WO2023284268A1 - Passenger visual travel system configured on passenger aircraft - Google Patents

Abstract

Disclosed in the present invention is a passenger visual travel system configured on a passenger aircraft. According to key points of the technical solution, the system mainly comprises digital high-definition cameras, digital high-definition telescopes, a digital high-definition camera of a near-ground intelligent unmanned aerial vehicle, data lines, a network hard disk video recorder, a central management server, a management PC and a display, wherein the digital high-definition cameras and the digital high-definition telescopes, which are arranged at the nose, belly and roof of a passenger aircraft, execute fully-automatic photographing on cities, mountains and landforms on the ground or execute high-altitude high-definition aerial photography under the manipulation of the management PC; the digital high-definition camera of the near-ground intelligent unmanned aerial vehicle performs near-ground high-definition aerial photography on cities, mountains and landforms on the ground, which are 1-4 kilometers away from the ground; and the display displays, to passengers in the aircraft, lossless high-definition videos/high-definition pictures of the cities, mountains and landforms on the ground, which are obtained by the high-altitude high-definition aerial photography of the passenger aircraft and by the near-ground high-definition aerial photography of the near-ground intelligent unmanned aerial vehicle, such that the passengers in the aircraft can enjoy unprecedented value-added services in terms of visual travel by taking the aircraft.

Description

A passenger visual travel system installed on a passenger plane

Technical Field The present invention relates to a passenger visual travel system installed on a passenger aircraft, more specifically, it relates to a value-added service of visual travel provided on a passenger aircraft for aircraft passengers.

A passenger visual travel system installed on a passenger aircraft, which mainly includes a digital high-definition camera, a digital high-definition telescope, a digital high-definition camera for a near-ground intelligent drone, a data cable, a network hard disk video recorder, a central management server, a management PC, and a display; The digital high-definition camera and digital high-definition telescope installed on the belly of the passenger plane perform automatic shooting of ground cities, mountains and rivers, and/or perform high-altitude high-definition aerial photography under the control of the management PC. Ground cities, mountains and rivers, and landforms from 1 km to 4 km are carried out near-earth high-definition aerial photography, and the display shows passengers on the plane the ground cities, Lossless high-definition video/high-definition pictures of mountains, rivers and landforms; so that passengers on the plane can enjoy the unprecedented value-added service of visual travel by plane.

The same scenery is completely different when seen on the ground and in the air: the scenery seen on the ground is in the world; the scenery seen in the sky is like a fairyland. For example: The Grand Canyon of Arizona (also known as the Grand Canyon of Colorado) is one of the seven wonders of the world. Its width is between 6 kilometers and 25 kilometers. You can only see part of it on the ground, but you can enjoy it by plane. The ever-changing shapes, solitary peaks and pinnacles of the Grand Canyon, as well as the magnificent view of the surging Colorado River and its many tributaries passing through the Grand Canyon; for example: New Zealand's Fox Glacier is a glacier located in the Southern Alps. The southern foot drips and extends to the temperate rainforest only 300 meters above sea level. Passengers take a plane, and in the sky, they can see the spectacular majestic and majestic frozen landscape of valley slopes under the glacier, cracks on the surface of the glacier, uplifts and deep valleys; Overlooking the sea above Halong Bay, Vietnam, the island, you can see countless green hills of different shapes, as well as sampans and sailboats that can be seen everywhere.

The passenger visual travel system on passenger planes will bring about the second revolution in the history of passenger aviation. Previously, passengers only used passenger planes as a means of transportation, and tourists only stayed on ground tourism and sea tourism. With this passenger visual travel system, unprecedented air travel is opened up. Tourists take passenger planes not only as a means of transportation, but also to visit the magnificent and magnificent wonders that are rarely seen on the ground in the air. scene.

Background Art From the invention of airplanes to the present, there is no set of camera and display systems on passenger airplanes that can provide all passengers with unobstructed views of cities, mountains, and landforms on the ground.

Every time they take an airplane, passengers want to choose a seat by the window. The purpose is to be able to see the scenery of the ground city, mountains, and landforms. But so far, there are no digital high-definition cameras, digital high-definition telescopes, and close-up cameras on passenger aircraft. Ground intelligent UAV digital high-definition camera, so passengers on the passenger plane will not be able to see the aerial scenery of the ground cities, mountains and rivers, and landforms along the route. The best place is by the window, it is pitch black as far as the eye can see, and the air ticket is only greatly discounted.

Most of the passengers who have been on the plane may have this experience: "Which place on the plane can I choose to take pictures of the scenery? The first time I took the plane, I went to the airport to check in and print the luggage tag directly, and I took whatever seat the plane picked up. When checking in with a mobile phone, I choose the seat by the window every time. Later, I found that many people are more particular about seat selection, and all the seats they want have been selected. Knowledge. If you want to choose a good scenery: 1. The view from the window on the front side of the wing is the best, and the view after the 4th row on the rear side of the wing is less affected. 2. The scenery is related to the direction, time and route, and it depends on the view Need to choose a location."

As can be seen from the above, if a passenger visual travel system can be set on a passenger plane, it is indeed a blessing to provide a gluttonous feast of "visual travel between heaven and earth" for every passenger on the plane!

SUMMARY OF THE INVENTION The purpose of the present invention is to overcome the deficiencies in the prior art and to provide a visual travel system for passengers on a passenger aircraft, relying on digital high-definition cameras and digital high-definition telescopes installed on the head, abdomen, and top of the passenger aircraft, relying on The digital high-definition camera of the near-ground intelligent drone completes the shooting of the high-altitude/near-ground cities, mountains and rivers and landforms on the ground, so that every passenger on the plane can see the ground cities, mountains and rivers, landforms/sky along the flight route High-definition video/high-definition pictures of clouds.

A passenger visual travel system arranged on a passenger aircraft of the present invention is now described as follows.

A passenger visual travel system arranged on a passenger plane, the main points of its technical solution are that it mainly includes a digital high-definition camera device, a data cable, a network hard disk video recorder, a central management server, a management PC, and a display; the digital high-definition camera The devices include but are not limited to digital high-definition cameras and digital high-definition network cameras. The digital high-definition camera devices include but are not limited to those installed on the head of the aircraft, the belly of the aircraft, and the top of the aircraft. The digital high-definition camera devices include but are not limited to Limited to fully automatic shooting of ground cities, mountains and rivers, and landforms/or under the auxiliary control of the management PC, the display shows passengers on the plane the ground cities, mountains and rivers, landforms/sky clouds captured by the digital high-definition camera device Lossless high-definition video/high-definition pictures.

The same scenery is completely different when viewed on the ground and in the air: the scenery seen on the ground is in the world; the scenery seen in the sky is like a fairyland. For example: the Grand Canyon of Arizona (also known as the Grand Canyon of Colorado) One of the seven wonders, its width is between 6 kilometers and 25 kilometers. You can only see part of it on the ground. You can enjoy the ever-changing shapes of the Grand Canyon, isolated peaks and pinnacles, and you can also see the waves by plane. The majestic view of the mighty Colorado River and its many tributaries passing through the Grand Canyon.

