CN104112326A - Front-end recognizing and wireless transmission system and method for forest fire prevention - Google Patents
Front-end recognizing and wireless transmission system and method for forest fire prevention Download PDFInfo
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Abstract
The invention relates to a front-end recognizing and wireless transmission system and method for forest fire prevention. The front-end recognizing and wireless transmission system comprises a plurality of image recognizing and transmitting unit groups and a center monitoring system, the image recognizing and transmitting unit groups are distributed at each monitoring region of the forest, and the center monitoring system controls each image recognizing and transmitting unit group and transmits data to the image recognizing and transmitting unit groups; a bidirectional radio frequency transmission module of each image recognizing and transmitting unit group comprises an RX receiving passage and a TX sending passage, only the RX receiving passage is opened to receive command information sent from the center monitoring system, the TX sending passage is located at a standby state in usual so that the TX sending passage does not take up frequency, the TX sending passage is opened when the data transmission between the image recognizing and transmitting unit groups and the center monitoring system is needed, and therefore, the frequencies of all the monitoring points are the same, the whole forest fire prevention system takes up the least amount of frequency points, the frequency resource is greatly saved, and the environment pollution due to a lot of energy consumption and frequencies is reduced.
Description
Technical field
The present invention relates to fire monitoring technology, relate in particular to a kind of forest fire protection front end recognition and wireless transmitting system and method.
Background technology
Along with China's rapid development of economy, work at every field and the high rhythm of people, living and studying more and more be unable to do without the use of wireless device, impel the fast development of the wireless utilities such as communication, the imbalance between supply and demand of radio frequency resource becomes increasingly conspicuous, characteristic in view of radio frequency resource, we are except strengthening Resource Management, by planning and the reasonable disposition of science, resource is carried out to centralized and unified management, we not only will take the ladder of management of science, also must excavate from the application of new technology and the sciemtifec and technical sphere of constantly bringing forth new ideas, their common objective is all the coordinated development that promotes economic construction and national defense construction, improve frequency resource utilization ratio, what guarantee various radio traffics normally carries out the continuous demand with people's lives.
At present, when when a regional Forest Fire Prevention System forms the state of star or net distribution, the wireless telecommunications of conventional centralized management system and each monitoring point will take a large amount of frequency resources and bandwidth, cause more energy resource consumption and frequency to cause environmental pollution.
Summary of the invention
Technical matters to be solved by this invention is to provide a kind of forest fire protection front end recognition and wireless transmitting system and method, for the deficiency of existing frequency resource, provides intelligentized identification and transmission system, controls the duty of control point passage.
The technical scheme that the present invention solves the problems of the technologies described above is as follows:
A kind of forest fire protection front end recognition and wireless transmitting system, comprise image recognition transmission unit group and central monitor system, described image recognition transmission unit group is provided with a plurality of, distribution is arranged on each guarded region of forest, and described central monitor system is controlled image recognition transmission unit group described in each and carried out data transmission with described image recognition transmission unit group;
Described image recognition transmission unit group comprises image sampling module, image recognition control module, bi-directional RF transport module, Anneta module and hard disk images storer, the output terminal of described image sampling module is connected with the input end of described image recognition control module, the first output terminal of described image recognition intelligent control module is connected with the second input end with the first input end of described bi-directional RF transport module respectively with the second output terminal, described Anneta module is connected with the Rfout radio frequency output port of described bi-directional RF transport module, the input end of described hard disk images storer is connected with the 3rd output terminal of described image recognition intelligent control module, described central monitor system is by Anneta module and the wireless connections of described bi-directional RF transport module.
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 to image data acquiring, and is sent in described image recognition control module, and receives in real time the control command that image recognition control module is sent;
Described image recognition control module has device numbering, be used for controlling described image sampling module and carry out image data acquiring, and the described view data receiving is processed, view data after processing is stored in described hard disk images storer, and determine whether fiery point according to the view data after processing, the information of this fire point is sent to bi-directional RF transport module; Carrying device numbering querying command is judged, equipment operating data is sent to bi-directional RF transport module; And the opening and closing of controlling described TX sendaisle;
Described bi-directional RF transport module has RX receiving cable and in the TX of holding state sendaisle, described RX receiving cable is numbered querying command, is confirmed the order of fire point and the order of shutoff TX sendaisle for the carrying device that the described central monitor system of reception sends in real time, and each command information is sent to described image recognition control module; When described TX sendaisle receives the open command of described image recognition control module, open, and carry out data transmission with described central monitor system, when receiving the shutdown command of described image recognition control module, close;
Described Anneta module, for setting up wireless connections with described central monitor system;
Described hard disk images storer, the view data of processing for storing described image recognition control module;
Described central monitor system, for sending one by one carrying device numbering querying command to RX receiving cable described in each, receives and check after the equipment operating data returning, then the information that sends the TX sendaisle that turn-offs this equipment is to described RX receiving cable; And the information of the described fire point sending is confirmed again.
