CN104112326B - A kind of forest fire protection front end recognition and wireless transmitting system and method - Google Patents

Abstract

The present invention relates to a kind of forest fire protection front end recognition and wireless transmitting system, further relate to a kind of forest fire protection front end recognition and the method being wirelessly transferred；System includes image recognition transmission unit group and central monitor system, image recognition transmission unit group is provided with multiple, distribution is arranged on each monitoring region of forest, and each image recognition transmission unit group is controlled and carries out data transmission with image recognition transmission unit group by central monitor system；The bi-directional RF transport module of image recognition transmission unit group has RX and receives passage and TX sendaisle, only RX is received passage to open, receive the command information that central monitor system sends, TX sendaisle is in holding state at ordinary times, it is not take up frequency, just open when needs are with central monitor system transmission data, the frequency of the most all monitoring points is just as, whole Forest Fire Prevention System has only taken up minimum frequency, the environmental pollution greatly saved frequency resource with saved substantial amounts of energy resource consumption and frequency causes.

Description

A kind of forest fire protection front end recognition and wireless transmitting system and method

Technical field

The present invention relates to fire monitoring technology, particularly relate to a kind of forest fire protection front end recognition and be wirelessly transferred System and method.

Background technology

Along with China's rapid development of economy, every field and the work of people's height rhythm, life and Study increasingly be unable to do without the use of wireless device, promotes the fast development of the wireless utilities such as communication, wireless The imbalance between supply and demand of electricity frequency resource becomes increasingly conspicuous, and in view of the characteristic of RF resources, we are except must Resource Management must be strengthened, by planning and the reasonable disposition of science, resource is carried out centralized and unified Management, the management means of our science to be taked, it is necessary to from the application of new technique with constantly bring forth new ideas Sciemtifec and technical sphere excavate, their common objective is all to promote economic construction and the coordination of national defense construction Development, improves frequency resource utilization ratio, it is ensured that normally carrying out and people's lives of various radio traffics Continuous demand.

At present, when forming the state of star or net distribution at a regional Forest Fire Prevention System, conventional The wireless telecommunications of centralized management system and each monitoring point will take a large amount of frequency resource and bandwidth, causes More energy resource consumption and frequency cause environmental pollution.

Summary of the invention

The technical problem to be solved is to provide a kind of forest fire protection front end recognition and is wirelessly transferred System and method, for the deficiency of existing frequency resource, it is provided that intelligentized identification and transmission system, comes Control the duty of control point passage.

The technical scheme is that

A kind of forest fire protection front end recognition and wireless transmitting system, including image recognition transmission unit group and in Heart monitoring system, described image recognition transmission unit group is provided with multiple, and distribution is arranged on each monitoring of forest Region, image recognition transmission unit group each described is controlled and with described by described central monitor system Image recognition transmission unit group carries out data transmission；

Described image recognition transmission unit group includes image sampling module, image recognition control module, two-way Radio frequency transmission module, Anneta module and hard disk images memorizer, the outfan of described image sampling module with The input of described image recognition control module connects, and the first of described image recognition intelligent control module is defeated Go out end and the second outfan respectively with the first input end of described bi-directional RF transport module and the second input End connects, and described Anneta module is connected with the Rfout radio frequency output port of described bi-directional RF transport module, The input of described hard disk images memorizer and the 3rd outfan of described image recognition intelligent control module Connecting, described central monitor system is by Anneta module and described bi-directional RF transport module wireless connections.

On the basis of technique scheme, the present invention can also do following improvement.

Further, described image sampling module, for forest field condition is carried out image data acquiring, And sending to described image recognition control module, and the control that real-time reception image recognition control module sends System order；

Described image recognition control module has device numbering, is used for controlling described image sampling module and carries out Image data acquiring, and the described view data received is processed, the view data after processing is deposited In storage extremely described hard disk images memorizer, and carry out determining whether fire according to the view data after processing Point, sends the information of this fire point to bi-directional RF transport module；Carrying device numbering querying command is carried out Judge, equipment operating data is sent to bi-directional RF transport module；And it is logical to control described TX transmission The opening and closing in road；

Described bi-directional RF transport module has RX reception passage and sends logical with the TX being in holding state Road, described RX receives passage and sends the carrying device numbering come for central monitor system described in real-time reception Querying command, the order confirming fire point and the order of shutoff TX sendaisle, and by each command information Send to described image recognition control module；When described TX sendaisle receives described image recognition control During the open command of molding block, then open, and carry out data transmission with described central monitor system, when connecing When receiving the shutdown command of described image recognition control module, then close；

Described Anneta module, for setting up wireless connections with described central monitor system；

Described hard disk images memorizer, for storing the picture number processed in described image recognition control module According to；

Described central monitor system, for transmission carrying device numbering querying command one by one to RX each described Receive passage, after receiving and checking the equipment operating data of return, retransmit and turn off the TX of this equipment and send out The information sending passage receives passage to described RX；And the information sending the described fire point come is carried out again Confirm.

