CN110992659B - Civil air defense engineering command information system - Google Patents

Abstract

The invention discloses a civil air defense engineering command information system, and belongs to the field of civil air defense engineering. The civil air defense engineering command information system comprises an input module, a database module, an output module and an alarm issuing module; the input module encodes first alarm information and second alarm information and outputs first alarm data, wherein the second alarm information comprises feature code information of equipment for inputting the first alarm information; the alarm issuing module decodes the first alarm data, outputs a second alarm signal, and outputs the first alarm return data after receiving the second alarm return signal; the database module comprises a characteristic code data table, an online civil defense engineering equipment data table and an alarm issuing record data table, and stores the received first alarm data and first alarm return data in the alarm issuing record data table. The invention realizes the input, distribution and record management of the alarm information, and saves a large amount of manpower and material resources.

Description

Civil air defense engineering command information system

Technical Field

The invention relates to the technical field of civil air defense engineering, in particular to a civil air defense engineering command information system.

Background

Civil air defense, abbreviated as civil air defense, is a measure and action taken by governments to mobilize and organize people for defending enemies against air attacks and eliminating consequences, such as issuing and releasing civil air defense alarms. The civil air defense engineering comprises five major types, namely command communication engineering, medical rescue engineering, air defense professional team engineering, personnel shelter engineering and other supporting engineering.

Chinese patent document CN102280012A published in 2011, 12, month and 14 describes a method for issuing air defense and disaster prevention alarms, which includes the following steps: the base station generates common alarm information; the short wave communication module sends the common alarm information to a remote small station; and the remote small station drives the alarm by using the common alarm information.

In order to meet the requirements of wide-area coverage of command communication engineering layout and timely and accurate release of civil air defense alarms, a civil air defense command communication system is required to be capable of achieving matters such as information input, issuing and recording of civil air defense alarms. When the civil air defense warning information is issued, the civil air defense manager needs to be handed over the relevant information with the civil air defense manager at other places by means of the communication system, when the information is handed over with the civil air defense manager at other places, the presence of both the personnel needs to be confirmed, the identities of both the personnel need to be determined, and the handing over of the civil air defense warning information is ensured to be correct, so that the warning issuing efficiency is low in the processes. The input, the distribution and the recording of the civil air defense warning information mainly depend on the manual recording of relevant information ledgers by the civil air defense system management personnel, and whether the information is correct or not is checked with the civil air defense management personnel at other places through the communication system, so that large manpower and material resources are occupied, and great resources are consumed.

Disclosure of Invention

In view of the above, an object of the present invention is to provide a civil air defense engineering command information system, so as to solve the technical problem that the existing civil air defense warning information input, issue and record occupies large resources.

The invention also aims to provide a civil air defense engineering command information system to solve the technical problem that the alarm issuing efficiency of the existing civil air defense engineering command information system is low.

In order to achieve the purpose, the invention adopts the following technical scheme:

a civil air defense engineering command information system comprises an input module, a database module, an output module and an alarm issuing module; the input module is used for encoding first alarm information and second alarm information related to the first alarm information and outputting first alarm data, wherein the second alarm information comprises feature code information of equipment for inputting the first alarm information; the alarm issuing module is used for decoding the first alarm data and encoding again, outputting a second alarm signal, decoding the second alarm signal and encoding again after receiving a second alarm signal corresponding to the execution result of the first alarm data, and outputting first alarm signal; the database module comprises a characteristic code data table, an online civil air defense engineering equipment data table and an alarm issuing record data table, wherein the characteristic code data table is used for storing a characteristic code uniquely corresponding to the civil air defense engineering equipment, the online civil air defense engineering equipment data table is used for storing the characteristic codes of all online civil air defense engineering equipment, and the database module is used for storing received first alarm data and first alarm return data in the alarm issuing record data table; the output module is used for outputting the data output by the database module.

Preferably, the first alarm information includes a feature code of the alarm terminal, an alarm type, and alarm content.

Preferably, the feature code includes control network coding information to which the device belongs, distribution network coding information to which the device belongs, and device coding information.

Further, the alarm issuing module decodes the first alarm data, obtains a feature code of an alarm terminal receiving the first alarm information, and sequentially queries a control network code, a distribution network code and a device code corresponding to the feature code in a network civil air defense engineering device data table, so that when the corresponding civil air defense engineering device is online, the second alarm signal is sequentially sent to the corresponding alarm terminal through the control network and the distribution network corresponding to the feature code.

Preferably, the second alarm notification signal is encoded with second alarm information.

Preferably, the second alarm information further includes a first alarm information search code corresponding to the first alarm information, and the first alarm information search code and the feature code of the alarm terminal are encoded in the second alarm reply signal.

