CN112598376A - Fire-fighting remote management visual cloud platform based on big data analysis, electronic equipment and computer storage medium - Google Patents

Fire-fighting remote management visual cloud platform based on big data analysis, electronic equipment and computer storage medium Download PDF

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CN112598376A
CN112598376A CN202011490699.6A CN202011490699A CN112598376A CN 112598376 A CN112598376 A CN 112598376A CN 202011490699 A CN202011490699 A CN 202011490699A CN 112598376 A CN112598376 A CN 112598376A
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吴事非
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Nanjing Puai Network Technology Co ltd
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Abstract

The invention discloses a fire-fighting remote management visual cloud platform based on big data analysis, an electronic device and a computer storage medium. According to the invention, when a fire fighting fire disaster occurs, the number of the persons escaping and dying from each fire fighting channel of each floor is analyzed, so that whether the condition that the number of the persons escaping and dying from the fire fighting channels is unevenly distributed is analyzed, and the dangerous fire fighting channels are early-warned and voice evacuated, so that the evacuation management of the persons escaping and dying from the high-rise building is realized, the condition that the number of the persons escaping and dying from the fire fighting channels is unevenly distributed when the persons escaping and dying from the high-rise building are avoided, the occurrence of a crowding trample event is reduced, the success rate of the persons escaping and dying is improved, and the life safety of the persons escaping and dying is ensured.

Description

Fire-fighting remote management visual cloud platform based on big data analysis, electronic equipment and computer storage medium
Technical Field
The invention belongs to the technical field of fire protection management, and particularly relates to a fire protection remote management visual cloud platform based on big data analysis, electronic equipment and a computer storage medium.
Background
With the development of economy, urban population is gradually increased, urban land is tense, and therefore more buildings begin to develop to high altitude, which leads to the situation of large-scale personnel concentration. However, high-rise buildings are relatively high in floors, complex in functions and multiple in equipment, so that a fire disaster is easy to occur due to poor management, once a fire disaster occurs, a large number of persons in the high-rise buildings need to escape to the fire fighting access of the floor where the persons are located in the process of escaping, so that successful escaping and death can be realized, due to the emergency and blind nature of the persons in escaping and death, the situation that the number of the persons escaping and death is not uniformly distributed, namely, the number of the persons escaping and death from the fire fighting access on one side of the floor is too large, and the number of the persons escaping and death from the fire fighting access on the other side is too small, can cause a crowded treading event on the fire fighting access with too large number of the persons, so that the time for escaping and death from the fire fighting access is slightly prolonged, and the success rate of the death from the fire fighting access is reduced, and a serious casual. Therefore, the invention is particularly important for the fire-fighting evacuation management of high-rise buildings, and provides a fire-fighting remote management visual cloud platform based on big data analysis, an electronic device and a computer storage medium in order to avoid a crowd trample event when people of the high-rise buildings escape.
Disclosure of Invention
In order to achieve the purpose, the invention provides the following technical scheme:
a fire-fighting remote management visual cloud platform based on big data analysis comprises a building fire-fighting channel statistical module, a fire-fighting database, a floor escape number analysis module, a control cloud platform, an early warning module, a fire-fighting evacuation management center, a voice evacuation terminal and a remote control terminal;
the building fire fighting channel counting module is used for counting the number of fire fighting channels of each floor of a building, the specific counting process is to count the number of floors contained in the building, mark the counted floors contained in the building according to the original number of the floor, mark the counted floors as 1,2.. i.. N in sequence, further count the number of fire fighting channels contained in each floor, and number the counted fire fighting channels of each floor according to a preset sequence, wherein the counted fire fighting channels are marked as A, B.. I.. N respectively;
the floor escape people number analysis module is used for analyzing the number of people escaping from each fire fighting access of each floor when a fire-fighting fire accident occurs, wherein the floor escape people number analysis module comprises an escape people infrared thermal image acquisition module, an image preprocessing module and an image analysis module;
the infrared thermal image acquisition module for the escapers comprises a plurality of infrared thermal imagers which are respectively installed at the positions of the fire fighting passageways of all the floors and used for acquiring the infrared thermal images of the escapers in the fire fighting passageways of all the floors;
the image preprocessing module is used for carrying out image enhancement and image resolution improvement on the acquired infrared thermal images of the evasion personnel outside each fire fighting channel of each floor to obtain high-definition infrared thermal images of each fire fighting channel of each floor;
the image analysis module is used for analyzing the number of people escaping from each fire fighting access of each floor according to the obtained high-definition infrared thermal image of each fire fighting access of each floor, and the specific analysis method comprises the following steps:
s1: acquiring the color distribution condition on the high-definition infrared thermal image of each fire fighting channel of each floor;
s2: carrying out image segmentation on the high-definition infrared thermal image according to the color distribution condition on the high-definition infrared thermal image to obtain a background area and a colored area, and reserving the colored area;
s3: the color distribution area is subjected to color distribution state acquisition, the color distribution outline is compared with the human body outline, the similarity between the color distribution outline and the human body outline is counted, if the similarity is greater than the preset similarity, the color distribution outline is shown to be the human body outline, the number of the color distribution outline on the high-definition infrared thermal image of each fire fighting channel of each floor is counted, the number of the people escaping from each fire fighting channel of each floor is the number of the color distribution outline on the high-definition infrared thermal image of each fire fighting channel of each floor, and the method further comprises the steps ofSet K of number of escapersg(kgA,kgB,...,kgI,...,kgN),kgThe number I of the external escaped persons corresponding to the I-th fire fighting access of the g-th floor is represented as the number of the floors, g is 1,2.
