CN115987431A - Communication management method and system based on ship PAGA system - Google Patents

Abstract

The invention discloses a communication management method and a system based on a PAGA system for a ship, which are applied to the technical field of communication management, and the method comprises the following steps: and acquiring first communication signal information through acquisition to obtain a signal analysis result. And acquiring an interactive signal receiving end set according to the signal analysis result, and carrying out communication channel fitting. And detecting the real-time communication data of the channel based on the fitting result to obtain the real-time communication data of the channel. And inputting the first communication signal information and the real-time channel communication data into a communication regulation model and outputting a channel regulation signal. And screening the channel adjustment signals through the expected fitting effect identification and the channel identification to obtain a channel adjustment signal screening result. And respectively sending the channel adjustment signal screening results to corresponding interactive signal receiving end sets through the signal transmitting ends. The technical problems that the communication signal transmission quality is low and the communication is interrupted due to the fact that the intelligent degree of a communication management mode of a PAGA system for the ship in the prior art is low are solved.

Description

Communication management method and system based on ship PAGA system

Technical Field

The invention relates to the field of communication management, in particular to a communication management method and system based on a ship PAGA system.

Background

The PAGA system for ship, i.e. broadcasting and general alarm system, is the indispensable communication system in ship and offshore oil drilling platform at present. However, in the prior art, the communication management method of the PAGA system for a ship is less intelligent, and when the channel occupancy rate is high and the environmental factors are changed, the communication signal transmission quality is often reduced, the communication is interrupted, the data is lost, and the like.

Therefore, the communication management mode of the ship PAGA system in the prior art has low intelligence degree, which causes the technical problems of low communication signal transmission quality and communication interruption.

Disclosure of Invention

The communication management method and the communication management system based on the PAGA system solve the technical problems that the communication signal transmission quality is low and the communication is interrupted due to the fact that the intelligent degree of the communication management mode of the PAGA system is low in the prior art.

The application provides a communication management method based on a PAGA system for a ship, which is applied to a communication management system, wherein the communication management system is in communication connection with a signal transmitting terminal and a signal receiving terminal, and the method comprises the following steps: acquiring first communication signal information, and performing signal analysis on the first communication signal information to obtain a signal analysis result; acquiring an interactive signal receiving end set according to the signal analysis result, and performing communication channel fitting through the signal transmitting end and the interactive signal receiving end set; obtaining a communication channel fitting result, and detecting channel real-time communication data based on the communication channel fitting result to obtain real-time channel communication data; inputting the first communication signal information and the real-time channel communication data into a communication adjustment model, and outputting a channel adjustment signal, wherein the channel adjustment signal comprises a channel identifier and an expected fitting effect identifier; screening the channel adjustment signal through the expected fitting effect identifier and the channel identifier to obtain a channel adjustment signal screening result; and respectively sending the channel adjustment signal screening results to the corresponding interactive signal receiving end sets through the signal transmitting ends.

The application also provides a communication management system based on marine PAGA system, system and signal transmission end, signal reception end communication connection, the system includes: the signal analysis module is used for acquiring and obtaining first communication signal information, and performing signal analysis on the first communication signal information to obtain a signal analysis result; the channel fitting module is used for obtaining an interactive signal receiving end set according to the signal analysis result and performing communication channel fitting through the signal transmitting end and the interactive signal receiving end set; the real-time channel communication data acquisition module is used for acquiring a communication channel fitting result, and detecting channel real-time communication data based on the communication channel fitting result to acquire real-time channel communication data; a channel adjustment signal obtaining module, configured to input the first communication signal information and the real-time channel communication data into a communication adjustment model, and output a channel adjustment signal, where the channel adjustment signal includes a channel identifier and an expected fitting effect identifier; the channel adjusting signal screening module is used for screening the channel adjusting signals through the expected fitting effect identification and the channel identification to obtain a channel adjusting signal screening result; and the sending processing module is used for sending the channel adjustment signal screening results to the corresponding interactive signal receiving end sets through the signal sending ends respectively.

The present application further provides an electronic device, including:

a memory for storing executable instructions;

and the processor is used for realizing the communication management method based on the PAGA system for the ship provided by the embodiment of the application when executing the executable instructions stored in the memory.

The embodiment of the present application provides a computer-readable storage medium, which stores a computer program, and when the program is executed by a processor, the communication management method based on a PAGA system for a ship provided by the embodiment of the present application is implemented.

