CN110588973A - Juvenile drowning prevention and rescue platform based on amphibious unmanned aircraft and method thereof - Google Patents

Juvenile drowning prevention and rescue platform based on amphibious unmanned aircraft and method thereof Download PDF

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Publication number
CN110588973A
CN110588973A CN201910929665.3A CN201910929665A CN110588973A CN 110588973 A CN110588973 A CN 110588973A CN 201910929665 A CN201910929665 A CN 201910929665A CN 110588973 A CN110588973 A CN 110588973A
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China
Prior art keywords
aircraft
rescue
platform
amphibious
drowning
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CN201910929665.3A
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CN110588973B (en
Inventor
杨晓飞
叶浩
叶辉
朱志宇
宋大鹏
王俊
朱鹏
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Jiangsu University of Science and Technology
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Jiangsu University of Science and Technology
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B63SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
    • B63CLAUNCHING, HAULING-OUT, OR DRY-DOCKING OF VESSELS; LIFE-SAVING IN WATER; EQUIPMENT FOR DWELLING OR WORKING UNDER WATER; MEANS FOR SALVAGING OR SEARCHING FOR UNDERWATER OBJECTS
    • B63C9/00Life-saving in water
    • B63C9/01Air-sea rescue devices, i.e. equipment carried by, and capable of being dropped from, an aircraft
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B64AIRCRAFT; AVIATION; COSMONAUTICS
    • B64CAEROPLANES; HELICOPTERS
    • B64C35/00Flying-boats; Seaplanes
    • B64C35/008Amphibious sea planes
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B64AIRCRAFT; AVIATION; COSMONAUTICS
    • B64DEQUIPMENT FOR FITTING IN OR TO AIRCRAFT; FLIGHT SUITS; PARACHUTES; ARRANGEMENTS OR MOUNTING OF POWER PLANTS OR PROPULSION TRANSMISSIONS IN AIRCRAFT
    • B64D47/00Equipment not otherwise provided for
    • B64D47/02Arrangements or adaptations of signal or lighting devices
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01CMEASURING DISTANCES, LEVELS OR BEARINGS; SURVEYING; NAVIGATION; GYROSCOPIC INSTRUMENTS; PHOTOGRAMMETRY OR VIDEOGRAMMETRY
    • G01C21/00Navigation; Navigational instruments not provided for in groups G01C1/00 - G01C19/00
    • G01C21/10Navigation; Navigational instruments not provided for in groups G01C1/00 - G01C19/00 by using measurements of speed or acceleration
    • G01C21/12Navigation; Navigational instruments not provided for in groups G01C1/00 - G01C19/00 by using measurements of speed or acceleration executed aboard the object being navigated; Dead reckoning
    • G01C21/16Navigation; Navigational instruments not provided for in groups G01C1/00 - G01C19/00 by using measurements of speed or acceleration executed aboard the object being navigated; Dead reckoning by integrating acceleration or speed, i.e. inertial navigation
    • G01C21/165Navigation; Navigational instruments not provided for in groups G01C1/00 - G01C19/00 by using measurements of speed or acceleration executed aboard the object being navigated; Dead reckoning by integrating acceleration or speed, i.e. inertial navigation combined with non-inertial navigation instruments
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01CMEASURING DISTANCES, LEVELS OR BEARINGS; SURVEYING; NAVIGATION; GYROSCOPIC INSTRUMENTS; PHOTOGRAMMETRY OR VIDEOGRAMMETRY
    • G01C21/00Navigation; Navigational instruments not provided for in groups G01C1/00 - G01C19/00
    • G01C21/20Instruments for performing navigational calculations

Abstract

The invention discloses a juvenile drowning prevention and rescue platform based on an amphibious unmanned aircraft and a method thereof. The system mainly comprises two parts, namely a command center information platform, and comprises a path planning system based on an electronic map, a coordinate positioning system based on the electronic map, an on-site monitoring system, a one-key information sharing function system, a call module system and an aircraft running state feedback system; the rescue and prevention platform comprises a four-rotor power system of an amphibious aircraft, a marine turbojet propeller, a double-light infrared thermal imaging sensor, a navigation positioning system, a 4G remote communication system, a voice system, an energy system, a control system of a shipborne computer and an aircraft controller, and an auxiliary rescue system. The drowning prevention and rescue system integrates drowning prevention and rescue, can find the wading target in advance and carry out early intervention, carries out rescue for the wading target in danger and drowning in the first time, and reduces the drowning death accident rate.