Further, described image sampling module comprises the The Cloud Terrace of camera and control camera, and described image recognition control module is carried out image data acquiring by camera described in cradle head control.
Further, described image recognition control module determines whether fiery point according to the view data after processing, the information of this fire point is sent to bi-directional RF transport module, specific implementation is, if fiery point sends the order of unlatching TX sendaisle TX sendaisle is opened, and the image information of this fire point and warning information are sent to described bi-directional RF transport module, otherwise, finish this operation.
Further, described image recognition control module judges carrying device numbering querying command, equipment operating data is sent to bi-directional RF transport module, specific implementation is, if the numbering of this equipment sends the order of unlatching TX sendaisle TX sendaisle is opened, and by the power data of equipment operation is sent to bi-directional RF transport module, otherwise, finish this operation.
Further, described central monitor system is confirmed the information of the described fire point sending again, specific implementation is, described central monitor system is sent to image recognition control module by the RX receiving cable of this image recognition transmission unit group by the order of confirming fire point, and image recognition control module is controlled described image sampling module fire point scene is confirmed again.
Further, described image sampling module is connected with described image recognition control module by a RJ45 network port, the first output terminal of described image recognition control module is connected with the second input end with the first input end of described bi-directional RF transport module respectively by the 2nd RJ45 network port by RS485 serial communication port and the second output terminal, and described hard disk images storer is connected with the 3rd output terminal of described image recognition intelligent control module by serial ports.
Another technical scheme that the present invention solves the problems of the technologies described above is as follows: a kind of method of forest fire protection front end recognition and wireless transmission, comprises the steps:
Steps A: image sampling module is carried out image data acquiring to forest field condition;
Step B: image recognition control module is processed and stores and determine whether fiery point according to the view data gathering, and the information of this fire point is sent to bi-directional RF transport module;
Step C: bi-directional RF transport module is sent to central monitor system by TX sendaisle by the information of this fire point;
Step D: central monitor system receives and the information of the fire point sending is confirmed again;
Step e: central monitor system sends carrying device numbering querying command and checks the service data of the equipment returning, then the order of sending turn-off apparatus sendaisle, and check one by one the service data of all devices;
Step F: the RX receiving cable of bi-directional RF transport module receives after the order of carrying device numbering querying command and turn-off apparatus, and each order is sent to image recognition control module;
Step G: image recognition control module is processed the order receiving.
On the basis of technique scheme, the present invention can also do following improvement.
Further, in described step B, image recognition control module is processed and stores and determine whether fiery point according to the view data gathering, and the information of this fire point is sent to bi-directional RF transport module, is implemented as follows:
Step B1: image recognition control module is carried out the view data of reception anti-shake, compression and Graphics Processing and is stored in hard disk images storer;
Step B2: image recognition control module determines whether fiery point according to the view data after processing, if fiery point sends the order of unlatching TX sendaisle TX sendaisle is opened, execution step B3; Otherwise, perform step B4;
Step B3: the image information of this fire point and warning information are sent to bi-directional RF transport module, then perform step B4;
Step B4: finish this operation.
Further, in described step e, central monitor system sends the service data of the carrying device numbering querying command equipment that also check is returned, then the order of sending turn-off apparatus sendaisle, and checks one by one the service data of all devices, is implemented as follows:
Step e 1: central monitor system sends a band device numbering querying command, then performs step E2;
Step e 2: central monitor system receives and check the equipment operating data returning, then send and to turn-off the order of the TX sendaisle of inspection machine, and perform step E3;
Step e 3: central monitor system judges whether to have inspected the service data of all devices, if so, performs step E4; Otherwise the device numbering of selection next device, performs step E1;
Step e 4: finish this operation.
