CN109829625A - The determination method of fire-fighting and rescue priority, system, readable storage medium storing program for executing - Google Patents

Abstract

The determination method of fire-fighting and rescue priority proposed by the present invention, by obtaining the ambient parameter information in the unit of each region, to determine whether current region unit is danger zone, when determining current region is danger zone, obtain the thermography information and story height of each danger zone, and the thermography is analyzed, with escape personnel's density value in each danger zone of determination；The rescue priority of each danger zone is determined according to story height locating for escape personnel's density value described in the danger zone and the corresponding escape personnel.Determination method, the system, readable storage medium storing program for executing of fire-fighting and rescue priority proposed by the present invention can determine immediately the rescue priority of each danger zone when fire occurs, therefore can miss best rescue time to avoid stranded escape personnel.

Description

The determination method of fire-fighting and rescue priority, system, readable storage medium storing program for executing

Technical field

The present invention relates to fire-fighting and rescue control technology field, in particular to a kind of determination method of fire-fighting and rescue priority, System, readable storage medium storing program for executing.

Background technique

With the growth of China's expanding economy and population, urban population density is continuously increased, in order to explore more opportunity for survival, High-rise and high-rise building is also more and more.And in recent years, the fire in skyscraper happens occasionally, and in very great Cheng Direct influence is generated on expanding economy and stablizing for society on degree.

Due in order to farthest reduce harm brought by fire, therefore can all be set inside existing skyscraper Numerous fire-fighting and rescue apparatus tool and security alerting system are set, is being to a certain degree the safe escape of escape personnel and fast-escape Provide guarantee.However, during actual escape, since escape personnel may not know the accurate location of ignition point, Can not the degree of danger in time to floor locating for itself judge, to miss the time most preferably escaped, therefore, need at this time Rescue personnel is wanted to rescue it.

However, at present rescue personnel to stranded escape personnel into rescue when, due to not knowing in each danger zone Escape personnel's density value and corresponding story height, therefore can not determine the rescue priority of each danger zone, it is thus possible to meeting Stranded escape personnel is set to miss best rescue time.

Summary of the invention

In view of the above situation, it is necessary to aiming at the problem that can not determine rescue priority in the prior art, one kind be provided and disappeared Determination method, the system, readable storage medium storing program for executing of anti-rescue priority.

The present invention proposes a kind of determination method of fire-fighting and rescue priority, wherein described method includes following steps:

The thermography information and story height of each danger zone are obtained, and the thermography is analyzed, with determination Escape personnel's density value in each danger zone；

According to story height locating for escape personnel's density value described in the danger zone and the corresponding escape personnel Determine the rescue priority of each danger zone.

The determination method of fire-fighting and rescue priority proposed by the present invention, by obtaining the environmental parameter in the unit of each region Information, when determining current region is danger zone, obtains each danger to determine whether current region unit is danger zone The thermography information and story height in region, and the thermography is analyzed, to escape in each danger zone of determination Stranger person's density value；According to floor locating for escape personnel's density value described in the danger zone and the corresponding escape personnel Height determines the rescue priority of each danger zone.The determination method of fire-fighting and rescue priority proposed by the present invention, energy It is enough to determine the rescue priority of each danger zone immediately when fire occurs, therefore can be missed most to avoid stranded escape personnel Good rescue time.

Further, the determination method of the fire-fighting and rescue priority, wherein described to obtain each danger zone Story height the step of include:

The corresponding thermography information is inquired according to the thermography information in each danger zone of acquisition The IP address of transmitting terminal, and story height locating for each danger zone is inquired by inquiring the IP address.