Further, described image sampling module includes photographic head and controls the The Cloud Terrace of photographic head, described image Identify that control module carries out image data acquiring by photographic head described in cradle head control.

Further, described image recognition control module judges whether according to the view data after processing For fire point, the information of this fire point is sent to bi-directional RF transport module, is implemented as, if fiery Point, then send unlatching TX sendaisle order and opened by TX sendaisle, and believed by the image of this fire point Breath and warning information send to described bi-directional RF transport module, otherwise, then terminate this operation.

Further, carrying device numbering querying command is judged by described image recognition control module, will Equipment operating data sends to bi-directional RF transport module, is implemented as, if the numbering of this equipment, Then send unlatching TX sendaisle order to be opened by TX sendaisle, and by the power that equipment is run Data send to bi-directional RF transport module, otherwise, then terminate this operation.

Further, the information sending the described fire point come is confirmed by described central monitor system again, tool Body is embodied as, and described central monitor system receives passage by the RX of this image recognition transmission unit group will Confirming that the order of fire point sends to image recognition control module, image recognition control module controls described image Fire point scene is confirmed by sampling module again.

Further, described image sampling module is by a RJ45 network port and described image recognition control Molding block connects, and the first outfan of described image recognition control module passes through RS485 serial communication Port and the second outfan by the 2nd RJ45 network port respectively with described bi-directional RF transport module First input end and the second input connect, described hard disk images memorizer is by serial ports and described image 3rd outfan of identification intelligent control module connects.

Another technical scheme that the present invention solves above-mentioned technical problem is as follows: a kind of forest fire protection front end recognition Method with being wirelessly transferred, comprises the steps:

Step A: image sampling module carries out image data acquiring to forest field condition；

Step B: image recognition control module carries out processing and storing and judge according to the view data gathered Whether it is fire point, the information of this fire point is sent to bi-directional RF transport module；

Step C: the information of this fire point is sent to center by bi-directional RF transport module by TX sendaisle Monitoring system；

Step D: central monitor system receives and confirms the information sending the fire point come again；

Step E: central monitor system sends carrying device numbering querying command and checks the fortune of equipment of return Row data, then send the order of shutoff equipment sendaisle, and check the service data of all devices one by one；

Step F: the RX of bi-directional RF transport module receive channel reception to carrying device numbering querying command with After the order of shutoff equipment, each order is sent to image recognition control module；

Step G: the order received is processed by image recognition control module.

On the basis of technique scheme, the present invention can also do following improvement.

Further, in described step B, image recognition control module processes according to the view data gathered And store and determine whether fire point, the information of this fire point is sent to bi-directional RF transport module, specifically It is accomplished by

Step B1: the view data of reception is carried out stabilization, compresses and at display by image recognition control module Manage and be stored in hard disk images memorizer；

Step B2: image recognition control module carries out determining whether fire according to the view data after processing Point, if fire point, then sends unlatching TX sendaisle order and is opened by TX sendaisle, perform step Rapid B3；Otherwise, then step B4 is performed；

Step B3: image information and the warning information of this fire point are sent to bi-directional RF transport module, then Perform step B4；

Step B4: terminate this operation.

Further, in described step E, central monitor system sends carrying device numbering querying command and inspection is returned The service data of the equipment returned, then send the order of shutoff equipment sendaisle, and check all setting one by one Standby service data, is implemented as follows:

Step E1: central monitor system sends a band device numbering querying command, then performs step E2；

Step E2: central monitor system receives and checks the equipment operating data of return, has retransmited shutoff The order of the TX sendaisle of inspection equipment, and perform step E3；

Step E3: central monitor system judges whether to have inspected the service data of all devices, if it is, Then perform step E4；Otherwise, select the device numbering of next device, then perform step E1；

Step E4: terminate this operation.