The passenger visual travel system on passenger planes will bring about the second revolution in the history of passenger aviation. Previously, passengers only used passenger planes as a means of transportation, and tourists only stayed on ground tourism and sea tourism. The creation of this passenger visual travel system also opens up unprecedented air travel. Tourists take passenger planes no longer as a means of transportation, but also to visit the magnificent and magnificent ground cities that are rarely seen on the ground in the air. The wonders of landscapes, mountains, and landforms.

The technology of allowing digital high-definition cameras to realize automatic shooting of ground cities, mountains, and landforms/or to perform shooting under the auxiliary control of a management PC is very mature. As early as the 1960s, the United States realized the TV of Apollo’s moon landing Live broadcast; most recently, China installed a camera outside the propulsion module and the orbital module of the Shenzhou 7 spacecraft, specially used to film the process of astronauts going out of the cabin.

The lens of the digital high-definition camera has different viewing angles and distances of objects that can be viewed at different focal lengths. An embedded real-time operating system can be built into the digital high-definition camera to control or assist in the operation of the digital high-definition camera. The motorized lens is used to realize the real-time lens rotation and focal length transformation of the digital high-definition camera by the management PC.

The video signal transmitted by the digital high-definition camera is an uncompressed original video digital signal, which will not cause problems such as lack of clarity, color spots, and sharpness reduction due to video compression, but the disadvantage is that its data volume is huge, and the system It is unbearable; and because the high-definition network camera compresses the image during the image transmission process, it will bring obvious delays and video distortion, color spots, color blocks, decreased clarity, and insufficient sharpness; therefore, in order to enable Digital high-definition cameras and high-definition network cameras are better used in passenger visual travel systems. Image storage technology and high-definition display technology still need to be further improved.

A passenger visual travel system arranged on a passenger plane, the main points of its technical solution are that it mainly includes a digital high-definition camera device, a data cable, a network hard disk video recorder, a central management server, a management PC, and a display; the digital high-definition camera The devices include but are not limited to digital high-definition cameras and digital high-definition network cameras. The digital high-definition camera devices include but are not limited to being installed on the head of the aircraft, the belly of the aircraft, and the top of the aircraft; Taking the digital high-definition camera as an example, its setting method includes but not limited to: 1. The digital high-definition camera set on the belly of the aircraft and the top of the aircraft are hidden in the passenger aircraft fuselage; 2. The central axis of the digital high-definition camera is in line with The curved surface of the aircraft fuselage is approximately vertical. 3. The front of the digital high-definition camera lens is isolated from the outside world by the glass made of the windshield glass material of the modern airliner cockpit. Match/or the outer curved surface of the windshield glass in front of the lens of the digital high-definition camera slightly protrudes from the outer surface of the aircraft fuselage. The connection method is the same. 6. Ensure that the periphery of the windshield glass in front of the digital high-definition camera lens is airtight and firmly connected with the aircraft fuselage. 7. The digital high-definition camera is set in a metal protective cover that fixes/protects the digital high-definition camera. The pan/tilt base of the high-definition camera is firmly connected to the metal protective cover. The pan/tilt of the digital high-definition camera includes but is not limited to fixed pan/tilt/electric pan/tilt/hydraulic pan/tilt. The electric pan/tilt The platform is an electric pan/tilt that can be remotely controlled. The rotation and movement of the electric pan/tilt are realized by two executive motors. The motors receive signals from the management PC to run and position accurately. 9. A window for easy maintenance is set on the metal protective cover. 10. A power supply cable and data for the digital high-definition camera are also provided on the metal protective cover of the digital high-definition camera. 11. The power supply cable and data cable of the digital high-definition camera are airtight and firmly fixed in the cable channel; The method can refer to the setting method of the digital high-definition camera at the belly/top of the aircraft on the aircraft fuselage except that "2, the central axis of the digital high-definition camera is approximately perpendicular to the curved surface of the aircraft fuselage" or is different; The lens of the high-definition camera device includes glass that can withstand the test of temperature, altitude, and speed during the flight of the aircraft, and can adapt to the environment where the water vapor in the air is large when the aircraft is flying at medium and low altitudes, and the lens glass is relatively easy to atomize and freeze. The lens of the material, when the lens of the digital high-definition camera device adopts the test that can withstand the temperature, altitude and speed during the flight of the aircraft, and can adapt to the air when the aircraft is flying at medium and low altitudes The water vapor in the air is large, the lens glass is relatively easy to atomize, and when the lens is made of glass in an environment that is prone to freezing, the front of the lens of the digital high-definition camera device can directly protrude out of the aircraft fuselage, and there is no need to use the glass material of the windshield glass of the cockpit of a modern airliner. Isolated from the outside world; the display shows the high-definition video/high-definition picture of the ground city, mountains and rivers, landforms/sky clouds taken by the digital high-definition camera to the passengers on the plane.

The plane takes off from an airport with a high temperature of 50-60 degrees Celsius in summer, and arrives at an altitude of 10,000 meters at minus 40 degrees Celsius in 20 minutes. It has to withstand the triple test of temperature, altitude and speed. The windshield must not only ensure safety, but also provide a clear view .The windshield glass of the aircraft has been applied and improved repeatedly for more than a hundred years. The windshield of the modern airliner adopts a three-layer encryption design, which is divided into the outer tempered glass, the middle layer of resin glass, and the inner layer of chemically tempered glass, which can withstand pressure and temperature changes. , and can withstand bird strikes without breaking; in order to improve the electrical conductivity and optical transparency of the windshield of the aircraft, the windshield of the aircraft has a nanometer-thick oxide semiconductor conductive coating using indium tin oxide between the outer layer and the middle layer; As far as the lens of the existing digital high-definition camera is concerned, it cannot withstand the triple test of temperature, altitude, and speed like the windshield of an airplane, nor can it solve the problem that the windshield is relatively easy due to the large water vapor in the air when the airplane is flying at medium and low altitudes. The problem of fogging and easy to freeze; therefore, the front of the digital high-definition camera lens must also be isolated from the outside world by using glass made of modern airliner cockpit windshield glass.

A passenger visual travel system arranged on a passenger plane, the key point of its technical solution is that it mainly includes a digital high-definition camera device, a digital high-definition telescope, a data line, a network hard disk video recorder, a central management server, a management PC, and a display; The digital high-definition camera device includes but not limited to digital high-definition camera, digital high-definition network camera, and the digital high-definition telescope includes but not limited to digital high-definition telescope that can take pictures and record videos. The digital high-definition camera device and digital high-definition telescope include but It is not limited to be installed on the head of the aircraft, the belly of the aircraft, or the top of the aircraft. The digital high-definition camera device and digital high-definition telescope perform fully automatic shooting of ground cities, mountains and rivers, landforms/sky clouds/or assist in the management of PCs. Under the execution of shooting, the display shows the lossless high-definition video/high-definition picture of the ground city, mountains and rivers, landforms/sky clouds taken by the digital high-definition camera device and the digital high-definition telescope to passengers on the plane; The high-definition videos/pictures of cities, mountains and rivers and landforms taken by the telescope along the flight route are optimized and stored in the database server of the central management server of the passenger visual travel system, so as to be recalled and used when the passenger aircraft is sailing at night or in dense fog .