Further, the database module comprises an alarm fault recording data table, the civil air defense engineering command information system further comprises an alarm fault processing module, and when a first alarm information retrieval code contained in the first alarm return data does not exist or first alarm information corresponding to first alarm data of the same alarm information retrieval code is inconsistent with first alarm information corresponding to the first alarm return data, the alarm fault processing module is used for inputting the first alarm data and the first alarm return data into the alarm fault recording data table.

Preferably, the system also comprises a controller and an alarm terminal; the alarm terminal comprises an alarm and a sound collector; the sound collector is used for collecting the sound emitted by the alarm and outputting a third return signal; the controller is used for decoding and responding to the second alarm signal and outputting an alarm driving signal for driving the alarm, and the controller is also used for decoding and encoding the third return signal and outputting the second alarm return signal.

Preferably, the sound collector is selected from a sound recorder or a sound pressure sensor.

Preferably, the power supply circuit of the alarm is connected in series with a load end of a relay, a control end of the relay is electrically connected with an output end of the controller, and when the controller receives the third feedback signal and does not send out the second alarm signal, or when the controller receives the third feedback signal and sends out the second alarm signal and the first alarm information corresponding to the second alarm feedback signal is inconsistent, the controller controls the relay to disconnect the power supply circuit of the alarm.

Based on the importance of civil air defense engineering, the severity of consequences caused by alarm issuing errors, alarm misinformation and alarm errors, the civil air defense engineering command information system and alarm transmission need to be realized timely, accurately and precisely, when the civil air defense engineering command information system is constructed, the stability and fault-tolerant error correction capability of the system need to be considered, technicians in the field of civil air defense engineering rely on manual participation management, firstly, manual participation can find errors and correct the errors in time, and major accidents caused by defects of a newly designed civil air defense engineering command system can be avoided. Those skilled in the art are also motivated to improve upon existing civil air defense command approaches.

The invention has the beneficial effects that:

the invention realizes the input, distribution and record management of the alarm information through the civil air defense engineering command information system, saves a large amount of manpower and material resources, occupies less resources, and is convenient for realizing the closed-loop management of the distribution of the first alarm information through the civil air defense engineering command information system by acquiring the second alarm return signal corresponding to the execution result of the first alarm data.

The first alarm information can have one, two or more alarm terminal feature codes, that is, the first alarm information is sent to one alarm terminal, two alarm terminals or a plurality of alarm terminals, so that the entry of the first alarm information is facilitated.

The feature code comprises control network coding information to which the device belongs, distribution network coding information to which the device belongs and device coding information, and management of the device is facilitated.

The feature codes comprise control network coding information to which the equipment belongs, distribution network coding information to which the equipment belongs and equipment coding information, so that the online states of the corresponding control network, distribution network and equipment are conveniently inquired in sequence, the first alarm signals are successively issued, and the alarm issuing progress is improved. When the alarm issuing module extracts the first alarm data from the alarm issuing record data table, the alarm issuing record data table is used as a cache record of the first alarm data, so that a plurality of pieces of first alarm information can be issued rapidly in batches, the program complexity of frequently switching the alarm issuing module to receive the first alarm data from the input module and receive the first alarm data from the alarm issuing record data table when the online factors of the alarm terminal are considered is avoided, the omission of the first alarm information to cause the missed issuance of the civil air defense alarm is avoided, and the stability of the civil air defense engineering command information system is high.

The second alarm return signal codes second alarm information, so that the first alarm return data can be conveniently sent back to the equipment for inputting the first alarm information, the first alarm information input personnel can conveniently realize closed-loop management of first alarm information distribution through the civil air defense engineering command information system, and alarm distribution results corresponding to the first alarm information can be timely obtained.

The second alarm information also comprises a first alarm information retrieval code corresponding to the first alarm information, the first alarm information retrieval code is coded in the second alarm return signal, and the first alarm information retrieval code is matched with the alarm terminal feature code, so that the first alarm return data and the first alarm data can be efficiently corresponding. The problem that the issuing result of the first alarm information cannot be determined due to the fact that the first alarm feedback data and the first alarm data are correspondingly confused is avoided. Generally, when a piece of first alarm information is associated with an alarm terminal, the alarm terminal feature code can confirm the corresponding relationship between the first alarm response data and the alarm terminal, but cannot confirm whether the alarm issued by the alarm terminal corresponds to the first alarm information, and although whether the alarm issued by the alarm terminal corresponds to the first alarm information can be inferred from the alarm content and the alarm time, the existence of the possibility does not meet the timely, accurate and precise requirements of the civil defense command system. In addition, when one piece of first alarm information corresponds to a plurality of alarm terminals, and the input module divides the first alarm information into a plurality of pieces of first alarm data corresponding to the alarm terminals one to one, the number of the first alarm response data is also multiple, so that whether all the alarm terminals execute the first alarm information is inconvenient to know, and whether all the alarm terminals execute the first alarm information can be quickly determined through the first alarm information search code.