According to the communication management method and system based on the PAGA system for the ship, the first communication signal information and the real-time channel communication data are input into a communication adjustment model, and a channel adjustment signal is output. The intelligent degree of system management when the communication management system meets the changes of high channel occupancy rate and environmental factors is improved, so that the system can provide better data transmission effect under any condition, the communication quality is improved, and the situations of communication interruption, data loss and the like are avoided. The technical problems that the communication signal transmission quality is low and the communication is interrupted due to the fact that the intelligent degree of a communication management mode of a ship PAGA system is low in the prior art are solved.

The foregoing description is only an overview of the technical solutions of the present application, and the present application can be implemented according to the content of the description in order to make the technical means of the present application more clearly understood, and the following detailed description of the present application is given in order to make the above and other objects, features, and advantages of the present application more clearly understandable.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present disclosure, the drawings of the embodiments of the present disclosure will be briefly described below. It is to be expressly understood that the drawings in the following description are directed to only some embodiments of the disclosure and are not intended as limitations of the disclosure.

Fig. 1 is a schematic flow chart of a communication management method based on a ship PAGA system according to an embodiment of the present disclosure;

fig. 2 is a schematic flow chart illustrating an emergency channel adjustment signal obtained by a communication management method based on a PAGA system for a ship according to an embodiment of the present disclosure;

fig. 3 is a schematic flow chart illustrating a communication management method for adding obstacle environment influence information to a communication adjustment model according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of a system of a communication management method based on a ship PAGA system according to an embodiment of the present disclosure;

fig. 5 is a schematic structural diagram of a system electronic device of a communication management method based on a ship PAGA system according to an embodiment of the present invention.

Description of reference numerals: the system comprises a signal analysis module 11, a channel fitting module 12, a real-time channel communication data acquisition module 13, a channel adjustment signal acquisition module 14, a channel adjustment signal screening module 15 and a sending processing module 16.

Detailed Description

Example one

In order to make the objectives, technical solutions and advantages of the present application clearer, the present application will be described in further detail with reference to the attached drawings, the described embodiments should not be considered as limiting the present application, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts shall fall within the protection scope of the present application.

In the following description, reference is made to "some embodiments" which describe a subset of all possible embodiments, but it is understood that "some embodiments" may be the same subset or different subsets of all possible embodiments, and may be combined with each other without conflict.

In the following description, references to the terms "first \ second \ third" are only to distinguish similar objects and do not denote a particular order, but rather the terms "first \ second \ third" are used to interchange specific orders or sequences, where appropriate, so as to enable the embodiments of the application described herein to be practiced in other than the order shown or described herein.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein is for the purpose of describing embodiments of the present application only.

Although various references may be made herein to certain modules in a system according to embodiments of the present application, any number of different modules may be used and run on a user terminal and/or server, the modules are merely illustrative, and different aspects of the systems and methods may use different modules.

Flowcharts are used herein to illustrate the operations performed by systems according to embodiments of the present application. It should be understood that the preceding or following operations are not necessarily performed in the exact order in which they are performed. Rather, the various steps may be processed in reverse order or simultaneously, as desired. Meanwhile, other operations may be added to the processes, or a certain step or several steps of operations may be removed from the processes.

As shown in fig. 1, an embodiment of the present application provides a communication management method based on a PAGA system for a ship, where the method is applied to a communication management system, and the communication management system is in communication connection with a signal transmitting end and a signal receiving end, and the method includes:

s10: acquiring first communication signal information, and performing signal analysis on the first communication signal information to obtain a signal analysis result;

s20: acquiring an interactive signal receiving end set according to the signal analysis result, and performing communication channel fitting through the signal transmitting end and the interactive signal receiving end set;

s30: obtaining a communication channel fitting result, and detecting channel real-time communication data based on the communication channel fitting result to obtain real-time channel communication data;

specifically, a PAGA system for a ship, namely a broadcasting and general alarm system, is an indispensable internal communication system of an offshore oil platform. Acquiring first communication signal information, performing signal analysis on the first communication signal information, and acquiring an analysis result of a signal. When analyzing the signal, the specific setting content of the signal, such as the instruction level of the signal, the sending end and the receiving end of the signal, the attribution type of the signal, for example, a notification signal, an alarm signal, etc., is obtained, and the signal analysis result is obtained. And then, acquiring an interactive signal receiving end set according to the signal analysis result, performing communication channel fitting through the signal transmitting end and the interactive signal receiving end set, and fitting channel data of communication of the transmitting end and the receiving end. And further, a communication channel fitting result is obtained, channel real-time communication data detection is carried out based on the communication channel fitting result, and real-time channel communication data of the current channel are obtained.

