CN106294974A - Flooding area self adaptation risk control method based on target navigation location and system - Google Patents

Abstract

The invention discloses flooding area self adaptation risk control method based on target navigation location and system, this system includes mobile end system, transmitted in both directions module, long-distance cloud service platform, mobile end system passes through navigator fix, the modes such as targeted customer is mutual determine the boundary position dot information currently flooding risk area, mobile target type and target component, transmitted in both directions module is set up the data between mobile end system with long-distance cloud service platform and is exchanged and communicate, long-distance cloud service platform combined high precision earth's surface basic data builds floods risk area threedimensional model, determine and currently flood risk area for the current value-at-risk of targeted customer and pass, last mobile end system carries out visual navigation.The present invention can realize navigation based on mobile end system, and alternately and long-distance cloud service platform analysis determines the submergence ratio of current flooding area, depth profile and pass, thus realizes targeted customer's adaptive security risk control to flooding hazardous area.

Description

Flooding area self adaptation risk control method based on target navigation location and system

Technical field

The present invention relates to risk control field, flooding area, particularly relate to a kind of flooding area based on target navigation location adaptive Answer risk control method and system.

Background technology

Railway and highway system is more and more flourishing at present, but extreme weather change is more and more frequent, the flooded area that rainfall is formed The traffic problems caused become the huge challenge of wisdom traffic and public safety.How for different motor vehicles, non-maneuver The targeted customer such as vehicle, pedestrian, solve urban area, arterial traffic region, railway corridor area, power circuit corridor area, Risk control and the risk averse problem in hazardous area is flooded in Tour region, region, mine etc., is that current public safety needs solution badly A difficult problem.And solve this problem and relate to resource and the technology of three aspects, need to build earth's surface, high-precision region in advance Connect model, and model accuracy needs to be better than 1:500 scale accuracy, although the acquisition cost of region high accuracy data compares Greatly, but owing to region terrain model has long stability, being substantially disposable, this work does not have controlling Influence；Next needs to set up the Dynamic Monitoring System that zones of different is flooded, but has spatial and temporal distributions owing to raining Lack of uniformity, and the complexity of Introduced cases flood inundation on tracks, the fine rainfall of large area region to be carried out or flood condition monitoring, existing Have technology realizes cost very greatly, the most commercially valuable probability；Finally need to set up the real-time position of targeted customer Put information gathering, transmission and with the docking, due to Internet technology, airmanship, movement of area flooding Risk Control System Quickly popularizing of technology, the realization of the easy low cost of this Comparision.

To sum up, it is established that the Dynamic Monitoring System that zones of different is flooded is how to build regional traffic to flood risk control body The controlling condition of system, but existing dynamic rainfall causes high cost with flooding the not in place of monitoring technology, it is impossible to build tool Commercially valuable rainy day traffic volume wisdom comprehensive solution.The uncertainty flooded with local, time domain earth's surface causes mesh Mark user security is by flooding hazardous area problem, it is impossible to effectively build a kind of integration operation monitoring platform.

Summary of the invention

The technical problem existed based on background technology, the present invention proposes flooding area self adaptation based on target navigation location Risk control method and system, flood uncertainty for local, earth's surface, region and cause targeted customer cannot flood danger by safety Danger zone problem, overcome cannot effectively build a kind of integration operation monitoring platform an economy difficult problem, it is achieved targeted customer based on Autonomous navigator fix determines and currently floods border, by long-distance cloud service platform, in conjunction with existing high accuracy terrain information, analyzes And determine the distribution of the scope of the contained flooded area of borderline region of currently flooding, depth of immersion, risk and may lead to safely Cross the path of flooding area, thus realize target and realize the method and system of adaptive security risk control through flooding hazardous area.