The fire-fighting database is used for storing the number of standard safe escape personnel which can be accommodated by each fire-fighting channel of each floor;
the control cloud platform receives the number set of the escaping people sent by the image analysis module in the number analysis module of the escaping people at each floor, extracts the number of standard safe escaping people which can be accommodated by each fire passage at each floor in the fire-fighting database, compares the number set of the escaping people with the number of standard safe escaping people which can be accommodated by each fire passage at each floor, sends an early warning instruction to the early warning module if the number of the escaping people corresponding to a certain fire passage at a certain floor is more than or equal to the number of the standard safe escaping people which can be accommodated by the fire passage, marks the fire passage as a dangerous fire passage, counts the number of the dangerous fire passage and the number of the floor corresponding to the dangerous fire passage at the moment if the number of the escaping people corresponding to the certain fire passage at a certain floor is less than the number of the standard safe escaping people which can be accommodated by the fire passage, a dangerous fire fighting channel set is formed, meanwhile, the number of a safe fire fighting channel and the number of a floor corresponding to the safe fire fighting channel are counted, a safe fire fighting channel set is formed, and the control cloud platform sends the dangerous fire fighting channel set and the safe fire fighting channel set to a fire evacuation management center;
the early warning module receives an early warning instruction sent by a control cloud platform and carries out early warning;
the fire-fighting evacuation management center receives a dangerous fire-fighting channel set and a safe fire-fighting channel set sent by a control cloud platform, floor numbers corresponding to the dangerous fire-fighting channel numbers in the dangerous fire-fighting channel set are respectively compared and matched with floor numbers corresponding to the safe fire-fighting channel numbers in the safe fire-fighting channel set one by one, if a certain floor number is successfully matched, the successfully matched floor number is counted, the safe fire-fighting channel number and the dangerous fire-fighting channel number corresponding to the successfully matched floor number are further obtained, the successfully matched floor number is sent to the voice evacuation terminal in parallel, and if the certain floor number is unsuccessfully matched, the unsuccessfully matched floor number is counted and sent to the remote control terminal;
the voice evacuation terminal comprises a plurality of voice broadcast devices, the voice evacuation terminal is respectively installed at the positions of fire fighting access ways of all floors, the voice evacuation terminal receives the successfully matched floor numbers sent by the fire fighting evacuation management center and the safe fire fighting access numbers and the dangerous fire fighting access numbers corresponding to the successfully matched floor numbers, further, the dangerous fire fighting access numbers corresponding to the successfully matched floor numbers are started, the voice broadcast devices corresponding to the dangerous fire fighting access numbers are started, the safe fire fighting access numbers corresponding to the floors where the dangerous fire fighting access numbers are located carry out voice broadcast to the escaping personnel corresponding to the dangerous fire fighting access numbers, and the escaping personnel corresponding to the dangerous fire fighting access numbers are evacuated to the safe fire fighting access ways of the floors.
According to one implementation mode of the invention, the fire fighting access position acquisition module comprises a GPS locator and is used for positioning the geographical position of each fire fighting access marked on each floor of the building, acquiring the geographical position of each fire fighting access on each floor of the building and storing the geographical position in the position database.
According to one implementation manner of the invention, the control cloud platform also comprises a step of counting the number of dangerous persons in each dangerous fire passage and the number of safe persons in each safe fire passage in the process of comparing the number set of escaping persons with the number of standard safe escaping persons which can be accommodated in each fire passage of each floor, wherein the method for counting the number of dangerous persons in each dangerous fire passage is to subtract the number of standard safe escaping persons which can be accommodated in each fire passage from the number of escaping persons corresponding to each dangerous fire passage, the method for counting the number of safe persons in each safe fire passage is to subtract the number of standard safe escaping persons which can be accommodated in each safe fire passage from the number of escaping persons corresponding to the safe fire passage, so that the counted number of dangerous persons in each dangerous fire passage forms a dangerous number set of dangerous fire passages, and the counted number of safe persons in each safe fire passage forms a safe number set of safe fire passages, and the control cloud platform sends the formed dangerous population set of the dangerous fire fighting access and the safe population set of the safe fire fighting access to the fire evacuation route planning module.
According to one implementation mode of the invention, the system further comprises a fire evacuation route planning module for extracting the geographic positions corresponding to the safe fire fighting tunnel number and the dangerous fire fighting tunnel number from the position database according to the safe fire fighting tunnel number and the dangerous fire fighting tunnel number corresponding to each successfully matched floor number, and receiving the dangerous number set of the dangerous fire fighting tunnel and the safe number set of the safe fire fighting tunnel sent by the control cloud platform, so as to extract the dangerous number corresponding to the dangerous fire fighting tunnel number and the safe number corresponding to the safe fire fighting tunnel number in each successfully matched floor from the dangerous number set of the dangerous fire fighting tunnel and the safe number set of the safe fire fighting tunnel according to the safe fire fighting tunnel number and the dangerous fire fighting tunnel number corresponding to each successfully matched floor number, if only one safe fire fighting tunnel is in one successfully matched floor, counting the number of the floors of only one safe fire fighting access successfully matched, comparing the number of the safe persons corresponding to the safe fire fighting access in the floors of only one safe fire fighting access successfully matched with the number of the dangerous persons corresponding to the dangerous fire fighting access, if the number of the safe persons corresponding to the safe fire fighting access is less than the number of the dangerous persons corresponding to the dangerous fire fighting access, indicating that the number of the evacuated persons corresponding to the dangerous fire fighting access is the number of the safe persons corresponding to the safe fire fighting access, if the number of the safe persons corresponding to the safe fire fighting access is greater than the number of the dangerous persons corresponding to the dangerous fire fighting access, indicating that the number of the evacuated persons corresponding to the dangerous fire fighting access is the number of the dangerous persons corresponding to the dangerous fire fighting access, thereby obtaining the number of the evacuated persons corresponding to the dangerous fire fighting access corresponding to the floor of only one safe fire fighting access successfully matched with each floor, and planning the number of only one safe fire fighting access corresponding to each successfully matched And the fire-fighting evacuation route planning module sends the obtained evacuation number and evacuation route of the dangerous fire-fighting channel corresponding to the floor number of only one successfully matched safety fire-fighting channel to the voice evacuation terminal.