S40: inputting the first communication signal information and the real-time channel communication data into a communication adjustment model, and outputting a channel adjustment signal, wherein the channel adjustment signal comprises a channel identifier and an expected fitting effect identifier;

s50: screening the channel adjustment signal through the expected fitting effect identifier and the channel identifier to obtain a channel adjustment signal screening result;

s60: and respectively sending the channel adjustment signal screening results to the corresponding interactive signal receiving end sets through the signal transmitting ends.

Specifically, the first communication signal information and the real-time channel communication data are input into a communication adjustment model, the communication quality of the communication channel is detected and an expected communication effect is output through the detection of the real-time communication data on the communication quality of the channel, wherein the communication adjustment model is used for adjusting the real-time communication channel according to the first communication signal information and the real-time channel communication data and outputting a channel adjustment signal, and the channel adjustment signal includes a channel identifier and an expected fitting effect identifier, wherein the expected fitting effect identifier is a signal transmission effect identifier of the channel detected by the real-time communication data, the signal transmission effect identifier is specifically a transmission effect identifier of the channel, and other parameters representing the signal transmission quality, such as specific signal loss condition and interference condition, are identified, and the channel identifier is a specific communication channel identifier. And screening the channel adjusting signals through the expected fitting effect identifier and the channel identifier to obtain a channel adjusting signal screening result, screening out signals with lower signal instruction levels in the real-time transmission process of the channel, and adjusting corresponding conditions to ensure the signal transmission effect of the signals with higher signal instruction levels. And finally, respectively sending the channel adjustment signal screening results to the corresponding interactive signal receiving end sets through the signal transmitting ends, finishing the control of the interactive signal receiving end set signal transmission and ensuring the signal transmission effect of signals with higher signal instruction level under the same channel. The intelligent degree of system management when the communication management system meets the changes of high channel occupancy rate and environmental factors is improved, so that the system can provide better data transmission effect under any condition, the communication quality is improved, and the situations of communication interruption, data loss and the like are avoided.

As shown in fig. 2, the method S60 provided in the embodiment of the present application further includes:

s61: obtaining a signal instruction grade according to the signal analysis result;

s62: judging whether the signal instruction level meets a preset level threshold value or not;

s63: when the signal instruction level can meet the preset level threshold, stopping communication of the real-time channel communication data, inputting the first communication signal information into a communication adjustment model, and outputting an emergency channel adjustment signal;

s64: and respectively sending the emergency channel adjusting signals to the corresponding interactive signal receiving end sets through the signal transmitting ends.

Specifically, a signal instruction level is obtained according to the signal analysis result, wherein the signal instruction level is the instruction urgency level of the signal. And then. And judging whether the signal instruction level meets a preset level threshold value, wherein the preset level threshold value is a preset level. When the signal instruction level can meet the preset level threshold, namely the signal instruction level exceeds the preset level threshold, the corresponding signal instruction is urgent, the channel is occupied by the real-time channel communication data at present, the channel interference is caused, the communication of the real-time channel communication data is stopped at the moment, the communication data of the current channel is stopped, the first communication signal information corresponding to the signal instruction level is input into the communication adjustment model, and the urgent channel adjustment signal is output. And the acquired emergency channel adjusting signals are respectively sent to the corresponding interactive signal receiving end sets through the signal transmitting ends.

The method S60 provided in the embodiment of the present application further includes:

s65: when the signal instruction level cannot meet the preset level threshold, acquiring a communication level set of the real-time channel communication data;

s66: performing replacement pre-screening based on the signal instruction level and the communication level set to obtain a replacement pre-screening result;

s67: obtaining a transmission expected fitting effect identifier corresponding to the channel adjustment signal screening result;

s68: judging whether the transmission expected fitting effect identification cannot meet a preset transmission effect or not;

s69: and when a first transmission fitting effect identifier which cannot meet the preset transmission effect exists, carrying out pause adjustment on the real-time channel communication data according to the replacement preselection result and the first transmission fitting effect identifier.