The flooding area self adaptation risk control method based on target navigation location that the present invention proposes, comprises the steps:

(1) targeted customer moves to flooding risk area, and the navigator fix of mobile end system determines and currently floods risk area One or more boundary position dot informations, mobile end system is interacted by targeted customer, sets mobile target type and target Parameter.Wherein: navigator fix information includes the precise information strengthened, Beidou navigation location information and not high are included, without being limited to Navigator fix information two class of precision；Target type includes, without being limited to motor vehicles, non power driven vehicle, pedestrian；Target component Include, without being limited to height of car, pedestrian level；

(2) realize with the transmitted in both directions module of long-distance cloud service platform by boundary position dot information, mobile target type with Target component sends to long-distance cloud service platform；

(3) long-distance cloud service platform receives request, and long-distance cloud service platform is based on basis, existing high accuracy earth's surface number According to, build and flood risk area threedimensional model, and combine mobile target type and target component, determine currently flood risk area for The current value-at-risk of targeted customer, current probability ratio and pass, long-distance cloud service platform is based on real-time online communication simultaneously The use information of multiple targeted customers, what dynamic construction currently flooded risk area floods the big data model of distribution and secure connection Channel pattern, its use information includes that the boundary position dot information of targeted customer, mobile target type and target component are passed through road Footpath and history pass.

The precise information strengthened, directly takes location point and builds the border boundary point as flooding area, build and flood risk District's threedimensional model, non-high-precision location information, then based on location boundary point one error burst of superposition again, calculating maximum can Can flood risk area threedimensional model, border is flooded in multiple location, then carry out Extrapolation by high accuracy earth's surface basic data and go out Flooding bounds accurately, then structure floods risk area threedimensional model, the high-precision of its enhancing includes, without being limited to the Big Dipper Location information.

(4) long-distance cloud service platform will currently flood the logical of risk area with the transmitted in both directions module of targeted customer mobile terminal Row value-at-risk, current probability ratio and pass and flood the big data model of distribution and be back to mesh with secure connection channel pattern The mobile end system of mark user；

(5) mobile end system passes through visual means, and what risk area relative target user was currently flooded in display floods distribution Situation, current value-at-risk, current probability ratio and pass, wherein visual means includes, without being limited to tridimensional model, plane Pattern；

(6) mobile end system combination based on pass Yu navigator fix, guides targeted customer's safety to flood danger The best safety path of danger zone.

As the further scheme of the present invention, described pass also includes based on the big data in history flooding area and exists in real time What the targeted customer of line communication was formed that big data message dynamically generates evades pass.Long-distance cloud service platform can be simultaneously With multiple targeted customers real-time communication simultaneously, based on currently flooding risk area, the boundary position point of different target user can be realized The data message real-time communications such as information, target type, target component, in conjunction with storage historical data information, then can be formed based on Currently flood the big data message of risk area；

As the further scheme of the present invention, described target component also includes the mobile end system target class to selected movement Type carry out parameter that engine search extracted or | and the parameter inside mobile end system, the target type of selected movement stored. Target type to selected movement, special motor vehicles, non power driven vehicle, extract the vehicle of this target type by web search The target components such as height；

As the further scheme of the present invention, described in flood risk area include, without being limited to city local flooding area, tourism Flooding area, local, region, flooding area, local, region, mine, railway corridor arterial traffic flooding area, local and power circuit corridor Locally flooding area.

The flooding area self adaptation risk control system based on target navigation location that the present invention proposes, including mobile terminal be System, transmitted in both directions module, long-distance cloud service platform；Described mobile end system includes obtaining position information based on navigator fix Module, flood the visualization display of hazardous area risk and secure path navigation module, it is described that to obtain institute based on navigator fix in place The module of confidence breath also includes that targeted customer's interactive module, described module based on navigator fix acquisition position information are passed through Navigator fix, targeted customer be mutual and storage or | and search target component extract determine currently flood one of risk area or Multiple boundary position dot informations, mobile target type and target component, described in flood hazardous area risk visualization display and peace Complete trails navigation module will drown out distribution situation, and current value-at-risk, current probability ratio and pass carry out visualization display；Institute State transmitted in both directions module and include long-distance cloud service platform and the transmitted in both directions module of targeted customer mobile terminal and realization and long-distance cloud The transmitted in both directions module of service platform, sets up the exchange of the data between mobile end system with long-distance cloud service platform and communicates；Institute State long-distance cloud service platform to include the big data management module in basis, high accuracy earth's surface, flood hazardous area self adaptation risk control system Module is analyzed in cloud computing, and described long-distance cloud service platform receives request, and based on existing high accuracy earth's surface basic data, structure floods Do not have risk area threedimensional model, and combine mobile target type and target component, determine and currently flood risk area for targeted customer Current value-at-risk, current probability ratio and pass.