According to one implementation manner of the invention, if there is more than one safe fire fighting access in a floor successfully matched, the number of the floor with more than one successfully matched safe fire fighting access is counted, the number of dangerous persons corresponding to the dangerous fire fighting access in the floor with more than one successfully matched safe fire fighting access is compared with the number of the dangerous persons corresponding to the safe fire fighting access in the floor, if the number of the dangerous persons corresponding to the dangerous fire fighting access is less than the number of the safe persons corresponding to the safe fire fighting access, the number of the evacuated persons corresponding to the dangerous fire fighting access is the number of the dangerous persons corresponding to the dangerous fire fighting access, the distance from the dangerous fire fighting access to each safe fire fighting access is counted, the number of the nearest safe fire fighting access is screened from the number of the nearest safe fire fighting access, the nearest safe fire fighting access is used as the target safe fire fighting access, and the evacuation route from the dangerous fire fighting access to the nearest safe fire fighting access is planned, if the number of the dangerous persons corresponding to the dangerous fire fighting passage is less than the number of the dangerous persons corresponding to one of the safe fire fighting passages, the safe fire fighting passage is marked as a target safe fire fighting passage, the number of the dangerous persons corresponding to the dangerous fire fighting passage is the number of the dangerous persons corresponding to the dangerous fire fighting passage, an evacuation route from the dangerous fire fighting passage to the target safe fire fighting passage is planned, if the number of the dangerous persons corresponding to the dangerous fire fighting passage is greater than the number of the safe persons corresponding to each safe fire fighting passage, the distance from the dangerous fire fighting passage to each safe fire fighting passage is counted at the moment, the number of the nearest safe fire fighting passage is screened from the calculated number, the number of the shunted persons corresponding to the dangerous fire fighting passage is the number of the nearest safe persons corresponding to the safe fire fighting passage, and the number of the shunted persons corresponding to the dangerous fire fighting passage is subtracted from the number of the shunt, then according to the distance from the dangerous fire fighting passage to each safety fire fighting passage, screening the number of the next closest safety fire fighting passage from the dangerous fire fighting passage, comparing the number of the remaining shunting evacuation people with the number of the safety people corresponding to the next closest safety fire fighting passage, if the number of the remaining shunting evacuation people is less than the number of the safety people corresponding to the next closest safety fire fighting passage, the number of the remaining shunting evacuation people is the number of the shunting evacuation people corresponding to the next closest safety fire fighting passage of the dangerous fire fighting passage, if the number of the remaining shunting evacuation people is greater than the number of the safety people corresponding to the next closest safety fire fighting passage, the number of the shunting evacuation people corresponding to the next closest safety fire fighting passage of the dangerous fire fighting passage is the number of the safety people corresponding to the next closest safety fire fighting passage, subtracting the number of the remaining shunting evacuation people from the number of the next closest safety fire fighting passage, obtaining the number of secondary residual shunting evacuation persons, further continuously screening the number of the safe fire fighting passage which is the third nearest from the distance from the dangerous fire fighting passage to each safe fire fighting passage, analogizing to obtain the screened safe fire fighting passages, marking the screened safe fire fighting passages as classified target safe fire fighting passages, obtaining the shunting evacuation persons of the dangerous fire fighting passages corresponding to the classified target safe fire fighting passages, simultaneously planning the evacuation routes of the dangerous fire fighting passages corresponding to the classified target safe fire fighting passages, counting the number of the safe fire fighting passages with the number of the dangerous persons smaller than the number of the dangerous persons corresponding to the dangerous fire fighting passages if the number of the dangerous persons corresponding to the dangerous fire fighting passages is larger than the number of the safe persons corresponding to one of the safe fire fighting passages, marking the counted safe fire fighting passages as candidate safe fire fighting passages, and simultaneously counting the distance from the dangerous fire fighting passages to the candidate safe fire fighting passages, and screening candidate safe fire fighting channels closest to each other from the candidate safe fire fighting channels, marking the candidate safe fire fighting channels as target safe fire fighting channels, wherein the evacuation number corresponding to the dangerous fire fighting channels is the dangerous number corresponding to the dangerous fire fighting channels, planning evacuation routes from the dangerous fire fighting channels to the target safe fire fighting channels, obtaining the evacuation number of the dangerous fire fighting channels corresponding to more than one floor of each successfully matched safe fire fighting channel, the shunt evacuation number of each graded target safe fire fighting channel, the number of the target safe fire fighting channels and the evacuation route from the dangerous fire fighting channels to the target safe fire fighting channels by integrating the evacuation numbers, and sending the evacuation numbers to the voice evacuation terminal.
According to one implementation mode of the invention, successful matching means that a dangerous fire passage exists on a certain floor and a safe fire passage also exists on the floor.
According to one implementation mode of the invention, the matching failure means that only a dangerous fire passage exists on a certain floor and no safe fire passage exists.
According to one implementation mode of the invention, the remote control terminal receives the floor number which is sent by the fire-fighting evacuation management center and fails to be matched, and performs targeted voice evacuation guidance.
The present application further provides an electronic device, including: the fire-fighting remote management visual cloud platform comprises a processor, a memory and a bus, wherein machine readable instructions executable by the processor are stored in the memory, when an electronic device runs, the processor and the memory are communicated through the bus, and the processor executes the machine readable instructions to realize specific operation steps of the fire-fighting remote management visual cloud platform.
The present application also provides a computer storage medium having a computer program stored thereon, which, when executed by a processor, performs the steps of any of the above-described possible embodiments.
The invention has the following beneficial effects:
(1) according to the invention, the fire fighting channels of all floors of the building are counted, and the number of the persons escaping from the fire fighting channels of all floors is analyzed when a fire fighting fire disaster occurs, so that whether the condition that the number of the persons escaping from the fire fighting channels is unevenly distributed is analyzed, the dangerous fire fighting channels and the safe fire fighting channels are counted and marked, the early warning is carried out on the dangerous fire fighting channels, and meanwhile, the persons escaping from the dangerous fire fighting channels are evacuated by voice, so that the persons escaping from the fire fighting channels are evacuated to the safe fire fighting channels of the floors, the evacuation management of the persons escaping from the high-rise building is realized, the condition that the number of the persons escaping from the fire fighting channels is unevenly distributed when the persons escaping from the high-rise building is avoided, the occurrence of a crowding and trampling event is further reduced, the success rate of the persons escaping is improved, and the life safety of the persons escaping.
(2) According to the invention, in the process of analyzing the number of the persons escaping from each fire fighting channel of each floor, the infrared thermal image of the persons escaping from each fire fighting channel of each floor is obtained by using the infrared thermal imager, and then the number of the persons escaping from each fire fighting channel of each floor is obtained from the temperature distribution condition in the infrared thermal image.
(3) In the process of carrying out voice evacuation on the casualty people in the dangerous fire fighting channel, the invention provides convenience for the evacuation of people in the dangerous fire fighting channel by acquiring the position of the dangerous fire fighting channel and the position of the safe fire fighting channel in the floor, planning the evacuation route from the dangerous fire fighting channel to the safe fire fighting channel and acquiring the number of evacuated people corresponding to the dangerous fire fighting channel, thereby improving the efficiency of the evacuation of people and further indirectly improving the success rate of the evacuation of people.
Drawings
The invention is further illustrated by means of the attached drawings, but the embodiments in the drawings do not constitute any limitation to the invention, and for a person skilled in the art, other drawings can be obtained on the basis of the following drawings without inventive effort.
FIG. 1 is a schematic block diagram of the present invention;
fig. 2 is a schematic diagram of a floor escape people number analysis module according to the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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.
Referring to fig. 1-2, a fire-fighting remote management visual cloud platform based on big data analysis comprises a building fire-fighting access statistics module, a fire-fighting access position acquisition module, a fire-fighting database, a floor escape population analysis module, a control cloud platform, an early warning module, a fire-fighting evacuation management center, a fire-fighting evacuation route planning module, a voice evacuation terminal and a remote control terminal.