Description

Juvenile drowning prevention and rescue platform based on amphibious unmanned aircraft and method thereof
Technical Field
The invention relates to the technical field of drowning prevention and search and rescue, in particular to a juvenile drowning prevention and rescue platform based on an amphibious unmanned aircraft and a method thereof.
Background
The global child safety organization and the Chinese disease prevention and control center issue a review report 2010-2015 of injury status of children of China teenagers to point out that: the death cause of the teenagers in China is drowning at the first place, and accounts for about half of the death cause. Because a large number of rivers and waterfront parks exist in cities and rural areas, people are difficult to stare at by means of sending tour, equipment and enough hands are difficult to implement in daily tour system, teenagers cannot be found and prevented from entering dangerous water areas in time, and emergency facilities and matching technologies fall behind, even if dangerous situations are found, the people in danger cannot be rescued, so that the people in danger cannot be taken away from the water body and life first aid cannot be carried out quickly.
Most of existing various rescue equipment and systems are developed at a certain point aiming at drowning prevention and rescue, physical isolation and warning are carried out on traditional drowning prevention through fences, guardrails, notices and the like, teenagers are prevented from entering water, practical application effects are general, sensors are laid at the bottoms of swimming pools or intelligent watches are worn, the two modes are high in use cost, and activities of the teenagers are unpredictable. The underwater rescue mode mainly uses a water aircraft, does not have air navigation capability, has low intelligent degree, needs manual operation, has low search efficiency, can not play the functions of advance prevention and real-time rescue after people are in danger generally, and is difficult to meet the national requirements of establishing an underwater rescue system with omnibearing coverage, all-weather operation, rapid response and effective rescue. It is therefore not uncommon to develop a prevention and rescue device as described above.
Disclosure of Invention
The purpose of the invention is as follows: aiming at the problems, the invention provides a teenager drowning prevention and rescue platform based on an amphibious unmanned aircraft and a method thereof, which are matched with the amphibious unmanned aircraft for tour search and auxiliary rescue participation and an information management platform, meet the requirements of a government for preventing teenager drowning management department from organizing to carry out quick daily autonomous tour and participate in rescue at the first time, find an involved target in danger in advance and carry out early intervention to prevent drowning accidents, carry out rescue at the first time for the involved target in danger and the drowning target and reduce the drowning death accident rate.
The technical scheme comprises the following steps: the command center information platform is used for recording and storing special condition information appearing in each inspection process, facilitating large data analysis and judgment in the later period, providing information support for carrying out drowning prevention work in the future, carrying out intelligent information processing on data, and respectively carrying out alarm display on teenagers with insufficient electric quantity and discovered dangers;
the rescue and prevention platform is a main body formed by an amphibious aircraft to finish high-frequency daily patrol at present, information is judged by the command center information platform and then fed back to perform early intervention on the risk involved personnel and rescue the risk involved personnel, and image voice and self parameters are transmitted to the command center information platform in real time.
Preferably, the command center information platform comprises a path planning system based on an electronic map, a coordinate positioning system based on the electronic map, an on-site monitoring system, a one-key information sharing system, a communication module system and an aircraft running state feedback system, wherein the path planning system based on the electronic map is used for planning the path of the amphibious aircraft; calibrating coordinate points on the electronic map by a coordinate positioning system based on the electronic map through carrying out a target detection algorithm on the image; the field monitoring system transmits visible light and infrared images in real time, displays video monitoring pictures of a patrol field and displays the video monitoring pictures on a command center information platform in real time; the one-key information sharing system can quickly inform police and medical departments; the call module system can enable background workers to interact with field workers; and the aircraft running state feedback system provides various information of the amphibious aircraft to the command center information platform.
Preferably, the route planning system based on the electronic map adopts Baidu map API to set marks and connection lines of starting nodes of the route, and plans the patrol route for the amphibious aircraft.
Preferably, after people in distress on the water surface are found in the coordinate positioning system based on the electronic map, the target is locked and tracked in real time, and the geographical coordinate information of the people falling into the water is obtained through conversion calculation of the coordinate system and is transmitted back to the rear display and control system.
