CN111935643A - Beidou ship shore information exchange system and method - Google Patents

Abstract

The invention discloses a Beidou ship-shore information exchange system and a method, wherein a Beidou ship-mounted terminal is arranged in a ship, then a Beidou commander and an industrial personal computer are arranged in a shore base, first short message information edited by a user is received through the Beidou ship-mounted terminal and is sent to the Beidou system, then the first short message information sent by the Beidou system is received through the Beidou commander and is sent to the industrial personal computer for storage, then the industrial personal computer analyzes the first short message information to obtain a corresponding ship transmission instruction, and the first short message information is sent to a network terminal according to the ship transmission instruction; thus, the short message information of the ship is sent to the network terminal; by the arrangement, ship and shore information exchange can be normally carried out in an area without the network coverage of the operator.

Description

Beidou ship shore information exchange system and method

Technical Field

The invention relates to the field of ship shore information exchange, in particular to a Beidou ship shore information exchange system and method.

Background

The Chinese Beidou satellite navigation system is a national significant space and informatization infrastructure. Since 2012, the beidou system formally provides regional services to the outside, the beidou system is applied in a large scale in a plurality of key fields and industries related to national civilization and national security.

The Beidou foundation enhancement system is put into operation in multiple places, so that the positioning accuracy of a Beidou shipborne terminal is greatly improved, a continuous operation reference station network service provider matched with requirements is selected according to the positioning service requirements of navigation marks, ships and underwater surveying and mapping operation, and the problem that the positioning accuracy of the GPS technology in certain areas is insufficient is solved, such as the problem that the navigation mark positioning accuracy based on the GPS technology is insufficient in the area ranges of current channel bridge areas and the like. And the 2G \3G \4G wireless communication network of the operator has the situation of coverage blind areas in remote mountainous areas, coastal navigation channels and river-bound water area lamp scenes, at the moment, the information transmission can not be carried out through the network, if the ship enters a sea area without the network coverage of the operator sometimes in the sailing process, the information can not be sent to the shore or received from the shore through the network at the moment, if the ship is in the state of communication failure for a long time, the ship can not know the corresponding information in time, and therefore the sailing safety of the ship can be influenced.

Disclosure of Invention

The invention aims to provide a Beidou ship shore information exchange system and a Beidou ship shore information exchange method aiming at the defects of the prior art so as to achieve the purpose of exchanging ship shore information in an area without operator network coverage.

The technical scheme adopted by the invention is as follows: a big dipper bank information exchange system includes:

the Beidou shipborne terminal is used for being connected with the Beidou system;

the Beidou commander is used for being connected with the Beidou system;

the industrial personal computer is connected with the network terminal and used for controlling the Beidou commanding machine;

the industrial personal computer is respectively connected with the Beidou shipborne terminal and the Beidou commanding machine;

the Beidou shipborne terminal receives first short message information edited by a user and sends the first short message information to a Beidou system; the Beidou commanding machine receives the first short message information sent by the Beidou system and sends the first short message information to an industrial personal computer for storage; the industrial personal computer analyzes the first short message information to obtain a corresponding ship transmission instruction, and sends the first short message information to a network terminal according to the ship transmission instruction;

the industrial personal computer receives and stores second short message information sent by the network terminal, analyzes the second short message information to obtain a corresponding network transmission instruction, and sends the second short message information to the Beidou commanding machine according to the network transmission instruction; the Beidou commanding machine receives second short message information sent by the industrial personal computer and sends the second short message information to the Beidou system; and the Beidou shipborne terminal receives the second short message information sent by the Beidou system.

Further, still include:

the short message gateway is used for improving the sending rate of the short message information of the industrial personal computer;

the short message gateway is connected with the industrial personal computer.

Further, the ship transmission instruction comprises a ship communication instruction and a ship information format query instruction;

the industrial computer includes:

the ship information transmission module is used for transmitting the first short message information to the network terminal according to the ship communication instruction;

and the ship information query module is used for sending the ship information format to the Beidou shipborne terminal according to the ship format query instruction.