Further, in described step G, image recognition control module is processed the order receiving, and is implemented as follows:
Step G1: image recognition control module judges whether it is the numbering of this equipment, if so, sends unlatching TX channel command TX passage is opened, then perform step G2; Otherwise, perform step G5;
Step G2: image recognition control module is sent to bi-directional RF transport module by the power data of equipment operation;
Step G3: receive the order of the TX sendaisle of closing this equipment;
Step G4: image recognition control module sends the order of closing this equipment TX sendaisle, closes this equipment TX sendaisle;
Step G5: finish this operation.
Equipment is in service, only RX receiving cable is opened to the command information that receiving center supervisory system is sent, TX sendaisle is at ordinary times in holding state, acquisition frequency is not just opened when needs transmit data with central monitor system, and therefore the frequency of all monitoring points is all the same.
The invention has the beneficial effects as follows: there is the on-the-spot condition of a fire function for monitoring of forest, when the networking of fire monitoring point, acquisition frequency resource is very low, image transmitting occupied bandwidth is narrow, whole Forest Fire Prevention System has only taken minimum frequency, solve the duty of control and management control point, save greatly frequency resource, saved the environmental pollution that a large amount of energy resource consumptions and frequency cause.
Accompanying drawing explanation
Fig. 1 is module frame chart of the present invention;
Fig. 2 is the method flow diagram of the invention process step B;
Fig. 3 is the method flow diagram of the invention process step e;
Fig. 4 is the method flow diagram of the invention process 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 of each mark representative is as follows:
1, central monitor system, 2, image sampling module, 3, image recognition control module, 4, bi-directional RF transport module, 5, hard disk images storer, 6, Anneta module, 201, camera, 202, The Cloud Terrace.
Embodiment
Below in conjunction with accompanying drawing, principle of the present invention and feature are described, example, only for explaining the present invention, is not intended to limit scope of the present invention.
As shown in Figure 1, a kind of forest fire protection front end recognition and wireless transmitting system, comprise image recognition transmission unit group and central monitor system 1, described image recognition transmission unit group is provided with a plurality of, distribution is arranged on each guarded region of forest, and described central monitor system 1 is controlled image recognition transmission unit group described in each and carried out data transmission with described image recognition transmission unit group;
Described image recognition transmission unit group comprises image sampling module 2, image recognition control module 3, bi-directional RF transport module 4, Anneta module 6 and hard disk images storer 5, the output terminal of described image sampling module 2 is connected with the input end of described image recognition control module 3 by a RJ45 network port, the first output terminal of described image recognition intelligent control module is connected with the second input end with the first input end of described bi-directional RF transport module 4 respectively by the 2nd RJ45 network port by RS485 serial communication port and the second output terminal, described Anneta module 6 is connected with the Rfout radio frequency output port of described bi-directional RF transport module 4, the input end of described hard disk images storer 5 is connected with the 3rd output terminal of described image recognition intelligent control module by serial ports, described central monitor system 1 is by Anneta module 6 and described bi-directional RF transport module 4 wireless connections.
Described image sampling module 2, for forest field condition is carried out to image data acquiring, and is sent in described image recognition control module 3, and receives in real time the control command that image recognition control module 3 is sent;
Described image recognition control module 3 has device numbering, be used for controlling described image sampling module 2 and carry out image data acquiring, and the described view data receiving is processed, view data after processing is stored in described hard disk images storer 5, and determine whether fiery point according to the view data after processing, the information of this fire point is sent to bi-directional RF transport module 4; Carrying device numbering querying command is judged, equipment operating data is sent to bi-directional RF transport module 4; And the opening and closing of controlling described TX sendaisle;
As shown in Figure 5, image recognition control module 3 specifically adopts the construction module based on DSP (DSP is that digital signal processor is digital signal processor) and FPGA (FPGA is that Field-Programmable Gate Array is field programmable gate array) or industrial computer platform, realizes Real-time Collection and the image analysis processing of video image;
Described bi-directional RF transport module 4 has RX receiving cable and in the TX of holding state sendaisle, bi-directional RF transport module 4 can adopt COFDM-FDD/TDD mode to realize, descending image information and control command transmission (COFDM:coded orthogonal frequency division multiplexing, it is the abbreviation of COFDM, its ultimate principle exactly by high-speed data-flow by going here and there and changing, be assigned in some subchannels that transfer rate is lower and transmit), the carrying device numbering querying command that described RX receiving cable sends for receiving in real time described central monitor system 1, confirm the order of fire point and the order of turn-offing TX sendaisle, and by the 2nd RJ45 network port, each command information is sent to described image recognition control module 3, when described TX sendaisle receives the open command of described image recognition control module 3, open, and carry out data transmission with described central monitor system 1, when receiving the shutdown command of described image recognition control module 3, close,
Described Anneta module 6, for setting up wireless connections with described central monitor system 1;
Described hard disk images storer 5, the view data of processing for storing described image recognition control module 3;
Described central monitor system 1, for sending one by one carrying device numbering querying command to RX receiving cable described in each, receives and check after the equipment operating data returning, then the information that sends the TX sendaisle that turn-offs this equipment is to described RX receiving cable; And the information of the described fire point sending is confirmed again.