Through the alarm fault processing module and the alarm fault recording data table, people and air defense system managers can conveniently maintain the alarm terminal in time, find the reasons of wrong report and wrong report of the alarm terminal, and improve the equipment maintenance efficiency.

According to the invention, by collecting the sound information sent by the alarm terminal, closed-loop management of civil air defense alarm issuing and recording is realized, and the alarm issuing and recording management efficiency is improved.

The sound recorder can record the frequency of the alarm, the sound pressure sensor can record the frequency of the alarm through sound, the corresponding alarm type can be determined through the frequency of the alarm due to the fact that the characteristics of the civil air defense alarm are easy to identify, the corresponding alarm issuing moment can be determined through the starting time and the stopping time of the alarm, and therefore the second alarm return signal can be obtained.

By checking the contents of the second alarm signal and the second alarm return signal, when the contents of the second alarm signal and the second alarm return signal do not correspond, the false alarm or the false alarm of the alarm is judged, the power circuit of the alarm is cut off in time through the relay, the false alarm of the alarm is stopped, the expansion of adverse effects is avoided, and the fault tolerance and error correction capability of the civil air defense engineering command information system is improved.

Drawings

Fig. 1 is a block diagram of a structure with a civil defense engineering guidance information system according to the invention.

In the figure, 1-server, 10-civil air defense engineering command information system program, 11-input device, 12-output device, 20-controller, 21-alarm terminal, 211-alarm, 212-sound collector, 22-environmental information collector.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

First part of the invention: in this section, a computer readable medium storing a civil air defense engineering command information system program is intended to belong to the program stored in the computer readable medium.

A computer readable medium storing a civil air defense engineering command information system program, the civil air defense engineering command information system program comprising an input module, a database module, an output module and an alarm issuing module; the input module is used for encoding first alarm information and second alarm information related to the first alarm information and outputting first alarm data, wherein the second alarm information comprises feature code information of equipment for inputting the first alarm information; the alarm issuing module is used for decoding the first alarm data and encoding again, outputting a second alarm signal, decoding the second alarm signal and encoding again after receiving a second alarm signal corresponding to the execution result of the first alarm data, and outputting first alarm signal; the database module comprises a characteristic code data table, an online civil air defense engineering equipment data table and an alarm issuing record data table, wherein the characteristic code data table is used for storing a characteristic code uniquely corresponding to the civil air defense engineering equipment, the online civil air defense engineering equipment data table is used for storing the characteristic codes of all online civil air defense engineering equipment, and the database module is used for storing received first alarm data and first alarm return data in the alarm issuing record data table; the output module is used for outputting the data output by the database module.

Preferably, the first alarm information includes a feature code of the alarm terminal, an alarm type, and alarm content.

Preferably, the feature code includes control network coding information to which the device belongs, distribution network coding information to which the device belongs, and device coding information.

Further, the alarm issuing module decodes the first alarm data, obtains a feature code of an alarm terminal receiving the first alarm information, and sequentially queries a control network code, a distribution network code and a device code corresponding to the feature code in a network civil air defense engineering device data table, so that when the corresponding civil air defense engineering device is online, the second alarm signal is sequentially sent to the corresponding alarm terminal through the control network and the distribution network corresponding to the feature code.

Preferably, the second alarm notification signal is encoded with second alarm information.

Preferably, the second alarm information further includes a first alarm information search code corresponding to the first alarm information, and the first alarm information search code and the feature code of the alarm terminal are encoded in the second alarm reply signal.

Further, the database module comprises an alarm fault recording data table, the civil air defense engineering command information system further comprises an alarm fault processing module, and when a first alarm information retrieval code contained in the first alarm return data does not exist or first alarm information corresponding to first alarm data of the same alarm information retrieval code is inconsistent with first alarm information corresponding to the first alarm return data, the alarm fault processing module is used for inputting the first alarm data and the first alarm return data into the alarm fault recording data table.

Example 1: a computer readable medium storing a civil air defense engineering command information system program, the civil air defense engineering command information system program comprising an input module, a database module, an output module and an alarm issuing module.