Further: the network transmission instruction comprises a network communication instruction and a network information format query instruction;

the industrial computer includes:

the network information transmission module is used for sending the short message information to the Beidou system according to the network communication instruction;

and the network information query instruction is used for sending the network information format to the network terminal according to the network information format query instruction.

Further, the ship information transmission module includes:

the ship information transmission unit is used for sending the first short message information to the network terminal in a short message mode according to the ship communication instruction;

the ship mail delivery unit is used for sending the first short message information to the network terminal in a mail mode according to the ship communication instruction;

and the ship data transmission unit is used for sending the first short message information to the network terminal in a Beidou small data transmission channel mode according to the ship communication instruction.

Further, the network information delivery module comprises;

the network information transmission unit is used for sending the second short message information to the Beidou system according to the network communication instruction;

the network mail transmission unit is used for sending the second short message information to the Beidou system in a mail mode according to the network communication instruction;

and the network data transmission unit is used for sending the second short message information to the Beidou system in a Beidou small data transmission channel mode according to the network communication instruction.

A Beidou ship shore information exchange method comprises the following steps:

the Beidou shipborne terminal receives first short message information edited by a user and sends the first short message information to a Beidou system;

the Beidou commanding machine receives the first short message information sent by the Beidou system and sends the first short message information to the industrial personal computer for storage;

and the industrial personal computer analyzes the first short message information to obtain a corresponding ship transmission instruction, and sends the first short message information to a network terminal according to the ship transmission instruction.

Further, the ship transmission instruction comprises a ship communication instruction and a ship information format query instruction;

the sending the first short message information to a network terminal according to the ship transmission instruction comprises:

sending the first short message information to a network terminal according to a ship communication instruction;

sending the ship information format to the Beidou shipborne terminal according to the ship format query instruction

Further, the method also comprises the following steps:

the industrial personal computer receives and stores second short message information sent by the network terminal, analyzes the second short message information to obtain a corresponding network transmission instruction, and sends the second short message information to the Beidou commanding machine according to the network transmission instruction;

the Beidou commanding machine receives second short message information sent by the industrial personal computer and sends the second short message information to the Beidou system;

and the Beidou shipborne terminal receives the second short message information sent by the Beidou system.

Further, the network transmission instruction comprises a network communication instruction and a network information format query instruction;

the sending of the second short message information to the Beidou commanding machine according to the network transmission instruction comprises the following steps:

sending the short message information to a Beidou system according to the network communication instruction;

and sending the network information format to the network terminal according to the network information format query instruction.

The invention has the beneficial effects that: according to the invention, a Beidou shipborne terminal is arranged in a ship, then a Beidou commander and an industrial personal computer are arranged in a shore base, first short message information edited by a user is received through the Beidou shipborne terminal and sent to a Beidou system, then the first short message information sent by the Beidou system is received through the Beidou commander and sent to the industrial personal computer for storage, then the industrial personal computer analyzes the first short message information to obtain a corresponding ship transmission instruction, and the first short message information is sent to a network terminal according to the ship transmission instruction; thus, the short message information of the ship is sent to the network terminal; meanwhile, second short message information sent by a network terminal can be received and stored through the industrial personal computer, the second short message information is analyzed to obtain a corresponding network transmission instruction, and the second short message information is sent to the Beidou commanding machine according to the network transmission instruction; then, second short message information sent by the industrial personal computer is received through the Beidou commander, and the second short message information is sent to the Beidou system; finally, the Beidou shipborne terminal receives the second short message information sent by the Beidou system, so that the network terminal sends the short message information to a ship; by the arrangement, ship and shore information exchange can be normally carried out in an area without operator network coverage; according to the invention, a Beidou short message transmission mode is adopted, the limited length of a Beidou communication message is fully utilized, and the transmission of information such as channel position data, hydrological data and state data is realized, the Beidou short message communication function can provide a new means for channel management, so that a Beidou system can gradually replace a GPS in the inland river field, and finally autonomous control is realized; in addition, the invention can be easily expanded into a water-bank information exchange system, and can be applied to water-borne objects or scenes such as water bridges, islands, piles, buoys, pontoons, floating platforms, unmanned ships and the like.