As the further scheme of the present invention, described long-distance cloud service platform carries out flooding risk control for specific needs Region, carry out the high-precision surface data collection of relevant range, the non-hi-Fix to flooded area boundary point in advance Information, uses error burst pattern, determines the maximum possible border of excessive risk flooding area, and then completes three-dimensional and flood risk zones Modeling, determines by path and risk or to multiple location information for flooded area boundary point, by high accuracy earth's surface base Plinth data are carried out Extrapolation and are gone out to flood bounds accurately, so complete three-dimensional flood risk zones modeling, determine and pass through road Footpath and risk.The use information of long-distance cloud service platform multiple targeted customers based on real-time online communication, dynamic construction simultaneously Currently flood risk area floods the big data model of distribution and secure connection channel pattern.

As the further scheme of the present invention, described flooding area self adaptation risk control system based on target navigation location Can be used for the targeted similar local of insurance company, sponge urban system and flood Risk Calculation and wind is flooded in Large Urban Area local Danger is schemed the secure path of big data model and is calculated.

As the further scheme of the present invention, described flooding area self adaptation risk control system based on target navigation location The targeted local provided to user vehicle of automobilism platform company is provided and floods risk problem.

As the further scheme of the present invention, described flooding area self adaptation risk control system based on target navigation location Can be used for specific earth's surface to flood the local of active Monitoring Data a little and flood risk map region and be dynamically determined and flood risk map control Scope processed.

As the further scheme of the present invention, described flooding area self adaptation risk control system based on target navigation location Can be used for the cross-domain water system of military field operation army and flood hazardous area computation modeling.

Beneficial effect

(1) present invention propose based on target navigation location flooding area self adaptation risk control method and system, based on Different target user, for currently flooding hazardous area, uses the position flooding border between mobile end system and long-distance cloud service platform The distribution of confidence breath, target component, depth of immersion and optimal dangerous spot, and determine risk that targeted customer passes through and the safest The both-way communication transmission of the signal such as path achieve and a kind of based on target navigation location flood hazardous area self adaptation risk control The method and system of system, its method realizes cost performance height, commercial value height.

(2) present invention can realize determining that boundary point is flooded in local based on targeted customer self navigator fix positional information, In conjunction with the earth's surface precise information model of prebuild, comprehensively determine that local dynamic station floods threedimensional model, local is flooded simultaneously The secure path not having risk zones model combines with navigation, it is achieved flooding area self adaptation risk control.

(3) present invention can be realized based on specifically by real-time communication between multiple target user and long-distance cloud service platform Table floods active Monitoring Data a little, it is not necessary to actively builds local, region by substantial amounts of detection and floods dynamic risk figure, But should be used for the indirectly passive local, region that builds and flood dynamic risk figure and realize local and flood risk by targeted customer Figure dynamic construction, three-dimensional flood the dynamic construction etc. of model.

(4) present invention can realize flooding risk control demand application message in real time for current goal user, builds big The big data model of risk zones is flooded in regional extent local, carries out the emergency route map analysis meter under big area flooding risk control Calculate.

Accompanying drawing explanation

The flooding area self adaptation risk control system schematic diagram that Fig. 1: the present invention positions based on target navigation；

The flooding area self adaptation risk control method flow chart that Fig. 2: the present invention positions based on target navigation；

Detailed description of the invention

Below in conjunction with specific embodiment, the present invention is explained orally further.

