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Year 2020, Volume: 01 Issue: 01, 14 - 21, 10.09.2020

Abstract

References

  • Eurocontrol. RPAS ATM CONOPS. Montreal, 2017.
  • Herwitz, S. R., Johnson L. F., Dunagan, S. E., Higgins R. G., Sullivan, D. V., Zheng, J., Lobitz, B. M., Leung, J. G., Gallmeyer., B. A., Aoyagi, M., Slye, R. E., ve Brass, J. A., Imaging From An Unmanned Aerial Vehicle: Agricultural Surveillance And Decision Support. Computers and Electronics in Agriculture, 2004: 49-61. Hunt, E. Raymond, Craig S.t. Daughtry, Steven B. Mirsky, ve W. Dean Hively. Remote Sensing With Simulated Unmanned Aircraft Imagery for Precision Agriculture Applications.Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 2014: 4566-4571.
  • ICAO, International Civil Aviation Organization. Air Traffic Services. Montreal, 2001.
  • Jannoura Ramia, Katja Brinkmann, Christian Bruns, ve Rainer Georg Joergensen. Monitoring of Crop Biomass Using True Colour Aerial Photographs Taken From A Remote Controlled Hexacopter. Biosystem Engineering, 2015: 341-351.
  • Kaçar Alp., Tok Barışcan., Kahvecioğlu A.C., Albostan O., Köse S., İrfanoğlu B. ve Arıkan K. B., Üç Dönerkanatlı ve Döner-Rotorlu İnsansız Hava Aracının Tasarımı. EMO Bilimsel Dergi, 2013: 107-113.
  • Logan Mıchael J., Geoffrey Bland, ve Jennifer Murray. A Framework for Safe Integration of Small UAS into the NAS. 11th AIAA Aviation Technology, Integration, and Operations (ATIO) Conference. Virginia BEach: AIAA, 2011. 1-6.
  • Savaş Tamer, ve Öznur Usanmaz. İnsansız Hava Aracı Sistemlerinin Ayrılmamış Hava Sahasına Entegrasyonu İle İlgili Mevzuatların Değerlendirmesi. IX. Ulusal Uçak, Havacılık Ve Uzay Mühendisliği Kurultayı. Ankara: Makine Mühendisleri Odası (MMO), 2017. 49-61.
  • SHGM, Sivil Havacılık Genel Müdürlüğü. İnsansız Hava Aracı Sistemleri Talimatı (SHT-İHA). Ankara, 2016.
  • Simelli Ioanna, ve Apostolos Tsagaris. The Use of Unmanned Aerial Systems (UAS) in Agriculture. 7th International Conference on Information and Communication Technologies in Agriculture, Food and Environment. Greece, 2015. 730-736.
  • SSM, Savunma Sanayi Müsteşarlığı. Türkiye İnsansız Hava Aracı Sistemleri Yol Haritası (2011-2030). Ankara, 2012.
  • Torres-Rua Alfonso, Manal Al Arab, Leila Hassan-Esfahani, Austin Jensen, ve Mac McKee. Development of Unmanned Aerial Systems for Use in Precision Agriculture: The AggieAir Experience. Conference on Technologies for Sustainability. 2015. 77-82.
  • Xiang Haitao, ve Lei Tian. Development of A Low-Cost Agricultural Remote Sensing System Based On An Autonomous Unmanned Aerial Vehicle (UAV). Biosystems Engineering, 2011: 174-190.
  • Zhang,Chunhua, ve John M. Kovacs. The application of small unmanned aerial systems for precision agriculture: a review. Precision agriculture, 2012: 693-712.

DESIGN OF A PESTICIDE SPRAYING QUADCOPTER

Year 2020, Volume: 01 Issue: 01, 14 - 21, 10.09.2020

Abstract

Today, coupled with technological development, UAV (Unmanned Aerial Vehicle) systems show an important improvement in civil area applications. UAV systems have active tasks with cost-effective solutions in several areas like defense, logistics, engineering and agriculture. Especially in agricultural applications, UAV system usage contributes to improvement of the critical parameters of this sector as efficiency and sustainability. Thus, in agricultural areas, improvement and usage of unmanned systems are of importance. In this study, a remote-control rotary wing UAV system that has the ability to perform irrigation and spraying and its design, production and application processes are discussed. The designed, verified and all test operations completed UAV system is planned to be used in remote control liquid rejection from different altitudes in the agricultural area.