The building fire fighting access statistics module is used for counting the number of fire fighting accesses of each floor of a building, the specific statistics process of the building fire fighting access statistics module is that the number of floors contained in the building is counted, the floors contained in the building are marked according to the original number of the floors, the floors are marked as 1,2.
The embodiment carries out statistic marking on the fire fighting access of each floor of the building, and provides convenience for marking the dangerous fire fighting access and the safe fire fighting access for follow-up statistic.
The fire fighting access position acquisition module comprises a GPS positioning instrument and is used for positioning the geographical position of each fire fighting access marked on each floor of the building, acquiring the geographical position of each fire fighting access on each floor of the building and storing the geographical position in a position database.
The geographical position of each fire fighting access of each floor is obtained, and a foundation is laid for subsequent fire fighting evacuation route planning.
The floor escape people number analysis module is used for analyzing the number of people escaping from each fire fighting access of each floor when a fire-fighting fire accident happens, wherein the floor escape people number analysis module comprises an escape people infrared thermal image acquisition module, an image preprocessing module and an image analysis module.
The infrared thermal image acquisition module for the escapers comprises a plurality of infrared thermal imagers which are respectively installed at the positions of the fire fighting passageways of all the floors and used for acquiring the infrared thermal images of the escapers in the fire fighting passageways of all the floors;
the image preprocessing module is used for carrying out image enhancement and image resolution improvement on the acquired infrared thermal images of the evasion personnel outside each fire fighting channel of each floor to obtain high-definition infrared thermal images of each fire fighting channel of each floor;
the image analysis module is used for analyzing the number of people escaping from each fire fighting access of each floor according to the obtained high-definition infrared thermal image of each fire fighting access of each floor, and the specific analysis method comprises the following steps:
s1: acquiring the color distribution condition on the high-definition infrared thermal image of each fire fighting channel of each floor;
s2: carrying out image segmentation on the high-definition infrared thermal image according to the color distribution condition on the high-definition infrared thermal image to obtain a background area and a colored area, and reserving the colored area;
s3: the color distribution area is subjected to color distribution, the color distribution outline is obtained, the obtained color distribution outline is compared with the human body outline, the similarity between the color distribution outline and the human body outline is counted, if the similarity is greater than the preset similarity, the color distribution outline is shown to be the human body outline, the number of the color distribution outline on the high-definition infrared thermal image of each fire fighting channel of each floor is counted, the number of the escaping personnel of each fire fighting channel of each floor is the number of the escaping personnel of each fire fighting channel of each floor, and an escaping personnel number set K is formedg(kgA,kgB,...,kgI,...,kgN),kgThe number of the external escaped persons corresponding to the I-th fire fighting access of the g-th floor is represented by I, the g is represented by a floor number, the g is 1,2.
This embodiment is through utilizing thermal infrared imager to acquire the infrared thermal image of each fire fighting access of each floor casualty in the quantity in-process of each fire fighting access casualty of each floor of analysis each fire fighting access casualty, and then acquire each fire fighting access casualty's of each floor quantity of fleing from the temperature distribution condition in the infrared thermal image, this thermal infrared imager adopts infrared thermal imaging technique, smog when can seeing through the conflagration, show the distribution situation of casualty accurately, realized the visualization of fleing and deaths, whether have the uneven reference basis that provides of fire fighting access casualty distribution for follow-up analysis.
And the fire-fighting database is used for storing the number of standard safe escape personnel which can be accommodated in each fire-fighting access of each floor.
The control cloud platform receives the number set of the escaping people sent by the image analysis module in the number analysis module of the escaping people at each floor, extracts the number of standard safe escaping people which can be accommodated by each fire passage at each floor in the fire-fighting database, compares the number set of the escaping people with the number of standard safe escaping people which can be accommodated by each fire passage at each floor, if the number of the escaping people corresponding to a certain fire passage at a certain floor is more than or equal to the number of the standard safe escaping people which can be accommodated by the fire passage, sends an early warning instruction to the early warning module, the fire passage is marked as a dangerous fire passage, if the number of the escaping people corresponding to a certain fire passage at a certain floor is less than the number of the standard safe escaping people which can be accommodated by the fire passage, the fire passage is marked as a safe fire passage, at the moment, the number of the dangerous fire passage and the number of the floor corresponding to the dangerous fire passage are counted, and a dangerous fire fighting channel set is formed, the number of the safe fire fighting channel and the number of the floor corresponding to the safe fire fighting channel are counted at the same time, the safe fire fighting channel set is formed, and the control cloud platform sends the dangerous fire fighting channel set and the safe fire fighting channel set to the fire evacuation management center.
The control cloud platform also comprises a step of counting the number of the dangerous persons in each dangerous fire fighting passage and the number of the safe persons in each safe fire fighting passage in the process of comparing the number set of the escaping persons with the number of the standard safe escaping persons which can be accommodated in each fire fighting passage of each floor, wherein the number of the dangerous persons in each dangerous fire fighting passage is obtained by subtracting the number of the standard safe escaping persons which can be accommodated in each fire fighting passage from the number of the escaping persons corresponding to each dangerous fire fighting passage, the number of the dangerous persons in each safe fire fighting passage is obtained by subtracting the number of the escaping persons corresponding to each safe fire fighting passage from the number of the standard safe escaping persons which can be accommodated in each safe fire fighting passage, so that the counted number of the dangerous persons in each dangerous fire fighting passage forms a dangerous person number set of the dangerous fire fighting passage, and the counted number of the safe persons in each safe fire fighting passage forms a safe person number set of the safe fire, and the control cloud platform sends the formed dangerous population set of the dangerous fire fighting access and the safe population set of the safe fire fighting access to the fire evacuation route planning module.
The early warning module receives an early warning instruction sent by the control cloud platform and carries out early warning to remind the casualty to pay attention.
The fire-fighting evacuation management center receives a dangerous fire-fighting access set and a safe fire-fighting access set sent by a control cloud platform, compares and matches floor numbers corresponding to the dangerous fire-fighting access numbers in the dangerous fire-fighting access set with floor numbers corresponding to the safe fire-fighting access numbers in the safe fire-fighting access set one by one, counts successfully matched floor numbers if a certain floor number is successfully matched, wherein successful matching means that a dangerous fire-fighting access exists in a certain floor and a safe fire-fighting access exists, further obtains the safe fire-fighting access numbers and the dangerous fire-fighting access numbers corresponding to the successfully matched floor numbers, and sends the successfully matched floor numbers to the fire-fighting evacuation route planning module and the voice evacuation terminal respectively, and counts the unsuccessfully matched floor numbers if the certain floor number is unsuccessfully matched, wherein failed matching means that only a dangerous fire-fighting access exists in the certain floor and no safe fire-fighting, and sent to the remote control terminal.