Embodiment 1

The present embodiment with based on Urban Storm Flood carry out target navigation location flood hazardous area self adaptation risk control be Make to explain orally further as a example by system and method.Hazardous area self adaptation risk control is flooded based on what Urban Storm Flood carried out target navigation location The system of system includes mobile end system, transmitted in both directions module, the several part of long-distance cloud service platform.Wherein mobile end system, main Hazardous area risk visualization display and peace is flooded including the module and city obtaining position information based on navigator fix Complete trails navigation module；Long-distance cloud service platform, mainly includes the big data management module in high accuracy urban surface basis, and city is flooded Hazardous area self adaptation risk control system cloud computing is not had to analyze module；Transmitted in both directions module includes long-distance cloud service platform and target The transmitted in both directions module of user mobile terminal and realizing and the transmitted in both directions module of long-distance cloud service platform, set up mobile end system with Data between long-distance cloud service platform exchange and communicate.

In conjunction with accompanying drawing 2, the present embodiment floods hazardous area self adaptation wind based on what Urban Storm Flood carried out target navigation location The implementation method that danger controls is as follows:

(1) targeted customer moves to flooding risk area, and the target type of selected target user is motor vehicles, mobile terminal The navigator fix of system determines the one or more boundary position dot informations currently flooding risk area, and mobile terminal is by targeted customer System interacts, the height of car of target setting parameter particularly these motor vehicles, it is also possible to the target of these motor vehicles joined Information by default in number storage mobile end systems, or extract target component according to motor vehicles model engine search；

(2) transmitted in both directions module i.e. realize transmitted in both directions module with long-distance cloud service platform by boundary position dot information, Mobile target type sends to long-distance cloud service platform with target component；

(3) long-distance cloud service platform receives request, and long-distance cloud service platform is based on basis, existing high accuracy earth's surface number According to, build and flood risk area threedimensional model, and combine mobile target type and target component, determine currently flood risk area for The current value-at-risk of targeted customer, current probability ratio and pass, long-distance cloud service platform is based on real-time online communication simultaneously The use information of multiple targeted customers, what dynamic construction currently flooded risk area floods the big data model of distribution and secure connection Channel pattern, its use information includes that the boundary position dot information of targeted customer, mobile target type and target component are passed through road Footpath and history pass；

(4) transmitted in both directions module i.e. long-distance cloud service platform will be current with the transmitted in both directions module of targeted customer mobile terminal Flood the current value-at-risk of risk area, current probability ratio and pass and flood the big data model of distribution and lead to secure connection Road model is back to the mobile end system of targeted customer；

(5) mobile end system is visualized by threedimensional model or plane graph visualization, and it is relative that risk area is currently flooded in display Targeted customer's floods distribution situation, current value-at-risk, current probability ratio and pass；

(6) mobile end system combination based on pass Yu navigator fix, guides targeted customer's safety to flood danger The best safety path of danger zone.

It should be noted that wind is flooded in the similar local that the method can be used for insurance company, sponge urban system targeted Danger calculate and Large Urban Area local flood the big data model of risk map secure path calculate or military field operation army cross-domain Water system with flood hazardous area computation modeling.The mobile terminal of the flooding area self adaptation risk control system that should position based on target navigation System can be built in automobile equipment, or can be used for the targeted local provided to user vehicle of automobilism platform company and flood Risk problem.

Embodiment 2

The present embodiment patrol and examine with electrically-based line corridor meet rain flood carry out target navigation location to flood hazardous area adaptive Making as a example by answering the System and method for of risk control to explain orally further, electrically-based line corridor is patrolled and examined chance rain flood and is carried out target navigation The system flooding hazardous area self adaptation risk control of location includes following components: include mobile end system, transmitted in both directions Module, long-distance cloud service platform.Wherein mobile end system, mainly includes the module obtaining position information based on navigator fix And power circuit corridor floods the visualization display of hazardous area risk and secure path navigation module (its function and realize principle class Hazardous area risk visualization display and secure path navigation module is flooded) than city；Long-distance cloud service platform, mainly includes high-precision The big data management module in basis, degree earth's surface, power circuit corridor (its function and to realize principle analogy high accuracy urban surface basis big Data management module), circuit-line corridor flood hazardous area self adaptation risk control system cloud computing analyze module (its function and Realize principle analogy city and flood hazardous area self adaptation risk control system cloud computing analysis module)；Transmitted in both directions module includes The transmitted in both directions module of long-distance cloud service platform and targeted customer mobile terminal and realizing and the transmitted in both directions of long-distance cloud service platform Module, sets up the exchange of the data between mobile end system with long-distance cloud service platform and communicates.