Further, the determination method of the fire-fighting and rescue priority, wherein described according to institute in the danger zone It states story height locating for escape personnel's density value and the corresponding escape personnel and determines that the rescue of each danger zone is excellent The step of first grade includes:

According to building locating for the density value of the escape personnel in each danger zone and the corresponding escape personnel Layer height and respectively corresponding weight, calculate the comprehensive score of each danger zone；

It sorts to each danger zone by the comprehensive score, the rescue for obtaining each danger zone is preferential Grade；

Wherein, the danger zone comprehensive score calculation formula are as follows:

S_(z)=E_rP_r+E_hP_h

P_r+P_h=100%

Wherein, S_(z)For danger zone comprehensive score；E_rFor escape personnel's density value, P_rCorresponding to escape personnel's density value Weight；E_hFor story height locating for escape personnel, P_hFor weight corresponding to story height locating for escape personnel.

Further, the determination method of the fire-fighting and rescue priority, wherein described that each danger zone is pressed Comprehensive score sequence, the step of obtaining the rescue priority of each danger zone include:

Each danger zone is ranked up according to comprehensive score from high to low, and comprehensive score is identical described Danger zone is ranked up according to environmental parameter comprehensive score, obtains the rescue priority of each danger zone；

Wherein, the environmental parameter comprehensive score calculation formula are as follows:

Wherein, S is environmental parameter comprehensive score；E_iFor each environmental parameter in ambient parameter information, P_iEach environment ginseng Several weights.

Further, the determination method of the fire-fighting and rescue priority, wherein the heat for obtaining each danger zone Before as the step of figure information further include:

The ambient parameter information of each region unit is obtained, the ambient parameter information includes: temperature parameter, smokescope Parameter, Fire Radiation intensive parameter and gas componant parameter；

Determine whether each territory element is danger zone according to the ambient parameter information.

Further, the determination method of the fire-fighting and rescue priority, wherein described according to the ambient parameter information The step of whether determine current region unit is danger zone include:

When determining the temperature parameter, the smokescope parameter, the Fire Radiation intensive parameter and the gas When any two parameters are respectively higher than corresponding preset threshold in composition parameter, then determine the territory element for danger Region.

A kind of determination system of fire-fighting and rescue priority, wherein include:

Judgment module is determined for obtaining the ambient parameter information of each region unit according to the ambient parameter information Whether each territory element is danger zone, when determining the temperature parameter, the smokescope parameter, the flame When any two parameters are respectively higher than corresponding preset threshold in radiation intensity parameter and the gas componant parameter, then Determine the territory element for danger zone；

Obtain module, for obtaining the thermography information and story height of each danger zone, and to the thermography into Row analysis, with escape personnel's density value in each danger zone of determination；

Computing module, for according to escape personnel's density value described in the danger zone and the corresponding escape personnel Locating story height determines the rescue priority of each danger zone.

Further, the determination system of the fire-fighting and rescue priority, wherein the acquisition module includes:

First acquisition unit, for obtaining the ambient parameter information of each region unit, according to the ambient parameter information Determine whether each territory element is danger zone；

Second acquisition unit is inquired for the thermography information in each danger zone according to acquisition and is corresponded to The thermography information transmitting terminal IP address, and inquire building locating for each danger zone by inquiring the IP address Layer height.

Further, the determination system of the fire-fighting and rescue priority, wherein the computing module includes:

First computing module, for according to the escape personnel in each danger zone density value and corresponding institute Story height locating for escape personnel and respectively corresponding weight are stated, the comprehensive score of each danger zone is calculated；

Second computing module, for each danger zone to be ranked up according to comprehensive score from high to low, and The identical danger zone of comprehensive score is ranked up according to environmental parameter comprehensive score, obtains each danger zone Rescue priority.

Additional aspect and advantage of the invention will be set forth in part in the description, and will partially become from the following description Obviously, or practice through the invention is recognized.

Detailed description of the invention

Above-mentioned and/or additional aspect of the invention and advantage will become from the description of the embodiment in conjunction with the following figures Obviously and it is readily appreciated that, in which:

Fig. 1 is the flow chart of the determination method for the fire-fighting and rescue priority that first embodiment of the invention proposes；

Fig. 2 is the flow chart of the determination method for the fire-fighting and rescue priority that second embodiment of the invention proposes；

Fig. 3 is the structural block diagram of the determination system for the fire-fighting and rescue priority that disappears that third embodiment of the invention proposes.