The input module is used for encoding first alarm information and second alarm information related to the first alarm information and outputting first alarm data; the first alarm information includes the feature code, the alarm type and the alarm content of the alarm terminal, i.e. the alarm device that needs to issue the first alarm information. The alarm type can be anti-aircraft alarms such as early warning, air attack, alarm solving and the like, and can also be disaster alarms such as disaster alarms, fire fighting and the like. The alert content generally includes all alert terminals 22, alert delivery times, needed to receive the first alert information. The second alarm information includes feature code information of the device to which the first alarm information is input, and the second alarm information may be manually input into the device together with the first alarm information through the input device 12, or may be content generated by the input module according to the feature code information of the civil air defense engineering device to which the first alarm information belongs. The first alert data may be conveniently stored on a computer writable medium. Each piece of first alarm data preferably corresponds to an alarm terminal which needs to receive the first alarm information, so that the data storage and recording are facilitated.

The alarm issuing module is used for decoding the first alarm data, encoding the first alarm data again and outputting a second alarm signal. The second alarm signal may be a communication signal or a control signal.

The second alarm signal needs to be transmitted to all the alarm terminals 22 that need to receive the first alarm information, and after the alarm terminals 22 have performed the second alarm signal they have received, a second alarm notification signal corresponding to the result of the first alarm data is issued. And the second alarm return signal codes corresponding alarm terminals to execute the information that the alarm is completely issued according to the first alarm information requirement.

And after the alarm issuing module receives a second alarm feedback signal corresponding to the execution result of the first alarm data, decoding the second alarm feedback signal, encoding again and outputting the first alarm feedback data.

The system comprises a database module, an online civil air defense engineering equipment database and an alarm issuing record database, wherein the database module comprises a characteristic code data table, an online civil air defense engineering equipment data table and an alarm issuing record data table, the characteristic code data table is used for storing a characteristic code uniquely corresponding to the civil air defense engineering equipment, the online civil air defense engineering equipment data table is used for storing the characteristic codes of all online civil air defense engineering equipment, and the database module is used for inputting received first alarm data and first alarm return data into the alarm issuing record data table; in the alarm issuance record data table, the first alarm data and the first alarm return data correspond to each other. Preferably, the second alarm information further includes a first alarm information search code corresponding to the first alarm information, and the first alarm information search code and the feature code of the alarm terminal are encoded in the second alarm reply signal. Through the second alarm information retrieval code and the alarm terminal feature code, the first alarm information and the first alarm response data can be corresponded, and the execution result of the first alarm information can be confirmed conveniently.

The output module is used for outputting the data output by the database module.

Preferably, the feature code includes control network coding information to which the device belongs, distribution network coding information to which the device belongs, and device coding information, so that the alarm terminal 22 that needs to receive the first alarm information is quickly addressed according to the feature code in the alarm issuing process, transmission time of the first alarm information can be saved, and transmission bandwidth can be saved.

Preferably, the second alarm notification signal is encoded with second alarm information, so that the second alarm notification signal can be fed back to the device which has entered the first alarm information, depending on the second alarm information.

Further, the alarm issuing module decodes the first alarm data, obtains a feature code of an alarm terminal receiving the first alarm information, and sequentially queries a control network code, a distribution network code and a device code corresponding to the feature code in a network civil air defense engineering device data table, so that when the corresponding civil air defense engineering device is online, the second alarm signal is sequentially sent to the corresponding alarm terminal through the control network and the distribution network corresponding to the feature code.

Example 2: a computer readable medium storing a civil air defense engineering command information system program, the civil air defense engineering command information system program comprising an input module, a database module, an output module, an alarm issuing module and an alarm fault handling module.

Preferably, the second alarm information further includes a first alarm information search code corresponding to the first alarm information, and the first alarm information search code is encoded in the second alarm notification signal.

Further, the database module comprises an alarm fault recording data table, and when the first alarm information retrieval code contained in the first alarm return data does not exist, or the first alarm information corresponding to the first alarm data of the same alarm information retrieval code is inconsistent with the first alarm information corresponding to the first alarm return data, the database module can determine that the alarm has a fault when the alarm is mistakenly reported or mistakenly reported. The alarm fault processing module inputs the first alarm data and the first alarm return data into the alarm fault record data table. By checking the information in the alarm fault record data table, the alarm is conveniently maintained and the fault reason is conveniently searched.

Second part of the invention: in this section, civil air defense engineering guidance information systems tend to be hardware devices with software.

Example 3: a civil air defense engineering command information system comprises an input module, a database module, an output module and an alarm issuing module.