Specifically, when the signal instruction level cannot meet the preset level threshold, and the emergency degree of the corresponding first communication signal cannot meet the preset level threshold at this time, the communication level set of the real-time channel communication data is obtained, that is, the communication level set of a plurality of ongoing communication data in the real-time channel communication data is obtained. And further, carrying out replacement pre-screening on the basis of the signal instruction level and the communication level set to obtain a replacement pre-screening result. When the replacement and the pre-screening are carried out, whether the communication levels of the communication signals have the condition that the difference level exceeds the threshold value or not is judged, and when a plurality of difference levels exceed the threshold value, the maximum level difference is used as a pre-selection result to reduce the output of the signals with lower command levels. And then, acquiring a transmission expected fitting effect identifier corresponding to the channel adjustment signal screening result, wherein the transmission expected fitting effect is an expected receiving effect of the information after the information is transmitted, and since the wireless communication is influenced by simultaneously transmitting a plurality of signals, in order to avoid that the playing effect of the signals is not expected, judging whether the transmission expected fitting effect identifier can not meet the preset transmission effect by judging the transmission expected fitting effect identifier. And if a first transmission fitting effect identifier which cannot meet the preset transmission effect exists, and the communication condition of the channel is poor at the moment, carrying out pause adjustment on the real-time channel communication data according to the replacement preselection result and the first transmission fitting effect identifier, namely pausing a signal with a lower instruction level in the real-time channel communication data so as to reduce the interference on other signals with higher instruction levels. The normal communication of the signal with the lower instruction level is ensured, and the influence of the signal with the lower instruction level on the communication quality of the channel is avoided.

As shown in fig. 3, a method S50 provided in the embodiment of the present application further includes:

s51: acquiring real-time environment data;

s52: updating the real-time environment data to the communication adjustment model to complete model initialization of the communication adjustment model;

s53: obtaining historical communication test data, and obtaining obstacle environment influence information through the historical communication test data;

s54: adding the obstacle environment influence information to the communication adjustment model.

Specifically, in the wireless communication process, meteorological factors may also affect wireless communication, and the wireless communication is interfered due to reflection and scattering of the atmosphere, so that signal attenuation is caused if the influence is light, the communication distance is shortened, and communication interruption is directly caused if the influence is serious. For example, in a sunny weather with moderate temperature, the transmission distance of the wireless signal is better than that in a severe weather environment. And updating the real-time environment data to the communication adjustment model by acquiring the real-time environment data, and finishing the model initialization of the communication adjustment model. And then, acquiring historical communication test data, wherein the historical communication test data comprises specific channel test quality data and corresponding environment data. And obtaining obstacle environment influence information through historical communication test data, namely obtaining obstacle environment influence information which has influence on channel communication quality data. And finally, adding the acquired obstacle environment influence information to the communication adjustment model, so that the obstacle environment influence information in the real-time environment data can be identified after the model acquires the real-time environment data.

The method S50 provided in the embodiment of the present application further includes:

s55: judging whether a wired channel and a wireless channel exist simultaneously according to the fitting result of the communication channel;

s56: when a wired channel and a wireless channel exist at the same time, channel screening of the same interactive end is carried out according to the expected fitting effect identification;

s57: and obtaining the channel adjustment signal screening result according to the screening result.

Specifically, whether wired channel communication and wireless channel communication exist simultaneously is judged according to a communication channel fitting result, and a situation that multiple channels are parallel may exist in a part of signals in a communication process. And when a wired channel and a wireless channel exist at the same time, carrying out channel screening of the same interactive end according to the expected fitting effect identifier. And screening out the channel with better communication expected fitting effect identification as a final communication channel. And finally, obtaining the channel adjustment signal screening result according to the screening result, and further ensuring the communication quality of the signal.

The method S69 provided in the embodiment of the present application further includes:

s691: when a first transmission fitting effect identifier which cannot meet the preset transmission effect exists and the replacement preselection result has no replacement result, generating a queue instruction;

s692: receiving a first communication signal message into a sequencing queue via said queue instruction;

s693: and performing sequential communication execution through the sorting queue.

Specifically, when a first transmission fitting effect identifier which cannot meet the preset transmission effect exists and the replacement preselection result has no replacement result, a queue instruction is generated, and at this time, the transmission effect of the signal is poor and no signal which can be paused by a real-time communication signal exists. At this time, queue adjustment needs to be performed on communication signals of the channel, so that the signals are transmitted according to a certain queue order, and the problem of poor transmission effect caused by simultaneous transmission of multiple signals is avoided. And the first communication signal information is received into a sorting queue through a queue instruction, and at the moment, the signal instruction grade difference in the queue is smaller, a queuing sequence can be set according to the signal sequence, and the first communication signal information is received into the sorting queue according to the specific time sequence. And finally, the sequencing queue is used for executing sequential communication, so that the signals can be transmitted according to the sequence, the condition of channel congestion is avoided, and the transmission quality of the signals is reduced.