The fire evacuation route planning module receives the safe fire fighting access number and the dangerous fire fighting access number corresponding to each successfully matched floor number sent by the fire evacuation management center, further extracts the geographic positions corresponding to the safe fire fighting access number and the dangerous fire fighting access number from the position database, and receives the dangerous fire fighting access number set and the safe fire fighting access number set sent by the control cloud platform, so as to respectively extract the dangerous number corresponding to the dangerous fire fighting access number in each successfully matched floor and the safe number corresponding to the safe fire fighting access number from the dangerous fire fighting access number set and the safe fire fighting access number set according to the safe fire fighting access number and the dangerous fire fighting access number corresponding to each successfully matched floor, if only one safe fire fighting access exists in a certain successfully matched floor, the floor number of only one safe fire fighting access is counted, comparing the number of the safe persons corresponding to the safe fire fighting tunnel in each successfully matched floor with the number of the dangerous persons corresponding to the dangerous fire fighting tunnel, if the number of the safe persons corresponding to the safe fire fighting tunnel is smaller than the number of the dangerous persons corresponding to the dangerous fire fighting tunnel, indicating that the number of the evacuated persons corresponding to the dangerous fire fighting tunnel is the safe person corresponding to the safe fire fighting tunnel, if the number of the safe persons corresponding to the safe fire fighting tunnel is larger than the number of the dangerous persons corresponding to the dangerous fire fighting tunnel, indicating that the number of the evacuated persons corresponding to the dangerous fire fighting tunnel is the dangerous person corresponding to the dangerous fire fighting tunnel, thus obtaining the number of the evacuated persons of the dangerous fire fighting tunnel corresponding to the floor number of the successfully matched floor with only one safe fire fighting tunnel, and planning the evacuation route from the dangerous fire fighting tunnel to the safe fire fighting tunnel corresponding to the floor of only one successfully matched safe fire fighting tunnel, and the fire-fighting evacuation route planning module sends the obtained evacuation number and evacuation route of the dangerous fire-fighting channel corresponding to the floor number of only one successfully matched safety fire-fighting channel to the voice evacuation terminal.
If there is more than one safe fire fighting tunnel in a floor successfully matched, counting the number of the floor with more than one successfully matched safe fire fighting tunnel, comparing the number of dangerous persons corresponding to the dangerous fire fighting tunnel in the floor with the number of safe persons corresponding to each safe fire fighting tunnel in the floor with each successfully matched safe fire fighting tunnel, if the number of dangerous persons corresponding to each dangerous fire fighting tunnel is less than the number of safe persons corresponding to each safe fire fighting tunnel, indicating that the number of evacuated persons corresponding to the dangerous fire fighting tunnel is the number of dangerous persons corresponding to the dangerous fire fighting tunnel, counting the distance from the dangerous fire fighting tunnel to each safe fire fighting tunnel, screening the number of the nearest safe fire fighting tunnel from the dangerous fire fighting tunnel, using the nearest safe fire fighting tunnel as the target safe fire fighting tunnel, and further planning the evacuation route from the dangerous fire fighting tunnel to the nearest safe fire fighting tunnel, if the number of the dangerous persons corresponding to the dangerous fire fighting passage is less than the number of the dangerous persons corresponding to one of the safe fire fighting passages, the safe fire fighting passage is marked as a target safe fire fighting passage, the number of the dangerous persons corresponding to the dangerous fire fighting passage is the number of the dangerous persons corresponding to the dangerous fire fighting passage, an evacuation route from the dangerous fire fighting passage to the target safe fire fighting passage is planned, if the number of the dangerous persons corresponding to the dangerous fire fighting passage is greater than the number of the safe persons corresponding to each safe fire fighting passage, the distance from the dangerous fire fighting passage to each safe fire fighting passage is counted at the moment, the number of the nearest safe fire fighting passage is screened from the calculated number, the number of the shunted persons corresponding to the dangerous fire fighting passage is the number of the nearest safe persons corresponding to the safe fire fighting passage, and the number of the shunted persons corresponding to the dangerous fire fighting passage is subtracted from the number of the shunt, then according to the distance from the dangerous fire fighting passage to each safety fire fighting passage, screening the number of the next closest safety fire fighting passage from the dangerous fire fighting passage, comparing the number of the remaining shunting evacuation people with the number of the safety people corresponding to the next closest safety fire fighting passage, if the number of the remaining shunting evacuation people is less than the number of the safety people corresponding to the next closest safety fire fighting passage, the number of the remaining shunting evacuation people is the number of the shunting evacuation people corresponding to the next closest safety fire fighting passage of the dangerous fire fighting passage, if the number of the remaining shunting evacuation people is greater than the number of the safety people corresponding to the next closest safety fire fighting passage, the number of the shunting evacuation people corresponding to the next closest safety fire fighting passage of the dangerous fire fighting passage is the number of the safety people corresponding to the next closest safety fire fighting passage, subtracting the number of the remaining shunting evacuation people from the number of the next closest safety fire fighting passage, obtaining the number of secondary residual shunting evacuation persons, further continuously screening the number of the safe fire fighting passage which is the third nearest from the distance from the dangerous fire fighting passage to each safe fire fighting passage, analogizing to obtain the screened safe fire fighting passages, marking the screened safe fire fighting passages as classified target safe fire fighting passages, obtaining the shunting evacuation persons of the dangerous fire fighting passages corresponding to the classified target safe fire fighting passages, simultaneously planning the evacuation routes of the dangerous fire fighting passages corresponding to the classified target safe fire fighting passages, counting the number of the safe fire fighting passages with the number of the dangerous persons smaller than the number of the dangerous persons corresponding to the dangerous fire fighting passages if the number of the dangerous persons corresponding to the dangerous fire fighting passages is larger than the number of the safe persons corresponding to one of the safe fire fighting passages, marking the counted safe fire fighting passages as candidate safe fire fighting passages, and simultaneously counting the distance from the dangerous fire fighting passages to the candidate safe fire fighting passages, and screening candidate safe fire fighting channels closest to each other from the candidate safe fire fighting channels, marking the candidate safe fire fighting channels as target safe fire fighting channels, wherein the evacuation number corresponding to the dangerous fire fighting channels is the dangerous number corresponding to the dangerous fire fighting channels, planning evacuation routes from the dangerous fire fighting channels to the target safe fire fighting channels, obtaining the evacuation number of the dangerous fire fighting channels corresponding to more than one floor of each successfully matched safe fire fighting channel, the shunt evacuation number of each graded target safe fire fighting channel, the number of the target safe fire fighting channels and the evacuation route from the dangerous fire fighting channels to the target safe fire fighting channels by integrating the evacuation numbers, and sending the evacuation numbers to the voice evacuation terminal.