Drawings

Fig. 1 is a schematic connection diagram of each device of a Beidou ship shore information exchange system provided by the invention;

FIG. 2 is a block diagram of the Beidou ship shore information exchange system provided by the invention;

fig. 3 is a schematic flow diagram of the beidou ship shore information exchange method provided by the invention.

Detailed Description

The invention is further illustrated by the following examples in connection with the accompanying drawings.

As shown in fig. 1 and 2, the invention provides a beidou ship shore information exchange system, which comprises:

the Beidou shipborne terminal 10 is used for being connected with the Beidou system 80;

the Beidou commander 20 is used for being connected with the Beidou system 80;

the industrial personal computer 30 is used for being connected with the network terminal 40 and controlling the Beidou navigation system;

the Beidou commander 30 is respectively connected with the Beidou shipborne terminal 10 and the Beidou commander 20.

Specifically, the Beidou shipborne terminal 10 is arranged at a ship, the Beidou commander 20 and the industrial personal computer 30 are arranged in a shore base, and the network terminal is a new medium such as a mobile phone short message, an electronic mail or a WeChat; the Beidou shipborne terminal 10 receives first short message information edited by a user and sends the first short message information to a Beidou system; then, the first short message information sent by the Beidou system is received through a Beidou commander 20 and sent to an industrial personal computer 30 for storage; then, the industrial personal computer 30 analyzes the first short message information to obtain a corresponding ship transmission instruction, and sends the first short message information to a network terminal according to the ship transmission instruction, so that the short message information of the ship is sent to the network terminal; meanwhile, second short message information sent by a network terminal can be received and stored through the industrial personal computer 30, the second short message information is analyzed to obtain a corresponding network transmission instruction, and the second short message information is sent to the Beidou commanding machine 20 according to the network transmission instruction; then the Beidou commander 20 receives second short message information sent by the industrial personal computer 30 and sends the second short message information to the Beidou system; then the Beidou shipborne terminal 10 receives the second short message information sent by the Beidou system, so that the network terminal sends the short message information to a ship; through the arrangement, ship-shore information exchange can be normally carried out in an area without operator network coverage, so that ships can normally communicate with personnel on the shore.

The Beidou commanding machine is a Beidou first-generation ground application commanding terminal and comprises an antenna and a host. The Beidou satellite tracking system has the advantages of omnidirectional high-sensitivity signal capturing capability, stable and high-efficiency signal transmitting capability and can be used for tracking and processing a plurality of Beidou satellite beam signals in real time. The system has the functions of monitoring, commanding and scheduling, can plot and monitor positioning and navigation information on a digital map in real time, supports the functions of historical information query, maintenance, export and the like, can realize the functions of commanding and scheduling and multi-level grouping networking of 200 subordinate users, and provides real-effect and intuitive monitoring information for a commanding department. The commanding and dispatching of about 4000 terminals are estimated, the Beidou commanding machine is the key of the whole platform, the management capability and the distribution capability of the commanding machine are the bottleneck of the whole system, and the comprehensive capability of the system can be improved in multiples by well constructing the key position of the system. The Beidou commander is mainly used for receiving and forwarding Beidou short messages and mails.