Preferably, the state feedback of the amphibious aircraft is transmitted back through a 4G network in real time, so that the command center information platform monitors the state information of the aircraft in real time and gives an alarm for insufficient electric quantity.
Preferably, the amphibious aircraft comprises a four-rotor power system, a marine turbojet propeller, a double-light infrared thermal imaging sensor, a navigation positioning system, a 4G remote communication system, a voice system consisting of a pickup and a loudspeaker, an energy system consisting of a lithium battery and solar energy, a control system consisting of a shipborne computer and an aircraft controller, and an auxiliary rescue system, wherein the amphibious aircraft sails after entering water by the marine turbojet propeller arranged at the stern; the double-light infrared thermal imaging sensor is used for recognizing and monitoring the target; the navigation positioning system can accurately position the amphibious aircraft by adopting a high-precision receiver and matching with a ground base station; the 4G remote communication system can accurately receive and transmit data and interact with a command center information platform; the sound pickup and the loudspeaker form a voice system to drive the personnel in danger; an energy system formed by a lithium battery and solar energy is powered by a lithium battery and a solar dual power supply, so that rescue is guaranteed to be completed smoothly; the control system formed by the shipborne computer and the aircraft controller combines the industrial computer and the main control chip, analyzes and processes all data and controls the aircraft.
Preferably, the dual-light infrared thermal imaging sensor is an infrared thermal imaging dual-light module, a control system formed by the shipborne computer and the aircraft controller is used as a data analysis terminal of the amphibious aircraft, and compressed images, voice and acquired information are output to the command center information platform.
Preferably, rescue equipment on the auxiliary rescue system can be automatically released and expanded when the amphibious aircraft enters water, so that preparation is made for rescue in advance.
The invention provides a juvenile drowning prevention and rescue method based on an amphibious unmanned aircraft, which comprises the following steps:
a. before starting patrol, setting a patrol path to obtain waypoint information according to the characteristics of a patrol water area and a required key patrol section, and inputting the patrol path into a control system consisting of a shipborne computer and an aircraft controller of an aircraft through a 4G remote communication system through a 4G network;
b. after the cruise is started, a control system formed by a shipborne computer and an aircraft controller is combined with a navigation positioning system, and the amphibious aircraft carries out autonomous navigation tour along a planned path;
c. in the patrol process, the double-light infrared thermal imaging sensor is started to detect and search the distressed teenagers, distressed and drowned people in the patrol water area and the nearby area;
d. after the rescue is finished, whether the aircraft is normal or not is judged through the aircraft running state feedback system, if the aircraft is normal, the inspection is continued until the aircraft is finished or the electric quantity meets the return requirement, and if the aircraft is overturned or damaged, the aircraft waits for recovery.
Further, after an adventure or drowning person target is detected, if the target is an adventure person, the height is reduced, and warning and driving are performed through a voice system; and if the amphibious aircraft is drowned, the amphibious aircraft enters water for rescue immediately.
The command center information platform can effectively link the cooperation of an accident scene and other departments, participate in the planning of a patrol route, display the coordinate position of a found target, monitor a real-time picture, carry out voice call, share one-key information and display the state information of an aircraft through a 4G wireless communication network, record and store special condition information in each patrol process, facilitate the analysis and judgment of big data in the later period, provide information support for carrying out drowning prevention work in the future, control the rescue and prevention platform, process and display intelligent information of returned data of the rescue and prevention platform. The rescue and prevention platform feeds back information after judging the information by the high-frequency daily tour and the command center information platform of the amphibious aircraft, performs early intervention on the risk involved personnel and immediately rescues the risk involved personnel, transmits image voice and self parameters to the command center platform in real time, displays the dynamic state of rescue, is convenient for the command center to rapidly analyze and send corresponding instructions, and deals with some emergency situations.