The method S60 provided in the embodiment of the present application further includes:

s70: performing signal execution monitoring through the interactive signal receiving end set to obtain an execution monitoring result;

s71: generating abnormal execution information according to the execution monitoring result, and generating feedback control information based on the abnormal execution information;

s72: and performing feedback adjustment of the communication adjustment model through the feedback control information.

Specifically, signal execution monitoring is performed through the interactive signal receiving end set, that is, actual execution monitoring of signals is performed on the interactive signal receiving end set, and a specific execution monitoring result is obtained, where the execution monitoring result represents the situation of the signals in the execution process, and whether abnormal situations such as jamming, signal loss, and the like occur is determined. And generating abnormal execution information by executing the monitoring result, and generating feedback control information based on the abnormal execution information. And when abnormal execution information exists in the execution monitoring result, the transmission of the corresponding channel still has abnormality. At this time, feedback control information is generated according to the abnormal execution information, and feedback adjustment of the communication adjustment model is performed through the feedback control information, so that the communication adjustment model has certain feedback control capability, and the transmission effect of the signal transmission process is further ensured.

According to the technical scheme provided by the embodiment of the invention, the first communication signal information is acquired through collection, and the signal analysis result is obtained. And acquiring an interactive signal receiving end set according to the signal analysis result, and performing communication channel fitting through the signal transmitting end and the interactive signal receiving end set. And acquiring a communication channel fitting result, and detecting channel real-time communication data based on the communication channel fitting result to acquire real-time channel communication data. Inputting the first communication signal information and the real-time channel communication data into a communication adjustment model, and outputting a channel adjustment signal, wherein the channel adjustment signal comprises a channel identifier and an expected fitting effect identifier. And screening the channel adjusting signals through the expected fitting effect identifier and the channel identifier to obtain a channel adjusting signal screening result. And respectively sending the channel adjustment signal screening results to the corresponding interactive signal receiving end sets through the signal transmitting ends. The intelligent degree of system management when the communication management system meets the changes of high channel occupancy rate and environmental factors is improved, so that the system can provide better data transmission effect under any condition, the communication quality is improved, and the situations of communication interruption, data loss and the like are avoided. The technical problems that the communication signal transmission quality is low and the communication is interrupted due to the fact that the intelligent degree of a communication management mode of a ship PAGA system is low in the prior art are solved.

Example two

Based on the same inventive concept as the communication management method based on the PAGA system for the ship in the foregoing embodiments, the present invention further provides a system based on the communication management method based on the PAGA system for the ship, where the system may be implemented by hardware and/or software, and may be generally integrated into an electronic device for executing the method provided in any embodiment of the present invention. As shown in fig. 4, the system is communicatively connected to a signal transmitting end and a signal receiving end, and the system includes:

the signal analysis module 11 is configured to acquire and obtain first communication signal information, perform signal analysis on the first communication signal information, and obtain a signal analysis result;

the channel fitting module 12 is configured to obtain an interactive signal receiving end set according to the signal analysis result, and perform communication channel fitting through the signal transmitting end and the interactive signal receiving end set;

a real-time channel communication data obtaining module 13, configured to obtain a communication channel fitting result, and perform channel real-time communication data detection based on the communication channel fitting result to obtain real-time channel communication data;

a channel adjustment signal obtaining module 14, configured to input the first communication signal information and the real-time channel communication data into a communication adjustment model, and output a channel adjustment signal, where the channel adjustment signal includes a channel identifier and an expected fitting effect identifier;

the channel adjustment signal screening module 15 is configured to screen the channel adjustment signal through the expected fitting effect identifier and the channel identifier to obtain a channel adjustment signal screening result;

and the sending processing module 16 is configured to send the channel adjustment signal screening results to the corresponding interactive signal receiving end sets through the signal sending ends respectively.

