CN115146291A - Intelligent inspection system and inspection method for fire fighting truck equipment - Google Patents

Abstract

The invention provides an intelligent inspection system for equipment of a fire fighting truck, which comprises: the system comprises a fire fighting truck intelligent terminal device, an internet of things split patrol detector, a radio frequency antenna, an embedded electronic tag, a fire fighting truck intelligent multi-card fusion terminal and an industrial internet platform; the intelligent terminal device of the fire fighting truck is connected with the internet of things split patrol detector through a network cable; the internet of things split polling device is connected with the radio frequency antenna through a box body connecting wire; the fire engine intelligent terminal device is characterized in that fire engine intelligent multi-card fusion terminals are connected through network cables; the radio frequency antenna scans the data information of the embedded electronic tag through a radio frequency signal; the intelligent multi-card fusion terminal of the fire fighting truck is connected and communicated with the industrial internet platform through an industrial internet communication protocol RTAIOT or an internet of things RTP. The corresponding intelligent inspection method is also disclosed, so that the manual active inspection time, energy and rescue time are greatly saved.

Description

Intelligent inspection system and inspection method for fire fighting truck equipment

Technical Field

The invention relates to the technical field of fire fighting truck equipment, in particular to an intelligent inspection system and an inspection method for fire fighting truck equipment.

Background

With the rapid development of economy and the occurrence of more fire accidents, if no effective method, proper facilities and equipment are available during the accidents, the people can forcibly enter the accident site to take actions, so that the expected rescue effect cannot be achieved, and the life safety of rescuers is seriously threatened. After a plurality of large-scale disaster accidents occur, the intelligent call for the fire engine is higher and higher in China, and a one-layer guarantee is strived for the firefighters. In the process of fire fighting, the multiple modules of the fire fighting truck play a role in lifting weight, but how to ensure the integrity and the usability of equipment in each module of the fire fighting truck is always a concern for fire fighters. The traditional inspection mode is manual active inspection, the inspection mode is greatly limited by time and space, and accurate dynamic monitoring is difficult to achieve.

Disclosure of Invention

In order to overcome the problems in the prior art, the invention aims to provide an intelligent inspection system and an inspection method for equipment of a fire fighting truck, the system and the method are used for intelligent fire fighting along with further maturity of technologies such as cloud computing, internet of things, artificial intelligence and the like, intelligent inspection of the equipment of the fire fighting truck is realized by combining the Internet of things technology with an industrial Internet platform, the system greatly saves manual active inspection time and energy, and precious gold rescue time is saved for the fire fighting truck to police.

A first aspect of the present invention provides an intelligent inspection system for fire fighting vehicle equipment, comprising:

the system comprises a fire fighting truck intelligent terminal device, an internet of things split patrol detector, a radio frequency antenna, an embedded electronic tag, a fire fighting truck intelligent multi-card fusion terminal and an industrial internet platform;

the intelligent terminal device of the fire fighting truck is connected with the internet of things split patrol detector through a network cable;

the internet of things split patrol detector is connected with the radio frequency antenna through a box body connecting line;

the fire fighting truck intelligent terminal device is connected with the fire fighting truck intelligent multi-card fusion terminal through a network cable;

the fire fighting truck intelligent multi-card fusion terminal is connected and communicated with the industrial internet platform through a communication protocol;

the radio frequency antenna scans the data information of the embedded electronic tag through a radio frequency signal;

the fire engine intelligent multi-card fusion terminal is connected and communicated with the industrial internet platform through an industrial internet communication protocol RTAIOT or an internet of things RTP (RTPIOT) protocol.

Preferably, the radio frequency antenna is the special-shaped radio frequency antenna.

The invention provides a second aspect of the invention provides an intelligent inspection method for equipment of a fire engine, which comprises the following steps:

s1, encrypting, sending and analyzing a polling request for one time;

s2, packaging, secondary encryption and secondary transmission of the analyzed information obtained after the primary decryption and the primary decryption;

s3, secondary receiving, secondary decrypting and secondary analyzing of the information; and

and S4, the intelligent terminal device of the fire fighting truck intelligently inspects equipment of the fire fighting truck based on the information after secondary analysis.