Compared with the prior art, the invention has the following beneficial effects: (1) and (4) path planning, namely planning a path in advance by using an electronic map and changing the path in time. (2) The unmanned ship has two functions, integrates the advantages of an unmanned ship and a quad-rotor unmanned plane, and realizes air flight and underwater navigation through a rotor and a vortex spraying system. (3) The method can find the teenagers in danger in advance, intervene and timely rescue the teenagers in danger. (4) And the autonomous obstacle avoidance and navigation are realized by combining the GPS position information of the user and utilizing the information obtained by inertial navigation and ultrasonic waves and the planned navigation path.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is an overall flow chart of the present invention;
the system comprises a command center information platform, a 2-rescue and prevention platform, a 3-amphibious aircraft, a 4-electronic map-based path planning system, a 5-electronic map-based coordinate positioning system, a 6-field monitoring system, a 7-one-key information sharing system, an 8-communication module system, a 9-aircraft running state feedback system, a 10-four-rotor power system, a 11-marine turbojet propeller, a 12-double-light infrared thermal imaging sensor, a 13-navigation positioning system, a 14-4G remote communication system, a 15-sound pickup and loudspeaker forming voice system, a 16-lithium battery and solar energy forming energy system, a 17-shipborne computer and aircraft controller forming control system, and an 18-auxiliary rescue system.
Detailed Description
In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention. It is to be understood that the described embodiments are merely illustrative of some, but not all, of the embodiments of the invention, and that the preferred embodiments of the invention are shown in the drawings. This invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, but rather should be construed as broadly as the present disclosure is set forth in order to provide a more thorough understanding thereof. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
In the embodiment, with reference to fig. 1, the drowning prevention and rescue platform for teenagers based on an amphibious unmanned aircraft comprises a command center information platform 1 and a rescue and prevention platform 2, wherein the command center information platform 1 is used as a brain to analyze and judge data of the rescue and prevention platform 2, and sends a corresponding instruction to the rescue and prevention platform 2 to complete prevention and rescue tasks, and simultaneously records and stores special condition information generated in each patrol process, so that big data analysis and judgment can be conveniently performed in the later period, and information support is provided for carrying out drowning prevention work in the future.
The command center information platform 1 includes:
1) electronic map based path planning system 4: and calibrating an initial node on the map through a Baidu map API, then automatically connecting lines according to the marked node, generating a path intermediate node by a Kalman filtering algorithm, and finally returning to the node position.
2) Coordinate positioning system based on electronic map 5: the double-optical camera detects a specific target and the command center immediately returns the current coordinate to the command center through a built-in GPS of the aircraft after judging that rescue is needed, so that the command center can provide guarantee for subsequently informing a police department and a medical department to arrive at the site at the first time and carrying out rapid rescue;
3) the field monitoring system 6: when an accident is found or the monitoring picture needs to be patrolled, the information management platform can obtain and display the video monitoring picture of the patrol site in real time, and the rear part captures the dynamic state in time, so that the emergency is effectively processed.
4) One-touch information sharing system 7: the police station is linked with the police 110, the medical treatment 120 and the water rescue hotline 12395, information sharing is achieved, and police force is sent out by a police party and medical staff can arrive at the scene at the first time.
5) The call module system 8: for the driving away of the persons involved in the danger, the persons of the rear command center can participate in the rescue process and interact with the persons involved in the danger and the persons in danger.
6) Aircraft operating state feedback system 9: the real-time display of the parameters of the aircraft is returned, so that the aircraft is in a stable and safe state, and the safety of the aircraft is guaranteed.
The rescue and prevention platform 2 is mainly used for the amphibious aircraft to patrol frequently, and the rescue and prevention platform 2 comprises:
1) four-rotor power system 10: the brushless motors are respectively controlled through four electric regulators, the maximum power of each motor is at least 3kg according to the overall indexes of the water-air amphibious unmanned aircraft, and the motors are required to be waterproof and have relatively low mass.
2) Marine turbojet 11: the method is realized by controlling two turbojet devices through a course PID controller, obtaining the current course of the aircraft by using an attitude analysis module, making a difference between a target course and the current course, and feeding the difference back to the course PID controller, wherein the course PID controller changes the propelling quantity of the turbojet according to a calculation result so as to change the underwater course of the aircraft and enable the course of the aircraft to be continuously close to the target course.
3) Two-photon infrared thermal imaging sensor 12: an infrared thermal imaging double-light module is adopted, and comprises a visible light lens with 200 ten thousand pixels and an infrared thermal imaging lens with 160 x 120 resolution.