A visual travel system for passengers installed on passenger planes. The key points of the technical solution are that it mainly includes a digital high-definition camera device, a digital high-definition telescope, a digital high-definition camera device for near-earth intelligent drones, a data line, a network hard disk video recorder, Central management server, management PC, display; said digital high-definition camera device includes but not limited to digital high-definition camera, digital high-definition network camera, said digital high-definition telescope includes but not limited to digital high-definition telescope that can take pictures and record video, said The digital high-definition camera device and the digital high-definition telescope include but are not limited to be installed on the head of the aircraft, the belly of the aircraft, and the top of the aircraft. The fuselage adopts the lens of the digital high-definition camera device and the lens of the digital high-definition telescope. The front of the lens of the cockpit of a modern airliner is isolated from the outside world or the lens of the digital high-definition camera device and the lens of the digital high-definition telescope directly protrude from the aircraft. Choose one of the two outside the fuselage; the digital high-definition camera device and digital high-definition telescope perform automatic shooting of ground cities, mountains and rivers, landforms/sky clouds/or perform shooting under the auxiliary control of the management PC.

The near-ground intelligent unmanned aerial vehicle refers to a miniature intelligent unmanned aerial vehicle whose flight height is less than 4000m from the ground, and a digital high-definition camera device and a digital high-definition telescope are arranged on the described near-ground intelligent unmanned aerial vehicle. Camera devices include but are not limited to digital high-definition cameras and digital high-definition network cameras. The digital high-definition telescopes include but are not limited to digital high-definition telescopes that can take pictures and record videos. On the head, belly, and top of the near-earth intelligent drone, the digital high-definition camera device and digital high-definition telescope set on the near-earth intelligent drone are opposite to the ground city, mountains and rivers, topography/near-earth intelligent drone. Passenger aircraft perform fully automatic shooting; when the smart drone flies over the ground cities, mountains, and landforms with a particularly beautiful environment, such as when the smart drone flies over volcanoes, waterfalls, and glaciers, the digital high-definition images of the smart drone The camera can be used for close-up shooting, focusing shooting, circling shooting, and long-term shooting; otherwise, short-time shooting.

The association between the near-earth intelligent UAV and the passenger aircraft is divided into two modes: controlled or uncontrolled. There is a dedicated airport for near-earth intelligent UAVs around the passenger airport. The main devices on the drone include a communication system, intelligent identification and intelligent obstacle avoidance system. The flying height and flight speed of the near-ground intelligent drone can be intelligently adjusted; When the relationship between them is in the controlled mode, the video/picture signals of the digital high-definition camera and digital high-definition telescope on the near-ground intelligent drone are wirelessly connected to the network hard disk video recorder/central management server through a super-high-level encryption algorithm.

When the association between the near-ground intelligent UAV and the passenger aircraft is in an uncontrolled mode, the airline will instruct the near-ground intelligent UAV to fly along the flight route of the passenger aircraft, and the near-ground intelligent UAV will fly The set digital high-definition camera device and digital high-definition telescope perform automatic shooting of ground cities, mountains and rivers, landforms/passenger aircraft above the head of the near-earth intelligent UAV; the management PC of the passenger visual travel system on the passenger aircraft is near the ground. The high-definition videos/pictures of cities, mountains and rivers, and landforms photographed by the plane along the flight route are optimized and stored in the database server of the central management server of the passenger visual travel system, and the lossless high-definition videos/pictures stored in the database server are kept Regularly updated for use when passenger aircraft sail at night or in dense fog.

The display shows the lossless high-definition video/high-definition pictures of the ground city, mountains and rivers, and landforms taken by digital high-definition cameras, digital high-definition telescopes, and near-earth intelligent drones to passengers on the plane; especially: The digital high-definition camera device and digital high-definition telescope on the man-machine can take close-range high-definition shots of the ground/passenger aircraft, and the passenger visual travel system can show the passengers on the plane the ground cities, mountains and rivers, and landforms that are 1km to 4km away from the ground. Lossless high-definition video/high-definition pictures can enable passengers on the plane to enjoy unprecedented value-added services for visual travel.

A passenger visual travel system arranged on a passenger plane, the main point of its technical solution is that it also includes a digital high-definition camera in the cockpit of the passenger plane, the digital high-definition camera in the cockpit of the plane is provided with a switch, and the display It is at the discretion of the pilot to show the video in the cockpit to the passengers on the plane.

A visual travel system for passengers installed on a passenger plane, the gist of the technical solution is that the central management server includes but not limited to a communication server, a storage system, a database server, a network time server, and an application server; PC also comprises video input, audio frequency input; The video signal of the digital high-definition camera, digital high-definition telescope, digital high-definition camera of digital high-definition telescope, digital high-definition camera of described aircraft head/aircraft belly/aircraft top/aircraft cockpit is arranged through data Line is connected with network hard disk video recorder, and described network hard disk video recorder is also provided with router, and described management PC comprises video input, and audio frequency input is connected with network hard disk video recorder through data line, and described network hard disk video recorder is connected with network hard disk video recorder through data line The display is connected, the network hard disk video recorder is connected with the central management server through the data line, and the central management server is connected with the Internet through the satellite and the ground communication base station; all signal transmission systems of the passenger visual travel system/ The communication system is physically isolated from the ground-air or air-air communication/navigation system and the air traffic control system of the passenger aircraft, and the preferred solution of the display is arranged on the back of the passenger seat, and the display is multiple. The router provides wireless networking services for the computers and mobile phones of passengers on the plane; the ground high-definition video captured by the high-definition digital camera on the abdomen of the aircraft fuselage/shooting by the high-definition digital camera on the top of the aircraft fuselage can be realized on the display, the passenger's computer and the mobile phone Free switching between the video of the sky and clouds/the high-definition picture of the ground displayed by the high-definition digital telescope on the belly of the aircraft fuselage/the high-definition video of the ground captured by a near-earth intelligent drone.

A visual travel system for passengers installed on passenger planes, the main point of the technical solution is that the central management server can communicate with satellites and ground communication base stations through the communication server, and the display also includes Passengers display the real-time four-dimensional track data of the aircraft - the flight trajectory of the aircraft flight, the longitude and latitude of the flight, the flight altitude, and the flight speed information.

A passenger visual travel system arranged on a passenger aircraft, the main point of its technical solution is that when the passenger aircraft flies at night or in dense fog, the management PC in the passenger visual travel system can read from the passenger visual travel system. The storage system of the central management server retrieves the pre-stored high-definition video/high-definition picture data, and allows the display to play the flight route taken by the digital high-definition camera, digital high-definition telescope, and digital high-definition camera of the near-earth intelligent UAV to the passengers on the plane High-definition video/pictures of ground cities, mountains and rivers, and landforms; every passenger on the plane can also realize all-weather and all-round real-time 4D track data of the plane/digital high-definition camera on the belly of the plane through the monitor, passenger's computer, and mobile phone The high-definition video of the ground/the video of the sky clouds taken by the digital high-definition camera on the top of the aircraft/the high-definition video of the ground taken by the digital high-definition telescope/the high-definition video of the ground taken by the near-ground intelligent drone can be switched freely.

A passenger visual travel system installed on a passenger aircraft, the main point of the technical solution is that the passenger visual travel system can not only show the passengers on the aircraft the glorious flight history of the pilot and the flight attendant, the trouble-free flight mileage of the aircraft Reliable information, shorten the distance between drivers, flight attendants and passengers, eliminate passengers' concerns about flight safety, and enhance passengers' confidence; the passenger visual travel system can also communicate with satellite and ground communication base stations through the communication server of the central management server The management PC will display to the passengers on the plane the countries, provinces and cities, tourist attractions, customs, and specialties corresponding to the flight trajectory of the plane, which can increase the advertising revenue of the airline.