Preferably, the S1 includes:

s11, after the intelligent terminal device of the fire fighting truck is powered on, an encryption command for acquiring a distributor list of the fire fighting truck is sent to the intelligent multi-card fusion terminal of the fire fighting truck;

and S12, the fire engine multi-card fusion terminal analyzes the encryption command into an industrial Internet communication protocol RTAIOT.

Preferably, the S2 includes:

s21, after receiving the industrial Internet communication protocol RTAIOT, the industrial Internet platform decrypts the industrial Internet communication protocol RTAIOT through an algorithm decryption protocol;

s22, analyzing the decrypted industrial Internet communication protocol RTAIOT so as to obtain a list of equipment of the fire truck;

s23, the industrial Internet platform packages the fire fighting truck equipment list into an RTAIOT communication protocol;

and S24, encrypting the RTAIOT communication protocol through an encryption algorithm, and sending the encrypted RTAIOT communication protocol to the multi-card fusion terminal of the fire fighting truck.

Preferably, the S3 includes:

s31, the fire fighting truck multi-card fusion terminal decrypts the received data based on a decryption algorithm;

and S32, analyzing the decrypted data into a fire fighting truck equipment list, and sending the fire fighting truck equipment list to the fire fighting truck intelligent terminal device.

Preferably, the S4 includes:

s41, the intelligent terminal device of the fire fighting truck sends a command of scanning equipment of the fire fighting truck to the internet of things split patrol inspector;

s42, the internet of things split patrol detector scans the embedded electronic tags of the equipment storage positions of the fire fighting truck through the radio frequency antenna through radio frequency signals, and collects information of the embedded electronic tags and returns the information to the internet of things split patrol detector;

s42, the internet of things split patrol detector preprocesses the information and then returns the information to the intelligent terminal device of the fire fighting truck;

s43, evaluating equipment of the fire fighting truck by the intelligent terminal device of the fire fighting truck through an algorithm, wherein the evaluation comprises evaluation on completeness and usability of the equipment of the fire fighting truck;

s44, if the equipment of the fire fighting truck has a leak after the completeness and the availability are evaluated, giving an alarm prompt, locally storing a command for recording an evaluation state in an intelligent terminal device of the fire fighting truck, and sending the command for recording the evaluation state to the multi-card fusion terminal of the fire fighting truck;

s45, the fire fighting truck multi-card fusion terminal packages the command for recording the evaluation state into an RTAIOT communication protocol, encrypts the RTAIOT communication protocol through an encryption algorithm and then sends the RTAIOT communication protocol to the industrial Internet platform;

and S46, the industrial Internet platform decrypts the encrypted command for recording the evaluation state through a decryption algorithm, analyzes and packages the command and stores the evaluation state.

Preferably, the preprocessing comprises removing duplicate information in the information by a deduplication algorithm.

Preferably, the intelligent terminal device of the fire fighting truck evaluates the completeness of equipment of the fire fighting truck through an algorithm, wherein the algorithm comprises a contour scanning algorithm and an analysis algorithm.

Preferably, the encryption algorithm is a SCADA network industrial information encryption algorithm based on digital signatures, a DES and SM4 encryption algorithm, a lightweight cipher algorithm SM9, a national cipher SM3/SM4 encryption algorithm or a hybrid encryption method, and the hybrid encryption method includes: firstly, encrypting the information by adopting an AES algorithm, and then encrypting an AES key by adopting a CP-ABE algorithm so as to obtain shorter encryption time and higher security; the decryption algorithm corresponds to the encryption algorithm one to one.

The invention has the beneficial effects that:

based on internet of things technology combines industry internet platform + AI algorithm, realize patrolling and examining the equipment intelligence of fire engine, this system has greatly saved artifical initiative time and energy of patrolling and examining, saves precious gold rescue time for the fire engine is policed. The intelligent terminal device of the fire fighting truck displays the quantity and the dynamic state of the vehicle-mounted equipment in real time, and the position of the special equipment is early-warned and reported, so that the time and the energy for manual active routing inspection are greatly saved. Meanwhile, accurate data are provided for a rescue scene commanding and commanding center, and efficient commanding and rescue decision is realized.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent inspection system for equipment of a fire fighting truck according to an embodiment of the invention.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings, but the present invention is not limited thereto.

