Disclosure of Invention
Aiming at the problems existing in the prior art, the invention provides an emergency management communication method, an emergency management communication system, a storage medium and computer equipment.
The present invention is embodied in an emergency management communication system comprising:
the bulletin publishing and receiving module integrates bulletin publishing functions in a group-level application platform and bulletin receiving functions in an enterprise-level application platform;
the instant communication module comprises Web-end chat software and mobile-end chat software; the Web-end chat software is integrated in an intelligent fire-fighting Internet of things Web platform based on a BS mode; the mobile terminal chatting software is integrated in an intelligent fire fighting mobile phone App.
Further, in the emergency management communication system, the group-level application product is deployed in public cloud, and the enterprise-level application product is deployed in private cloud.
Further, the emergency management communication system further includes:
the information acquisition module is connected with the central control module and is used for acquiring fire fighting information through the information acquisition equipment;
the emergency response module is connected with the central control module and is used for responding the fire information to the notice publishing and receiving module through an emergency response program and carrying out internal communication through the instant communication module;
the central control module is connected with the notice publishing and receiving module, the instant communication module, the information acquisition module, the emergency response module, the emergency plan making module, the fire rescue module, the cloud storage module and the updating display module and is used for cooperatively controlling the normal operation of each module of the emergency management communication system through the central processor;
the emergency plan making module is connected with the central control module and is used for making a corresponding fire-fighting emergency plan according to fire-fighting information through an emergency plan making program;
the fire-fighting rescue module is connected with the central control module and is used for matching the information of the volunteer firefighters with the information of the fire-fighting equipment through a fire-fighting emergency plan and mobilizing the volunteer firefighters and the fire-fighting equipment nearest to the fire-fighting place for fire-fighting rescue;
the cloud storage module is connected with the central control module and used for storing the acquired fire fighting information, the emergency response result, the fire fighting emergency plan and the fire fighting rescue result through the cloud database server;
the updating display module is connected with the central control module and used for updating and displaying the acquired real-time data of the fire-fighting information, the emergency response result, the fire-fighting emergency plan and the fire-fighting rescue result through the display.
Another object of the present invention is to provide an emergency management communication method using the emergency management communication system, the emergency management communication method including the steps of:
step one, fire fighting information is acquired by utilizing information acquisition equipment through an information acquisition module;
responding the fire information to the notice publishing and receiving module and the instant communication module by using an emergency response program through an emergency response module;
thirdly, publishing the bulletin to the enterprise-level application by using the group-level application through the bulletin publishing and receiving module;
realizing internal communication of the group-level application and the enterprise-level application by using Web-side chat software and mobile-side chat software through an instant communication module;
step five, the central control module is utilized to coordinate and control the normal operation of each module of the emergency management communication system by utilizing the central processor;
step six, an emergency plan making module is used for making a corresponding fire-fighting emergency plan according to fire-fighting information by utilizing an emergency plan making program;
step seven, matching the information of the volunteer firefighters and the information of the firefighting equipment by using a firefighting emergency plan through a firefighting rescue module, and mobilizing the volunteer firefighters and the firefighting equipment nearest to the firefighting place to perform firefighting rescue;
step eight, the cloud storage module is used for storing the acquired fire fighting information, the emergency response result, the fire fighting emergency plan and the fire fighting rescue result by using a cloud database server;
and step nine, updating and displaying the acquired real-time data of the fire fighting information, the emergency response result, the fire fighting emergency plan and the fire fighting rescue result by using a display through an updating and displaying module.
Further, in the first step, the fire information includes any one or more of fire type, fire location, building model, weather condition.
Further, in the third step, the group level application issues an announcement to the enterprise level application, including:
(1) The group-level application publishes the bulletin, adds the bulletin to the message queue of each enterprise through the route of the message middleware, subscribes to the respective message queue, and pushes the bulletin to the enterprise-level platform bulletin board after receiving the message;
(2) After receiving the bulletin, the enterprise-level platform needs to confirm receipt, and adds the message into the message queues after confirming receipt, the group-level platform subscribes to each message queue, and pushes the confirmed message to the bulletin board after receiving the confirmation.