Further, in described step G, the order received is processed by image recognition control module, tool Body is accomplished by

Step G1: image recognition control module judges whether it is the numbering of this equipment, if it is, send Open TX channel command to be opened by TX passage, then perform step G2；Otherwise, then step G5 is performed；

Step G2: the power data that equipment is run by image recognition control module sends to bi-directional RF transmission Module；

Step G3: receive the order of the TX sendaisle closing this equipment；

Step G4: image recognition control module sends the order closing this equipment TX sendaisle, closes This equipment TX sendaisle；

Step G5: terminate this operation.

During equipment runs, only RX is received passage and open, receive the order letter that central monitor system sends Breath, TX sendaisle is in holding state at ordinary times, is not take up frequency, passes with central monitor system at needs Just opening during transmission of data, the frequency of the most all monitoring points is just as.

The invention has the beneficial effects as follows: there is forest scene condition of a fire function for monitoring, in fire monitoring point networking Time acquisition frequency resource the lowest, image transmitting occupied bandwidth is narrow, and whole Forest Fire Prevention System only takes up Minimum frequency, i.e. solves to control and the duty of management and monitoring point, has greatly saved frequency resource, Save substantial amounts of energy resource consumption and environmental pollution that frequency causes.

Accompanying drawing explanation

Fig. 1 is the module frame chart of the present invention；

Fig. 2 is the method flow diagram that the present invention implements step B；

Fig. 3 is the method flow diagram that the present invention implements step E；

Fig. 4 is the method flow diagram that the present invention implements step G；

Fig. 5 is the structured flowchart of image recognition control module in the embodiment of the present invention.

In accompanying drawing, the component names representated by each labelling is as follows:

1, central monitor system, 2, image sampling module, 3, image recognition control module, 4, two-way Radio frequency transmission module, 5, hard disk images memorizer, 6, Anneta module, 201, photographic head, 202, cloud Platform.

Detailed description of the invention

Being described principle and the feature of the present invention below in conjunction with accompanying drawing, example is served only for explaining this Invention, is not intended to limit the scope of the present invention.

As it is shown in figure 1, a kind of forest fire protection front end recognition and wireless transmitting system, pass including image recognition Defeated unit group and central monitor system 1, described image recognition transmission unit group is provided with multiple, and distribution is arranged In each monitoring region of forest, described central monitor system 1 is to image recognition transmission unit group each described It is controlled and carries out data transmission with described image recognition transmission unit group；

Described image recognition transmission unit group include image sampling module 2, image recognition control module 3, Bi-directional RF transport module 4, Anneta module 6 and hard disk images memorizer 5, described image sampling module 2 Outfan be connected with the input of described image recognition control module 3 by a RJ45 network port, First outfan of described image recognition intelligent control module by RS485 serial communication port and Second outfan by the 2nd RJ45 network port respectively with the first of described bi-directional RF transport module 4 Input and the second input connect, described Anneta module 6 and described bi-directional RF transport module 4 Rfout radio frequency output port connects, and the input of described hard disk images memorizer 5 passes through serial ports with described 3rd outfan of image recognition intelligent control module connects, and described central monitor system 1 is by antenna mould Block 6 and the wireless connections of described bi-directional RF transport module 4.

Described image sampling module 2, for forest field condition is carried out image data acquiring, and sends To described image recognition control module 3, and the control that real-time reception image recognition control module 3 sends Order；

Described image recognition control module 3 has device numbering, is used for controlling described image sampling module 2 Carry out image data acquiring, and the described view data received is processed, the picture number after processing According to storing to described hard disk images memorizer 5, and judge whether according to the view data after processing For fire point, the information of this fire point is sent to bi-directional RF transport module 4；To carrying device numbering inquiry life Order judges, sends equipment operating data to bi-directional RF transport module 4；And control described TX The opening and closing of sendaisle；

As it is shown in figure 5, image recognition control module 3 specifically uses based on DSP, (DSP is digital Signal processor i.e. digital signal processor) and FPGA (FPGA is Field-Programmable Gate Array i.e. field programmable gate array) or the construction module of industrial computer platform, it is achieved video figure The Real-time Collection of picture and image analysis processing；

Described bi-directional RF transport module 4 has RX reception passage and sends logical with the TX being in holding state Road, bi-directional RF transport module 4 can use COFDM-FDD/TDD mode to realize uplink and downlink image information (COFDM:coded orthogonal frequency division is transmitted with control command The abbreviation of multiplexing, i.e. COFDM, its ultimate principle is exactly by high-speed data-flow By serioparallel exchange, it is assigned in some subchannels that transfer rate is relatively low be transmitted), described RX Receive passage central monitor system 1 described in the real-time reception send come carrying device numbering querying command, Confirm the order of fire point and turn off the order of TX sendaisle, and will be each by the 2nd RJ45 network port Individual command information sends to described image recognition control module 3；When described TX sendaisle receives described During the open command of image recognition control module 3, then open, and carry out with described central monitor system 1 Data are transmitted, and when receiving the shutdown command of described image recognition control module 3, then close；