Further, the sending processing module 16 is further configured to:

obtaining a signal instruction grade according to the signal analysis result;

judging whether the signal instruction level meets a preset level threshold value or not;

when the signal instruction level can meet the preset level threshold, stopping communication of the real-time channel communication data, inputting the first communication signal information into a communication regulation model, and outputting an emergency channel regulation signal;

and respectively sending the emergency channel adjusting signals to the corresponding interactive signal receiving end sets through the signal transmitting ends.

Further, the sending processing module 16 is further configured to:

when the signal instruction level cannot meet the preset level threshold, acquiring a communication level set of the real-time channel communication data;

performing replacement pre-screening based on the signal instruction level and the communication level set to obtain a replacement pre-screening result;

obtaining a transmission expected fitting effect identifier corresponding to the channel adjustment signal screening result;

judging whether the transmission expected fitting effect identification cannot meet a preset transmission effect or not;

and when a first transmission fitting effect identifier which cannot meet the preset transmission effect exists, carrying out pause adjustment on the real-time channel communication data according to the replacement preselection result and the first transmission fitting effect identifier.

Further, the channel adjustment signal screening module 15 is further configured to:

acquiring real-time environment data;

updating the real-time environment data to the communication adjustment model to complete model initialization of the communication adjustment model;

obtaining historical communication test data, and obtaining obstacle environment influence information through the historical communication test data;

adding the obstacle environment influence information to the communication adjustment model.

Further, the channel adjustment signal screening module 15 is further configured to:

judging whether a wired channel and a wireless channel exist simultaneously according to the fitting result of the communication channel;

when a wired channel and a wireless channel exist at the same time, channel screening of the same interactive end is carried out according to the expected fitting effect identification;

and obtaining the channel adjustment signal screening result according to the screening result.

Further, the sending processing module 16 is further configured to:

when a first transmission fitting effect identifier which cannot meet the preset transmission effect exists and the replacement preselection result has no replacement result, generating a queue instruction;

receiving, by the queue instruction, a first communication signal message from a first communication device;

and performing sequential communication execution through the sorting queue.

Further, the sending processing module 16 is further configured to:

performing signal execution monitoring through the interactive signal receiving end set to obtain an execution monitoring result;

generating abnormal execution information according to the execution monitoring result, and generating feedback control information based on the abnormal execution information;

and performing feedback adjustment of the communication adjustment model through the feedback control information.

The communication management system based on the PAGA system for the ship provided by the embodiment of the invention can execute the communication management system method based on the PAGA system for the ship provided by any embodiment of the invention, and has corresponding functional modules and beneficial effects of the execution method.

Each included unit and module are only divided according to functional logic, but are not limited to the above division as long as corresponding functions can be realized; in addition, specific names of the functional units are only for convenience of distinguishing from each other, and are not used for limiting the protection scope of the present invention.

EXAMPLE III

Fig. 5 is a schematic structural diagram of an electronic device provided in the third embodiment of the present invention, and shows a block diagram of an exemplary electronic device suitable for implementing the embodiment of the present invention. The electronic device shown in fig. 5 is only an example, and should not bring any limitation to the functions and the scope of use of the embodiment of the present invention. As shown in fig. 5, the electronic device includes a processor 31, a memory 32, an input device 33, and an output device 34; the number of the processors 31 in the electronic device may be one or more, one processor 31 is taken as an example in fig. 5, the processor 31, the memory 32, the input device 33 and the output device 34 in the electronic device may be connected by a bus or in other ways, and the connection by the bus is taken as an example in fig. 5.

The memory 32 is used as a computer readable storage medium for storing software programs, computer executable programs, and modules, such as program instructions/modules corresponding to a communication management method based on a PAGA system for a ship in an embodiment of the present invention. The processor 31 executes various functional applications and communication management of the computer device by running software programs, instructions and modules stored in the memory 32, so as to implement the communication management method based on the PAGA system for the ship.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in some detail by the above embodiments, the invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the invention, and the scope of the invention is determined by the scope of the appended claims.

Claims (10)

1. A communication management method based on a PAGA system for a ship is characterized in that the method is applied to a communication management system which is in communication connection with a signal transmitting end and a signal receiving end, and the method comprises the following steps:

acquiring first communication signal information, and performing signal analysis on the first communication signal information to obtain a signal analysis result;

acquiring an interactive signal receiving end set according to the signal analysis result, and performing communication channel fitting through the signal transmitting end and the interactive signal receiving end set;

obtaining a communication channel fitting result, and detecting channel real-time communication data based on the communication channel fitting result to obtain real-time channel communication data;

inputting the first communication signal information and the real-time channel communication data into a communication adjustment model, and outputting a channel adjustment signal, wherein the channel adjustment signal comprises a channel identifier and an expected fitting effect identifier;

screening the channel adjustment signal through the expected fitting effect identifier and the channel identifier to obtain a channel adjustment signal screening result;

and respectively sending the channel adjustment signal screening results to the corresponding interactive signal receiving end sets through the signal transmitting ends.