A passenger visual travel system arranged on a passenger plane, the main point of the technical solution is that the passenger visual travel system also includes an Internet client application created by the airline company using the central management server of the passenger visual travel system, and the Internet client application includes :, airline cloud service, airline official website, Android APP, IOS APP, WeChat public account, third-party live broadcast platform; on world-renowned video websites such as Google Video website or you can check the digital high-definition cameras on passenger aircraft flights High-definition video/pictures of ground cities, mountains and rivers, and landforms captured by digital high-definition telescopes and digital high-definition cameras of near-earth intelligent drones. Airlines can also rely on the passenger visual travel system to set up digital high-definition cameras, digital high-definition telescopes, and digital high-definition cameras on near-earth intelligent drones set on the aircraft head/belly/top of the aircraft to capture high-definition videos of ground cities, mountains, and landforms Passengers make a three-dimensional dynamic high-definition video of the natural integration of heaven and earth.

Compared with the prior art, a passenger visual travel system arranged on passenger planes of the present invention has the following beneficial effects:

1. The display shows high-definition videos/pictures of ground cities, mountains and rivers, landforms/sky clouds taken by digital high-definition cameras and digital high-definition telescopes to passengers on the plane, which can increase the travel fun of passengers and allow more People choose air travel to increase the income of the airline's tourism business.

2. The live video of the cockpit of the aircraft can be shown to the passengers in a timely manner. The flight process is also a process of practically popularizing flight knowledge for young passengers, which can greatly increase the source of young passengers and parents.

3. With the help of the digital high-definition camera and display of the near-ground intelligent drone, it can show the passengers on the plane the high-definition video/pictures of the ground city, mountains and rivers and landforms taken from 1 km to 4 km away from the ground, which can make the plane Passengers enjoy an unprecedented and unparalleled value-added service of visual travel by plane.

4. Through the Internet client application created by the database of the central management server of the passenger visual travel system, the airline's official website, Android APP, IOS APP, WeChat official account, domestic and foreign video websites such as Google Video website, can notify potential aircraft passengers , Displaying high-definition videos/pictures of ground cities, mountains and rivers, and landforms captured/high-magnification observations by digital high-definition cameras, digital high-definition telescopes, and digital high-definition cameras of near-earth intelligent drones for passenger aircraft flights.

5. When the aircraft is flying at night, the management PC in the passenger visual travel system can retrieve the pre-stored video data from the storage system of the central management server, and can play the video taken by the aircraft flight under the clear weather conditions to the passengers. High-altitude/close-to-ground high-definition video/high-definition pictures, so that passengers can enjoy high-definition video/high-definition pictures of ground cities, mountains and rivers, and landforms at night, and flight tickets at night can also be appropriately increased.

6. With the help of the communication server and display of the central management server of the passenger visual travel system, the real-time four-dimensional track data of the aircraft can be displayed to the passengers on the aircraft—the information of the aircraft flight trajectory, flight latitude, longitude, flight altitude, and flight speed .

7. It can show the demeanor of aircraft pilots and flight attendants, and shorten the distance between aircraft pilots, flight attendants and passengers; flight attendants can popularize common sense of flight safety to passengers by managing PC, video and audio input.

8. It can record the travel trajectories and life footprints of passengers throughout the process, and can light up every city they have visited and draw each travel route.

9. It can expand the travel vision of passengers and increase the geographical and historical knowledge of each city, mountains and rivers and landforms that passengers pass through.

10. It can expand the publicity of cities along the flight journey, and will be welcomed by the governments of countries, provinces and cities along the route.

11. It can increase the advertising revenue for the image promotion and product promotion of the cities along the flight journey for the airlines.

Description of drawings

Figure 1 Flowchart of passenger visual travel system on passenger aircraft.

Figure 2 Schematic diagram of passenger visual travel system on passenger aircraft.

In the figure: 1. Belly digital high-definition camera, 2. Top digital high-definition camera, 3. Digital high-definition telescope, 4. Aircraft cockpit digital high-definition camera, 5. Near-earth intelligent drone, 6. Near-earth intelligent unmanned aerial vehicle Machine digital high-definition camera, 7. Data cable, 8. Network hard disk video recorder, 9. Router, 10. Central management server, 11. Communication server, 12. Storage system, 13. Database server, 14. Network time server, 15. Application Server, 16. Management PC, 17. Video input, 18. Audio input, 19. Display, 20. Satellite, 21. Ground communication base station, 22. Internet, 23. Airline cloud service, 24. Airline official website, 25 .Android APP, 26. IOS APP, 27. WeChat public account, 28. Third-party live broadcast platform.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The technical solutions of the present invention are clearly and completely described below in conjunction with specific embodiments. Obviously, the described embodiments are only some of the embodiments of the present invention, not all of them. Based on the implementation of the present invention For example, all other embodiments obtained by persons of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

A visual travel system for passengers installed on a passenger plane, the key point of the technical solution is that it mainly includes a high-definition digital camera 1 on the belly of the plane, a high-definition digital camera 2 on the top of the plane, a data line 7, a network hard disk video recorder 8, and a central management server 10 , management PC16, display 19; the setting of the high-definition digital camera on the passenger plane: the belly of the passenger plane and the top of the plane are all provided with a high-definition digital camera, and the high-definition digital camera 1 on the belly of the plane is opposite to ground cities, mountains and rivers 1. Landforms perform fully automatic shooting/or perform shooting under the control of the management PC, and the high-definition digital camera 2 on the top of the aircraft performs fully automatic shooting/or perform shooting under the control of the management PC, and the described display 19 Passengers on the plane show the high-definition video of the ground city, mountains and rivers, landforms and sky clouds taken by the high-definition digital camera 1 on the belly of the plane and the high-definition digital camera 2 on the top of the plane.