This embodiment carries out the sparse in-process of pronunciation at the casualty personnel of fleing from to dangerous fire control passageway, through dangerous fire control passageway position and safe fire control passageway position in acquireing the floor to plan from dangerous fire control passageway to safe fire control passageway's evacuation route, acquire the evacuation number that dangerous fire control passageway corresponds simultaneously, for the personnel evacuation of dangerous fire control passageway facilitate, improved personnel's sparse efficiency, and then indirectly improved personnel's sparse success rate.
The embodiment carries out the evacuation route planning in-process of fire control, matches the number of the safe fire control passageway in the successful floor through the analysis, and then carries out the evacuation route planning of fire control with two kinds of processing methods according to the number of safe fire control passageway, accords with actual conditions more for the evacuation route of fire control of planning has the characteristics that practicality and maneuverability are strong, has improved sparse efficiency.
The voice evacuation terminal comprises a plurality of voice broadcasters which are respectively arranged at the positions of fire fighting channels of all floors, the voice evacuation terminal receives successfully matched floor numbers sent by the fire fighting evacuation management center and safe fire fighting channel numbers and dangerous fire fighting channel numbers corresponding to the successfully matched floor numbers, further starts the voice broadcasters corresponding to the dangerous fire fighting channel numbers according to the dangerous fire fighting channel numbers corresponding to the successfully matched floor numbers, receives the evacuation number and evacuation routes of the dangerous fire fighting channels corresponding to the successfully matched floor numbers of only one safe fire fighting channel sent by the fire fighting evacuation route planning module, and screens the safe fire fighting channel numbers corresponding to the corresponding floor numbers from the corresponding safe fire fighting channel numbers corresponding to the successfully matched floor numbers according to the corresponding floor numbers, thereby screening the safe fire fighting channel numbers corresponding to the floor numbers, and dividing the safe fire fighting channel numbers corresponding to the floor numbers into a plurality of fire fighting channels, The evacuation number and the evacuation route of the dangerous fire fighting channel carry out voice broadcast on the escaping personnel of the dangerous fire fighting channel numbered by the corresponding floor so as to evacuate the escaping personnel numbered by the corresponding dangerous fire fighting channel to the safe fire fighting channel of the floor;
the voice evacuation terminal also receives the evacuation number of the dangerous fire fighting tunnel corresponding to the floor with more than one matched safe fire fighting tunnel or the distribution evacuation number of each classified target safe fire fighting tunnel, the number of the target safe fire fighting tunnels and the evacuation route from the dangerous fire fighting tunnel to the target safe fire fighting tunnel sent by the fire fighting evacuation route planning module, and the contents are broadcasted to the evacuees in the dangerous fire passage with the corresponding floor numbers by voice, so as to evacuate the escape personnel corresponding to the serial number of the dangerous fire fighting passage to the target safe fire fighting passage on the floor, realize the evacuation management of the high-rise building escape and death, avoid the occurrence of the condition that the distribution of the escape and death personnel of the fire fighting passage is uneven when the high-rise building escape and death personnel escape, further, the occurrence of crowded trampling events is reduced, the success rate of escape and death of people is improved, and the life safety of the escape and death of people is guaranteed.
And the remote control terminal receives the floor number which is sent by the fire-fighting evacuation management center and fails to be matched, and performs targeted voice evacuation guidance.
On the basis, the electronic equipment is further provided, and comprises: the fire-fighting remote management visual cloud platform comprises a processor, a memory and a bus, wherein machine readable instructions executable by the processor are stored in the memory, when an electronic device runs, the processor and the memory are communicated through the bus, and the processor executes the machine readable instructions to realize specific operation steps of the fire-fighting remote management visual cloud platform.
On the basis of the above, there is also provided a computer storage medium having a computer program stored thereon, the computer program being executable by a processor to perform the steps of any of the above-described possible embodiments.
The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims (10)

1. The utility model provides a visual cloud platform of fire control remote management based on big data analysis which characterized in that: the system comprises a building fire fighting channel statistics module, a fire fighting database, a floor escape number analysis module, a control cloud platform, an early warning module, a fire fighting evacuation management center, a voice evacuation terminal and a remote control terminal;
the building fire fighting channel counting module is used for counting the number of fire fighting channels of each floor of a building, the specific counting process is to count the number of floors contained in the building, mark the counted floors contained in the building according to the original number of the floor, mark the counted floors as 1,2.. i.. N in sequence, further count the number of fire fighting channels contained in each floor, and number the counted fire fighting channels of each floor according to a preset sequence, wherein the counted fire fighting channels are marked as A, B.. I.. N respectively;
the floor escape people number analysis module is used for analyzing the number of people escaping from each fire fighting access of each floor when a fire-fighting fire accident occurs, wherein the floor escape people number analysis module comprises an escape people infrared thermal image acquisition module, an image preprocessing module and an image analysis module;
the infrared thermal image acquisition module for the escapers comprises a plurality of infrared thermal imagers which are respectively installed at the positions of the fire fighting passageways of all the floors and used for acquiring the infrared thermal images of the escapers in the fire fighting passageways of all the floors;
the image preprocessing module is used for carrying out image enhancement and image resolution improvement on the acquired infrared thermal images of the evasion personnel outside each fire fighting channel of each floor to obtain high-definition infrared thermal images of each fire fighting channel of each floor;
the image analysis module is used for analyzing the number of people escaping from each fire fighting access of each floor according to the obtained high-definition infrared thermal image of each fire fighting access of each floor, and the specific analysis method comprises the following steps:
s1: acquiring the color distribution condition on the high-definition infrared thermal image of each fire fighting channel of each floor;
s2: carrying out image segmentation on the high-definition infrared thermal image according to the color distribution condition on the high-definition infrared thermal image to obtain a background area and a colored area, and reserving the colored area;
s3: the color distribution area is subjected to color distribution, the color distribution outline is obtained, the obtained color distribution outline is compared with the human body outline, the similarity between the color distribution outline and the human body outline is counted, if the similarity is greater than the preset similarity, the color distribution outline is shown to be the human body outline, the number of the color distribution outline on the high-definition infrared thermal image of each fire fighting channel of each floor is counted, the number of the escaping personnel of each fire fighting channel of each floor is the number of the escaping personnel of each fire fighting channel of each floor, and an escaping personnel number set K is formedg(kgA,kgB,...,kgI,...,kgN),kgThe number I of the external escaped persons corresponding to the I-th fire fighting access of the g-th floor is represented as the number of the floors, g is 1,2.