The input module is used for encoding first alarm information and second alarm information related to the first alarm information and outputting first alarm data; the first alarm information includes the feature code, the alarm type and the alarm content of the alarm terminal, i.e. the alarm device that needs to issue the first alarm information. The alarm type can be anti-aircraft alarms such as early warning, air attack, alarm solving and the like, and can also be disaster alarms such as disaster alarms, fire fighting and the like. The alert content generally includes all alert terminals 22, alert delivery times, needed to receive the first alert information. The second alarm information includes feature code information of the device to which the first alarm information is input, and the second alarm information may be manually input into the device together with the first alarm information through the input device 12, or may be content generated by the input module according to the feature code information of the civil air defense engineering device to which the first alarm information belongs. The first alert data may be conveniently stored on a computer writable medium. Each piece of first alarm data preferably corresponds to an alarm terminal which needs to receive the first alarm information, so that the data storage and recording are facilitated.

The alarm issuing module is used for decoding the first alarm data, encoding the first alarm data again and outputting a second alarm signal. The second alarm signal may be a communication signal or a control signal.

The second alarm signal needs to be transmitted to all the alarm terminals 22 that need to receive the first alarm information, and after the alarm terminals 22 have performed the second alarm signal they have received, a second alarm notification signal corresponding to the result of the first alarm data is issued. And the second alarm return signal codes corresponding alarm terminals to execute the information that the alarm is completely issued according to the first alarm information requirement.

And after the alarm issuing module receives a second alarm feedback signal corresponding to the execution result of the first alarm data, decoding the second alarm feedback signal, encoding again and outputting the first alarm feedback data.

The system comprises a database module, an online civil air defense engineering equipment database and an alarm issuing record database, wherein the database module comprises a characteristic code data table, an online civil air defense engineering equipment data table and an alarm issuing record data table, the characteristic code data table is used for storing a characteristic code uniquely corresponding to the civil air defense engineering equipment, the online civil air defense engineering equipment data table is used for storing the characteristic codes of all online civil air defense engineering equipment, and the database module is used for inputting received first alarm data and first alarm return data into the alarm issuing record data table; in the alarm issuance record data table, the first alarm data and the first alarm return data correspond to each other. Preferably, the second alarm information further includes a first alarm information search code corresponding to the first alarm information, and the first alarm information search code and the feature code of the alarm terminal are encoded in the second alarm reply signal. Through the second alarm information retrieval code and the alarm terminal feature code, the first alarm information and the first alarm response data can be corresponded, and the execution result of the first alarm information can be confirmed conveniently.

The output module is used for outputting the data output by the database module.

Preferably, the feature code includes control network coding information to which the device belongs, distribution network coding information to which the device belongs, and device coding information, so that the alarm terminal 22 that needs to receive the first alarm information is quickly addressed according to the feature code in the alarm issuing process, transmission time of the first alarm information can be saved, and transmission bandwidth can be saved.

Preferably, the second alarm notification signal is encoded with second alarm information, so that the second alarm notification signal can be fed back to the device which has entered the first alarm information, depending on the second alarm information.

Further, the alarm issuing module decodes the first alarm data, obtains a feature code of an alarm terminal receiving the first alarm information, and sequentially queries a control network code, a distribution network code and a device code corresponding to the feature code in a network civil air defense engineering device data table, so that when the corresponding civil air defense engineering device is online, the second alarm signal is sequentially sent to the corresponding alarm terminal through the control network and the distribution network corresponding to the feature code.

Example 4: a civil air defense engineering command information system comprises an input module, a database module, an output module, an alarm issuing module and an alarm fault processing module.

Preferably, the second alarm information further includes a first alarm information search code corresponding to the first alarm information, and the first alarm information search code is encoded in the second alarm notification signal.

Further, the database module comprises an alarm fault recording data table, and when the first alarm information retrieval code contained in the first alarm return data does not exist, or the first alarm information corresponding to the first alarm data of the same alarm information retrieval code is inconsistent with the first alarm information corresponding to the first alarm return data, the database module can determine that the alarm has a fault when the alarm is mistakenly reported or mistakenly reported. The alarm fault processing module inputs the first alarm data and the first alarm return data into the alarm fault record data table. By checking the information in the alarm fault record data table, the alarm is conveniently maintained and the fault reason is conveniently searched.

Third part of the invention: in this section, a computer readable medium storing a civil air defense engineering command information system program is intended to belong to the program stored in the computer readable medium.

A civil air defense engineering command information system comprises a server, a controller and an alarm terminal, wherein the server is in communication connection with the computer readable medium which stores the program of the civil air defense engineering command information system; the alarm terminal comprises an alarm and a sound collector; the sound collector is used for collecting the sound emitted by the alarm and outputting a third return signal; the controller is used for decoding and responding to the second alarm signal and outputting an alarm driving signal for driving the alarm, and the controller is also used for decoding and encoding the third return signal and outputting the second alarm return signal.