A visual travel system for passengers installed on a passenger plane, the key point of the technical solution is that it mainly includes a high-definition digital camera 1 on the belly of the plane, a high-definition digital camera 2 on the top of the plane, a data line 7, a network hard disk video recorder 8, and a central management server 10 , management PC 16, display 19; Take the digital high-definition camera arranged on the abdomen of the aircraft and the top of the aircraft as an example, its setting method includes but not limited to: 1, the high-definition digital camera 1 on the abdomen of the aircraft, and the high-definition digital camera 2 on the top of the aircraft Hidden in the passenger aircraft fuselage, 2. The central axis of the digital high-definition camera is approximately perpendicular to the curved surface of the aircraft fuselage. 3. The front of the digital high-definition camera lens is isolated from the outside world by the glass made of modern airliner cockpit windshield glass. 4. The digital high-definition camera The outer curved surface of the windshield glass in front of the high-definition camera lens matches the outer curved surface of the aircraft fuselage/or the outer curved surface of the windshield glass in front of the digital high-definition camera lens slightly protrudes from the outer curved surface of the aircraft fuselage, 5. The windshield glass in front of the digital high-definition camera lens is in line with The connection method of the aircraft fuselage is the same as that of the aircraft cockpit windshield glass and the aircraft fuselage. 6. Ensure that the periphery of the windshield glass in front of the digital high-definition camera lens is airtight and firmly connected with the aircraft fuselage. 7. Digital high-definition The camera is set in a metal protective housing that fixes/protects the digital high-definition camera, and the pan/tilt base of the digital high-definition camera is firmly connected to the metal protective housing. The pan/tilt of the digital high-definition camera includes but is not limited to a fixed pan/tilt/ Electric pan/tilt/cantilever pan/hydraulic pan/tilt, the electric pan/tilt described above is an electric pan/tilt that can be remotely controlled. The rotation and movement of the electric pan/tilt are realized by two executive motors, and the motors receive signals from the management PC16 accurately. 8. The metal protective cover of the digital high-definition camera is airtight and firmly connected with the inner wall of the aircraft fuselage. 9. There is a window for easy maintenance on the metal protective cover. 10. The metal protective cover of the digital high-definition camera The protective cover is also provided with a cable channel for the power supply cable and data line of the digital high-definition camera. 11. The power supply cable and data line of the digital high-definition camera are airtight and firmly fixed in the cable channel; When a digital high-definition camera is installed at the top of the aircraft, the setting method of the digital high-definition camera on the nose of the aircraft can refer to the number on the belly/top of the aircraft except for "2. The central axis of the digital high-definition camera is approximately perpendicular to the curved surface of the aircraft fuselage" or is different. The setting method of the high-definition camera on the aircraft fuselage; 12. The lens of the digital high-definition camera device includes the test that can withstand the temperature, altitude and speed during the flight of the aircraft, and can adapt to the air in the air when the aircraft is flying at low and medium altitudes. There is a lot of water vapor, the lens glass is easy to fog, and the glass lens in the environment that is easy to freeze needs to be further developed. When the cow is mature, the front of the lens of the digital high-definition camera device can directly protrude out of the aircraft fuselage, without using modern The glass of the passenger plane cockpit windshield glass material is isolated from the outside world; Described display 19 shows the ground city, mountains and rivers, High-definition video/high-definition pictures of landforms/sky clouds.

A visual travel system for passengers installed on a passenger aircraft. The key points of the technical solution are that it mainly includes a belly high-definition digital camera 1, an aircraft top high-definition digital camera 2, a high-definition digital telescope 3, a data line 7, and a network hard disk video recorder 8 , central management server 10, management PC16, display 19; The setting of described high-definition digital camera on passenger plane divides two kinds of modes: 1, only be provided with high-definition digital camera 1,2, in the abdomen of passenger plane Both the abdomen and the top of the aircraft are provided with high-definition digital cameras, and the belly high-definition digital camera 1 and the aircraft top high-definition digital camera 2 perform automatic shooting of ground cities, mountains and rivers, and landforms/or perform shooting under the control of a management PC, Described display 19 shows the high-definition video of the ground city, mountains and rivers, landforms and sky clouds taken by the high-definition digital camera 1 and the high-definition digital camera 2 on the top of the aircraft to passengers on the plane; In the abdomen of the plane, the high-definition digital telescope 3 conducts high-magnification observations of ground cities, mountains and rivers, and landforms. The display also shows passengers on the plane the high-magnification images of ground cities, mountains and rivers, and landforms observed by the high-definition digital telescope. .

A passenger visual travel system arranged on a passenger aircraft, the main point of its technical solution is, a passenger visual travel system arranged on a passenger aircraft, the main points of its technical solution are that it mainly includes a belly high-definition digital camera 1, High-definition digital camera 2 on the top of the aircraft, high-definition digital telescope 3, high-definition digital camera 6 on the near-ground intelligent drone 5, data cable 7, network hard disk video recorder 8, central management server 10, management PC 16, display 19; the high-definition The digital telescope 3 is arranged on the belly of the passenger aircraft, and the camera lens of the digital high-definition camera device and the camera lens of the digital high-definition telescope adopt the lens of the digital high-definition camera device and the lens of the digital high-definition telescope in the near-earth intelligent drone body. The front of the plane adopts the glass of modern airliner cockpit windshield glass material to isolate from the outside world or the lens of the digital high-definition camera device, the lens of the digital high-definition telescope directly protrudes outside the aircraft fuselage and choose one of the two; the belly high-definition digital camera 1 , High-definition digital telescope 3 performs automatic shooting of ground cities, mountains and rivers, and landforms/or performs shooting under the control of the management PC.

The near-earth intelligent drone refers to a miniature intelligent drone whose flight height is less than 4000m from the ground, and the described digital high-definition telescope is a digital high-definition telescope that can take pictures and record videos. Digital high-definition cameras and digital high-definition telescopes perform automatic shooting of ground cities, mountains and rivers, landforms/passenger aircraft above the head of the near-ground intelligent UAV; When, for example, when the intelligent drone flies over volcanoes, waterfalls, and glaciers, the digital high-definition camera 6 of the intelligent drone 5 can perform close-up shooting, focusing shooting, hovering shooting, and long-term shooting; shooting.

The connection between the near-ground intelligent UAV 5 and the passenger aircraft is divided into two modes: controlled or uncontrolled, and there is a special airport for near-ground intelligent UAVs around the passenger airport. The main devices on the intelligent drone 5 include a communication system, intelligent identification and intelligent obstacle avoidance system, and the flight height and flight speed of the near-ground intelligent drone 5 can be intelligently adjusted; when the near-ground intelligent drone 5 When the association between 5 and the passenger aircraft is a controlled mode, the video/picture signals of the digital high-definition camera and the digital high-definition telescope on the near-ground intelligent UAV 5 are combined with the network hard disk video recorder 8/ The central management server 10 is wirelessly connected.

When the association between the near-ground intelligent UAV 5 and the passenger aircraft is an uncontrolled mode, the airline will instruct the near-ground intelligent UAV 5 to fly along the flight route of the passenger aircraft, and the near-ground intelligent UAV 5 will fly along the flight route of the passenger aircraft. The digital high-definition camera and digital high-definition telescope set on the human-machine 5 perform automatic shooting of the ground city, mountains and rivers, landforms/passenger aircraft on the head of the near-earth intelligent drone; the management PC16 of the passenger visual travel system on the passenger aircraft is close to the ground The high-definition video/high-definition pictures of cities, mountains and rivers, and landforms photographed by the intelligent drone along the flight route are optimized and stored in the database server 13 of the central management server 10 of the passenger visual travel system, and the non-destructive data stored in the database server 13 The high-definition video/high-definition picture is kept regularly updated for use when the passenger aircraft sails at night or in dense fog.

Described display 19 shows the lossless high-definition video/high-definition picture of the ground city, mountains and rivers, landforms taken by digital high-definition camera, digital high-definition telescope, and near-earth intelligent drone to passengers on the plane; especially: with the help of near-earth intelligence The digital high-definition camera and digital high-definition telescope on the UAV 5 can take close-range high-definition shots of the ground/passenger aircraft, and the passenger visual travel system can show the passengers on the plane the aerial photography of ground cities, mountains and rivers from 1 km to 4 km away Lossless high-definition video/high-definition pictures of landforms can enable passengers on the plane to enjoy unprecedented value-added services for visual travel by plane.

