FLYING OBJECT CONTROL SYSTEM
To provide a flying object control system which more appropriately controls a flying object that can be taken off and landed vertically and enables the flying object to be taken off and landed safely and with high density in accordance with the state thereof and its surrounding environment.SOLUTION:...
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Main Authors | , , |
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Format | Patent |
Language | English Japanese |
Published |
04.01.2023
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Abstract | To provide a flying object control system which more appropriately controls a flying object that can be taken off and landed vertically and enables the flying object to be taken off and landed safely and with high density in accordance with the state thereof and its surrounding environment.SOLUTION: A flying object control system 30 comprises a flying object control device 20 and a ground monitor device 10. The flying object control device 20 includes: a state monitor unit 22 for monitoring at least one of an ambient environment of a flying object 1 and an operational state of the flying object 1; a flight control unit 21 for controlling flight of the flying object 1; a closed space setting unit 23 for setting a closed space 2 of the flying object 1; and a communication unit 24 with the ground monitor device 10. The ground monitor device 10 includes: a flight location monitor unit 11 for monitoring flight locations of a plurality of flying objects 1; a closed space management unit 12 for managing the closed spaces 2 of the plurality of flying objects 1; and a communication unit 13 with a plurality of flying object control devices 20. The closed space setting unit 23 controls the closed space 2 with respect to the flying object 1 based on the result of monitoring by the state monitor unit 22.SELECTED DRAWING: Figure 1
【課題】垂直離発着が可能な飛行体の制御をより適切に行い、飛行体の状態や環境に応じて安全かつ高密度な離発着が可能な飛行体制御システムを提供する。【解決手段】飛行体制御システム30は飛行体制御装置20と地上監視装置10を備える。飛行体制御装置20は、飛行体1の周辺環境および飛行体1の動作状態のうちの少なくとも一方を監視する状態監視部22と、飛行体1の飛行を制御する飛行制御部21と、飛行体1の閉塞空間2を設定する閉塞空間設定部23と、地上監視装置10との通信部24とを備える。地上監視装置10は、複数の飛行体1の飛行位置を監視する飛行位置監視部11と、複数の飛行体1の閉塞空間2を管理する閉塞空間管理部12と、複数の飛行体制御装置20との通信部13とを備える。閉塞空間設定部23は、状態監視部22による監視結果に基づき飛行体1に対する閉塞空間2を制御する。【選択図】図1 |
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AbstractList | To provide a flying object control system which more appropriately controls a flying object that can be taken off and landed vertically and enables the flying object to be taken off and landed safely and with high density in accordance with the state thereof and its surrounding environment.SOLUTION: A flying object control system 30 comprises a flying object control device 20 and a ground monitor device 10. The flying object control device 20 includes: a state monitor unit 22 for monitoring at least one of an ambient environment of a flying object 1 and an operational state of the flying object 1; a flight control unit 21 for controlling flight of the flying object 1; a closed space setting unit 23 for setting a closed space 2 of the flying object 1; and a communication unit 24 with the ground monitor device 10. The ground monitor device 10 includes: a flight location monitor unit 11 for monitoring flight locations of a plurality of flying objects 1; a closed space management unit 12 for managing the closed spaces 2 of the plurality of flying objects 1; and a communication unit 13 with a plurality of flying object control devices 20. The closed space setting unit 23 controls the closed space 2 with respect to the flying object 1 based on the result of monitoring by the state monitor unit 22.SELECTED DRAWING: Figure 1
【課題】垂直離発着が可能な飛行体の制御をより適切に行い、飛行体の状態や環境に応じて安全かつ高密度な離発着が可能な飛行体制御システムを提供する。【解決手段】飛行体制御システム30は飛行体制御装置20と地上監視装置10を備える。飛行体制御装置20は、飛行体1の周辺環境および飛行体1の動作状態のうちの少なくとも一方を監視する状態監視部22と、飛行体1の飛行を制御する飛行制御部21と、飛行体1の閉塞空間2を設定する閉塞空間設定部23と、地上監視装置10との通信部24とを備える。地上監視装置10は、複数の飛行体1の飛行位置を監視する飛行位置監視部11と、複数の飛行体1の閉塞空間2を管理する閉塞空間管理部12と、複数の飛行体制御装置20との通信部13とを備える。閉塞空間設定部23は、状態監視部22による監視結果に基づき飛行体1に対する閉塞空間2を制御する。【選択図】図1 |
Author | IMAMOTO KENJI BANDO MIKIO ITO TAKAHIRO |
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Snippet | To provide a flying object control system which more appropriately controls a flying object that can be taken off and landed vertically and enables the flying... |
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SubjectTerms | AEROPLANES AIRCRAFT AVIATION COSMONAUTICS HELICOPTERS PERFORMING OPERATIONS PHYSICS SIGNALLING TRAFFIC CONTROL SYSTEMS TRANSPORTING |
Title | FLYING OBJECT CONTROL SYSTEM |
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