Further, in the fourth step, the internal communication between the group-level application and the enterprise-level application includes:
the client sends out the message, the server receives the message, and the message is put into a queue of the message middleware after the message is received; one end of the queue which sends the message is called a message producer, and one end of the queue which receives the message is called a message consumer; after the consumption is put into the queue, the consumer receives the message and judges whether the user is online;
if the message is pushed to the receiver online, then the message is stored in a non-relational database, and whether the received field is set to true or not; if the message receiver is not online, saving the message into a non-relational database, and setting a received field as false; after the client logs on the platform, firstly checking whether unread information exists or not, and if so, taking out the unread information from the library;
if the online chat users are more, the characteristics of the message middleware can solve the problem, and the message middleware cluster can be deployed to solve the larger concurrency problem; chat data is document data, and NoSql database is used for storing the chat data appropriately; the relational database stores user and organization information; the file system stores pictures, audio and video data of the chat.
In a sixth step, the step of using the emergency plan making module to make a corresponding fire emergency plan according to the fire information by using an emergency plan making program includes:
(1) Matching a corresponding fire-fighting emergency plan model from a fire-fighting emergency plan model library according to the fire-fighting information;
(2) Matching corresponding fire-fighting alarm schemes according to the fire-fighting emergency plan model;
(3) And selectively scheduling the volunteer firefighters and the firefighting equipment nearest to the firefighting place according to the corresponding firefighting alarm scheme.
It is a further object of the present invention to provide a computer program product stored on a computer readable medium, comprising a computer readable program for providing a user input interface for implementing the emergency management communication method when executed on an electronic device.
It is another object of the present invention to provide a computer readable storage medium storing instructions that, when executed on a computer, cause the computer to perform the emergency management communication method.
By combining all the technical schemes, the invention has the advantages and positive effects that: the emergency management communication method provided by the invention can well meet the special requirements of the fire-fighting industry and avoid the problems caused by common tools. The invention can realize instant question and answer and communication collaboration on the fire-fighting professional platform, saves time and labor, is a novel platform management method and is an effective enterprise management method.
The invention mainly realizes even communication on the fire-fighting professional platform, which is divided into two aspects of group-level application and enterprise-level application, and the group-level layer can realize the announcement and the public indication of groups to all enterprises and the instant communication between groups and enterprises. In the aspect of enterprise level, functions are the same as WeChat, enterprises can communicate with each other, instant question-answering and communication collaboration among enterprises can be realized, and the communication modes are as follows: text, picture, video, voice call.
The invention also has the following positive effects: (1) Chat data can be deployed locally, and the requirements of business and confidentiality are met; can manage: downloading and exporting; (2) Chat data can be combined with fire alarm service, the process of complex alarm condition processing can be analyzed, and timeliness, rationality and effectiveness of processing can be traced; (3) The system can be used as a communication tool for ordinary times and war time in the fire service range, and is integrally managed; (4) The communication cooperation mode of the group set and the enterprise level can effectively improve the working efficiency.
Detailed Description
The present invention will be described in further detail with reference to the following examples in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.
In view of the problems existing in the prior art, the present invention provides an emergency management communication method, system, storage medium, and computer device, and the present invention is described in detail below with reference to the accompanying drawings.
As shown in fig. 1, an emergency management communication system provided in an embodiment of the present invention includes:
the information acquisition module 1 is connected with the central control module 5 and is used for acquiring fire fighting information through information acquisition equipment;
the emergency response module 2 is connected with the central control module 5 and is used for responding the fire information to the notice publishing and receiving module and the instant communication module through an emergency response program;
the bulletin publishing and receiving module 3 is connected with the central control module 5, the bulletin publishing function is integrated in a group-level application platform, and the bulletin receiving function is integrated in an enterprise-level application platform;
the instant communication module 4 is connected with the central control module 5 and comprises Web-end chat software and mobile-end chat software; the Web-end chat software is integrated in an intelligent fire-fighting Internet of things Web platform based on a BS mode; the mobile terminal chatting software is integrated in an intelligent fire fighting mobile phone App;
the central control module 5 is connected with the information acquisition module 1, the emergency response module 2, the notice release and receiving module 3, the instant communication module 4, the emergency plan making module 6, the fire rescue module 7, the cloud storage module 8 and the updating display module 9 and is used for cooperatively controlling the normal operation of each module of the emergency management communication system through the central processor;
the emergency plan making module 6 is connected with the central control module 5 and is used for making a corresponding fire-fighting emergency plan according to fire-fighting information through an emergency plan making program;
the fire-fighting rescue module 7 is connected with the central control module 5 and is used for matching the information of the volunteer firefighters and the information of the fire-fighting equipment through a fire-fighting emergency plan and mobilizing the volunteer firefighters and the fire-fighting equipment nearest to the fire-fighting place to carry out fire-fighting rescue;
the cloud storage module 8 is connected with the central control module 5 and is used for storing the acquired fire fighting information, the emergency response result, the fire fighting emergency plan and the fire fighting rescue result through the cloud database server;
and the updating display module 9 is connected with the central control module 5 and is used for updating and displaying the acquired real-time data of the fire-fighting information, the emergency response result, the fire-fighting emergency plan and the fire-fighting rescue result through a display.