A visual travel system for passengers installed on a passenger aircraft. The key points of the technical solution are that it mainly includes a belly high-definition digital camera 1, an aircraft top high-definition digital camera 2, a high-definition digital telescope 3, and a near-ground intelligent drone 5. HD digital camera 6, data line 7, network hard disk video recorder 8, central management server 10, management PC16, display 19; described high-definition digital telescope 3 is arranged on the belly of passenger transport aircraft, and described belly high-definition digital camera 1, The high-definition digital telescope 3 performs automatic shooting of ground cities, mountains and rivers, and landforms/or performs shooting under the control of a management PC; the near-ground intelligent drone 5 refers to a miniature intelligent drone whose flight height is less than 4000m from the ground , a high-definition digital camera 6 is arranged on the abdomen of the near-earth intelligent UAV 5, and the association between the near-earth intelligent UAV 5 and the passenger aircraft is divided into two modes: controlled or uncontrolled , there is a near-ground intelligent UAV 5 special-purpose airport around the passenger airport, and the flying height and flight speed of the near-ground intelligent UAV 5 can be intelligently adjusted; when the near-ground intelligent UAV 5 and When the connection between the passenger planes is a controlled mode, the video signal of the high-definition digital camera 6 of the near-ground intelligent UAV is wirelessly connected with the network hard disk video recorder 8 through an ultra-high-level encryption algorithm. When the connection between the human-machine 5 and the passenger aircraft is in an uncontrolled mode, the airline instructs the near-ground intelligent UAV 5 to take close-range and fully automatic shots of the ground cities, mountains and rivers, and landforms along the flight route of the passenger aircraft. The high-definition digital camera 6 of the near-earth intelligent UAV 5 uploads the near-earth high-definition video corresponding to the passenger aircraft route to the passenger visual travel system on the passenger aircraft, and the management PC 16 moves the near-earth intelligent UAV 5 along the flight route. The high-definition video of the city, mountains and rivers and landforms of near-ground aerial photography is optimized and stored in the database server 13 of the central management server 10 of the passenger visual travel system. The high-definition video/high-definition picture of the city, mountains and rivers and landforms taken by the high-definition digital telescope 3 along the flight route is optimized and stored in the database server 13 of the central management server 10 of the passenger visual travel system without loss, so as to prepare for the night or dense fog of the passenger aircraft Call out and use during weather navigation, the lossless high-definition video/high-definition picture that is stored in the database server 13 keeps updating regularly, and described display 19 shows the belly high-definition digital camera 1, aircraft top high-definition digital camera 2, high-definition The lossless high-definition video/high-definition picture of the ground city, mountains and rivers, landform that digital telescope 3, near-earth intelligent drone 5 take; Displaying lossless high-definition videos of ground cities, mountains and rivers and landforms taken from 1,000 to 4,000 meters above the ground can enable passengers on the plane to enjoy an unprecedented and unparalleled value-added service of visual travel by plane.

A passenger visual travel system arranged on a passenger aircraft, the gist of its technical solution is that it also includes a high-definition digital camera 4 in the cockpit of the passenger aircraft, and the high-definition digital camera 4 in the cockpit of the aircraft is provided with a switch, When the monitor 19 can show the video in the cockpit of the aircraft to the passengers on the aircraft is determined by the pilot of the aircraft.

A visual travel system for passengers installed on passenger planes, the main point of the technical solution is that the central management server 10 includes but not limited to a communication server 11, a storage system 12, a database server 13, a network time server 14, an application server 15; the management PC 16 also includes a video input 17, an audio input 18; the digital high-definition camera, digital high-definition telescope 3, near-ground intelligent unmanned The video signal of machine 5 digital high-definition camera 6 is connected with network hard disk video recorder 8 through data line 7, and described network hard disk video recorder 8 is also provided with router 9, and described management PC16 comprises video input 17, audio frequency input 18 through data line 7 is connected with network hard disk video recorder 8, and described network hard disk video recorder 8 is connected with display 19 through data line 7, and described network hard disk video recorder 8 is connected with central management server 10 through data line 7, and described central management Server 10 is connected with Internet 22 through satellite 20 and ground communication base station 21; The system implements physical isolation, and the preferred scheme of the display 16 is arranged on the back of the passenger seat, and there are multiple displays, and the router 9 provides wireless networking services for the computers and mobile phones of passengers on the plane. Display 19, passenger's computer, mobile phone can realize the high-definition video of the ground taken by the high-definition digital camera on the abdomen of the aircraft fuselage/the video of the sky clouds taken by the high-definition digital camera on the top of the aircraft fuselage/the high-definition picture on the ground displayed by the high-definition digital telescope on the abdomen of the aircraft fuselage /Switch freely between ground high-definition videos captured by near-ground intelligent drones.

A visual travel system for passengers arranged on passenger planes, the main point of the technical solution is that the central management server 10 can communicate with the satellite 20 and the ground communication base station 21 through the communication server 11, and the display 19 It also includes displaying the real-time four-dimensional track data of the aircraft to the passengers on the aircraft - the flight trajectory of the aircraft flight, the latitude and longitude of the flight, the flight altitude, and the flight speed information.

A passenger visual travel system arranged on a passenger aircraft, the main point of its technical solution is that when the passenger aircraft flies at night or in dense fog, the management PC16 in the passenger visual travel system can read from the passenger visual travel system. The storage system 12 of the central management server 10 calls out the prestored high-definition video/high-definition picture data, and allows the display 19 to play the flight route to the passengers on the plane. The high-definition video/picture of the ground cities, mountains and rivers, and landforms of the flight route captured by the high-definition digital camera 6.

A passenger visual travel system installed on a passenger aircraft, the main point of the technical solution is that the passenger visual travel system can not only show the passengers on the aircraft the glorious flight history of the pilot and the flight attendant, the trouble-free flight mileage of the aircraft reliability information, shorten the distance between pilots, flight attendants and passengers, eliminate passengers’ concerns about flight safety, and enhance passengers’ confidence; the passenger visual travel system can also communicate with the satellite 20 and The communication of the ground communication base station 21 is used by the management PC16 to display to the passengers on the aircraft the countries, provinces and cities, tourist attractions, local customs, and special delicacies corresponding to the flight trajectory of the aircraft, which can increase the advertising revenue of the airline.

A passenger visual travel system arranged on passenger planes, the main point of its technical solution is that the passenger visual travel system also includes that the airline company uses the central management server 10 of the passenger visual travel system to create an Internet 22 client application, and the Internet 22 client Terminal applications include: airline cloud service23, airline official website24, Android APP25, IOS APP26, WeChat official account27, third-party live broadcast platform28; you can check passenger traffic on world-renowned video sites such as Google Video. High-definition videos of ground cities, mountains and rivers, and landforms captured by high-definition digital cameras, high-definition digital telescopes, and near-earth intelligent UAV high-definition digital cameras on aircraft flights. Airlines can also rely on the passenger visual travel system to set up digital high-definition cameras, digital high-definition telescopes, and digital high-definition cameras on near-earth intelligent drones set on the aircraft head/belly/top of the aircraft to capture high-definition videos of ground cities, mountains, and landforms Passengers make a three-dimensional dynamic high-definition video of the integration of heaven and earth.

The above is only a preferred embodiment of the present invention, but the scope of protection of the present invention is not limited thereto, any person familiar with the technical field within the technical scope disclosed in the present invention, according to the technical solution of the present invention Equivalent replacements or changes thereof shall fall within the protection scope of the present invention.