4) The navigation and positioning system 13: the navigation is completed and local collision is avoided by combining an information platform preset path navigation device, a high-precision Sky2 onboard GNSS receiver and inertial navigation equipment and matching with an RTK centimeter-level positioning module, a millimeter wave radar module and an ultrasonic module.
5)4G telecommunication system 14: the EC 20R 2.0 LTE module is recently introduced in the remote communication, is installed in a shipborne computer of an aircraft, and can realize the wireless transmission of voice, images, attitude information and a command control center by using a 4G network.
6) The microphone and speaker constitute a speech system 15: the device consists of a sound pick-up and a loudspeaker, analyzes and plays received voice, compresses the collected voice and transmits the compressed voice to a shipborne computer.
7) Energy system 16 composed of lithium battery and solar energy: A12S lithium battery with the capacity of 12000mAH and a solar charging panel are adopted, a main body is provided by the high-capacity lithium battery, and part of the high-capacity lithium battery can be supplemented by the solar battery on line.
8) Control system 17 composed of onboard computer and aircraft controller: an industrial all-in-one machine with a high-frequency processor is used as a shipborne computer to complete the collection, storage and analysis of information and the interaction with an information platform.
9) The auxiliary rescue system 18: the water auxiliary rescue tool of the aircraft mainly comprises a rescue pull ring, an automatic inflatable large-buoyancy life jacket and the like.
Based on this, as shown in fig. 2, the overall prevention and rescue method adopted by the invention comprises the following steps:
1) before starting patrol, according to the characteristics (such as presenting strips, ellipses or other types) of a patrol water area and a required key patrol section, arranging a patrol path on a command center information platform 1 through a path planning system 4 based on an electronic map to obtain waypoint information, and inputting the patrol path into a control system 17 consisting of a shipborne computer and an aircraft controller of an aircraft through a 4G network by a 4G remote communication system 14;
2) after the cruise is started, a control system 17 consisting of a shipborne computer and an aircraft controller starts autonomous navigation tour along a planned path through a navigation positioning system 13;
3) in the process of patrol, the double-light infrared thermal imaging sensor 12 is started to detect and search the teenagers in danger, the people in danger and drowning in the patrol water area and the nearby area. If the bank-side dangerous teenagers are found, the height is lowered, a voice system 15 consisting of a sound pickup and a loudspeaker is used for warning and driving away, recording is carried out on a command center information platform 1 through a 4G network, data are added for a subsequent key patrol area, the data are kept and observed for a period of time, if warning is invalid, a police department sends out personnel through a one-key information sharing system 7 in the center, drowning accidents are prevented, and the aircraft continues to patrol until the patrol is finished or the electric quantity meets the return requirement. If the person is found in the water, the person is identified through the command center information platform 1, if the person is a wading person, the descending height is warned and driven away through a voice system, the person is recorded on the command center information platform 1 through a 4G network, data is added for a subsequent key patrol area, the data is kept and observed for a period of time, and if the warning is invalid, the person is dispatched by a police department through a central one-key information sharing system 7; if the person is drowned, a police department and a medical department are informed of the drowning position through a central one-key information sharing system 7, meanwhile, a navigation vehicle rapidly lowers the height and enters water, a four-rotor power system 10 is locked, a marine turbojet propeller 11 is started, a pull ring of an auxiliary rescue system 18 consisting of a rescue pull ring and a rescue floating body is released, a buoyancy life jacket starts to be inflated to reach the side of the distress or drowning target, so that the buoyancy life jacket holds a ship body or the floating body, if the ship body overturns, a local path planning and navigation program in the water is started to return to the shore, the person in distress is pacified through a communication module system 8, the state of the person in distress is inquired, and the person is fed back to the medical department; if the aircraft overturns, the buoyancy is enough to ensure the target safety, the aircraft waits for further rescue, and the emergency personnel are pacified and inquired about the state of the emergency personnel through the communication module system 8 and fed back to medical departments.
4) After the rescue is finished, whether the aircraft is normal or not is judged through the aircraft running state feedback system 9, if the aircraft is normal, the patrol is continued until the aircraft is finished or the electric quantity meets the return requirement, and if the aircraft is overturned or damaged, a management department carries out recovery processing according to the positioning information.