Specific embodiment

The embodiment of the present invention is described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning to end Same or similar label indicates same or similar element or element with the same or similar functions.Below with reference to attached The embodiment of figure description is exemplary, and for explaining only the invention, and is not considered as limiting the invention.

Referring to following description and drawings, it will be clear that these and other aspects of the embodiment of the present invention.In these descriptions In attached drawing, some particular implementations in the embodiment of the present invention are specifically disclosed, to indicate to implement implementation of the invention Some modes of the principle of example, but it is to be understood that the scope of embodiments of the invention is not limited.On the contrary, of the invention Embodiment includes all changes, modification and the equivalent fallen within the scope of the spirit and intension of attached claims.

Referring to Fig. 1, for the determination method of the fire-fighting and rescue priority in first embodiment of the invention, wherein including step Rapid S11~S12.

Step S11, obtains the thermography information and story height of each danger zone, and divides the thermography Analysis, with escape personnel's density value in each danger zone of determination.

The determination method of fire-fighting and rescue priority in the present embodiment is applied in the determination system of fire-fighting and rescue priority, The determination system of the fire-fighting and rescue priority includes the thermal infrared imager being arranged in the unit of each region.Thermal infrared imager is benefit Reflected with the infrared radiation energy distribution pattern that infrared detector and optical imaging objective receive measured target to infrared detector Light-sensitive element on, to obtain thermography, this thermography is corresponding with the heat distribution field of body surface.It is generally infrared Thermal imaging system is exactly that the invisible infrared energy that object issues is changed into visible thermography.The different colours of the upper surface of thermography Represent the different temperatures of testee.

It should be understood that the determination system of the fire-fighting and rescue priority is in a public place, for example, apply market, In the public places such as school, unit, to control the thermal infrared imager in the public field.The public field under normal conditions Institute, including multiple buildings and/or multiple floors, wherein each floor is divided into multiple regions unit again.In the present embodiment, should The determination system of fire-fighting and rescue priority can be when fire occurs, according to escape personnel's density value in each danger zone And story height locating for the corresponding escape personnel determines the rescue priority of each danger zone, therefore can be to avoid stranded Escape personnel misses best rescue time.

Before the step of thermography information for obtaining each danger zone further include:

The ambient parameter information of each region unit is obtained, the ambient parameter information includes: temperature parameter, smokescope Parameter, Fire Radiation intensive parameter and gas componant parameter；When determining the temperature parameter, the smokescope parameter, institute It states any two parameters in Fire Radiation intensive parameter and the gas componant parameter and is respectively higher than corresponding default threshold When value, then determine the territory element for danger zone.

Specifically, the determination system of the fire-fighting and rescue priority further includes the detection dress being arranged in the public place It sets, which connect with fire-fighting controller.The detection device includes temperature sensor, smokescope sensor, far infrared Flame sensor and gas composition analyzer.Temperature sensor is used to detect the environment temperature in the unit of corresponding region, and smog is dense Degree sensor is used to detect the smokescope in the unit of corresponding region, and far infrared flame sensor is for detecting corresponding region unit Interior infrared luminous intensity to determine fire location, gas composition analyzer be used to detect the gas composition in the unit of corresponding region with And corresponding content value, such as comprising CO, SO2 and CO2 etc., while monitoring the corresponding content value of every gas.

Specifically, when detecting environment temperature, smokescope, infrared luminous intensity, gas componant in current region unit And in corresponding content value when any two content values are respectively higher than corresponding preset threshold, detection device is sent One fire-fighting signal when the fire-fighting controller receives the fire-fighting signal, then determines the current region unit to fire-fighting controller For danger zone, the i.e. emergencies such as generation fire.

Herein it may also be noted that the judgement of each territory element type, is dense according to above-mentioned temperature parameter, smog It spends parameter, Fire Radiation intensive parameter and gas componant parameter and carries out Comprehensive Evaluation.In the present embodiment, the area of territory element Field type is divided into two kinds: danger zone and non hazardous areas.

