marine vessel maneuvering device 38.
操船装置28は,例えば操船コントローラ28aと,コンソール28bを有する。操船コントローラ28aは,通常船内LANを経由して自船情報及び他船情報を受け入れ,自船が常に設定航路に沿って航行するように制御するように機能する。操船コントローラ28aは,例えば,船舶のスクリュープロペラの回転数を変化させて速度を変化させ,設定航路と自船の現在位置との間の距離偏差及び設定航路と自船の現在の船首方位との間の方位偏差とを検出し,この偏差がゼロとなるように操舵を制御するフィードバック・コントロールを行う。ただし,緊急の場合には,操船コントローラ28aは,操船者からの手動の操船信号を受け入れ,それによって船舶は操船される。避航行動が決定されると,コンソール28bによって設定航路の変更及び設定速力の変更が発信される。
The marine vessel maneuvering device 28 includes, for example, a marine vessel maneuvering controller 28a and a console 28b. The marine vessel maneuvering controller 28a functions to receive own ship information and other ship information via a normal inboard LAN and to control the own ship to always navigate along the set route. For example, the ship maneuvering controller 28a changes the speed by changing the number of rotations of the screw propeller of the ship, and determines the distance deviation between the set route and the current position of the ship and the set route and the current heading of the ship. The azimuth deviation is detected and feedback control is performed to control the steering so that this deviation becomes zero. However, in the case of an emergency, the boat maneuvering controller 28a accepts a manual boat maneuvering signal from the marine vessel operator, thereby maneuvering the vessel. When the avoidance action is determined, a change in the set route and a change in the set speed are transmitted by the console 28b.
以上,本願明細書では,本発明の内容を表現するために,図面を参照しながら発明の好ましい実施形態を例にあげて説明を行った。ただし,本発明は,上記実施形態に限定されるものではなく,本願明細書に記載された事項に基づいて当業者が自明な変更形態や改良形態を包含するものである。
As described above, in the present specification, in order to express the contents of the present invention, the preferred embodiments of the invention have been described by way of example with reference to the drawings. However, the present invention is not limited to the above-described embodiments, but includes modifications and improvements obvious to those skilled in the art based on the matters described in the present specification.
本発明は,船舶などの移動体に搭載されるナビゲーション装置に関するものである。このため,本発明は,装置の製造産業だけでなく,物流産業や漁業産業においても好適に利用することができる。
The present invention relates to a navigation device mounted on a moving body such as a ship. Therefore, the present invention can be suitably used not only in the device manufacturing industry but also in the logistics industry and the fishery industry.
1 地上局
2 船舶
3 GPS衛星
4 GPSディファレンシャル基準局
5 通信衛星
10 海域情報処理装置
11 通信アンテナ
12 VHF放送アンテナ
13 船舶情報処理部
14 船舶情報受信部
15 船舶情報発信部
20 ナビゲーション装置
21 自船情報発信部
22 他船情報受信部
23 位置情報検出部
23a 計測部
23b ルート検出部
23c 記憶部
24 地図情報発生部
24a 地図記憶部
24b コンターマップ記憶部
24c 地図合成部
25 船舶情報処理部
26 表示部
27 警報装置
28 操船装置
100 航行支援システム
A GPSネットワーク
B 移動体通信ネットワーク
C VHF放送ネットワーク DESCRIPTION OFSYMBOLS 1 Ground station 2 Ship 3 GPS satellite 4 GPS differential reference station 5 Communication satellite 10 Sea area information processing apparatus 11 Communication antenna 12 VHF broadcast antenna 13 Ship information processing section 14 Ship information receiving section 15 Ship information transmitting section 20 Navigation apparatus 21 Sending own ship information Unit 22 Other ship information receiving unit 23 Position information detecting unit 23a Measuring unit 23b Route detecting unit 23c Storage unit 24 Map information generating unit 24a Map storage unit 24b Contour map storage unit 24c Map composition unit 25 Ship information processing unit 26 Display unit 27 Alarm Device 28 Maneuvering device 100 Navigation support system
A GPS network B Mobile communication network C VHF broadcast network
2 船舶
3 GPS衛星
4 GPSディファレンシャル基準局
5 通信衛星
10 海域情報処理装置
11 通信アンテナ
12 VHF放送アンテナ
13 船舶情報処理部
14 船舶情報受信部
15 船舶情報発信部
20 ナビゲーション装置
21 自船情報発信部
22 他船情報受信部
23 位置情報検出部
23a 計測部
23b ルート検出部
23c 記憶部
24 地図情報発生部
24a 地図記憶部
24b コンターマップ記憶部
24c 地図合成部
25 船舶情報処理部
26 表示部
27 警報装置
28 操船装置
100 航行支援システム
A GPSネットワーク
B 移動体通信ネットワーク
C VHF放送ネットワーク DESCRIPTION OF
A GPS network B Mobile communication network C VHF broadcast network
Claims (6)
- 移動体に搭載されるナビゲーション装置であって,
地図のデータを記憶した地図記憶部と,
通信衛星との間で送受信される電波の送受信性能に関するコンターマップのデータを記憶したコンターマップ記憶部と,