5) The command center information platform 1 can obtain real-time on-site pictures through the on-site monitoring system 6 and the call module system 8 and participate in the pictures, so that the police department and the medical department can be effectively assisted to finish rescue work, and all the police information can be filed through the information platform log system, so that the key patrol area can be conveniently counted.
The working principle is as follows:
1. aerial autonomous patrol: a patrol path is set by the command center information platform 1, a patrol area is automatically changed according to the modified path, and maneuvering flight capability according to a given path in the air is provided through a rotor wing and a flight control system of the amphibious aircraft 3.
2. Aerial overlooking observation: through the double-light infrared thermal imaging sensor 12, the infrared and visible light pairs are combined to accurately find out the persons in distress on the shore and the persons in distress on the water surface.
3. Intervention on the personnel involved in the danger: by using an intelligent image detection and recognition algorithm (a convolutional neural network technology), the target of the teenager on the bank side is detected and found in real time in the air cruising process, and the early-warning is carried out through a built-in voice system to prevent the teenager from getting ill or getting out of the way. And if the user does not hear the dissuasion, the related information is shared to the police department through the 4G network system.
4. Rescue drowning personnel: if the ship is in a drowned state, calling for help through a voice system and calling 110 and 120 through an information management platform to request police service and medical departments to intervene, the aircraft enters water for rescue at the same time, a target tracking system is started, the ship-borne rescue floating body is inflated after the ship-borne rescue floating body reaches a target in danger or drowned, the target is guided to hold the floating body or even a ship body through the voice system, life safety is guaranteed, if the ship-borne pull ring can be grasped and the ship body does not overturn, an underwater local path planning and navigation program is started, the aircraft drags the target to the shore, and if the ship-pull ring cannot be grasped or the ship body overturns (the probability is very low but the probability exists), buoyancy is enough to guarantee target safety, and further rescue is. After rescue is finished, if the aircraft runs normally, patrol is continued until patrol is finished or energy reaches a return requirement, and if the aircraft overturns, the aircraft is recovered and processed by a management department according to positioning information.
Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing detailed description, or equivalent changes may be made in some of the features of the embodiments described above. All equivalent structures made by using the contents of the specification and the attached drawings of the invention can be directly or indirectly applied to other related technical fields, and are also within the protection scope of the patent of the invention.

Claims (10)

1. A teenager drowning prevention and rescue platform based on an amphibious unmanned aircraft comprises a command center information platform (1), a rescue and prevention platform (2) and an amphibious aircraft (3), and is characterized in that,
the command center information platform (1) is used for recording and storing special condition information generated in each inspection process, facilitating large data analysis and judgment in the later period, providing information support for carrying out drowning prevention work in the future, carrying out intelligent information processing on data, and respectively carrying out alarm display on teenagers with insufficient electric quantity and discovered risks and in distress;
the rescue and prevention platform (2) is a main body formed by an amphibious aircraft (3) to complete high-frequency daily patrol at present, information is judged by the command center information platform (1) and then fed back to perform early intervention on the risk involved personnel and rescue on the risk involved personnel, and image voice and self parameters are transmitted to the command center information platform (1) in real time.
2. The platform for preventing and rescuing teenagers from drowning based on an amphibious unmanned aircraft according to claim 1, wherein the command center information platform (1) comprises a path planning system (4) based on an electronic map, a coordinate positioning system (5) based on the electronic map, a field monitoring system (6), a one-key information sharing system (7), a call module system (8) and an aircraft running state feedback system (9), wherein the path planning system (4) based on the electronic map is used for planning the path of the amphibious aircraft (3); a coordinate positioning system (5) based on the electronic map calibrates coordinate points on the electronic map by carrying out a target detection algorithm on the image; the field monitoring system (6) transmits visible light and infrared images in real time, displays video monitoring pictures of a patrol field and displays the video monitoring pictures on the command center information platform (1) in real time; the one-touch information sharing system (7) can rapidly notify police and medical departments; the communication module system (8) can enable background workers to interact with field workers; the aircraft running state feedback system (9) provides various information of the amphibious aircraft (3) for the command center information platform (1).
3. The platform for preventing and rescuing teenagers from drowning based on an amphibious unmanned aircraft according to claim 2, wherein the path planning of the path planning system (4) based on the electronic map uses the mark and the connection of the start node of the path set by the Baidu map API to plan the patrol path for the amphibious aircraft (3).