Described Anneta module 6, for setting up wireless connections with described central monitor system 1；

Described hard disk images memorizer 5, for storing the figure processed in described image recognition control module 3 As data；

Described central monitor system 1, for transmission carrying device numbering querying command one by one to RX each described Receive passage, after receiving and checking the equipment operating data of return, retransmit and turn off the TX of this equipment and send out The information sending passage receives passage to described RX；And the information sending the described fire point come is carried out again Confirm.

Described image sampling module 2 includes photographic head 201 and controls the The Cloud Terrace 202 of photographic head 201, institute State image recognition control module 3 to control described photographic head 201 by The Cloud Terrace 202 and carry out image data acquiring.

Described image recognition control module 3 carries out determining whether fire according to the view data after processing Point, sends the information of this fire point to bi-directional RF transport module 4, is implemented as, if fire point, Then send open TX sendaisle order TX sendaisle is opened, and by the image information of this fire point with Warning information sends to described bi-directional RF transport module 4, otherwise, then terminates this operation.

Carrying device numbering querying command is judged by described image recognition control module 3, is transported by equipment Row data send to bi-directional RF transport module 4, are implemented as, if the numbering of this equipment, then Send unlatching TX sendaisle order to be opened by TX sendaisle, and by the power number that equipment is run According to sending to bi-directional RF transport module 4, otherwise, then this operation is terminated.

The information sending the described fire point come is confirmed by described central monitor system 1 again, implements For, described central monitor system 1 receives passage by the RX of this image recognition transmission unit group and will confirm that The order of fire point sends to image recognition control module 3, and image recognition control module 3 controls described image Fire point scene is confirmed by sampling module 2 again.

Described image sampling module 2 is by a RJ45 network port and described image recognition control module 3 Connecting, the first outfan of described image recognition control module 3 passes through RS485 serial communication port And the second outfan by the 2nd RJ45 network port respectively with described bi-directional RF transport module 4 First input end and the second input connect, and described hard disk images memorizer 5 is by serial ports and described image 3rd outfan of identification intelligent control module connects.

A kind of forest fire protection front end recognition and the method being wirelessly transferred, the forest fire protection front end described in employing is known Not and wireless transmitting system, do not comprise the steps,

Step A: image sampling module carries out image data acquiring to forest field condition；

Step B: image recognition control module carries out processing and storing and judge according to the view data gathered Whether it is fire point, the information of this fire point is sent to bi-directional RF transport module；

Step C: the information of this fire point is sent to center by bi-directional RF transport module by TX sendaisle Monitoring system；

Step D: central monitor system receives and confirms the information sending the fire point come again；

Step E: central monitor system sends carrying device numbering querying command and checks the fortune of equipment of return Row data, then send the order of shutoff equipment sendaisle, and check the service data of all devices one by one；

Step F: the RX of bi-directional RF transport module receive channel reception to carrying device numbering querying command with After the order of shutoff equipment, each order is sent to image recognition control module；

Step G: the order received is processed by image recognition control module.

As in figure 2 it is shown, image recognition control module is carried out according to the view data gathered in described step B Process and store and determine whether fire point, the information of this fire point is sent to bi-directional RF transport module, It is implemented as follows:

Step B1: the view data of reception is carried out stabilization, compresses and at display by image recognition control module Manage and be stored in hard disk images memorizer；

Step B2: image recognition control module carries out determining whether fire according to the view data after processing Point, if fire point, then sends unlatching TX sendaisle order and is opened by TX sendaisle, perform step Rapid B3；Otherwise, then step B4 is performed；

Step B3: image information and the warning information of this fire point are sent to bi-directional RF transport module, then Perform step B4；

Step B4: terminate this operation.

As it is shown on figure 3, central monitor system sends carrying device numbering querying command and examines in described step E Test the service data of the equipment of return, then send the order of shutoff equipment sendaisle, and inspection institute one by one There is the service data of equipment, be implemented as follows:

Step E1: central monitor system sends a band device numbering querying command, then performs step E2；

Step E2: central monitor system receives and checks the equipment operating data of return, has retransmited shutoff The order of the TX sendaisle of inspection equipment, and perform step E3；

Step E3: central monitor system judges whether to have inspected the service data of all devices, if it is, Then perform step E4；Otherwise, select the device numbering of next device, then perform step E1；

Step E4: terminate this operation.

