Evolution of flight control systems and aerial photography in unmanned agricultural aircraft
The advancement of UAV technologies has enabled the automated capture of photos and videos, eliminating the need for manual intervention in flight control. ( Research purpose ) This research aims to conduct a retrospective analysis of the evolution offlight control systems and the development of aer...
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Veröffentlicht in: | Agricultural Machinery and Technologies 2024-06, Vol.18 (2), p.11-19 |
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Format: | Artikel |
Sprache: | eng ; rus |
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Zusammenfassung: | The advancement of UAV technologies has enabled the automated capture of photos and videos, eliminating the need for manual intervention in flight control. ( Research purpose ) This research aims to conduct a retrospective analysis of the evolution offlight control systems and the development of aerial photography equipment for agricultural land, covering the period from the mid-19th century to present. ( Materials and methods ) A systematic literature review was conducted using the historical-analytical method. The paper examines original works by both domestic and international authors, including monographs, scientific journals, conference proceedings, museum exhibitions, photographic archives, and open-source software code. ( Results and discussion ) The paper identifies six distinct phases in the development of aerial photography and flight control systems. The classification is based on key innovations in camera types, control systems, and aircraft designs. Each phase highlights the predominant cameras, control systems, and aircraft utilized for agricultural applications. ( Conclusions ) Over the past 165 years, notable changes have occurred in aerial photography parameters, including the type of photographic material, image spatial and spectral resolution, camera weight and mounting, shutter types and their mechanisms, inertial control units, integrated GPS/GLONASS receivers, and light sensors. In terms of flight control systems for UAVs, significant developments over the last 106 years include variations in flight control types, the number offlight-stabilizing sensors, obstacle detection systems, size of the flight control units, flight modes, and takeoff/landing techniques, along with interfaces for attachments. It is anticipated that future intellectualization and miniaturization of flight control systems will not only boost UAV performance but also reduce the economic costs associated with the aerial monitoring of agricultural biological assets. |
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ISSN: | 2073-7599 |
DOI: | 10.22314/2073-7599-2024-18-2-11-19 |