Further, when determining the territory element is danger zone, then the thermography letter of the danger zone is obtained Breath, and the thermography is analyzed, it is calculated according to the thermography information in each danger zone of acquisition each Corresponding escape personnel's density value in a danger zone.

When it is implemented, the thermography information shot with video-corder is passed to fire-fighting controller, fire-fighting control in real time by thermal infrared imager Device processed identifies the temperature of object in the thermography；When determine be in the object in preset temperature range there are temperature when；Then obtain Take the contour feature of the object；Contour feature is prestored human body contour outline feature together to be compared, to obtain similar value, wherein prestoring Human body contour outline feature mainly includes head, trunk, four limbs；When judging that the similar value is greater than preset threshold, it is determined that the object For escape personnel.Escape personnel's density value in each image information acquired in each danger zone is calculated, is passed through Data fitting, calculates separately out escape personnel's density value in each danger zone.

Further, the corresponding heat is inquired according to the thermography information in each danger zone of acquisition Story height locating for each danger zone is inquired as the IP address of figure information transmitting terminal, and by inquiring the IP address.

When it is implemented, inquiring the corresponding thermography information transmitting terminal according to the source of acquired thermography information IP address, according to the IP address of the transmitting terminal obtain the escape personnel locating for story height, the IP of the transmitting terminal Location is the IP address of the thermal infrared imager.All transmitting terminals can be established in the memory of fire-fighting controller in advance The mapping relations of story height locating for IP address and the escape personnel, the IP address by inquiring the transmitting terminal are each described Story height locating for danger zone, it can be learnt that story height locating for the escape personnel.

Step S12, according to locating for escape personnel's density value described in the danger zone and the corresponding escape personnel Story height determines the rescue priority of each danger zone.

As described above, according to the density value of the escape personnel in each danger zone and the corresponding escape people Story height locating for member and respectively corresponding weight, calculate the comprehensive score of each danger zone；

It sorts to each danger zone by the comprehensive score, the rescue for obtaining each danger zone is preferential Grade；

Wherein, the danger zone comprehensive score calculation formula are as follows:

S_(z)=E_rP_r+E_hP_h

P_r+P_h=100%

Wherein, S_(z)For danger zone comprehensive score；E_rFor escape personnel's density value, P_rCorresponding to escape personnel's density value Weight；E_hFor story height locating for escape personnel, P_hFor weight corresponding to story height locating for escape personnel.

Specifically, obtaining locating for density value and the escape personnel of escape personnel corresponding to each danger zone Story height, by story height locating for the density value of escape personnel corresponding to each danger zone and the escape personnel Respectively multiplied by respectively corresponding weight after, and sum, to obtain each danger zone comprehensive score, it is possible to understand that Each danger zone comprehensive score be each danger zone respectively corresponding to the density value of escape personnel comment Divide the sum of the scoring scored with story height locating for escape personnel.

In addition, after the rescue priority for obtaining each danger zone, it can be according to each danger zone Priority is rescued into a rescue priority list, and shows the rescue priority list.

Further, each danger zone is sorted by the comprehensive score, obtains each danger zone Rescue priority；According to the rescue priority of each danger zone at a rescue priority list, show that the rescue is preferential Grade table；The rescue priority determines the sequence of rescue and point of rescue personnel according to the rescue priority for rescue personnel Match.The rescue priority that the rescue priority list is used to that rescue personnel to be facilitated to understand all danger zones, in order to rescue people Member simultaneously rescues the escape personnel in multiple danger zones under conditions of rescuing manpower and abundant rescue aid, institute Stating rescue priority list can be shown that the display screen or the LED light can be set and rescuing by display screen or LED light It helps in center and/or danger zone, in order to which rescue personnel and/or escape personnel know, herein with no restrictions.