Described image sampling module 2 comprises the The Cloud Terrace 202 of camera 201 and control camera 201, and described image recognition control module 3 is controlled described camera 201 by The Cloud Terrace 202 and carried out image data acquiring.
Described image recognition control module 3 determines whether fiery point according to the view data after processing, the information of this fire point is sent to bi-directional RF transport module 4, specific implementation is, if fiery point, sending the order of unlatching TX sendaisle opens TX sendaisle, and the image information of this fire point and warning information are sent to described bi-directional RF transport module 4, otherwise, this operation finished.
Described 3 pairs of carrying device numbering querying commands of image recognition control module judge, equipment operating data is sent to bi-directional RF transport module 4, specific implementation is, if the numbering of this equipment, sending the order of unlatching TX sendaisle opens TX sendaisle, and by the power data of equipment operation is sent to bi-directional RF transport module 4, otherwise, finish this operation.
The information of the described fire point that 1 pair of described central monitor system sends is confirmed again, specific implementation is, described central monitor system 1 is sent to image recognition control module 3 by the RX receiving cable of this image recognition transmission unit group by the order of confirming fire point, and image recognition control module 3 is controlled 2 pairs of fiery some scenes of described image sampling module and confirmed.
Described image sampling module 2 is connected with described image recognition control module 3 by a RJ45 network port, the first output terminal of described image recognition control module 3 is connected with the second input end with the first input end of described bi-directional RF transport module 4 respectively by the 2nd RJ45 network port by RS485 serial communication port and the second output terminal, and described hard disk images storer 5 is connected with the 3rd output terminal of described image recognition intelligent control module by serial ports.
A method for forest fire protection front end recognition and wireless transmission, adopts described forest fire protection front end recognition and wireless transmitting system, comprises the steps,
Steps A: image sampling module is carried out image data acquiring to forest field condition;
Step B: image recognition control module is processed and stores and determine whether fiery point according to the view data gathering, and the information of this fire point is sent to bi-directional RF transport module;
Step C: bi-directional RF transport module is sent to central monitor system by TX sendaisle by the information of this fire point;
Step D: central monitor system receives and the information of the fire point sending is confirmed again;
Step e: central monitor system sends carrying device numbering querying command and checks the service data of the equipment returning, then the order of sending turn-off apparatus sendaisle, and check one by one the service data of all devices;
Step F: the RX receiving cable of bi-directional RF transport module receives after the order of carrying device numbering querying command and turn-off apparatus, and each order is sent to image recognition control module;
Step G: image recognition control module is processed the order receiving.
As shown in Figure 2, in described step B, image recognition control module is processed and stores and determine whether fiery point according to the view data gathering, and the information of this fire point is sent to bi-directional RF transport module, is implemented as follows:
Step B1: image recognition control module is carried out the view data of reception anti-shake, compression and Graphics Processing and is stored in hard disk images storer;
Step B2: image recognition control module determines whether fiery point according to the view data after processing, if fiery point sends the order of unlatching TX sendaisle TX sendaisle is opened, execution step B3; Otherwise, perform step B4;
Step B3: the image information of this fire point and warning information are sent to bi-directional RF transport module, then perform step B4;
Step B4: finish this operation.
As shown in Figure 3, in described step e, central monitor system sends the service data of the carrying device numbering querying command equipment that also check is returned, then the order of sending turn-off apparatus sendaisle, and checks one by one the service data of all devices, is implemented as follows:
Step e 1: central monitor system sends a band device numbering querying command, then performs step E2;
Step e 2: central monitor system receives and check the equipment operating data returning, then send and to turn-off the order of the TX sendaisle of inspection machine, and perform step E3;
Step e 3: central monitor system judges whether to have inspected the service data of all devices, if so, performs step E4; Otherwise the device numbering of selection next device, performs step E1;
Step e 4: finish this operation.