The Beidou commander and the Beidou commander form a broadcasting platform, and the broadcasting platform is the core part of the invention and controls the safety information broadcasting content, the broadcasting mechanism, the broadcasting mode and the working flow of the whole system. The Beidou commander is a tool connected with a shipborne Beidou shipborne terminal, a Beidou 4.0 protocol is arranged in the Beidou commander, information can be sent to subordinate users in a group at one time through the affiliation relation of broadcast numbers, and only one communication frequency is occupied by one broadcast at one time; meanwhile, the Beidou commander can also realize point-to-point information receiving and transmitting among the independent users according to the user address. The system communication history can be clearly seen by reading various data generated by the system stored in the internal database of the industrial personal computer. The industrial personal computer is provided with safety information broadcasting platform operation software, and is a tool and means for workers to access the database and control the commander. The system broadcasts information to the ship-borne terminal of the Beidou according to a north sea navigation support center protocol, a Beidou 4.0 resolution protocol and a database interface protocol which are designed in a broadcasting platform, and replies a request of a user.

Further, big dipper bank information exchange system still includes:

the short message gateway is used for improving the short message information sending rate of the industrial personal computer 30;

the short message gateway 50 is connected with the industrial personal computer 30.

Specifically, the system broadcasting capacity is improved, and meanwhile, the short message forwarding speed between ships and the shore is improved by expanding the capacity of a short message gateway (short message cat) and utilizing equipment of the short message gateway.

Further, the ship transmission instruction comprises a ship communication instruction and a ship information format query instruction;

the industrial personal computer 30 includes:

the ship information transmission module is used for transmitting the first short message information to the network terminal according to the ship communication instruction;

and the ship information query module is used for sending the ship information format to the Beidou shipborne terminal according to the ship format query instruction.

Specifically, the short message information sent by the Beidou shipborne terminal to the industrial personal computer has two effects, one is used for information transmission, namely the short message information is sent to the network terminal through the telecommunication base station 90 through the industrial personal computer, according to the using habit of a user, a flexible and convenient short message sending format is adopted, if the Beidou shipborne terminal wants to send the short message to the network terminal, the information can be edited according to a certain format and sent to the Beidou commanding machine, if: the Beidou short message 'target mobile phone number + space + content' can be edited according to the format and sent to a Beidou commander number, then the industrial control machine can analyze the short message information, and after the information conforms to the format, a ship information transmission module is obtained, so that the short message information is sent to a network terminal; and another kind belongs to boats and ships personnel inquiry information format, when boats and ships personnel forget the information sending format, accessible big dipper shipborne terminal sends inquiry command to the industrial computer, if? At the moment, the industrial control machine analyzes the short message to obtain a ship information query module, so that an information format is sent back to the Beidou ship-borne terminal, and if the information format can be set to be 'target mobile phone number + space + content', ship personnel can obtain a corresponding information format, and short message information can be edited correspondingly.

Further: the network transmission instruction comprises a network communication instruction and a network information format query instruction;

the industrial personal computer 30 includes:

the network information transmission module is used for sending the short message information to the Beidou system according to the network communication instruction;

and the network information query instruction is used for sending the network information format to the network terminal according to the network information format query instruction.

Specifically, the short message information sent by the network terminal to the industrial personal computer has two effects, one is used for information transmission, namely the short message information is sent to the Beidou shipborne terminal through the industrial personal computer, according to the using habit of a user, a flexible and convenient short message sending format is adopted, if the network terminal (personnel on shore) wants to send the short message to the Beidou shipborne terminal, the information can be edited according to a certain format and sent to the industrial personal computer, and if: the mobile phone short message 'target Beidou terminal number + space + content' can be edited according to the format and sent to the industrial personal computer, then the industrial personal computer can analyze the short message information, and after the information conforms to the format, a network information transmission module is obtained according to the analysis, so that the short message information is sent to the Beidou shipborne terminal; and the other belongs to a mobile phone user information query format, when a shore person forgets an information sending format, or a user who logs in the system for the first time or is not familiar with the system short message sending format can send a query instruction to an industrial personal computer through a network terminal, for example, "? At this moment, the industrial control machine analyzes the short message to obtain a network information query instruction, and then sends an information format back to the network terminal, if the information format can be set to be 'target Beidou terminal number + space + content', so that onshore personnel can obtain a corresponding information format, and then can correspondingly edit the short message information.