As shown in Figure 4, in described step G, the order received is processed by image recognition control module, It is implemented as follows:

Step G1: image recognition control module judges whether it is the numbering of this equipment, if it is, send Open TX channel command to be opened by TX passage, then perform step G2；Otherwise, then step G5 is performed；

Step G2: the power data that equipment is run by image recognition control module sends to bi-directional RF transmission Module；

Step G3: receive the order of the TX sendaisle closing this equipment；

Step G4: image recognition control module sends the order closing this equipment TX sendaisle, closes This equipment TX sendaisle；

Step G5: terminate this operation.

In step D, the information sending the described fire point come is confirmed by described central monitor system again, Being implemented as, described central monitor system receives passage by the RX of this image recognition transmission unit group Will confirm that the order of fire point sends to image recognition control module, image recognition control module controls described figure As fire point scene is confirmed by sampling module again.

During equipment runs, only RX is received passage and open, receive the order letter that central monitor system sends Breath, TX sendaisle is in holding state at ordinary times, is not take up frequency, passes with central monitor system at needs Just opening during transmission of data, the frequency of the most all monitoring points is just as.

The foregoing is only presently preferred embodiments of the present invention, not in order to limit the present invention, all in the present invention Spirit and principle within, any modification, equivalent substitution and improvement etc. made, should be included in this Within bright protection domain.

Claims (10)

1. a forest fire protection front end recognition and wireless transmitting system, it is characterised in that include that image is known Other transmission unit group and central monitor system, described image recognition transmission unit group is provided with multiple, and distribution sets Putting in each monitoring region of forest, described central monitor system is to image recognition transmission unit group each described It is controlled and carries out data transmission with described image recognition transmission unit group；

Described image recognition transmission unit group includes image sampling module, image recognition control module, two-way Radio frequency transmission module, Anneta module and hard disk images memorizer, the outfan of described image sampling module with The input of described image recognition control module connects, the first outfan of image recognition control module and the Two outfans are connected with first input end and second input of described bi-directional RF transport module respectively, institute State Anneta module to be connected with the Rfout radio frequency output port of described bi-directional RF transport module, described hard disk The input of image storage is connected with the 3rd outfan of image recognition control module, described center monitoring System is by Anneta module and described bi-directional RF transport module wireless connections；

Described image sampling module, for forest field condition carries out image data acquiring, and sends extremely In described image recognition control module, and the control command that real-time reception image recognition control module sends；

Described image recognition control module has device numbering, is used for controlling described image sampling module and carries out Image data acquiring, and the described view data received is processed, the view data after processing is deposited In storage extremely described hard disk images memorizer, and carry out determining whether fire according to the view data after processing Point, sends the information of this fire point to bi-directional RF transport module；Carrying device numbering querying command is carried out Judge, equipment operating data is sent to bi-directional RF transport module；And control TX sendaisle Open and close；

Described bi-directional RF transport module has RX reception passage and sends logical with the TX being in holding state Road, described RX receives passage and sends the carrying device numbering come for central monitor system described in real-time reception Querying command, the order confirming fire point and the order of shutoff TX sendaisle, and by each command information Send to described image recognition control module；When described TX sendaisle receives described image recognition control During the open command of molding block, then open, and carry out data transmission with described central monitor system, when connecing When receiving the shutdown command of described image recognition control module, then close；

Described Anneta module, for setting up wireless connections with described central monitor system；

Described hard disk images memorizer, for storing the picture number processed in described image recognition control module According to；

Described central monitor system, for transmission carrying device numbering querying command one by one to RX each described Receive passage, after receiving and checking the equipment operating data of return, retransmit and turn off the TX of this equipment and send out The information sending passage receives passage to described RX；And the information sending the described fire point come is carried out again Confirm.

A kind of forest fire protection front end recognition the most according to claim 1 and wireless transmitting system, its Being characterised by, described image sampling module includes photographic head and controls the The Cloud Terrace of photographic head, and described image is known Other control module carries out image data acquiring by photographic head described in cradle head control.

A kind of forest fire protection front end recognition the most according to claim 1 and wireless transmitting system, its Being characterised by, described image recognition control module determines whether according to the view data after processing Fire point, sends the information of this fire point to bi-directional RF transport module, is implemented as, if fire point, Then send open TX sendaisle order TX sendaisle is opened, and by the image information of this fire point with Warning information sends to described bi-directional RF transport module, otherwise, then terminates this operation.