Referring to fig. 1, an intelligent inspection system for fire fighting vehicle equipment includes:

the system comprises a fire fighting truck intelligent terminal device 1, an internet of things split patrol detector 3, a radio frequency antenna 5, an embedded electronic tag 6, a fire fighting truck intelligent multi-card fusion terminal 8 and an industrial internet platform 9;

the intelligent terminal device 1 of the fire fighting truck is connected with the internet of things split patrol detector 3 through a network cable 2;

the internet of things split polling device 3 is connected with the radio frequency antenna 5 through a box body connecting wire 4;

the fire fighting truck intelligent terminal device 1 is connected with a fire fighting truck intelligent multi-card fusion terminal 8 through a network cable 7;

the intelligent multi-card fusion terminal 8 of the fire fighting truck is connected and communicated with the industrial internet platform 9 through a communication protocol;

the radio frequency antenna 5 scans the data information of the embedded electronic tag 6 through radio frequency signals.

As a preferred embodiment, the intelligent multi-card fusion terminal 8 of the fire fighting truck is in connection communication with the industrial internet platform 9 through an industrial internet communication protocol RTAIOT or an internet of things RTP (RTPIOT) protocol; the data transmission Protocol RTP is used for transmitting data in Real time, the full name of the RTP is Real-time Transport Protocol Real-time transmission Protocol, the standard is provided by IETF, and the corresponding RFC document is RFC3550.RFC3550 defines not only RTP but also related Protocol RTCPREAL-time Transport Control Protocol, namely real-time Transport Control Protocol. RTP is used to provide end-to-end real-time transmission service for various multimedia data requiring real-time transmission, such as voice, image, fax, etc., over an IP network. RTP provides time information and stream synchronization for end-to-end real-time transmission over the Internet, but does not guarantee quality of service, which is provided by RTCP.

In a preferred embodiment, the rf antenna 5 is a profiled rf antenna.

The invention also aims to provide an intelligent inspection method for equipment of the fire fighting truck, which comprises the following steps:

s1, encrypting, sending and analyzing the routing inspection request for one time;

s2, packaging, secondary encryption and secondary transmission of the analyzed information obtained after primary decryption and primary decryption;

s3, secondary receiving, secondary decrypting and secondary analyzing of the information;

and S4, the intelligent terminal device 1 of the fire fighting truck intelligently patrols equipment of the fire fighting truck based on the information after secondary analysis.

As a preferred embodiment, S1 includes:

s11, after the intelligent terminal device 1 of the fire fighting truck is powered on, an encryption command for acquiring a distributor list of the fire fighting truck is sent to the intelligent multi-card fusion terminal 8 of the fire fighting truck;

s12, the fire engine multi-card fusion terminal 8 analyzes the encryption command into an industrial Internet communication protocol RTAIOT.

As a preferred embodiment, S2 includes:

s21, after receiving an industrial Internet communication protocol RTAIOT, the industrial Internet platform 9 decrypts the industrial Internet communication protocol RTAIOT through an algorithm decryption protocol;

s22, analyzing the decrypted industrial Internet protocol RTAIOT to obtain a list of equipment of the fire truck;

s23, the industrial internet platform 9 packages the list of the equipment of the fire truck into an RTAIOT communication protocol;

and S24, encrypting the RTAIOT communication protocol through an encryption algorithm, and sending the encrypted RTAIOT communication protocol to the multi-card fusion terminal 8 of the fire fighting truck.

As a preferred embodiment, S3 includes:

s31, the fire engine multi-card fusion terminal 8 decrypts the received data based on a decryption algorithm;

and S32, analyzing the decrypted data into a fire truck equipment list, and sending the fire truck equipment list to the fire truck intelligent terminal device 1.

As a preferred embodiment, S4 comprises:

s41, the intelligent terminal device 1 of the fire fighting truck sends a command for scanning equipment of the fire fighting truck to the internet of things split patrol detector 3;

s42, the internet of things split patrol detector 3 scans the embedded electronic tags 6 of the equipment storage positions of the fire fighting truck through the radio frequency antenna 5 through radio frequency signals, and summarizes the information of the embedded electronic tags 6 and returns the information to the internet of things split patrol detector 3;

s42, the internet of things split polling device 3 preprocesses the information and returns the information to the intelligent terminal device 1 of the fire fighting truck;

s43, the fire fighting truck intelligent terminal device 1 evaluates fire fighting truck equipment through an algorithm, and the evaluation comprises evaluation of completeness and usability of the fire fighting truck equipment;