As shown in fig. 2, the emergency management communication method provided by the embodiment of the invention includes the following steps:
s101, acquiring fire information by using information acquisition equipment through an information acquisition module;
s102, responding fire information to the notice publishing and receiving module and the instant communication module by using an emergency response program through an emergency response module;
s103, publishing the bulletins to the enterprise-level application by using the group-level application through the bulletin publishing and receiving module;
s104, realizing internal communication of the group-level application and the enterprise-level application by utilizing Web-side chat software and mobile-side chat software through an instant communication module;
s105, the central control module is used for cooperatively controlling the normal operation of each module of the emergency management communication system by using the central processor;
s106, an emergency plan making module makes a corresponding fire-fighting emergency plan according to fire-fighting information by using an emergency plan making program;
s107, matching the information of the volunteer firefighters and the information of the firefighting equipment by using a firefighting emergency plan through a firefighting rescue module, and mobilizing the volunteer firefighters and the firefighting equipment nearest to the firefighting place to perform firefighting rescue;
s108, the cloud storage module is used for storing the acquired fire fighting information, the emergency response result, the fire fighting emergency plan and the fire fighting rescue result by using a cloud database server;
and S109, updating and displaying the acquired real-time data of the fire-fighting information, the emergency response result, the fire-fighting emergency plan and the fire-fighting rescue result by using a display through an updating and displaying module.
In step S101 provided by the embodiment of the present invention, the fire protection information includes any one or more of fire protection type, fire protection location, building model, and weather condition.
As shown in fig. 3, in step S103 provided by the embodiment of the present invention, the group-level application publishes an announcement to an enterprise-level application, including:
s201, the group-level application publishes the bulletin, the bulletin is added to the message queues of all enterprises through the route of the message middleware, all enterprise-level applications subscribe to the respective message queues, and the bulletin is pushed to the bulletin board of the enterprise-level platform after receiving the message;
s202, after receiving the notice, the enterprise-level platform confirms the receipt, and after confirming the receipt, the information is added into the information queues, the group-level platform subscribes to the information queues, and after receiving the confirmation, the confirmed information is pushed to the notice board.
In step S104 provided by the embodiment of the present invention, internal communication between the group-level application and the enterprise-level application includes:
the client sends out the message, the server receives the message, and the message is put into a queue of the message middleware after the message is received; one end of the queue which sends the message is called a message producer, and one end of the queue which receives the message is called a message consumer; after the consumption is put into the queue, the consumer receives the message and judges whether the user is online;
if the message is pushed to the receiver online, then the message is stored in a non-relational database, and whether the received field is set to true or not; if the message receiver is not online, saving the message into a non-relational database, and setting a received field as false; after the client logs on the platform, firstly checking whether unread information exists or not, and if so, taking out the unread information from the library;
if the online chat users are more, the characteristics of the message middleware can solve the problem, and the message middleware cluster can be deployed to solve the larger concurrency problem; chat data is document data, and NoSql database is used for storing the chat data appropriately; the relational database stores user and organization information; the file system stores pictures, audio and video data of the chat.
As shown in fig. 4, in step S106 provided by the embodiment of the present invention, the emergency plan making module makes a corresponding fire emergency plan according to fire information by using an emergency plan making program, including:
s301, matching a corresponding fire-fighting emergency plan model from a fire-fighting emergency plan model library according to the fire-fighting information;
s302, matching corresponding fire-fighting alarm schemes according to the fire-fighting emergency scheme model;
s303, selectively scheduling volunteer firefighters and firefighting equipment nearest to the firefighting place according to the corresponding firefighting alarm scheme.
The technical scheme of the invention is further described below by combining the embodiments.
The invention provides a systematic solution for the application scene of the fire-fighting industry, which can well meet the special requirements of the fire-fighting industry and avoid the problems caused by common tools.