In conjunction with accompanying drawing 2, in the present embodiment electrically-based line corridor patrol and examine chance rain flood carry out flooding of target navigation location The implementation method of hazardous area self adaptation risk control is as follows:

(1) targeted customer moves and floods risk area, the target class of selected target user to discovery circuit line corridor earth's surface Type is pedestrian, and the navigator fix of mobile end system determines the one or more boundary position dot informations currently flooding risk area, mesh Mobile end system is interacted by mark user, and target setting parameter is pedestrian level；

(2) transmitted in both directions module i.e. realize transmitted in both directions module with long-distance cloud service platform by boundary position dot information, Mobile target type sends to long-distance cloud service platform with target component；

(3) long-distance cloud service platform receives request, and long-distance cloud service platform is based on existing power circuit corridor high accuracy Earth's surface basic data, builds and floods risk area threedimensional model, and combine mobile target type and target component, determine and currently flood Risk area is for the current value-at-risk of targeted customer, current probability ratio and pass, and long-distance cloud service platform is based on reality simultaneously Time online communication the use information of multiple targeted customers, what dynamic construction currently flooded risk area floods the big data model of distribution With secure connection channel pattern, its use information includes the boundary position dot information of targeted customer, mobile target type and target Parameter pass and history pass；

(4) transmitted in both directions module i.e. long-distance cloud service platform will be current with the transmitted in both directions module of targeted customer mobile terminal Flood the current value-at-risk of risk area, current probability ratio and pass and flood the big data model of distribution and lead to secure connection Road model is back to the mobile end system of targeted customer；

(5) mobile end system is visualized by threedimensional model or plane graph visualization, and it is relative that risk area is currently flooded in display Targeted customer's floods distribution situation, current value-at-risk, current probability ratio and pass；

(6) mobile end system combination based on pass Yu navigator fix, guides targeted customer's safety to flood danger The best safety path of danger zone.

Embodiment 3

The present embodiment floods hazardous area self adaptation wind with meet that rain flood carries out target navigation location based on railway corridor O&M Make as a example by the System and method for that danger controls to explain orally further.To carry out target navigation location based on railway corridor O&M chance rain flood The system flooding hazardous area self adaptation risk control includes mobile end system, transmitted in both directions module, long-distance cloud service platform.Wherein Mobile end system, mainly includes that hazardous area wind is flooded in module based on navigator fix acquisition position information and railway corridor Danger visualization display and secure path navigation module (its function and realize principle analogy city to flood the visualization of hazardous area risk aobvious Show and secure path navigation module)；

Long-distance cloud service platform, mainly include the big data management module in basis, high accuracy earth's surface, railway corridor (its function and Realize the big data management module in principle analogy high accuracy urban surface basis), hazardous area self adaptation risk control is flooded in railway corridor System cloud computation analysis module processed (its function and realize principle analogy city and flood hazardous area self adaptation risk control system cloud meter Calculation and Analysis module)；

Transmitted in both directions module include the transmitted in both directions module of long-distance cloud service platform and targeted customer mobile terminal and realize and The transmitted in both directions module of long-distance cloud service platform, sets up the data exchange between mobile end system and long-distance cloud service platform with logical Letter.