4. The platform for preventing and rescuing teenagers from drowning based on an amphibious unmanned aircraft as claimed in claim 3, wherein the coordinate positioning system (5) based on the electronic map locks and tracks the target in real time after finding out people in danger on the water surface, and obtains the geographic coordinate information of the people falling into water by conversion calculation of the coordinate system and transmits the geographic coordinate information back to the rear display and control system.
5. The platform for preventing and rescuing teenagers from drowning based on an amphibious unmanned aircraft as claimed in claim 4, wherein the state feedback of the amphibious aircraft (3) is transmitted back through the 4G network instantly, so that the command center information platform (1) monitors the state information of the aircraft in real time and gives an alarm prompt for insufficient electric quantity.
6. The juvenile drowning prevention and rescue platform based on an amphibious unmanned aircraft according to claim 5, characterized in that the rescue and prevention platform (2) comprises a four-rotor power system (10), a marine turbojet propeller (11), a dual-light infrared thermal imaging sensor (12), a navigation positioning system (13), a 4G remote communication system (14), a voice system (15) formed by a pickup and a loudspeaker, an energy system (16) formed by a lithium battery and solar energy, a control system (17) formed by a shipborne computer and an aircraft controller, and an auxiliary rescue system (18), and the amphibious aircraft (3) sails after entering water by the marine turbojet propeller (11) installed at the stern; the double-light infrared thermal imaging sensor (12) is used for recognizing and monitoring the target; the navigation positioning system (13) can accurately position the amphibious aircraft (3) by adopting a high-precision receiver and matching with a ground base station; the 4G remote communication system (14) can accurately transmit and receive data and interact with the command center information platform (1); the sound pickup and the loudspeaker form a voice system (15) to drive the personnel in danger; an energy system (16) formed by a lithium battery and solar energy is powered by a lithium battery and a solar dual power supply, so that rescue is guaranteed to be successfully completed; and a control system (17) consisting of a shipborne computer and an aircraft controller realizes the combination of an industrial computer and a main control chip, and analyzes and processes all data and controls the aircraft.
7. The platform for preventing and rescuing teenagers from drowning based on an amphibious unmanned aircraft according to claim 6, wherein the dual-infrared thermal imaging sensor (12) is a dual-infrared thermal imaging module, the control system (17) composed of the onboard computer and the aircraft controller is used as a data analysis terminal of the amphibious aircraft (3), and compressed images, voice and collected information are output to the command center information platform (1).
8. The platform for juvenile drowning prevention and rescue based on an amphibious unmanned vehicle according to claim 7, characterized in that the rescue equipment on the auxiliary rescue system (18) can be automatically released and expanded when the amphibious vehicle (3) enters water, and is prepared for rescue in advance.
9. A teenager drowning prevention and rescue method based on an amphibious unmanned aircraft comprises the following steps:
a. before starting patrol, according to the characteristics of a patrol water area and a key patrol section required, a patrol path is set to obtain waypoint information, and a 4G remote communication system (14) inputs a control system (17) consisting of a shipborne computer of an aircraft and an aircraft controller through a 4G network;
b. after cruising is started, a control system (17) formed by a shipborne computer and an aircraft controller is combined with a navigation positioning system (13), and the amphibious aircraft (3) carries out autonomous navigation and patrol along a planned path;
c. in the patrol process, the double-light infrared thermal imaging sensor (12) is started to detect and search the teenagers in danger, the people in danger and drowning in the patrol water area and the nearby area;
d. after the rescue is finished, whether the aircraft is normal or not is judged through the aircraft running state feedback system (9), if the aircraft is normal, the inspection is continued until the aircraft is finished or the electric quantity meets the return requirement, and if the aircraft is overturned or damaged, the aircraft waits for recovery.
10. The method for preventing and rescuing teenagers from drowning based on amphibious unmanned aircraft as claimed in claim 9, wherein after the target of the person involved in danger or drowning is detected, if the person involved in danger is the person involved in drowning, the height is decreased, and warning and driving are performed through a voice system; if the amphibious aircraft is drowned, the amphibious aircraft (3) enters water for rescue immediately.
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