前記地図記憶部及び前記コンターマップ記憶部から前記地図のデータ及びコンターマップのデータを読み出し,前記地図と前記コンターマップを重ね合わせた合成地図を生成する地図合成部と,
前記移動体の現在位置の情報を検出可能な位置情報検出部と,
前記地図合成部が生成した前記合成地図上に,前記位置情報検出部が検出した前記移動体の現在位置を表示する表示部と,を備える
ナビゲーション装置。 A navigation device mounted on a mobile body,
A map storage unit storing map data;
A contour map storage unit for storing contour map data relating to transmission / reception performance of radio waves transmitted / received to / from a communication satellite;
A map synthesis unit that reads out the map data and the contour map data from the map storage unit and the contour map storage unit, and generates a composite map in which the map and the contour map are superimposed;
A position information detection unit capable of detecting information on a current position of the mobile body;
A navigation device comprising: a display unit configured to display a current position of the moving body detected by the position information detection unit on the synthetic map generated by the map synthesis unit. - 前記コンターマップには,通信衛星の送信EIRP(実効等方放射電力),及び通信衛星の受信G/T(利得対雑音温度比)のコンターマップが含まれる
請求項1に記載のナビゲーション装置。 The navigation device according to claim 1, wherein the contour map includes a contour map of transmission EIRP (effective isotropic radiated power) of a communication satellite and reception G / T (gain to noise temperature ratio) of the communication satellite. - 前記位置情報検出部により検出された位置情報を蓄積して記憶する記憶部と,
前記記憶部に記憶されている位置情報に基づいて,前記移動体が移動したルートを検出するルート検出部と,をさらに備え,
前記表示部は,前記合成地図上に,前記ルート検出部により検出された前記ルートを表示する
請求項2に記載のナビゲーション装置。 A storage unit for accumulating and storing the position information detected by the position information detection unit;
A route detection unit for detecting a route traveled by the mobile body based on the position information stored in the storage unit;
The navigation device according to claim 2, wherein the display unit displays the route detected by the route detection unit on the composite map. - 前記移動体は,船舶であり,
前記地図には,海図が含まれる
請求項3に記載のナビゲーション装置。 The moving body is a ship;
The navigation device according to claim 3, wherein the map includes a nautical chart. - 陸上の地上局が備える海域情報処理装置に対し,上空の通信衛星を介して,前記位置情報検出部が検出した前記現在位置の情報を発信する発信部を,さらに備える
請求項4に記載のナビゲーション装置。 The navigation according to claim 4, further comprising: a transmission unit that transmits information on the current position detected by the position information detection unit to a marine information processing apparatus included in a land station on land via an over-the-air communication satellite. apparatus. - 前記コンターマップ及び前記移動体の現在位置の情報に基づき,前記コンターマップにおいて,前記通信衛星との間で送受信される電波の送受信性能が所定値以下を示す領域に,前記移動体の現在位置があると判断した場合に,アラートを表示又は放音する警報装置を,さらに備えると共に、最適コンターマップを有する通信衛星やトランスポンダに自動的にローミングを行う船舶情報処理部を有する
請求項5に記載のナビゲーション装置。 Based on the contour map and information on the current position of the mobile body, the current position of the mobile body is in an area where the transmission / reception performance of radio waves transmitted to and received from the communication satellite is less than a predetermined value in the contour map. 6. The ship information processing unit according to claim 5, further comprising an alarm device that displays or emits an alert when it is determined to be present, and further includes a ship information processing unit that automatically roams to a communication satellite or transponder having an optimal contour map. Navigation device.
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PCT/JP2012/069422 WO2014020688A1 (en) | 2012-07-31 | 2012-07-31 | Navigation device |
PCT/JP2013/057183 WO2014020932A1 (en) | 2012-07-31 | 2013-03-14 | Navigation device |
JP2013527194A JP5369268B1 (en) | 2012-07-31 | 2013-03-14 | Navigation device |
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US11848746B1 (en) * | 2022-01-11 | 2023-12-19 | Amazon Technologies, Inc. | System for user terminal entry to satellite network entry |
Also Published As
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WO2014020932A1 (en) | 2014-02-06 |
JP5758053B2 (en) | 2015-08-05 |
JPWO2014020688A1 (en) | 2016-07-11 |
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