In conjunction with accompanying drawing 2, the present embodiment floods danger based on what railway corridor O&M met that rain flood carries out target navigation location The implementation method of district's self adaptation risk control is as follows:

(1) targeted customer moves to finding that risk area is flooded on earth's surface, railway corridor, and the target type of selected target user is Motor vehicles, the navigator fix of mobile end system determines the one or more boundary position dot informations currently flooding risk area, mesh Mobile end system is interacted by mark user, the height of car of target setting parameter particularly these motor vehicles, it is also possible to should Information by default in the target component storage mobile end system of motor vehicles, or according to motor vehicles model engine search Extract target component；

(2) transmitted in both directions module i.e. realize transmitted in both directions module with long-distance cloud service platform by boundary position dot information, Mobile target type sends to long-distance cloud service platform with target component；

(3) long-distance cloud service platform receives request, and long-distance cloud service platform is based on earth's surface, existing high accuracy railway corridor The big data in basis, build and flood risk area threedimensional model, and combine mobile target type and target component, determine and currently flood wind Danger zone is for the current value-at-risk of targeted customer, current probability ratio and pass, and long-distance cloud service platform is based in real time simultaneously The use information of multiple targeted customers of online communication, dynamic construction currently flood risk area flood distribution big data model with Secure connection channel pattern, its use information includes that the boundary position dot information of targeted customer, mobile target type are joined with target Number pass and history pass；

(4) transmitted in both directions module i.e. long-distance cloud service platform will be current with the transmitted in both directions module of targeted customer mobile terminal Flood the current value-at-risk of risk area, current probability ratio and pass and flood the big data model of distribution and lead to secure connection Road model is back to the mobile end system of targeted customer；

(5) mobile end system is visualized by threedimensional model or plane graph visualization, and it is relative that risk area is currently flooded in display Targeted customer's floods distribution situation, current value-at-risk, current probability ratio and pass；

(6) mobile end system combination based on pass Yu navigator fix, guides targeted customer's safety to flood danger The best safety path of danger zone.

Embodiment 4

The present embodiment based on tourist district's rain flood carry out target navigation location flood hazardous area self adaptation risk control be Make to explain orally further as a example by system and method.Hazardous area self adaptation risk is flooded based on what tourist district's rain flood carried out target navigation location The system controlled includes mobile end system, transmitted in both directions module, long-distance cloud service platform.Wherein mobile end system, mainly includes Hazardous area risk visualization display and safe road are flooded in module based on navigator fix acquisition position information and tourist district Footpath navigation module (its function and realize principle analogy city and flood the visualization display of hazardous area risk and secure path and navigate mould Block)；

Long-distance cloud service platform, mainly includes basis, high accuracy tourist district earth's surface big data management module (its function and reality The big data management module in existing principle analogy high accuracy urban surface basis), hazardous area self adaptation risk control system is flooded in tourist district Module (its function and realize principle analogy city and flood hazardous area self adaptation risk control system cloud computing and divide is analyzed in system cloud computing Analysis module)；Transmitted in both directions module include the transmitted in both directions module of long-distance cloud service platform and targeted customer mobile terminal and realize and The transmitted in both directions module of long-distance cloud service platform, sets up the data exchange between mobile end system and long-distance cloud service platform with logical Letter.

In conjunction with accompanying drawing 2, the present embodiment floods hazardous area self adaptation based on what tourist district's rain flood carried out target navigation location The implementation method of risk control is as follows:

(1) targeted customer moves and floods risk area to tourist district earth's surface, and the navigator fix of mobile end system determines and currently floods Not having one or more boundary position dot informations of risk area, mobile end system is interacted by targeted customer, sets mobile target Type and target component, described target type includes that motor vehicles, non power driven vehicle, pedestrian, described target component include vehicle Highly, pedestrian level；

(2) transmitted in both directions module i.e. realize transmitted in both directions module with long-distance cloud service platform by boundary position dot information, Mobile target type sends to long-distance cloud service platform with target component；

(3) long-distance cloud service platform receives request, and long-distance cloud service platform is based on tourist district's high accuracy basis, earth's surface number According to, build and flood risk area threedimensional model, and combine mobile target type and target component, determine currently flood risk area for The current value-at-risk of targeted customer, current probability ratio and pass, long-distance cloud service platform is based on real-time online communication simultaneously The use information of multiple targeted customers, what dynamic construction currently flooded risk area floods the big data model of distribution and secure connection Channel pattern, its use information includes that the boundary position dot information of targeted customer, mobile target type and target component are passed through road Footpath and history pass；