Claims (10)

1. A passenger visual travel system arranged on a passenger plane is characterized in that it mainly includes a digital high-definition camera device, a data cable, a network hard disk video recorder, a central management server, a management PC, and a display; the digital high-definition camera device includes but Not limited to digital high-definition camera, digital high-definition network camera, described digital high-definition camera device includes but not limited to be arranged on the head of the aircraft, the belly of the aircraft, the top of the aircraft, and the digital high-definition camera device includes but not limited to the ground Cities, mountains and rivers, landforms are fully automatic shooting/or shooting is performed under the auxiliary control of the management PC, and the display shows the passengers on the plane the lossless high-definition images of the ground cities, mountains and rivers, landforms/sky clouds captured by the digital high-definition camera device Video/HD picture;

   The same scenery is completely different when seen on the ground and in the air: the scenery seen on the ground is in the world; the scenery seen in the sky is like a fairyland. For example: the Grand Canyon of Colorado is one of the seven wonders of the world. The width is between 6 kilometers and 25 kilometers, and you can only see a part of it on the ground. You can enjoy the ever-changing shapes, solitary peaks and spires of the Grand Canyon by plane, and you can also see the surging Colorado River and its many tributaries passing through it. Spectacular views across the Grand Canyon;

   The passenger visual travel system on the passenger plane may bring explosive growth to the airline's passenger source. Previously, passengers only used passenger planes as a means of transportation, and tourists only stayed on ground tourism and sea tourism. Since the creation of the passenger visual travel system, it has also opened up unprecedented air travel. Tourists take passenger planes no longer It is used as a means of transportation, and it is also used to visit the magnificent and magnificent ground cities, mountains and rivers, and the wonders of landforms that are rarely seen on the ground in the air.
2. A passenger visual travel system arranged on a passenger plane according to claim 1, characterized in that it mainly includes a digital high-definition camera, a data cable, a network hard disk video recorder, a central management server, a management PC, and a display; The digital high-definition camera devices include but are not limited to digital high-definition cameras and digital high-definition network cameras. 1. Take the digital high-definition camera on the top of the aircraft as an example. The setting method includes but not limited to: 1. The digital high-definition camera set on the belly of the aircraft and the top of the aircraft are hidden in the fuselage of the passenger aircraft. 2. The digital high-definition camera 3. The front of the digital high-definition camera lens is isolated from the outside world by the glass made of modern airliner cockpit windshield glass. 4. The outer surface of the windshield glass in front of the digital high-definition camera lens is in contact with the aircraft fuselage 5. The connection method between the windshield glass in front of the digital high-definition camera lens and the aircraft fuselage is the same as that of the windshield glass in the cockpit of the aircraft. The connection method of the aircraft fuselage is the same. 6. Ensure that the periphery of the windshield glass in front of the digital high-definition camera lens is airtight and firmly connected with the aircraft fuselage. Inside the cover, the base of the pan/tilt of the digital high-definition camera is firmly connected to the metal protective cover. The pan/tilt of the digital high-definition camera includes but is not limited to fixed pan/tilt/electric pan/tilt/hydraulic pan/tilt, so The electric pan/tilt mentioned above is an electric pan/tilt that can realize remote control. The rotation and movement of the electric pan/tilt are realized by two executive motors. The motors receive the signals from the management PC to run and position accurately. Keep an airtight and firm connection with the inner wall of the aircraft fuselage. 9. A window for easy maintenance is provided on the metal protective cover. 10. A window for placing a digital high-definition camera is also provided on the metal protective cover of the digital high-definition camera. The cable channel of power supply cable and data line, 11, the power supply cable and data line of digital high-definition camera are airtight and firmly fixed in the cable channel; when the aircraft head is provided with digital high-definition camera, digital high-definition camera The setting method of the head can refer to the setting method of the digital high-definition camera on the belly/top of the aircraft on the aircraft fuselage except "2. The central axis of the digital high-definition camera is approximately perpendicular to the curved surface of the aircraft fuselage" or is different; 12. The lens of the digital high-definition camera device includes the ability to withstand the test of temperature, altitude and speed during aircraft flight, and can adapt to the large water vapor in the air when the aircraft is flying at medium and low altitudes, and the lens glass is relatively easy to atomize and freeze. The lens of the glass material of the environment, when the lens of the digital high-definition camera device adopts the test that can withstand the temperature, altitude, and speed of the aircraft during flight, and can adapt to the aircraft at low and medium altitudes When flying, there is a lot of water vapor in the air, and the lens glass is easier to atomize than the hinge. When the lens is made of glass material in an environment that is prone to freezing, the front of the lens of the digital high-definition camera device can directly protrude out of the aircraft fuselage, and there is no need to use a modern airliner cockpit. The glass made of the windshield glass is isolated from the outside world; the display shows the high-definition video/picture of the ground city, mountains, landforms/sky clouds taken by the digital high-definition camera to passengers on the plane.
3. A passenger visual travel system arranged on a passenger plane is characterized in that it mainly includes a digital high-definition camera, a digital high-definition telescope, a data cable, a network hard disk video recorder, a central management server, a management PC, and a display; the digital high-definition Camera devices include but are not limited to digital high-definition cameras and digital high-definition network cameras. The digital high-definition telescopes include but are not limited to digital high-definition telescopes that can take pictures and record videos. On the head of the aircraft, the belly of the aircraft, and the top of the aircraft, the digital high-definition camera device and the digital high-definition telescope perform automatic shooting on the ground city, mountains and rivers, landforms/sky clouds/or perform shooting under the auxiliary control of the management PC , the display shows the lossless high-definition video/high-definition picture of the ground city, mountains and rivers, landforms/sky clouds taken by the digital high-definition camera device and the digital high-definition telescope to passengers on the plane; the management PC controls the digital high-definition camera and the digital high-definition telescope along the flight The high-definition videos/pictures of cities, mountains and rivers and landforms taken on the route are optimized and stored in the database server of the central management server of the passenger visual travel system, so that they can be recalled and used when the passenger aircraft sails at night or in dense fog.
4. A passenger visual travel system set on a passenger plane, characterized in that it mainly includes a digital high-definition camera device, a digital high-definition telescope, a digital high-definition camera device for near-earth intelligent drones, a data line, a network hard disk video recorder, and a central management server , management PC, monitor; described digital high-definition camera device includes but not limited to digital high-definition camera, digital high-definition network camera, and described digital high-definition telescope includes but not limited to digital high-definition telescope that can take pictures and record video, and described digital high-definition The camera device and the digital high-definition telescope include but are not limited to being installed on the head of the aircraft, the belly of the aircraft, and the top of the aircraft. The setting method adopts the lens of the digital high-definition camera device and the lens of the digital high-definition telescope. Choose one of the two; the digital high-definition camera device and the digital high-definition telescope perform automatic shooting on ground cities, mountains and rivers, landforms/sky clouds/or perform shooting under the auxiliary control of the management PC;