References

  • Eurocontrol. RPAS ATM CONOPS. Montreal, 2017.
  • Herwitz, S. R., Johnson L. F., Dunagan, S. E., Higgins R. G., Sullivan, D. V., Zheng, J., Lobitz, B. M., Leung, J. G., Gallmeyer., B. A., Aoyagi, M., Slye, R. E., ve Brass, J. A., Imaging From An Unmanned Aerial Vehicle: Agricultural Surveillance And Decision Support. Computers and Electronics in Agriculture, 2004: 49-61. Hunt, E. Raymond, Craig S.t. Daughtry, Steven B. Mirsky, ve W. Dean Hively. Remote Sensing With Simulated Unmanned Aircraft Imagery for Precision Agriculture Applications.Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 2014: 4566-4571.
  • ICAO, International Civil Aviation Organization. Air Traffic Services. Montreal, 2001.
  • Jannoura Ramia, Katja Brinkmann, Christian Bruns, ve Rainer Georg Joergensen. Monitoring of Crop Biomass Using True Colour Aerial Photographs Taken From A Remote Controlled Hexacopter. Biosystem Engineering, 2015: 341-351.
  • Kaçar Alp., Tok Barışcan., Kahvecioğlu A.C., Albostan O., Köse S., İrfanoğlu B. ve Arıkan K. B., Üç Dönerkanatlı ve Döner-Rotorlu İnsansız Hava Aracının Tasarımı. EMO Bilimsel Dergi, 2013: 107-113.
  • Logan Mıchael J., Geoffrey Bland, ve Jennifer Murray. A Framework for Safe Integration of Small UAS into the NAS. 11th AIAA Aviation Technology, Integration, and Operations (ATIO) Conference. Virginia BEach: AIAA, 2011. 1-6.
  • Savaş Tamer, ve Öznur Usanmaz. İnsansız Hava Aracı Sistemlerinin Ayrılmamış Hava Sahasına Entegrasyonu İle İlgili Mevzuatların Değerlendirmesi. IX. Ulusal Uçak, Havacılık Ve Uzay Mühendisliği Kurultayı. Ankara: Makine Mühendisleri Odası (MMO), 2017. 49-61.
  • SHGM, Sivil Havacılık Genel Müdürlüğü. İnsansız Hava Aracı Sistemleri Talimatı (SHT-İHA). Ankara, 2016.
  • Simelli Ioanna, ve Apostolos Tsagaris. The Use of Unmanned Aerial Systems (UAS) in Agriculture. 7th International Conference on Information and Communication Technologies in Agriculture, Food and Environment. Greece, 2015. 730-736.
  • SSM, Savunma Sanayi Müsteşarlığı. Türkiye İnsansız Hava Aracı Sistemleri Yol Haritası (2011-2030). Ankara, 2012.
  • Torres-Rua Alfonso, Manal Al Arab, Leila Hassan-Esfahani, Austin Jensen, ve Mac McKee. Development of Unmanned Aerial Systems for Use in Precision Agriculture: The AggieAir Experience. Conference on Technologies for Sustainability. 2015. 77-82.
  • Xiang Haitao, ve Lei Tian. Development of A Low-Cost Agricultural Remote Sensing System Based On An Autonomous Unmanned Aerial Vehicle (UAV). Biosystems Engineering, 2011: 174-190.
  • Zhang,Chunhua, ve John M. Kovacs. The application of small unmanned aerial systems for precision agriculture: a review. Precision agriculture, 2012: 693-712.
There are 13 citations in total.

Details

Primary Language English
Subjects Aerospace Engineering
Journal Section Research Articles
Authors

Beytullah Ünal This is me

Tamer Savaş

Işıl Yazar

Publication Date September 10, 2020
Submission Date March 2, 2020
Published in Issue Year 2020 Volume: 01 Issue: 01

Cite

APA Ünal, B., Savaş, T., & Yazar, I. (2020). DESIGN OF A PESTICIDE SPRAYING QUADCOPTER. International Journal of Aviation Science and Technology, 01(01), 14-21.

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