(4) transmitted in both directions module i.e. long-distance cloud service platform will be current with the transmitted in both directions module of targeted customer mobile terminal Flood the current value-at-risk of risk area, current probability ratio and pass and flood the big data model of distribution and lead to secure connection Road model is back to the mobile end system of targeted customer；

(5) mobile end system is visualized by threedimensional model or plane graph visualization, and it is relative that risk area is currently flooded in display Targeted customer's floods distribution situation, current value-at-risk, current probability ratio and pass；

(6) mobile end system combination based on pass Yu navigator fix, guides targeted customer's safety to flood danger The best safety path of danger zone.

The above, the only present invention preferably detailed description of the invention, but protection scope of the present invention is not limited thereto, Any those familiar with the art in the technical scope that the invention discloses, according to technical scheme and Inventive concept equivalent or change in addition, all should contain within protection scope of the present invention.

Claims (14)

1. flooding area self adaptation risk control method based on target navigation location, it is characterised in that comprise the steps:

(1) targeted customer moves to flooding risk area, and the navigator fix of mobile end system determines and currently floods of risk area Or multiple boundary position dot information, mobile end system is interacted by targeted customer, sets mobile target type and target component, Described target type includes that motor vehicles, non power driven vehicle, pedestrian, described target component include height of car, pedestrian level；

(2) the transmitted in both directions module with long-distance cloud service platform is realized by boundary position dot information, mobile target type and target Parameter sends to long-distance cloud service platform；

(3) long-distance cloud service platform receives request, and long-distance cloud service platform is based on existing high accuracy earth's surface basic data, structure Build and flood risk area threedimensional model, and combine mobile target type and target component, determine and currently flood risk area for target The current value-at-risk of user, current probability ratio and pass, long-distance cloud service platform is many based on real-time online communication simultaneously The use information of individual targeted customer, dynamic construction is currently flooded flooding of risk area and is distributed big data model and secure connection passage Model, its use information include the boundary position dot information of targeted customer, mobile target type and target component pass with And history pass；

(4) long-distance cloud service platform will currently flood the current wind of risk area with the transmitted in both directions module of targeted customer mobile terminal Danger value, current probability ratio and pass and flood the big data model of distribution and be back to target use with secure connection channel pattern The mobile end system at family；

(5) mobile end system passes through visual means, and what risk area relative target user was currently flooded in display floods distribution feelings Condition, current value-at-risk, current probability ratio and pass；

(6) mobile end system combination based on pass Yu navigator fix, guides targeted customer's safety to flood hazardous area Best safety path.

Flooding area self adaptation risk control method based on target navigation location the most according to claim 1, its feature exists In, described pass also includes that targeted customer based on the big data in history flooding area and real-time online communication is formed big data What information dynamically generated evades pass.

Flooding area self adaptation risk control method based on target navigation location the most according to claim 1, its feature exists In, described target component also include mobile end system selected target type is carried out parameter that engine search extracted or | and Storage parameter to selected target type inside mobile end system.

Flooding area self adaptation risk control method based on target navigation location the most according to claim 1, its feature exists In, described in flood risk area include city local flooding area, Tour region local flooding area, region, mine local flooding area, ferrum Arterial traffic flooding area, local, corridor, road and flooding area, local, power circuit corridor.

5. flooding area self adaptation risk control system based on target navigation location, it is characterised in that include mobile end system, double To transport module, long-distance cloud service platform；Described mobile end system includes the mould obtaining position information based on navigator fix Block, flood the visualization display of hazardous area risk and secure path navigation module, described obtain position letter based on navigator fix The module of breath also includes targeted customer's interactive module, and described module based on navigator fix acquisition position information is by navigation Location, targeted customer be mutual and storage or | and search target component extracts and determines and currently flood the one or more of risk area Boundary position dot information, mobile target type and target component, described in flood hazardous area risk visualization display and safe road Footpath navigation module will drown out distribution situation, and current value-at-risk, current probability ratio and pass carry out visualization display；Described double Include the transmitted in both directions module of long-distance cloud service platform and targeted customer mobile terminal to transport module and realize and long-distance cloud service The transmitted in both directions module of platform, sets up the exchange of the data between mobile end system with long-distance cloud service platform and communicates；Described far Journey cloud service platform includes the big data management module in basis, high accuracy earth's surface, floods hazardous area self adaptation risk control system cloud meter Calculation and Analysis module, described long-distance cloud service platform receives request, based on existing high accuracy earth's surface basic data, builds and floods wind Danger zone threedimensional model, and combine mobile target type and target component, determine that currently flooding risk area leads to for targeted customer Row value-at-risk, current probability ratio and pass.