The fire-fighting database is used for storing the number of standard safe escape personnel which can be accommodated by each fire-fighting channel of each floor;
the control cloud platform receives the number set of the escaping people sent by the image analysis module in the number analysis module of the escaping people at each floor, extracts the number of standard safe escaping people which can be accommodated by each fire passage at each floor in the fire-fighting database, compares the number set of the escaping people with the number of standard safe escaping people which can be accommodated by each fire passage at each floor, sends an early warning instruction to the early warning module if the number of the escaping people corresponding to a certain fire passage at a certain floor is more than or equal to the number of the standard safe escaping people which can be accommodated by the fire passage, marks the fire passage as a dangerous fire passage, counts the number of the dangerous fire passage and the number of the floor corresponding to the dangerous fire passage at the moment if the number of the escaping people corresponding to the certain fire passage at a certain floor is less than the number of the standard safe escaping people which can be accommodated by the fire passage, a dangerous fire fighting channel set is formed, meanwhile, the number of a safe fire fighting channel and the number of a floor corresponding to the safe fire fighting channel are counted, a safe fire fighting channel set is formed, and the control cloud platform sends the dangerous fire fighting channel set and the safe fire fighting channel set to a fire evacuation management center;
the early warning module receives an early warning instruction sent by a control cloud platform and carries out early warning;
the fire-fighting evacuation management center receives a dangerous fire-fighting channel set and a safe fire-fighting channel set sent by a control cloud platform, floor numbers corresponding to the dangerous fire-fighting channel numbers in the dangerous fire-fighting channel set are respectively compared and matched with floor numbers corresponding to the safe fire-fighting channel numbers in the safe fire-fighting channel set one by one, if a certain floor number is successfully matched, the successfully matched floor number is counted, the safe fire-fighting channel number and the dangerous fire-fighting channel number corresponding to the successfully matched floor number are further obtained, the successfully matched floor number is sent to the voice evacuation terminal in parallel, and if the certain floor number is unsuccessfully matched, the unsuccessfully matched floor number is counted and sent to the remote control terminal;
the voice evacuation terminal comprises a plurality of voice broadcast devices, the voice evacuation terminal is respectively installed at the positions of fire fighting access ways of all floors, the voice evacuation terminal receives the successfully matched floor numbers sent by the fire fighting evacuation management center and the safe fire fighting access numbers and the dangerous fire fighting access numbers corresponding to the successfully matched floor numbers, further, the dangerous fire fighting access numbers corresponding to the successfully matched floor numbers are started, the voice broadcast devices corresponding to the dangerous fire fighting access numbers are started, the safe fire fighting access numbers corresponding to the floors where the dangerous fire fighting access numbers are located carry out voice broadcast to the escaping personnel corresponding to the dangerous fire fighting access numbers, and the escaping personnel corresponding to the dangerous fire fighting access numbers are evacuated to the safe fire fighting access ways of the floors.
2. A fire-fighting remote management visual cloud platform based on big data analysis according to claim 1, characterized in that: the system also comprises a fire fighting access position acquisition module which comprises a GPS locator and is used for positioning the geographical position of each fire fighting access marked on each floor of the building, acquiring the geographical position of each fire fighting access on each floor of the building and storing the geographical position in a position database.
3. A fire-fighting remote management visual cloud platform based on big data analysis according to claim 1, characterized in that: the control cloud platform also comprises a step of counting the number of the dangerous persons in each dangerous fire fighting passage and the number of the safe persons in each safe fire fighting passage in the process of comparing the number set of the escaping persons with the number of the standard safe escaping persons which can be accommodated in each fire fighting passage of each floor, wherein the number of the dangerous persons in each dangerous fire fighting passage is obtained by subtracting the number of the standard safe escaping persons which can be accommodated in each fire fighting passage from the number of the escaping persons corresponding to each dangerous fire fighting passage, the number of the dangerous persons in each safe fire fighting passage is obtained by subtracting the number of the escaping persons corresponding to each safe fire fighting passage from the number of the standard safe escaping persons which can be accommodated in each safe fire fighting passage, so that the counted number of the dangerous persons in each dangerous fire fighting passage forms a dangerous person number set of the dangerous fire fighting passage, and the counted number of the safe persons in each safe fire fighting passage forms a safe person number set of the safe fire fighting, and the control cloud platform sends the formed dangerous population set of the dangerous fire fighting access and the safe population set of the safe fire fighting access to the fire evacuation route planning module.
4. A fire-fighting remote management visual cloud platform based on big data analysis according to claim 1, characterized in that: the fire-fighting evacuation route planning module is used for extracting the geographic positions corresponding to the safe fire fighting tunnel number and the dangerous fire fighting tunnel number from the position database according to the safe fire fighting tunnel number and the dangerous fire fighting tunnel number corresponding to each successfully-matched floor number, receiving the dangerous fire fighting tunnel dangerous number set and the safe fire fighting tunnel safe number set sent by the control cloud platform, extracting the dangerous number corresponding to the dangerous fire fighting tunnel number in each successfully-matched floor and the safe number corresponding to the safe fire fighting tunnel number from the dangerous fire fighting tunnel dangerous number set and the safe fire fighting tunnel safe number set respectively according to the safe fire fighting tunnel number and the dangerous fire fighting tunnel number corresponding to each successfully-matched floor number, counting the floor number of only one successfully-matched safety fire fighting tunnel if only one safety fire fighting tunnel is arranged in one successfully-matched floor, comparing the number of the safe persons corresponding to the safe fire fighting tunnel in each successfully matched floor with the number of the dangerous persons corresponding to the dangerous fire fighting tunnel, if the number of the safe persons corresponding to the safe fire fighting tunnel is smaller than the number of the dangerous persons corresponding to the dangerous fire fighting tunnel, indicating that the number of the evacuated persons corresponding to the dangerous fire fighting tunnel is the safe person corresponding to the safe fire fighting tunnel, if the number of the safe persons corresponding to the safe fire fighting tunnel is larger than the number of the dangerous persons corresponding to the dangerous fire fighting tunnel, indicating that the number of the evacuated persons corresponding to the dangerous fire fighting tunnel is the dangerous person corresponding to the dangerous fire fighting tunnel, thus obtaining the number of the evacuated persons of the dangerous fire fighting tunnel corresponding to the floor number of the successfully matched floor with only one safe fire fighting tunnel, and planning the evacuation route from the dangerous fire fighting tunnel to the safe fire fighting tunnel corresponding to the floor of only one successfully matched safe fire fighting tunnel, and the fire-fighting evacuation route planning module sends the obtained evacuation number and evacuation route of the dangerous fire-fighting channel corresponding to the floor number of only one successfully matched safety fire-fighting channel to the voice evacuation terminal.