Preferably, the sound collector is selected from a sound recorder or a sound pressure sensor.

Preferably, the power supply circuit of the alarm is connected in series with a load end of a relay, a control end of the relay is electrically connected with an output end of the controller, and when the controller receives the third feedback signal and does not send out the second alarm signal, or when the controller receives the third feedback signal and sends out the second alarm signal and the first alarm information corresponding to the second alarm feedback signal is inconsistent, the controller controls the relay to disconnect the power supply circuit of the alarm.

Example 5: a civil air defense engineering guidance information system, see fig. 1, comprises a server 1, a controller 20 and an alarm terminal 22. The server 1, the controller 20 and the alarm terminal 22 all belong to civil air defense engineering equipment, and the civil air defense engineering equipment is uniquely corresponding to a feature code.

The server 1 is connected with a computer readable medium storing a civil air defense engineering commanding information system program in a communication mode so as to operate the civil air defense engineering commanding information system program. The computer readable medium storing the civil air defense engineering command information system program can be built in a memory in the server 1, can also be hung on a data interface of the server 1 in a wired connection mode, and can also be in wireless communication connection with the server 1.

Referring to fig. 1, the input device 11 may be built in the server 1, or may be in communication connection with the server 1 through wired communication or wireless communication. Similarly, the output device 12 may be built in the server 1, or may be in communication connection with the server 1 through wired communication or wireless communication.

Generally, the server 1 is connected with a communication device 13, and the communication device 13 may be a wired communication device such as a serial bus, a parallel bus, an optical fiber, or the like, a wireless communication device such as a bluetooth, a wireless signal transceiver, or the like, or a device that realizes communication by other coupling methods such as light, sound, force, magnetism, or the like.

Generally, the controller 20 is connected with a communication device 21, and the communication device 12 and the communication device 21 can be connected in a wired, wireless, or communication network manner.

Wherein, the alarm terminal 22 comprises an alarm 221 and a sound collector 222; the controller 20 is configured to decode and respond to the second alarm signal and output an alarm driving signal for driving the alarm 221, the sound collector 222 is configured to collect the sound emitted by the alarm 221 and output a third feedback signal, and the controller 20 is further configured to decode and encode the third feedback signal and output the second alarm feedback signal.

Preferably, the sound collector 222 is selected from a sound recorder or a sound pressure sensor.

Preferably, a load terminal of the relay is connected in series to the power circuit of the alarm 221, a control terminal of the relay is electrically connected to the output terminal of the controller 20, and when the controller 20 receives the third feedback signal and the controller 20 does not send the second alarm signal, or when the controller 20 receives the third feedback signal and the controller 20 sends the second alarm signal and the first alarm information corresponding to the second alarm signal is inconsistent, the controller 20 controls the relay to disconnect the power circuit of the alarm.

Example 6: in this embodiment, the first server transmits the second alarm signal to the alarm terminal that should receive the first alarm information through the distribution network.

A computer readable medium storing a civil air defense engineering guidance information system program is connected with a first server, the first server is connected in a control network, and the feature code of an input device of the first server comprises control network coding information to which the first server belongs, distribution network coding information to which the first server belongs and input device coding information. The alarm terminal is connected in the first server distribution network, and the feature code of the alarm terminal comprises control network coding information, first server distribution network coding information and alarm terminal coding information, to which the first server belongs. And operating the civil air defense engineering command information system program in the first server and executing the following steps.

Step a, inputting first alarm information to an input module through input equipment of a first server, wherein the input equipment can be in wired communication connection with the first server, and can also be in wireless communication connection with the first server through a wireless communication network, a satellite communication network and the like. The second alarm information related to the first alarm information can be input into the first server through the input module, and related content can be generated by the input module according to the feature code information of the input device of the first server. The input module encodes the first alarm information and second alarm information related to the first alarm information, and outputs first alarm data. The input module encodes the first alarm information and the second alarm information according to each alarm terminal to generate corresponding first alarm data, and each alarm terminal which needs to receive the first alarm information corresponds to one piece of first alarm data.

And step b, the database module of the first server stores the received first alarm data in an alarm issuing record data table. And after the alarm issuing module of the first server receives and decodes the first alarm data, whether an alarm terminal corresponding to the first alarm data is on the network or not is inquired from the data table of the on-network civil defense engineering equipment. When the alarm terminal corresponding to the first alarm data is on the network, the alarm issuing module encodes the decoded first alarm data again, outputs a second alarm signal and sends the second alarm signal to the corresponding alarm terminal. When the alarm terminal corresponding to the first alarm data is not on the network, the alarm issuing module of the first server inquires the data table of the online civil defense engineering equipment according to a set period until the alarm terminal corresponding to the first alarm data is inquired to be on the network, the alarm issuing module encodes the decoded first alarm data again, outputs a second alarm signal and sends the second alarm signal to the corresponding alarm terminal.