The determination method of fire-fighting and rescue priority proposed by the present invention, by obtaining the environmental parameter in the unit of each region Information, when determining current region is danger zone, obtains each danger to determine whether current region unit is danger zone The thermography information and story height in region, and the thermography is analyzed, to escape in each danger zone of determination Stranger person's density value；According to floor locating for escape personnel's density value described in the danger zone and the corresponding escape personnel Height determines the rescue priority of each danger zone.The determination method of fire-fighting and rescue priority proposed by the present invention, energy It is enough to determine the rescue priority of each danger zone immediately when fire occurs, therefore can be missed most to avoid stranded escape personnel Good rescue time.

Referring to Fig. 2, the determination method for the fire-fighting and rescue priority that second embodiment of the invention proposes, is rescued applied to fire-fighting It helps in the determination system of priority, wherein including step S21~S23.

Step S21, obtains the thermography information and story height of each danger zone, and divides the thermography Analysis, with escape personnel's density value in each danger zone of determination.

Step S22, according to locating for escape personnel's density value described in the danger zone and the corresponding escape personnel Story height determines the rescue priority of each danger zone.

Each danger zone is ranked up according to comprehensive score from high to low by step S23, and comprehensive score phase The same danger zone is ranked up according to environmental parameter comprehensive score, and the rescue for obtaining each danger zone is preferential Grade.

The environmental parameter comprehensive score calculation formula are as follows:

Wherein, S is environmental parameter comprehensive score；E_iFor each environmental parameter in ambient parameter information, P_iEach environment ginseng Several weights.

In the present embodiment, each danger zone is ranked up according to comprehensive score from high to low, and synthesis is commented The identical danger zone is divided to be ranked up according to environmental parameter comprehensive score, it is possible to understand that, when there are any two institutes The comprehensive score for stating danger zone is identical, then it is comprehensive to calculate environmental parameter in the identical danger zone of the comprehensive score Scoring is closed, and the border parametric synthesis marking and queuing is pressed to each danger zone, obtains rescuing for each danger zone Help priority.In order to be determined according to according to environmental parameter comprehensive score under rescue personnel's situation in short supply in rescue personnel The rescue priority of each danger zone, therefore best rescue time can be missed to avoid stranded escape personnel.

The present embodiment further perfect determination method of fire-fighting and rescue priority on the basis of first embodiment, is promoted Practicability.

It should be noted that the present embodiment stressed is difference with a upper embodiment, between each embodiment The non-repeated description in same and similar part, can be with cross-reference, and the technical characteristic between each embodiment can be according to this field The conventional technical means of technical staff carries out selective combination.

Referring to Fig. 3, for the determination system of the fire-fighting and rescue priority in third embodiment of the invention, the wherein system packet It includes the judgment module 100 sequentially connected, obtain module 200, computing module 300.

Specifically, 100 pieces of mould of the judgement is used to obtain the ambient parameter information of each region unit, according to the environment Parameter information determines whether each territory element is danger zone, when determining the temperature parameter, the smokescope Any two parameters are respectively higher than corresponding in parameter, the Fire Radiation intensive parameter and the gas componant parameter When preset threshold, then determine the territory element for danger zone.

The thermography information and story height for obtaining module 200 and being used to obtain each danger zone, and to the heat As figure is analyzed, with escape personnel's density value in each danger zone of determination.

The computing module 300, for according to escape personnel's density value described in the danger zone and corresponding described Story height locating for escape personnel determines the rescue priority of each danger zone.

Further, the acquisition module 200 includes first acquisition unit 201 and the second acquisition unit 202.

The first acquisition unit 201 is used to obtain the ambient parameter information of each region unit, is joined according to the environment Number information determines whether each territory element is danger zone.

The second acquisition unit 202 according to the thermography information in each danger zone of acquisition for looking into The IP address of the corresponding thermography information transmitting terminal is ask, and inquires each danger zone by inquiring the IP address Locating story height.

Further, the computing module 300 includes the first computing unit 301 and the second computing unit 302.