5. A fire-fighting remote management visual cloud platform based on big data analysis according to claim 4, characterized in that: if there is more than one safe fire fighting tunnel in a floor successfully matched, counting the number of the floor with more than one successfully matched safe fire fighting tunnel, comparing the number of dangerous persons corresponding to the dangerous fire fighting tunnel in the floor with the number of safe persons corresponding to each safe fire fighting tunnel in the floor with each successfully matched safe fire fighting tunnel, if the number of dangerous persons corresponding to each dangerous fire fighting tunnel is less than the number of safe persons corresponding to each safe fire fighting tunnel, indicating that the number of evacuated persons corresponding to the dangerous fire fighting tunnel is the number of dangerous persons corresponding to the dangerous fire fighting tunnel, counting the distance from the dangerous fire fighting tunnel to each safe fire fighting tunnel, screening the number of the nearest safe fire fighting tunnel from the dangerous fire fighting tunnel, using the nearest safe fire fighting tunnel as the target safe fire fighting tunnel, and further planning the evacuation route from the dangerous fire fighting tunnel to the nearest safe fire fighting tunnel, if the number of the dangerous persons corresponding to the dangerous fire fighting passage is less than the number of the dangerous persons corresponding to one of the safe fire fighting passages, the safe fire fighting passage is marked as a target safe fire fighting passage, the number of the dangerous persons corresponding to the dangerous fire fighting passage is the number of the dangerous persons corresponding to the dangerous fire fighting passage, an evacuation route from the dangerous fire fighting passage to the target safe fire fighting passage is planned, if the number of the dangerous persons corresponding to the dangerous fire fighting passage is greater than the number of the safe persons corresponding to each safe fire fighting passage, the distance from the dangerous fire fighting passage to each safe fire fighting passage is counted at the moment, the number of the nearest safe fire fighting passage is screened from the calculated number, the number of the shunted persons corresponding to the dangerous fire fighting passage is the number of the nearest safe persons corresponding to the safe fire fighting passage, and the number of the shunted persons corresponding to the dangerous fire fighting passage is subtracted from the number of the shunt, then according to the distance from the dangerous fire fighting passage to each safety fire fighting passage, screening the number of the next closest safety fire fighting passage from the dangerous fire fighting passage, comparing the number of the remaining shunting evacuation people with the number of the safety people corresponding to the next closest safety fire fighting passage, if the number of the remaining shunting evacuation people is less than the number of the safety people corresponding to the next closest safety fire fighting passage, the number of the remaining shunting evacuation people is the number of the shunting evacuation people corresponding to the next closest safety fire fighting passage of the dangerous fire fighting passage, if the number of the remaining shunting evacuation people is greater than the number of the safety people corresponding to the next closest safety fire fighting passage, the number of the shunting evacuation people corresponding to the next closest safety fire fighting passage of the dangerous fire fighting passage is the number of the safety people corresponding to the next closest safety fire fighting passage, subtracting the number of the remaining shunting evacuation people from the number of the next closest safety fire fighting passage, obtaining the number of secondary residual shunting evacuation persons, further continuously screening the number of the safe fire fighting passage which is the third nearest from the distance from the dangerous fire fighting passage to each safe fire fighting passage, analogizing to obtain the screened safe fire fighting passages, marking the screened safe fire fighting passages as classified target safe fire fighting passages, obtaining the shunting evacuation persons of the dangerous fire fighting passages corresponding to the classified target safe fire fighting passages, simultaneously planning the evacuation routes of the dangerous fire fighting passages corresponding to the classified target safe fire fighting passages, counting the number of the safe fire fighting passages with the number of the dangerous persons smaller than the number of the dangerous persons corresponding to the dangerous fire fighting passages if the number of the dangerous persons corresponding to the dangerous fire fighting passages is larger than the number of the safe persons corresponding to one of the safe fire fighting passages, marking the counted safe fire fighting passages as candidate safe fire fighting passages, and simultaneously counting the distance from the dangerous fire fighting passages to the candidate safe fire fighting passages, and screening candidate safe fire fighting channels closest to each other from the candidate safe fire fighting channels, marking the candidate safe fire fighting channels as target safe fire fighting channels, wherein the evacuation number corresponding to the dangerous fire fighting channels is the dangerous number corresponding to the dangerous fire fighting channels, planning evacuation routes from the dangerous fire fighting channels to the target safe fire fighting channels, obtaining the evacuation number of the dangerous fire fighting channels corresponding to more than one floor of each successfully matched safe fire fighting channel, the shunt evacuation number of each graded target safe fire fighting channel, the number of the target safe fire fighting channels and the evacuation route from the dangerous fire fighting channels to the target safe fire fighting channels by integrating the evacuation numbers, and sending the evacuation numbers to the voice evacuation terminal.
6. A fire-fighting remote management visual cloud platform based on big data analysis according to claim 1, characterized in that: the successful matching means that a dangerous fire fighting access exists on a certain floor and a safe fire fighting access also exists.
7. A fire-fighting remote management visual cloud platform based on big data analysis according to claim 1, characterized in that: the matching failure means that only a dangerous fire passage exists on a certain floor and no safe fire passage exists.
8. A fire-fighting remote management visual cloud platform based on big data analysis according to claim 1, characterized in that: and the remote control terminal receives the floor number which is sent by the fire-fighting evacuation management center and fails to be matched, and performs targeted voice evacuation guidance.
9. An electronic device, comprising: a processor, a memory and a bus, wherein the memory stores machine-readable instructions executable by the processor, the processor and the memory communicate via the bus when the electronic device runs, and the processor executes the machine-readable instructions to realize the specific operation steps of the fire fighting remote management visualization cloud platform according to any one of claims 1 to 8.
10. A computer storage medium, characterized in that the computer storage medium stores thereon a computer program, which when executed by a processor performs the specific operating steps of the fire fighting remote management visualization cloud platform according to any of the claims 1 to 8.
CN202011490699.6A 2020-12-16 2020-12-16 Fire-fighting remote management visual cloud platform based on big data analysis, electronic equipment and computer storage medium Withdrawn CN112598376A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN115035674A (en) * 2022-05-17 2022-09-09 中建八局南方建设有限公司 Intelligent fire-fighting monitoring and early-warning management system for smart building

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN115035674A (en) * 2022-05-17 2022-09-09 中建八局南方建设有限公司 Intelligent fire-fighting monitoring and early-warning management system for smart building
CN115035674B (en) * 2022-05-17 2024-04-12 中建八局南方建设有限公司 Intelligent monitoring and early warning management system for intelligent building fire control

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