And c, in the process that the alarm terminal gives out the alarm, the alarm terminal gives out a second alarm back signal for recording the alarm process.

And d, after the alarm issuing module receives a second alarm return signal corresponding to the execution result of the first alarm data, decoding and encoding the second alarm return signal, and outputting the first alarm return data. If the alarm terminal feature code, the alarm type and the alarm time sent by the alarm terminal which is to receive the second alarm signal are consistent with the alarm terminal feature code, the alarm type and the alarm time of the first alarm return data, the database module stores the first alarm return data in the alarm issuing record data table and corresponds to the first alarm data, and at the moment, the execution of the alarm issuing task corresponding to the first alarm information is finished.

In the process, the output module outputs the data output by the database module, and the output module connected with the first server can display information corresponding to the data output by the output module.

Preferably, the second alarm information further includes a first alarm information search code corresponding to the first alarm information, and the first alarm information search code is encoded in the second alarm notification signal, so that a situation of data confusion caused by a confusion between the execution results of the second alarm notification signal and the first alarm data in the transmission process can be avoided.

Example 7: in this embodiment, the first server is connected to the first subnet, the second server is connected to the second subnet, and the first subnet is connected to the second subnet through the control network. And inputting the first alarm information into the civil air defense engineering command information system program of the first server by using an input device connected with the first server so as to control an alarm terminal connected with the second server to give an alarm.

A computer readable medium storing a civil air defense engineering command information system program is connected with a first server, and the characteristic code of an input device of the first server comprises control network coding information of the first server, distribution network coding information of the first server and input device coding information. A computer readable medium storing a civil air defense engineering command information system program is connected with a second server, and the feature code of an alarm terminal comprises control network coding information to which the second server belongs, distribution network coding information of the second server and alarm terminal coding information. And operating the civil air defense engineering command information system program in the first server and the civil air defense engineering command information system program in the second server, and executing the following steps.

Step a, inputting first alarm information to an input module through input equipment of a first server, wherein the input equipment can be in wired communication connection with the first server, and can also be in wireless communication connection with the first server through a wireless communication network, a satellite communication network and the like.

The second alarm information related to the first alarm information can be input into the first server through the input module, and related content can be generated by the input module according to the feature code information of the input device of the first server. The input module encodes the first alarm information and second alarm information related to the first alarm information, and outputs first alarm data. The input module encodes the first alarm information and the second alarm information according to each alarm terminal to generate corresponding first alarm data, and each alarm terminal which needs to receive the first alarm information corresponds to one piece of first alarm data.

And step b, the database module of the first server stores the received first alarm data in an alarm issuing record data table. And the alarm issuing module of the first server decodes the first alarm data and inquires whether the second server is online from the online civil defense engineering equipment data table. When the second server is on the network, the alarm issuing module of the first server encodes the decoded first alarm data again and outputs a second alarm signal to the second server. The second alarm signal needs to be transmitted to the second server to which the alarm terminal 22 that needs to receive the first alarm information is connected. When the second server is not on the network, the alarm issuing module of the first server inquires the data table of the online civil defense engineering equipment according to a set period, and when the second server is on the network, the alarm issuing module of the first server encodes the decoded first alarm data again and outputs a second alarm signal to the second server.

And c, the second server receives and decodes the second alarm signal and outputs first alarm data. The database module of the second server stores the received first alarm data in the alarm issuance record data table. And an alarm issuing module of the second server decodes the first alarm data, and inquires whether an alarm terminal corresponding to the first alarm data is on the network or not from the data table of the on-network civil defense engineering equipment. When the alarm terminal corresponding to the first alarm data is on the network, the alarm issuing module of the second server encodes the decoded first alarm data, outputs a second alarm signal and issues the second alarm signal to the corresponding alarm terminal. When the alarm terminal corresponding to the first alarm data is not on the network, the alarm issuing module of the second server inquires the data table of the online civil defense engineering equipment according to a set period until the alarm terminal corresponding to the first alarm data is inquired on the network, the alarm issuing module of the second server encodes and decodes the first alarm data, outputs a second alarm signal and issues the second alarm signal to the corresponding alarm terminal.

And d, in the process of sending out the alarm by the alarm terminal, sending out a second alarm back signal for recording the alarm process by the alarm terminal.