First computing unit 301, for according to the density value of the escape personnel in each danger zone and Story height locating for the corresponding escape personnel and respectively corresponding weight, the synthesis for calculating each danger zone are commented Point；

It sorts to each danger zone by the comprehensive score, the rescue for obtaining each danger zone is preferential Grade；

Wherein, the danger zone comprehensive score calculation formula are as follows:

S_(z)=E_rP_r+E_hP_h

P_r+P_h=100%

Wherein, S_(z)For danger zone comprehensive score；E_rFor escape personnel's density value, P_rCorresponding to escape personnel's density value Weight；E_hFor story height locating for escape personnel, P_hFor weight corresponding to story height locating for escape personnel.

Second computing unit 302 according to the thermography information in each danger zone of acquisition for looking into The IP address of the corresponding thermography information transmitting terminal is ask, and inquires each danger zone by inquiring the IP address Locating story height；

Wherein, the environmental parameter comprehensive score calculation formula are as follows:

Wherein, S is environmental parameter comprehensive score；E_iFor each environmental parameter in ambient parameter information, P_iEach environment ginseng Several weights.

The present invention also provides a kind of readable storage medium storing program for executing, are stored thereon with computer program, wherein described program is located The step of reason device realizes the method for any one in above-described embodiment 1 to 2 when executing.

Expression or logic and/or step described otherwise above herein in flow charts, for example, being considered use In the order list for the executable instruction for realizing logic function, may be embodied in any computer-readable medium, for Instruction execution system, device or equipment (such as computer based system, including the system of processor or other can be held from instruction The instruction fetch of row system, device or equipment and the system executed instruction) it uses, or combine these instruction execution systems, device or set It is standby and use.For the purpose of this specification, " computer-readable medium ", which can be, any may include, stores, communicates, propagates or pass Defeated program is for instruction execution system, device or equipment or the dress used in conjunction with these instruction execution systems, device or equipment It sets.

The more specific example (non-exhaustive list) of computer-readable medium include the following: there are one or more wirings Electrical connection section (electronic device), portable computer diskette box (magnetic device), random access memory (RAM), read-only memory (ROM), erasable edit read-only storage (EPROM or flash memory), fiber device and portable optic disk is read-only deposits Reservoir (CDROM).In addition, computer-readable medium can even is that the paper that can print described program on it or other are suitable Medium, because can then be edited, be interpreted or when necessary with it for example by carrying out optical scanner to paper or other media His suitable method is handled electronically to obtain described program, is then stored in computer storage.

It should be appreciated that each section of the invention can be realized with hardware, software, firmware or their combination.Above-mentioned In embodiment, software that multiple steps or method can be executed in memory and by suitable instruction execution system with storage Or firmware is realized.It, and in another embodiment, can be under well known in the art for example, if realized with hardware Any one of column technology or their combination are realized: having a logic gates for realizing logic function to data-signal Discrete logic, with suitable combinational logic gate circuit specific integrated circuit, programmable gate array (PGA), scene Programmable gate array (FPGA) etc..

In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means specific features, structure, material or spy described in conjunction with this embodiment or example Point is included at least one embodiment or example of the invention.In the present specification, schematic expression of the above terms are not Centainly refer to identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be any One or more embodiment or examples in can be combined in any suitable manner.

The embodiments described above only express several embodiments of the present invention, and the description thereof is more specific and detailed, but simultaneously Limitations on the scope of the patent of the present invention therefore cannot be interpreted as.It should be pointed out that for those of ordinary skill in the art For, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to guarantor of the invention Protect range.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (10)

1. a kind of determination method of fire-fighting and rescue priority, which is characterized in that described method includes following steps:

The thermography information and story height of each danger zone are obtained, and the thermography is analyzed, it is each with determination Escape personnel's density value in the danger zone；

It is determined according to story height locating for escape personnel's density value described in the danger zone and the corresponding escape personnel The rescue priority of each danger zone.

2. the determination method of fire-fighting and rescue priority according to claim 1, which is characterized in that the acquisition is each described The step of story height of danger zone includes:

It is sent according to the corresponding thermography information of thermography information inquiry in each danger zone of acquisition The IP address at end, and story height locating for each danger zone is inquired by inquiring the IP address.