s44, if the equipment of the fire fighting truck has a leak after the completeness and the availability are evaluated, giving an alarm prompt, locally storing a command for recording the evaluation state in the intelligent terminal device 1 of the fire fighting truck, and sending the command for recording the evaluation state to the multi-card fusion terminal 8 of the fire fighting truck;

s45, the fire engine multi-card fusion terminal 8 packages the command for recording the evaluation state into an RTAIOT communication protocol, encrypts the RTAIOT communication protocol through an encryption algorithm and then sends the RTAIOT communication protocol to the industrial Internet platform 9;

and S46, the industrial Internet platform 9 decrypts the encrypted command for recording the evaluation state through a decryption algorithm, analyzes the package, and stores the evaluation state.

As a preferred embodiment, the preprocessing comprises removing duplicate information in the information by a deduplication algorithm.

As a preferred embodiment, the fire fighting vehicle intelligent terminal device 1 performs completeness evaluation on fire fighting vehicle equipment through algorithms including contour scanning and analysis algorithms.

As a preferred embodiment, the encryption algorithm is a SCADA network industry information encryption algorithm based on digital signatures, a DES and SM4 encryption algorithm, a lightweight cipher algorithm SM9, a national cipher SM3/SM4 encryption algorithm, or a hybrid encryption method, and the hybrid encryption method includes: firstly, encrypting information by adopting an AES algorithm, and then encrypting an AES key by using a CP-ABE algorithm so as to obtain shorter encryption time and higher security; the decryption algorithm corresponds to the encryption algorithm one to one.

The embodiment combines an industrial internet platform and an AI algorithm based on the internet of things technology, realizes intelligent inspection of equipment of the fire fighting truck, greatly saves manual active inspection time and energy, and saves precious gold rescue time for the fire fighting truck to police. The intelligent terminal device of the fire fighting truck displays the quantity and the dynamic state of the vehicle-mounted equipment in real time, and the position of the special equipment is early-warned and reported, so that the time and the energy for manual active routing inspection are greatly saved. Meanwhile, accurate data are provided for a rescue scene commanding and commanding center, and efficient commanding and rescue decision is realized.

The technical solutions provided by the embodiments of the present invention are described in detail above, and the principles and embodiments of the present invention are explained herein by using specific examples, and the descriptions of the embodiments are only used to help understanding the principles of the embodiments of the present invention; meanwhile, the detailed description and the application scope of the embodiments according to the present invention may be changed by those skilled in the art, and in summary, the present disclosure should not be construed as limiting the present invention.

Claims (10)

1. The utility model provides an intelligence system of patrolling and examining for fire engine equipment which characterized in that includes:

the system comprises a fire fighting truck intelligent terminal device (1), an internet of things split patrol detector (3), a radio frequency antenna (5), an embedded electronic tag (6), a fire fighting truck intelligent multi-card fusion terminal (8) and an industrial internet platform (9);

the intelligent terminal device (1) of the fire fighting truck is connected with the internet of things split patrol detector (3) through a network cable (2);

the internet of things split polling device (3) is connected with the radio frequency antenna (5) through a box body connecting wire (4);

the fire fighting truck intelligent terminal device (1) is connected with the fire fighting truck intelligent multi-card fusion terminal (8) through a network cable (7);

the intelligent multi-card fusion terminal (8) of the fire fighting truck is connected and communicated with the industrial internet platform (9) through a communication protocol;

the radio frequency antenna (5) scans the data information of the embedded electronic tag (6) through a radio frequency signal;

the fire engine intelligent multi-card fusion terminal (8) is connected and communicated with the industrial internet platform (9) through an industrial internet communication protocol RTAIOT or an internet of things RTP (RTPIOT) protocol.

2. The intelligent inspection system for fire engine equipment according to claim 1, wherein the radio frequency antenna (5) is the profiled radio frequency antenna.

3. An intelligent inspection method for fire fighting truck equipment, which is realized based on the intelligent inspection system of any one of claims 1-2, and is characterized by comprising the following steps:

s1, encrypting, sending and analyzing the routing inspection request for one time;

s2, packaging, secondary encryption and secondary transmission of the analyzed information obtained after the primary decryption and the primary decryption;

s3, secondary receiving, secondary decrypting and secondary analyzing of the information; and

and S4, the intelligent terminal device (1) of the fire fighting truck intelligently inspects equipment of the fire fighting truck based on the information after secondary analysis.