And e, after the alarm issuing module of the second server receives a second alarm return signal corresponding to the execution result of the first alarm data, decoding and encoding the second alarm return signal, and outputting the first alarm return data. And if the alarm terminal feature code, the alarm type and the alarm time sent by the alarm terminal which is supposed to receive the second alarm signal are consistent with the alarm terminal feature code, the alarm type and the alarm time of the first alarm return data, the database module of the second server stores the first alarm return data in the alarm issuing record data table and corresponds to the first alarm data, and sends the second alarm return signal to the first server.

And f, after the alarm issuing module of the first server receives a second alarm feedback signal corresponding to the execution result of the first alarm data through the control network, decoding the second alarm feedback signal, encoding again and outputting the first alarm feedback data. And the database module of the first server stores the first alarm return data in the alarm issuing record data table and corresponds to the first alarm data, and at the moment, the alarm issuing task corresponding to the first alarm information is executed completely.

In the process, the output module outputs the data output by the database module, and the output module connected with the first server can display information corresponding to the data output by the output module.

Preferably, the second alarm information further includes a first alarm information search code corresponding to the first alarm information, and the first alarm information search code is encoded in the second alarm notification signal, so that a situation of data confusion caused by a confusion between the execution results of the second alarm notification signal and the first alarm data in the transmission process can be avoided.

Finally, the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and other modifications or equivalent substitutions made by the technical solutions of the present invention by those of ordinary skill in the art should be covered within the scope of the claims of the present invention as long as they do not depart from the spirit and scope of the technical solutions of the present invention.

Claims (3)

1. A civil air defense engineering command information system is characterized by comprising an input module, a database module, an output module, an alarm issuing module, a controller and an alarm terminal;

the input module is used for encoding first alarm information and second alarm information related to the first alarm information and outputting first alarm data, wherein the second alarm information comprises feature code information of equipment for inputting the first alarm information; the first alarm information comprises a feature code, an alarm type and alarm content of an alarm terminal, wherein the feature code comprises control network coding information to which the equipment belongs, distribution network coding information to which the equipment belongs and equipment coding information;

the alarm issuing module is used for decoding the first alarm data, encoding again and outputting a second alarm signal, the alarm issuing module decodes the first alarm data, obtains a feature code of an alarm terminal receiving the first alarm information, and sequentially inquires a control network code, a distribution network code and a device code corresponding to the feature code in a network civil air defense engineering equipment data table so as to send the second alarm signal to the corresponding alarm terminal through the control network and the distribution network corresponding to the feature code when the corresponding civil air defense engineering equipment is online;

the controller is used for decoding and responding to the second alarm signal and outputting an alarm driving signal for driving an alarm;

the alarm terminal comprises an alarm and a sound collector; the sound collector is used for collecting the sound emitted by the alarm and outputting a third return signal;

the controller is also used for decoding and encoding the third return signal and outputting a second alarm return signal;

after receiving a second alarm prompt signal corresponding to the execution result of the first alarm data, the alarm issuing module decodes the second alarm prompt signal and encodes the second alarm prompt signal again, and outputs the first alarm prompt data; the second alarm return signal is encoded with second alarm information, the second alarm information further comprises a first alarm information retrieval code corresponding to the first alarm information, and the second alarm return signal is encoded with the first alarm information retrieval code and a feature code of the alarm terminal;

the database module comprises a characteristic code data table, an online civil air defense engineering equipment data table and an alarm issuing record data table, wherein the characteristic code data table is used for storing a characteristic code uniquely corresponding to the civil air defense engineering equipment, the online civil air defense engineering equipment data table is used for storing the characteristic codes of all online civil air defense engineering equipment, and the database module is used for storing received first alarm data and first alarm return data in the alarm issuing record data table; the database module further comprises an alarm fault recording data table, the civil air defense engineering command information system further comprises an alarm fault processing module, and when a first alarm information retrieval code contained in the first alarm return data does not exist, or first alarm information corresponding to first alarm data of the same alarm information retrieval code is inconsistent with first alarm information corresponding to the first alarm return data, the alarm fault processing module is used for inputting the first alarm data and the first alarm return data into the alarm fault recording data table;

the output module is used for outputting the data output by the database module.

2. The civil air defense engineering guidance information system of claim 1, wherein the sound collector selects a sound recorder or a sound pressure sensor.

3. The civil air defense engineering command information system of claim 1, wherein a load end of a relay is connected in series with a power circuit of the alarm, a control end of the relay is electrically connected with an output end of the controller, and when the controller receives the third return signal and does not send out the second alarm signal, or when the controller receives the third return signal and sends out the second alarm signal and the first alarm information corresponding to the second alarm signal is inconsistent, the controller controls the relay to disconnect the power circuit of the alarm.

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