Further, the ship information transmission module includes:

the ship information transmission unit is used for sending the first short message information to the network terminal in a short message mode according to the ship communication instruction;

the ship mail delivery unit is used for sending the first short message information to the network terminal in a mail mode according to the ship communication instruction;

and the ship data transmission unit is used for sending the first short message information to the network terminal in a Beidou small data transmission channel mode according to the ship communication instruction.

Specifically, the exchange of the first short message information in the invention can be realized in various ways, such as information communication in a mobile phone short message way; or in a mail mode, a registered user can realize mail forwarding by utilizing a network environment, and the mail is edited and processed by an industrial personal computer and then sent to a corresponding Beidou shipborne terminal in a short message form by sending information to a specified mailbox; or the Beidou small data transmission channel mode utilizes the short message function of Beidou to realize small data volume transmission service under the conditions that the data volume is small and no other effective data channel exists far from the coast. The capacity of one-time short message of the Beidou short message is at most 72 bytes, so that the sending service function of the data volume or a plurality of packets of data volume can be realized, and the requirements of general small-data-volume users are met.

Further, the network information delivery module comprises;

the network information transmission unit is used for sending the second short message information to the Beidou system according to the network communication instruction;

the network mail transmission unit is used for sending the second short message information to the Beidou system in a mail mode according to the network communication instruction;

and the network data transmission unit is used for sending the second short message information to the Beidou system in a Beidou small data transmission channel mode according to the network communication instruction.

Specifically, the exchange of the second short message information in the invention can be realized in various ways, such as information communication in a mobile phone short message way; or in a mail mode, a registered user can realize mail forwarding by utilizing a network environment, and the mail is edited and processed by an industrial personal computer and then sent to a corresponding Beidou shipborne terminal in a short message form by sending information to a specified mailbox; or the Beidou small data transmission channel mode utilizes the short message function of Beidou to realize small data volume transmission service under the conditions that the data volume is small and no other effective data channel exists far from the coast. The capacity of one-time short message of the Beidou short message is at most 72 bytes, so that the sending service function of the data volume or a plurality of packets of data volume can be realized, and the requirements of general small-data-volume users are met.

The invention can also be provided with a monitoring server 60 and a monitoring client 70, wherein the monitoring server 60 is connected between the monitoring client 70 and the industrial controller 30, dynamic monitoring in a predetermined area, such as navigation mark, water level, net height and the like, can be carried out through the monitoring client 70, and a service system, report form filling and the like can be checked through the monitoring client 70.

According to the invention, a Beidou shipborne terminal is arranged in a ship, then a Beidou commander and an industrial personal computer are arranged in a shore base, first short message information edited by a user is received through the Beidou shipborne terminal and sent to a Beidou system, then the first short message information sent by the Beidou system is received through the Beidou commander and sent to the industrial personal computer for storage, then the industrial personal computer analyzes the first short message information to obtain a corresponding ship transmission instruction, and the first short message information is sent to a network terminal according to the ship transmission instruction; thus, the short message information of the ship is sent to the network terminal; meanwhile, second short message information sent by a network terminal can be received and stored through the industrial personal computer, the second short message information is analyzed to obtain a corresponding network transmission instruction, and the second short message information is sent to the Beidou commanding machine according to the network transmission instruction; then, second short message information sent by the industrial personal computer is received through the Beidou commander, and the second short message information is sent to the Beidou system; finally, the Beidou shipborne terminal receives the second short message information sent by the Beidou system, so that the network terminal sends the short message information to a ship; by the arrangement, ship and shore information exchange can be normally carried out in an area without the network coverage of the operator.