4. The intelligent inspection method for the equipment of the fire fighting truck according to claim 3, wherein the S1 comprises:

s11, after the intelligent terminal device (1) of the fire fighting truck is powered on, an encryption command for acquiring a distributor list of the fire fighting truck is sent to the intelligent multi-card fusion terminal (8) of the fire fighting truck;

and S12, the fire engine multi-card fusion terminal (8) analyzes the encryption command into an industrial Internet communication protocol RTAIOT.

5. The intelligent inspection method for the equipment of the fire fighting truck according to claim 4, wherein the S2 comprises:

s21, after receiving the industrial Internet communication protocol RTAIOT, the industrial Internet platform (9) decrypts the industrial Internet communication protocol RTAIOT through an algorithm decryption protocol;

s22, analyzing the decrypted industrial Internet communication protocol RTAIOT so as to obtain a list of equipment of the fire truck;

s23, the industrial Internet platform (9) packages the fire fighting truck equipment list into an RTAIOT communication protocol;

and S24, encrypting the RTAIOT communication protocol through an encryption algorithm, and then sending the encrypted RTAIOT communication protocol to the multi-card fusion terminal (8) of the fire fighting truck.

6. The intelligent inspection method for the equipment of the fire fighting truck according to claim 5, wherein the S3 comprises:

s31, the fire engine multi-card fusion terminal (8) decrypts the received data based on a decryption algorithm;

and S32, analyzing the decrypted data into a fire fighting truck equipment list, and sending the fire fighting truck equipment list to the fire fighting truck intelligent terminal device (1).

7. The intelligent inspection method for fire fighting vehicle equipment according to claim 6, wherein the S4 includes:

s41, the intelligent terminal device (1) of the fire fighting truck sends a command of scanning equipment of the fire fighting truck to the internet of things split patrol inspector (3);

s42, the internet of things split patrol detector (3) scans the embedded electronic tags (6) of the equipment storage positions of the fire fighting truck through the radio frequency antenna (5) through radio frequency signals, and collects the information of the embedded electronic tags (6) and returns the information to the internet of things split patrol detector (3);

s42, the internet of things split patrol detector (3) preprocesses the information and then returns the information to the fire fighting truck intelligent terminal device (1);

s43, evaluating equipment of the fire fighting truck by the intelligent terminal device (1) of the fire fighting truck through an algorithm, wherein the evaluation comprises evaluation on completeness and usability of the equipment of the fire fighting truck;

s44, if the equipment of the fire fighting truck has a leak after the completeness and the availability are evaluated, giving an alarm prompt, locally storing a command for recording an evaluation state in the intelligent terminal device (1) of the fire fighting truck, and sending the command for recording the evaluation state to the multi-card fusion terminal (8) of the fire fighting truck;

s45, the fire fighting truck multi-card fusion terminal (8) packages the command for recording the evaluation state into an RTAIOT communication protocol, encrypts the RTAIOT communication protocol through an encryption algorithm and then sends the RTAIOT communication protocol to the industrial Internet platform (9);

s46, the industrial Internet platform (9) decrypts the encrypted command for recording the evaluation state through a decryption algorithm, analyzes and packages the command and stores the evaluation state.

8. The intelligent inspection method for fire fighting vehicle equipment according to claim 7, wherein the preprocessing includes removing duplicate information from the information through a deduplication algorithm.

9. The intelligent patrol inspection method for fire fighting vehicle equipment according to claim 8, characterized in that the fire fighting vehicle intelligent terminal device (1) evaluates the integrity of fire fighting vehicle equipment through algorithms, including contour scanning and analysis algorithms.

10. The intelligent inspection method for fire fighting truck equipment according to claim 9, wherein the encryption algorithm is a SCADA network industry information encryption algorithm based on digital signatures, a DES and SM4 encryption algorithm, a lightweight cipher algorithm SM9, a national cipher SM3/SM4 encryption algorithm, or a hybrid encryption method, and the hybrid encryption method comprises: firstly, encrypting the information by adopting an AES algorithm, and then encrypting an AES key by adopting a CP-ABE algorithm so as to obtain shorter encryption time and higher security; the decryption algorithm corresponds to the encryption algorithm one to one.

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