Flooding area self adaptation risk control system based on target navigation location the most according to claim 5, its feature exists In, described long-distance cloud service platform carries out flooding the region of risk control for specific needs, carries out the height of relevant range in advance The surface data collection of precision and modeling, simultaneously the making of long-distance cloud service platform multiple targeted customer based on real-time online communication By information, dynamic construction is currently flooded flooding of risk area and is distributed big data model and secure connection channel pattern.

7. according to the flooding area self adaptation risk control system based on target navigation location described in claim 5 or 6, its feature Being, described flooding area self adaptation risk control system based on target navigation location can be used for insurance company, sponge city body Risk Calculation is flooded in the similar local being targeted and the secure path of the big data model of risk map is flooded in Large Urban Area local Calculate.

8. according to the flooding area self adaptation risk control system based on target navigation location described in claim 5 or 6, its feature Being, described flooding area self adaptation risk control system based on target navigation location can be used for institute of automobilism platform company pin Risk problem is flooded in the local provided to user vehicle.

9. according to the flooding area self adaptation risk control system based on target navigation location described in claim 5 or 6, its feature Being, described flooding area self adaptation risk control system based on target navigation location can be used for specific earth's surface and floods active a little The local of Monitoring Data is flooded risk map region and is dynamically determined and floods risk map span of control.

10., according to the flooding area self adaptation risk control system based on target navigation location described in claim 5 or 6, it is special Levying and be, described flooding area self adaptation risk control system based on target navigation location can be used for the cross-domain water of military field operation army It is and floods hazardous area computation modeling.

11. according to the flooding area self adaptation risk control system based on target navigation location described in claim 5 or 6, and it is special Levying and be, described flooding area self adaptation risk control system based on target navigation location, based on different target user for working as Before flood hazardous area, use flooding the positional information on border, target component, flood between mobile end system and long-distance cloud service platform Do not have depth profile and an optimal dangerous spot, and determine the two-way of the signals such as risk that targeted customer passes through and safest path Communication transfer realizes flooding hazardous area self adaptation risk control based on what target navigation positioned.

12. according to the flooding area self adaptation risk control system based on target navigation location described in claim 5 or 6, and it is special Levy and be, described flooding area self adaptation risk control system based on target navigation location, fixed based on targeted customer self navigation Position positional information determines that boundary point is flooded in local, by combining the earth's surface precise information model of prebuild to determine that local is dynamic State floods threedimensional model, and the secure path that local is flooded risk zones model combines with navigation, it is achieved flooding area is adaptive Answer risk control.

13. according to the flooding area self adaptation risk control system based on target navigation location described in claim 5 or 6, and it is special Levying and be, described flooding area self adaptation risk control system based on target navigation location, by multiple target user and long-distance cloud Between service platform, real-time communication can realize flooding active Monitoring Data a little, by the application of targeted customer based on specific earth's surface Come the indirectly passive local, region that builds to flood dynamic risk figure and realize that risk map dynamic construction is flooded in local, three-dimensional floods model Dynamic construction.

14. according to the flooding area self adaptation risk control system based on target navigation location described in claim 5 or 6, and it is special Levy and be, described flooding area self adaptation risk control system based on target navigation location, real-time for current goal user Flood risk control demand application message, build big regional extent local and flood the big data model of risk zones, carry out big region Flood the emergency route map analysis under risk control to calculate.