   The near-ground intelligent unmanned aerial vehicle refers to a miniature intelligent unmanned aerial vehicle whose flight height is less than 4000m from the ground, and a digital high-definition camera device and a digital high-definition telescope are arranged on the described near-ground intelligent unmanned aerial vehicle. Camera devices include but are not limited to digital high-definition cameras and digital high-definition network cameras. The digital high-definition telescopes include but are not limited to digital high-definition telescopes that can take pictures and record videos. On the head, belly, and top of the near-earth intelligent drone, the digital high-definition camera device and digital high-definition telescope set on the near-earth intelligent drone are opposite to the ground city, mountains and rivers, topography/near-earth intelligent drone. Passenger aircraft perform fully automatic shooting; when the smart drone flies over the ground cities, mountains, and landforms with a particularly beautiful environment, such as when the smart drone flies over volcanoes, waterfalls, and glaciers, the digital high-definition images of the smart drone The camera device can be used for close-up shooting, focusing shooting, circling shooting, and long-term shooting; otherwise, short-time shooting;

   The association between the near-earth intelligent UAV and the passenger aircraft is divided into two modes: controlled or uncontrolled. There is a dedicated airport for near-earth intelligent UAVs around the passenger airport. The main devices on the drone include a communication system, intelligent identification and intelligent obstacle avoidance system. The flying height and flight speed of the near-ground intelligent drone can be intelligently adjusted; When the correlation between them is controlled mode, the video/picture signals of the digital high-definition camera and digital high-definition telescope on the near-ground intelligent drone are wirelessly connected to the network hard disk video recorder/central management server through a super-high level encryption algorithm;

   When the association between the near-ground intelligent UAV and the passenger aircraft is in an uncontrolled mode, the airline will instruct the near-ground intelligent UAV to fly along the flight route of the passenger aircraft, and the near-ground intelligent UAV will fly The set digital high-definition camera device and digital high-definition telescope perform automatic shooting of ground cities, mountains and rivers, landforms/passenger aircraft above the head of the near-earth intelligent UAV; the management PC of the passenger visual travel system on the passenger aircraft is near the ground. The high-definition videos/pictures of cities, mountains and rivers, and landforms photographed by the plane along the flight route are optimized and stored in the database server of the central management server of the passenger visual travel system, and the lossless high-definition videos/pictures stored in the database server are kept Regularly updated for use when passenger aircraft sail at night or in dense fog;

   The display shows the lossless high-definition video/high-definition pictures of the ground city, mountains and rivers, and landforms taken by digital high-definition cameras, digital high-definition telescopes, and near-earth intelligent drones to passengers on the plane; especially: The digital high-definition camera device and digital high-definition telescope on the man-machine can take close-range high-definition shots of the ground/passenger aircraft, and the passenger visual travel system can show the passengers on the plane the ground cities, mountains and rivers, and landforms that are 1km to 4km away from the ground. Lossless high-definition video/high-definition pictures can enable passengers on the plane to enjoy unprecedented value-added services for visual travel.
5. According to claim 1, 3 or 4, a passenger visual travel system arranged on a passenger aircraft is characterized in that it also includes a digital high-definition camera in the passenger aircraft cockpit, and the aircraft cockpit digital The high-definition camera is set with a switch, and when the monitor can show the video in the cockpit of the aircraft to the passengers on the aircraft is determined by the pilot of the aircraft.
6. According to claim 1, 3 or 4, a passenger visual travel system arranged on a passenger plane, wherein said central management server includes but not limited to a communication server, a storage system, a database server, and a network time server , application server; described management PC also comprises video input, audio frequency input; Described is arranged on the digital high-definition video camera of aircraft head/aircraft belly/aircraft top/aircraft cockpit, digital high-definition telescope, near ground intelligent unmanned aerial vehicle The video signal of the digital high-definition camera is connected with the network hard disk video recorder by data line, and described network hard disk video recorder is also provided with router, and described management PC comprises video input, and audio frequency input is connected with network hard disk video recorder by data line, and described The network hard disk video recorder is connected to the display through a data line, the network hard disk video recorder is connected to the central management server through a data line, and the central management server is connected to the Internet through a satellite and a ground communication base station; the passenger visual All signal transmission systems/communication systems of the travel system are physically isolated from the ground-air or air-air communication/navigation system and the air traffic control system of the passenger aircraft. There are multiple displays, and the router provides wireless networking services for the computers and mobile phones of passengers on the plane; on the displays, the computers and mobile phones of passengers, the ground high-definition video/ The video of the sky and clouds taken by the high-definition digital camera on the top of the aircraft fuselage/the high-definition picture of the ground displayed by the high-definition digital telescope on the belly of the aircraft fuselage/the high-definition video of the ground captured by an intelligent drone near the ground can be switched freely.
7. According to claim 1 or 3 or 4, a passenger visual travel system arranged on a passenger aircraft is characterized in that the central management server can communicate with satellites and ground communication base stations through the communication server, so The above-mentioned display also includes displaying the real-time four-dimensional track data of the aircraft to the passengers on the aircraft - the information of the flight trajectory of the aircraft flight, the longitude and latitude of the flight, the flight altitude, and the flight speed.
8. According to claim 1, 3 or 4, a passenger visual travel system arranged on a passenger plane is characterized in that, when the passenger plane is flying at night or in dense fog, the management system in the passenger visual travel system The PC can retrieve the pre-stored high-definition video/high-definition picture data from the storage system of the central management server of the passenger visual travel system, and let the display play the digital high-definition camera, digital high-definition telescope, and near-ground intelligent drone to the passengers on the plane. The high-definition video/pictures of the ground cities, mountains and rivers, and landforms of the flight route captured by digital high-definition cameras; every passenger on the plane can also realize all-weather and all-round real-time four-dimensional track data of the plane through the monitor, passenger's computer, and mobile phone /High-definition video on the ground taken by the digital high-definition camera on the belly of the plane/Sky cloud video taken by the digital high-definition camera on the top of the plane/High-definition video on the ground taken by the digital high-definition telescope/High-definition video on the ground taken by the near-ground intelligent drone.
9. According to claim 1, 3 or 4, a passenger visual travel system arranged on a passenger plane, is characterized in that the passenger visual travel system can show the passengers on the plane the glorious images of the pilot and flight attendant. Reliable information on flight history and aircraft trouble-free flight mileage shortens the distance between pilots, flight attendants and passengers, eliminates passengers' concerns about flight safety, and enhances passengers' confidence; the passenger visual travel system can also pass through the central management server The communication between the communication server and the satellite and the ground communication base station, the management PC will display to the passengers on the plane the countries, provinces and cities corresponding to the flight trajectory of the plane, the tourist attractions, local customs, and special delicacies, which can increase the advertising revenue of the airline.
10. According to claim 1, 3 or 4, a passenger visual travel system arranged on a passenger plane is characterized in that the passenger visual travel system also includes an Internet client created by the central management server of the passenger visual travel system used by the airline company. Terminal applications, Internet client applications include: airline cloud service, airline official website, Android APP, IOS APP, WeChat official account, third-party live broadcast platform; passenger traffic can be queried on world-renowned video websites such as Google Video website The high-definition video/pictures of ground cities, mountains and rivers and landforms taken by digital high-definition cameras, digital high-definition telescopes, and digital high-definition cameras of near-ground intelligent drones on aircraft flights; airlines can also rely on passenger visual travel systems to set them on the nose The digital high-definition camera, digital high-definition telescope, and digital high-definition camera of near-earth intelligent drones on the belly/belly of the plane/top of the plane take high-definition videos of ground cities, mountains and rivers, and landforms to create a natural three-dimensional dynamic high-definition video for passengers. video.

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