As shown in Figure 4, in described step G, image recognition control module is processed the order receiving, and is implemented as follows:
Step G1: image recognition control module judges whether it is the numbering of this equipment, if so, sends unlatching TX channel command TX passage is opened, then perform step G2; Otherwise, perform step G5;
Step G2: image recognition control module is sent to bi-directional RF transport module by the power data of equipment operation;
Step G3: receive the order of the TX sendaisle of closing this equipment;
Step G4: image recognition control module sends the order of closing this equipment TX sendaisle, closes this equipment TX sendaisle;
Step G5: finish this operation.
In step D, described central monitor system is confirmed the information of the described fire point sending again, specific implementation is, described central monitor system is sent to image recognition control module by the RX receiving cable of this image recognition transmission unit group by the order of confirming fire point, and image recognition control module is controlled described image sampling module fire point scene is confirmed again.
Equipment is in service, only RX receiving cable is opened to the command information that receiving center supervisory system is sent, TX sendaisle is at ordinary times in holding state, acquisition frequency is not just opened when needs transmit data with central monitor system, and therefore the frequency of all monitoring points is all the same.
The foregoing is only preferred embodiment of the present invention, in order to limit the present invention, within the spirit and principles in the present invention not all, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection scope of the present invention.
Claims (11)
1. a forest fire protection front end recognition and wireless transmitting system, it is characterized in that, comprise image recognition transmission unit group and central monitor system, described image recognition transmission unit group is provided with a plurality of, distribution is arranged on each guarded region of forest, and described central monitor system is controlled image recognition transmission unit group described in each and carried out data transmission with described image recognition transmission unit group;
Described image recognition transmission unit group comprises image sampling module, image recognition control module, bi-directional RF transport module, Anneta module and hard disk images storer, the output terminal of described image sampling module is connected with the input end of described image recognition control module, the first output terminal of described image recognition intelligent control module is connected with the second input end with the first input end of described bi-directional RF transport module respectively with the second output terminal, described Anneta module is connected with the Rfout radio frequency output port of described bi-directional RF transport module, the input end of described hard disk images storer is connected with the 3rd output terminal of described image recognition intelligent control module, described central monitor system is by Anneta module and the wireless connections of described bi-directional RF transport module.
2. a kind of forest fire protection front end recognition according to claim 1 and wireless transmitting system, is characterized in that,
Described image sampling module, for forest field condition is carried out to image data acquiring, and is sent in described image recognition control module, and receives in real time the control command that image recognition control module is sent;
Described image recognition control module has device numbering, be used for controlling described image sampling module and carry out image data acquiring, and the described view data receiving is processed, view data after processing is stored in described hard disk images storer, and determine whether fiery point according to the view data after processing, the information of this fire point is sent to bi-directional RF transport module; Carrying device numbering querying command is judged, equipment operating data is sent to bi-directional RF transport module; And the opening and closing of controlling described TX sendaisle;
Described bi-directional RF transport module has RX receiving cable and in the TX of holding state sendaisle, described RX receiving cable is numbered querying command, is confirmed the order of fire point and the order of shutoff TX sendaisle for the carrying device that the described central monitor system of reception sends in real time, and each command information is sent to described image recognition control module; When described TX sendaisle receives the open command of described image recognition control module, open, and carry out data transmission with described central monitor system, when receiving the shutdown command of described image recognition control module, close;
Described Anneta module, for setting up wireless connections with described central monitor system;
Described hard disk images storer, the view data of processing for storing described image recognition control module;
Described central monitor system, for sending one by one carrying device numbering querying command to RX receiving cable described in each, receives and check after the equipment operating data returning, then the information that sends the TX sendaisle that turn-offs this equipment is to described RX receiving cable; And the information of the described fire point sending is confirmed again.
3. a kind of forest fire protection front end recognition according to claim 1 and wireless transmitting system, it is characterized in that, described image sampling module comprises the The Cloud Terrace of camera and control camera, and described image recognition control module is carried out image data acquiring by camera described in cradle head control.
4. a kind of forest fire protection front end recognition according to claim 1 and wireless transmitting system, it is characterized in that, described image recognition control module determines whether fiery point according to the view data after processing, the information of this fire point is sent to bi-directional RF transport module, specific implementation is, if fiery point, sending the order of unlatching TX sendaisle opens TX sendaisle, and the image information of this fire point and warning information are sent to described bi-directional RF transport module, otherwise, finish this operation.