A kind of forest fire protection front end recognition the most according to claim 1 and wireless transmitting system, its Being characterised by, carrying device numbering querying command is judged by described image recognition control module, will set Standby service data sends to bi-directional RF transport module, is implemented as, if the numbering of this equipment, Then send unlatching TX sendaisle order to be opened by TX sendaisle, and by the power that equipment is run Data send to bi-directional RF transport module, otherwise, then terminate this operation.

A kind of forest fire protection front end recognition the most according to claim 1 and wireless transmitting system, its Being characterised by, the information sending the described fire point come is confirmed, specifically by described central monitor system again Being embodied as, described central monitor system receives passage by the RX of this image recognition transmission unit group will really The order recognizing fire point sends to image recognition control module, and image recognition control module controls described image and takes Fire point scene is confirmed by original mold block again.

A kind of forest fire protection front end recognition the most according to claim 1 and wireless transmitting system, its Being characterised by, described image sampling module is controlled with described image recognition by a RJ45 network port Module connects, and the first outfan of described image recognition control module passes through RS485 serial communication end Mouthful and the second outfan by the 2nd RJ45 network port respectively with described bi-directional RF transport module First input end and the second input connect, and described hard disk images memorizer is by serial ports and image recognition control 3rd outfan of molding block connects.

7. a forest fire protection front end recognition and the method being wirelessly transferred, it is characterised in that use right Require arbitrary described forest fire protection front end recognition and wireless transmitting system in 1 to 6, comprise the steps,

Step A: image sampling module carries out image data acquiring to forest field condition；

Step B: image recognition control module carries out processing and storing and judge according to the view data gathered Whether it is fire point, the information of this fire point is sent to bi-directional RF transport module；

Step C: the information of this fire point is sent to center by bi-directional RF transport module by TX sendaisle Monitoring system；

Step D: central monitor system receives and confirms the information sending the fire point come again；

Step E: central monitor system sends carrying device numbering querying command and checks the fortune of equipment of return Row data, then send the order of shutoff equipment sendaisle, and check the service data of all devices one by one；

Step F: the RX of bi-directional RF transport module receive channel reception to carrying device numbering querying command with After the order of shutoff equipment, each order is sent to image recognition control module；

Step G: the order received is processed by image recognition control module.

A kind of forest fire protection front end recognition the most according to claim 7 and the method being wirelessly transferred, It is characterized in that, in described step B, image recognition control module processes according to the view data gathered And store and determine whether fire point, the information of this fire point is sent to bi-directional RF transport module, specifically It is accomplished by

Step B1: the view data of reception is carried out stabilization, compresses and at display by image recognition control module Manage and be stored in hard disk images memorizer；

Step B2: image recognition control module carries out determining whether fire according to the view data after processing Point, if fire point, then sends unlatching TX sendaisle order and is opened by TX sendaisle, perform step Rapid B3；Otherwise, then step B4 is performed；

Step B3: image information and the warning information of this fire point are sent to bi-directional RF transport module, then Perform step B4；

Step B4: terminate this operation.

A kind of forest fire protection front end recognition the most according to claim 7 and the method being wirelessly transferred, It is characterized in that, in described step E, central monitor system sends carrying device numbering querying command and inspection is returned The service data of the equipment returned, then send the order of shutoff equipment sendaisle, and check all setting one by one Standby service data, is implemented as follows:

Step E1: central monitor system sends a band device numbering querying command, then performs step E2；

Step E2: central monitor system receives and checks the equipment operating data of return, has retransmited shutoff The order of the TX sendaisle of inspection equipment, and perform step E3；

Step E3: central monitor system judges whether to have inspected the service data of all devices, if it is, Then perform step E4；Otherwise, select the device numbering of next device, then perform step E1；

Step E4: terminate this operation.

A kind of forest fire protection front end recognition the most according to claim 7 and the method being wirelessly transferred, It is characterized in that, in described step G, the order received is processed by image recognition control module, tool Body is accomplished by

Step G1: image recognition control module judges whether it is the numbering of this equipment, if it is, send Open TX channel command to be opened by TX passage, then perform step G2；Otherwise, then step G5 is performed；

Step G2: the power data that equipment is run by image recognition control module sends to bi-directional RF transmission Module；

Step G3: receive the order of the TX sendaisle closing this equipment；

Step G4: image recognition control module sends the order closing this equipment TX sendaisle, closes This equipment TX sendaisle；

Step G5: terminate this operation.