2. The method of claim 1, wherein the method comprises:

obtaining a signal instruction grade according to the signal analysis result;

judging whether the signal instruction level meets a preset level threshold value or not;

when the signal instruction level can meet the preset level threshold, stopping communication of the real-time channel communication data, inputting the first communication signal information into a communication adjustment model, and outputting an emergency channel adjustment signal;

and respectively sending the emergency channel adjusting signals to the corresponding interactive signal receiving end sets through the signal transmitting ends.

3. The method of claim 2, wherein the method comprises:

when the signal instruction level cannot meet the preset level threshold, acquiring a communication level set of the real-time channel communication data;

performing replacement pre-screening on the basis of the signal instruction grade and the communication grade set to obtain a replacement pre-screening result;

obtaining a transmission expected fitting effect identifier corresponding to the channel adjustment signal screening result;

judging whether the transmission expected fitting effect identification cannot meet a preset transmission effect or not;

and when a first transmission fitting effect identifier which cannot meet the preset transmission effect exists, carrying out pause adjustment on the real-time channel communication data according to the replacement preselection result and the first transmission fitting effect identifier.

4. The method of claim 1, wherein the method comprises:

acquiring real-time environment data;

updating the real-time environment data to the communication adjustment model to complete model initialization of the communication adjustment model;

obtaining historical communication test data, and obtaining obstacle environment influence information through the historical communication test data;

adding the obstacle environment influence information to the communication adjustment model.

5. The method of claim 1, wherein the method comprises:

judging whether a wired channel and a wireless channel exist simultaneously according to the fitting result of the communication channel;

when a wired channel and a wireless channel exist at the same time, channel screening of the same interactive end is carried out according to the expected fitting effect identification;

and obtaining the channel adjustment signal screening result according to the screening result.

6. The method of claim 3, wherein the method comprises:

when a first transmission fitting effect identifier which cannot meet the preset transmission effect exists and the replacement preselection result does not have a replacement result, generating a queue instruction;

receiving, by the queue instruction, a first communication signal message from a first communication device;

and performing sequential communication execution through the sorting queue.

7. The method of claim 1, wherein the method comprises:

performing signal execution monitoring through the interactive signal receiving end set to obtain an execution monitoring result;

generating abnormal execution information according to the execution monitoring result, and generating feedback control information based on the abnormal execution information;

and performing feedback adjustment of the communication adjustment model through the feedback control information.

8. A communication management system based on a PAGA system for a ship is characterized in that the system is in communication connection with a signal transmitting end and a signal receiving end, and the system comprises:

the signal analysis module is used for acquiring and obtaining first communication signal information, and performing signal analysis on the first communication signal information to obtain a signal analysis result;

the channel fitting module is used for obtaining an interactive signal receiving end set according to the signal analysis result and performing communication channel fitting through the signal transmitting end and the interactive signal receiving end set;

the real-time channel communication data acquisition module is used for acquiring a communication channel fitting result, and detecting channel real-time communication data based on the communication channel fitting result to acquire real-time channel communication data;

a channel adjustment signal acquisition module, configured to input the first communication signal information and the real-time channel communication data into a communication adjustment model, and output a channel adjustment signal, where the channel adjustment signal includes a channel identifier and an expected fitting effect identifier;

the channel adjusting signal screening module is used for screening the channel adjusting signals through the expected fitting effect identification and the channel identification to obtain a channel adjusting signal screening result;

and the sending processing module is used for sending the channel adjustment signal screening results to the corresponding interactive signal receiving end sets through the signal sending ends respectively.

9. An electronic device, characterized in that the electronic device comprises:

a memory for storing executable instructions;

a processor, configured to execute the executable instructions stored in the memory to implement a communication management method according to any one of claims 1 to 7 based on a PAGA system for a ship.

10. A computer-readable medium on which a computer program is stored, the program, when executed by a processor, implementing a communication management method based on a PAGA system for a ship according to any one of claims 1 to 7.

Images