5. a kind of forest fire protection front end recognition according to claim 1 and wireless transmitting system, it is characterized in that, described image recognition control module judges carrying device numbering querying command, equipment operating data is sent to bi-directional RF transport module, and specific implementation is, if the numbering of this equipment, sending the order of unlatching TX sendaisle opens TX sendaisle, and by the power data of equipment operation is sent to bi-directional RF transport module, otherwise, finish this operation.
6. a kind of forest fire protection front end recognition according to claim 1 and wireless transmitting system, it is characterized in that, described central monitor system is confirmed the information of the described fire point sending again, specific implementation is, described central monitor system is sent to image recognition control module by the RX receiving cable of this image recognition transmission unit group by the order of confirming fire point, and image recognition control module is controlled described image sampling module fire point scene is confirmed again.
7. a kind of forest fire protection front end recognition according to claim 1 and wireless transmitting system, it is characterized in that, described image sampling module is connected with described image recognition control module by a RJ45 network port, the first output terminal of described image recognition control module is connected with the second input end with the first input end of described bi-directional RF transport module respectively by the 2nd RJ45 network port by RS485 serial communication port and the second output terminal, described hard disk images storer is connected with the 3rd output terminal of described image recognition intelligent control module by serial ports.
8. a method for forest fire protection front end recognition and wireless transmission, is characterized in that, adopts arbitrary described forest fire protection front end recognition and wireless transmitting system in claim 1 to 7, comprise the steps,
Steps A: image sampling module is carried out image data acquiring to forest field condition;
Step B: image recognition control module is processed and stores and determine whether fiery point according to the view data gathering, and the information of this fire point is sent to bi-directional RF transport module;
Step C: bi-directional RF transport module is sent to central monitor system by TX sendaisle by the information of this fire point;
Step D: central monitor system receives and the information of the fire point sending is confirmed again;
Step e: central monitor system sends carrying device numbering querying command and checks the service data of the equipment returning, then the order of sending turn-off apparatus sendaisle, and check one by one the service data of all devices;
Step F: the RX receiving cable of bi-directional RF transport module receives after the order of carrying device numbering querying command and turn-off apparatus, and each order is sent to image recognition control module;
Step G: image recognition control module is processed the order receiving.
9. the method for a kind of forest fire protection front end recognition according to claim 8 and wireless transmission, it is characterized in that, in described step B, fiery point is processed and store and determined whether to image recognition control module according to the view data gathering, the information of this fire point is sent to bi-directional RF transport module, is implemented as follows:
Step B1: image recognition control module is carried out the view data of reception anti-shake, compression and Graphics Processing and is stored in hard disk images storer;
Step B2: image recognition control module determines whether fiery point according to the view data after processing, if fiery point sends the order of unlatching TX sendaisle TX sendaisle is opened, execution step B3; Otherwise, perform step B4;
Step B3: the image information of this fire point and warning information are sent to bi-directional RF transport module, then perform step B4;
Step B4: finish this operation.
10. the method for a kind of forest fire protection front end recognition according to claim 8 and wireless transmission, it is characterized in that, in described step e, central monitor system sends the service data of the carrying device numbering querying command equipment that also check is returned, send again the order of turn-off apparatus sendaisle, and check one by one the service data of all devices, be implemented as follows:
Step e 1: central monitor system sends a band device numbering querying command, then performs step E2;
Step e 2: central monitor system receives and check the equipment operating data returning, then send and to turn-off the order of the TX sendaisle of inspection machine, and perform step E3;
Step e 3: central monitor system judges whether to have inspected the service data of all devices, if so, performs step E4; Otherwise the device numbering of selection next device, performs step E1;
Step e 4: finish this operation.
The method of 11. a kind of forest fire protection front end recognition according to claim 6 and wireless transmission, is characterized in that, in described step G, image recognition control module is processed the order receiving, and is implemented as follows:
Step G1: image recognition control module judges whether it is the numbering of this equipment, if so, sends unlatching TX channel command TX passage is opened, then perform step G2; Otherwise, perform step G5;
Step G2: image recognition control module is sent to bi-directional RF transport module by the power data of equipment operation;
Step G3: receive the order of the TX sendaisle of closing this equipment;
Step G4: image recognition control module sends the order of closing this equipment TX sendaisle, closes this equipment TX sendaisle;
Step G5: finish this operation.
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