In addition, the invention can also develop ubiquitous Internet of things layout construction around management activities of navigation channels, navigation beacons, water levels, ship locks, bridges, ships and the like, realize the comprehensive application of the Beidou high-precision positioning technology to navigation beacon remote measurement and control terminals, form a dynamic monitoring system for interconnection of channels, beacons, locks and ship objects, realize global integrated monitoring, realize an index visualization map for construction, maintenance, management, service, ecology and shipping, and obviously enhance the cross-region cooperative capacity of navigation channel operation monitoring, cross-region dynamic joint release of navigation channel element state information, cross-region joint scheduling of ship passing and the like.

According to the invention, the functions of accurate positioning, information communication and the like of a navigation mark, a water level station and a working ship in navigation channel management are realized by using the technical characteristics of a Beidou system, a short message communication technology and the like, namely, the Beidou short message transmission mode is adopted, the limited length of a Beidou communication message is fully utilized, and the transmission of information such as navigation channel position data, hydrological data, state data and the like is realized, the Beidou short message communication function can provide a new means for navigation channel management, so that the Beidou system can gradually replace a GPS in the inland river field, and finally autonomous control is realized; in addition, the invention can be easily expanded into a water-bank information exchange system, and can be applied to water-borne objects or scenes such as water bridges, islands, piles, buoys, pontoons, floating platforms, unmanned ships and the like.

All modules of the Beidou ship shore information exchange system can be completely or partially realized through software, hardware and combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

As shown in fig. 3, the invention also provides a beidou ship shore information exchange method, which comprises the following steps:

step 100, a Beidou shipborne terminal receives first short message information edited by a user and sends the first short message information to a Beidou system;

200, receiving the first short message information sent by the Beidou system by a Beidou commander, and sending the first short message information to an industrial personal computer for storage;

and 300, the industrial personal computer analyzes the first short message information to obtain a corresponding ship transmission instruction, and sends the first short message information to a network terminal according to the ship transmission instruction.

Further, the ship transmission instruction comprises a ship communication instruction and a ship information format query instruction;

the sending the first short message information to a network terminal according to the ship transmission instruction comprises:

sending the first short message information to a network terminal according to a ship communication instruction;

sending the ship information format to the Beidou shipborne terminal according to the ship format query instruction

Further, the method also comprises the following steps:

the industrial personal computer receives and stores second short message information sent by the network terminal, analyzes the second short message information to obtain a corresponding network transmission instruction, and sends the second short message information to the Beidou commanding machine according to the network transmission instruction;

the Beidou commanding machine receives second short message information sent by the industrial personal computer and sends the second short message information to the Beidou system;

and the Beidou shipborne terminal receives the second short message information sent by the Beidou system.

Further, the network transmission instruction comprises a network communication instruction and a network information format query instruction;

the sending of the second short message information to the Beidou commanding machine according to the network transmission instruction comprises the following steps:

sending the short message information to a Beidou system according to the network communication instruction;

and sending the network information format to the network terminal according to the network information format query instruction.

Specific limitations on the beidou ship shore information exchange method can be found in the above limitations on the beidou ship shore information exchange system, and are not described in detail herein. It should be understood that, although the steps in the flowchart of fig. 2 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least a portion of the steps in fig. 2 may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, and the order of performance of the sub-steps or stages is not necessarily sequential, but may be performed in turn or alternately with other steps or at least a portion of the sub-steps or stages of other steps.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above description is only a preferred embodiment of the present invention, the present invention is not limited to the above embodiment, and there may be some slight structural changes in the implementation, and if there are various changes or modifications to the present invention without departing from the spirit and scope of the present invention, and within the claims and equivalent technical scope of the present invention, the present invention is also intended to include those changes and modifications.