The invention mainly realizes even communication on the fire-fighting professional platform, which is divided into two aspects of group-level application and enterprise-level application, and the group-level layer can realize the announcement and the public indication of groups to all enterprises and the instant communication between groups and enterprises. In the aspect of enterprise level, functions are the same as WeChat, enterprises can communicate with each other, instant question-answering and communication collaboration among enterprises can be realized, and the communication modes are as follows: text, picture, video, voice call.
The invention can realize instant question and answer and communication collaboration on the fire-fighting professional platform, saves time and labor, is a novel platform management method and is an effective enterprise management method.
1. Main function
(1) Bulletin board
And the bulletin function, the bulletin publishing function is integrated in the group-level application platform, and the bulletin receiving function is integrated in the enterprise-level application platform.
(2) Instant messaging
The Web-end chatting software and the BS mode are integrated in an intelligent fire-fighting Internet of things Web platform;
and the mobile terminal chatting software is integrated in the intelligent fire fighting mobile phone App.
2. Deployment mode
The group-level application product is deployed in public cloud, and the enterprise-level application product is deployed in private cloud.
3. Technical proposal
3.1 technical scheme for group-level application to issue bulletins to enterprise-level application
As shown in fig. 5, the group-level application publishes the advertisement, adds the advertisement to the message queues of each enterprise through the route of the message middleware, subscribes to each respective message queue, and pushes the message to the enterprise-level platform bulletin board after receiving the message.
As shown in fig. 6, after receiving the announcement, the enterprise platform needs to acknowledge the receipt, after acknowledging the receipt, the message is added into the message queues, the group platform subscribes to each message queue, and after receiving the acknowledgement, pushes the acknowledged message to the announcement column.
3.2 group-level application and enterprise-level application internal communication technical scheme
As shown in fig. 7, a client sends out a message, a server receives the message, and puts the message into a queue of a message middleware after receiving the message; one end of the queue which sends the message is called a message producer, and one end of the queue which receives the message is called a message consumer; after the consumption is put into the queue, the consumer receives the message, judges whether the user is online, if so, pushes the message to the receiver, then stores the message into a non-relational database, and sets the received field as true; if the message receiver is not online, saving the message into a non-relational database, and setting a received field as false; after the client logs on the platform, it first checks if there is an unread message, if so, it is fetched from the library.
If the online chat users are more, the characteristics of the message middleware can solve the problem, and the message middleware cluster can be deployed to solve the larger concurrency problem; chat data is document data, and NoSql database is used for storing the chat data appropriately; the relational database stores user and organization information; the file system stores data such as pictures, audio, video, etc. of the chat.
The invention has the following positive effects:
(1) Chat data can be deployed locally, and the requirements of business and confidentiality are met; can manage: downloading and exporting;
(2) Chat data can be combined with fire alarm service, the process of complex alarm condition processing can be analyzed, and timeliness, rationality and effectiveness of processing can be traced;
(3) The system can be used as a communication tool for ordinary times and war time in the fire service range, and is integrally managed;
(4) The communication cooperation mode of the group set and the enterprise level can effectively improve the working efficiency.
In the above embodiments, it may be implemented in whole or in part by software, hardware, firmware, or any combination thereof. When used in whole or in part, is implemented in the form of a computer program product comprising one or more computer instructions. When loaded or executed on a computer, produces a flow or function in accordance with embodiments of the present invention, in whole or in part. The computer may be a general purpose computer, a special purpose computer, a computer network, or other programmable apparatus. The computer instructions may be stored in a computer-readable storage medium or transmitted from one computer-readable storage medium to another computer-readable storage medium, for example, the computer instructions may be transmitted from one website, computer, server, or data center to another website, computer, server, or data center by a wired (e.g., coaxial cable, fiber optic, digital Subscriber Line (DSL), or wireless (e.g., infrared, wireless, microwave, etc.) means. The computer readable storage medium may be any available medium that can be accessed by a computer or a data storage device such as a server, data center, etc. that contains an integration of one or more available media. The usable medium may be a magnetic medium (e.g., floppy Disk, hard Disk, magnetic tape), an optical medium (e.g., DVD), or a semiconductor medium (e.g., solid State Disk (SSD)), etc.
The foregoing is merely illustrative of specific embodiments of the present invention, and the scope of the invention is not limited thereto, but any modifications, equivalents, improvements and alternatives falling within the spirit and principles of the present invention will be apparent to those skilled in the art within the scope of the present invention.