3. the determination method of fire-fighting and rescue priority according to claim 1, which is characterized in that described according to the danger Story height locating for escape personnel's density value and the corresponding escape personnel determines each danger zone in region Rescue priority the step of include:

According to story height locating for the density value of the escape personnel in each danger zone and the corresponding escape personnel Degree and respective corresponding weight, calculate the comprehensive score of each danger zone；

It sorts to each danger zone by the comprehensive score, obtains the rescue priority of each danger zone；

Wherein, the danger zone comprehensive score calculation formula are as follows:

S_(z)=E_rP_r+E_hP_h

P_r+P_h=100%

Wherein, S_(z)For danger zone comprehensive score；E_rFor escape personnel's density value, P_rPower corresponding to escape personnel's density value Weight；E_hFor story height locating for escape personnel, P_hFor weight corresponding to story height locating for escape personnel.

4. the determination method of fire-fighting and rescue priority according to claim 3, which is characterized in that described to each danger Danger zone domain is sorted by the comprehensive score, and the step of obtaining the rescue priority of each danger zone includes:

Each danger zone is ranked up according to comprehensive score from high to low, and the identical danger of comprehensive score Region is ranked up according to environmental parameter comprehensive score, obtains the rescue priority of each danger zone；

Wherein, the environmental parameter comprehensive score calculation formula are as follows:

Wherein, S is environmental parameter comprehensive score；E_iFor each environmental parameter in ambient parameter information, P_iEach environmental parameter Weight.

5. the determination method of fire-fighting and rescue priority according to claim 1, which is characterized in that described to obtain each danger Before the step of thermography information in region further include:

The ambient parameter information of each region unit is obtained, the ambient parameter information includes: temperature parameter, smokescope ginseng Number, Fire Radiation intensive parameter and gas componant parameter；

Determine whether each territory element is danger zone according to the ambient parameter information.

6. the determination method of fire-fighting and rescue priority according to claim 5, which is characterized in that described according to the environment The step of whether what parameter information determined current region unit is danger zone include:

When determining the temperature parameter, the smokescope parameter, the Fire Radiation intensive parameter and the gas componant When any two parameters are respectively higher than corresponding preset threshold in parameter, then determine the territory element for danger area Domain.

7. a kind of determination system of fire-fighting and rescue priority characterized by comprising

Judgment module determines each for obtaining the ambient parameter information of each region unit according to the ambient parameter information Whether the territory element is danger zone, when determining the temperature parameter, the smokescope parameter, the Fire Radiation When any two parameters are respectively higher than corresponding preset threshold in intensive parameter and the gas componant parameter, then determine The territory element is danger zone；

Module is obtained, for obtaining the thermography information and story height of each danger zone, and the thermography is divided Analysis, with escape personnel's density value in each danger zone of determination；

Computing module, for according to locating for escape personnel's density value described in the danger zone and the corresponding escape personnel Story height determines the rescue priority of each danger zone.

8. the determination system of fire-fighting and rescue priority according to claim 7, which is characterized in that the acquisition module packet It includes:

First acquisition unit is determined for obtaining the ambient parameter information of each region unit according to the ambient parameter information Whether each territory element is danger zone；

Second acquisition unit inquires corresponding institute for the thermography information in each danger zone according to acquisition The IP address of thermography information transmitting terminal is stated, and inquires story height locating for each danger zone by inquiring the IP address Degree.

9. the determination system of fire-fighting and rescue priority according to claim 7, which is characterized in that the computing module packet It includes:

First computing module, for according to the density value of the escape personnel in each danger zone and corresponding described escaping Story height locating for stranger person and respectively corresponding weight, calculate the comprehensive score of each danger zone；

Second computing module, for each danger zone to be ranked up according to comprehensive score from high to low, and it is comprehensive The identical danger zone of scoring is ranked up according to environmental parameter comprehensive score, obtains the rescue of each danger zone Priority.

10. a kind of readable storage medium storing program for executing, is stored thereon with computer program, which is characterized in that described program is executed by processor The step of method of the Shi Shixian as described in any one of claim 1-6.