Claims (10)

1. The utility model provides a big dipper bank information exchange system which characterized in that includes:

the Beidou shipborne terminal is used for being connected with the Beidou system;

the Beidou commander is used for being connected with the Beidou system;

the industrial personal computer is connected with the network terminal and used for controlling the Beidou commanding machine;

the industrial personal computer is respectively connected with the Beidou shipborne terminal and the Beidou commanding machine;

the Beidou shipborne terminal receives first short message information edited by a user and sends the first short message information to a Beidou system; the Beidou commanding machine receives the first short message information sent by the Beidou system and sends the first short message information to an industrial personal computer for storage; the industrial personal computer analyzes the first short message information to obtain a corresponding ship transmission instruction, and sends the first short message information to a network terminal according to the ship transmission instruction;

the industrial personal computer receives and stores second short message information sent by the network terminal, analyzes the second short message information to obtain a corresponding network transmission instruction, and sends the second short message information to the Beidou commanding machine according to the network transmission instruction; the Beidou commanding machine receives second short message information sent by the industrial personal computer and sends the second short message information to the Beidou system; and the Beidou shipborne terminal receives the second short message information sent by the Beidou system.

2. The system of claim 1, further comprising:

the short message gateway is used for improving the sending rate of the short message information of the industrial personal computer;

the short message gateway is connected with the industrial personal computer.

3. The system of claim 1, wherein: the ship transmission instruction comprises a ship communication instruction and a ship information format query instruction;

the industrial computer includes:

the ship information transmission module is used for transmitting the first short message information to the network terminal according to the ship communication instruction;

and the ship information query module is used for sending the ship information format to the Beidou shipborne terminal according to the ship format query instruction.

4. The system of claim 1, wherein: the network transmission instruction comprises a network communication instruction and a network information format query instruction;

the industrial computer includes:

the network information transmission module is used for sending the short message information to the Beidou system according to the network communication instruction;

and the network information query instruction is used for sending the network information format to the network terminal according to the network information format query instruction.

5. The method of claim 3, wherein the ship information delivery module comprises:

the ship information transmission unit is used for sending the first short message information to the network terminal in a short message mode according to the ship communication instruction;

the ship mail delivery unit is used for sending the first short message information to the network terminal in a mail mode according to the ship communication instruction;

and the ship data transmission unit is used for sending the first short message information to the network terminal in a Beidou small data transmission channel mode according to the ship communication instruction.

6. The system of claim 4, wherein: the network information transmission module comprises;

the network information transmission unit is used for sending the second short message information to the Beidou system according to the network communication instruction;

the network mail transmission unit is used for sending the second short message information to the Beidou system in a mail mode according to the network communication instruction;

and the network data transmission unit is used for sending the second short message information to the Beidou system in a Beidou small data transmission channel mode according to the network communication instruction.

7. The Beidou ship shore information exchange method is characterized by comprising the following steps:

the Beidou shipborne terminal receives first short message information edited by a user and sends the first short message information to a Beidou system;

the Beidou commanding machine receives the first short message information sent by the Beidou system and sends the first short message information to the industrial personal computer for storage;

and the industrial personal computer analyzes the first short message information to obtain a corresponding ship transmission instruction, and sends the first short message information to a network terminal according to the ship transmission instruction.

8. The method of claim 7, wherein: the ship transmission instruction comprises a ship communication instruction and a ship information format query instruction;

the sending the first short message information to a network terminal according to the ship transmission instruction comprises:

sending the first short message information to a network terminal according to a ship communication instruction;

and sending the ship information format to the Beidou shipborne terminal according to the ship format query instruction.

9. The method of claim 7, further comprising the steps of:

the industrial personal computer receives and stores second short message information sent by the network terminal, analyzes the second short message information to obtain a corresponding network transmission instruction, and sends the second short message information to the Beidou commanding machine according to the network transmission instruction;

the Beidou commanding machine receives second short message information sent by the industrial personal computer and sends the second short message information to the Beidou system;

and the Beidou shipborne terminal receives the second short message information sent by the Beidou system.

10. The method of claim 9, wherein: the network transmission instruction comprises a network communication instruction and a network information format query instruction;

the sending of the second short message information to the Beidou commanding machine according to the network transmission instruction comprises the following steps:

sending the short message information to a Beidou system according to the network communication instruction;

and sending the network information format to the network terminal according to the network information format query instruction.

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