Development and prospect of unmanned aerial vehicle technologies for agricultural production management
Abstract
Keywords
Full Text:
PDFReferences
Blyenburgh P V. UAVs: An overview. Air & Space Europe, 1999; 1(5): 43-47.
Zhou G, Wu J. UAV data flow processing for natural disaster response. Proceedings of ASPRS Annual
Conference, Reno, Nevada, USA, 1-5 May 2006; pp. 1-8.
Blazakis J. Border security and unmanned aerial vehicles. CRS Report for Congress, Order Code RS21698, 2 January 2004; Available online: http://www.epic.org/privacy/ surveillance/spotlight/0805/rsjb.pdf (Accessed on 5 January 2012).
Mirchandani P, Hickman M, Angel A, Chandnani D. Application of aerial video for traffic flow monitoring and management. EOM, 2003; 12(4): 10-17.
Srinivasan S, Latchman H, Shea J, Wong T, McNair J. Airborne traffic surveillance systems video surveillance of highway traffic. Proceedings of the ACM 2nd International Workshop on Video Surveillance and Sensor Networks, New York, New York, USA, 15 October 2004; pp. 1-5.
Eisenbeiss H. A mini unmanned aerial vehicle (UAV): system overview and image acquisition. Proceedings of International Workshop on Processing and Visualization using High-Resolution Imagery, Pitsanulok, Thailand, 18-20 November 2004; pp. 1-7.
Huang Y B, Lan Y B, Hoffmann W C, Fritz B K. Development of an unmanned aerial vehicle-based remote sensing system for site-specific management in precision agriculture. Proceedings of 9th International Conference on Precision Agriculture, Denver, Colorado, USA, 20-23 2008; pp. 1-10.
Huang Y B. Airborne remote sensing for precision aerial application of crop production and protection materials. Proceedings of 2010 Sino-US Workshop on Intelligent Equipment for Precision Agriculture and Remote Sensing in Agriculture. College Station, Texas, USA, 22 June 2010; pp. 109-111.
Amoroso L, Arrowsmith R. Balloon photography of brush fire scars east of carefree, Arizona. 2010; Available online: http://activetectonics.asu.edu/Fires_and_Floods/10_24_00_photos (accessed on 5 January 2012).
Aber J S, Aaviksoo K, Karofeld E, Aber S W. Patterns in Estonian bogs as depicted in color kite aerial photographs. Suo (Mires and Peat), 2002; 53(1): 1-15.
Seang T P, Mund J P. Balloon based geo-referenced digital photo technique: a low-cost high-resolution option for developing countries. Proceedings of XXIII FIG Congress, Munich, Germany, 8-13 October 2006; pp 1-12.
Lelong C D, Burger P, Jubelin G, Roux B, Labbe S, Baret F. Assessment of unmanned aerial vehicles imagery for quantitative monitoring of wheat crop in small plots. Sensors, 2008; 8: 3557-3585.
Antic B, Culibrk D, Crnojevic V, Minic V. An efficient UAV based remote sensing solution for precision farming. In: BioSense - The First International Workshop on ICT and Sensing Technologies in Agriculture, Forestry and
Environment, Novi Sad, Serbia. 2009.
Huang Y B, Hoffmann W C, Lan Y B, Thomson S J, Fritz B K. Sprayer evaluation and assessment of light-weight imaging systems for unmanned aerial vehicles. Proceedings of 10th International Conference on Precision Agriculture, Denver, Colorado, USA, 18-21 July 2010; pp. 1-13.
Pudelko R, Stuczynski T, Borzecka-Walker M. The suitability of an unmanned aerial vehicle (UAV) for the evaluation of experimental fields and crops. Agriculture, 2012; 99(4): 431-436.
Herwitz S R, Johnson L F, Higgins R G, Sullivan D V, Zheng J, Lobitz B M, et al. Imaging from an unmanned aerial vehicle: agricultural surveillance and decision support. Computers and Electronics in Agriculture, 2004; 44(1): 49-61.
Huang Y, Hoffmann W C, Lan Y, Wu W, Fritz B K. Development of a spray system for an unmanned aerial vehicle platform. Applied Engineering in Agriculture, 2009; 25(6): 803-809.
Johnson L F, Bosch D F, Williams D C, Lobitz B M. Remote sensing of vineyard management zones: implications for wine quality. Applied Engineering in Agriculture, 2001; 17(4): 557-560.
Sato A. The RMAX helicopter UAV. Public report. Aeronautic Operations Yamaha Motor Co., Ltd., Shizuoka, Japan. 2003.
Miller J W. Report on the development and operation of an UAV for an experiment on unmanned application of pesticides. AFRL, USAF, 2005.
Jensen T, Apan A, Young F R, Zeller L, Cleminson K. Assessing grain crop attributes using digital imagery acquired from a low-altitude remote controlled aircraft. Proceedings of Spatial Science Conference, Canberra, Australia, 22-27 September 2003; pp. 1-11.
Simpson A, Stombaugh T, Wells L, Jacob J. Imaging techniques and applications for UAV in agriculture. ASAE paper No. 031105. ASAE, St. Joseph, Mich., USA, 2003.
Hardin P J, Jackson M W. An unmanned aerial vehicle for rangeland photography. Rangeland Ecology & Management: 2005; 58(4): 439-442.
Hunt E R, Walthall C L, Daughtry C S T. High-resolution multispectral digital photography using unmanned airborne vehicles. Proceedings of the 20th biennial workshop on aerial photography, videography, and high resolution digital imagery for resource assessment, Weslaco, Texas, USA, 4-6 October 2005; pp. 1-10.
Hunt E R, Hively W D, Fujikawa S J, Linden D S, Daughtry C S T, McCarty G W. Acquisition of NIR-green-blue digital photographs from unmanned aircraft for crop
monitoring. Remote Sensing, 2010; 2: 290-305.
Sullivan D G, Fulton J P, Shaw J N, Bland G. Evaluating the sensitivity of an unmanned thermal infrared aerial system to detect water stress in a cotton canopy. Transactions of the ASABE, 2007; 50(6): 1955-1962.
Xiang H T, Tian L. Development of autonomous unmanned helicopter based agricultural remote sensing system. ASABE paper No. 063097. ASABE, St. Joseph, Mich., USA, 2006.
Xiang H T, Tian L. An autonomous helicopter system for aerial image collection. ASABE paper No. 071136. ASABE, St. Joseph, Mich., USA, 2007.
Xiang H T, Tian L. Development of a low-cost agricultural remote sensing system based on an autonomous unmanned aerial vehicle (UAV). Biosystems Engineering, 2011; 108(2): 174-190.
Xiang H T, Tian L. Autonomous aerial image georefrencing for an UAV-based data collection platform using integrated navigation system. ASABE paper No. 073046. ASABE, St. Joseph, Mich., USA, 2007.
Xiang H T, Tian L. Method for automatic georeferencing aerial remote sensing (RS) images from an unmammed aerial vehicle (UAV) platform. Biosystems Engineering, 2011; 108(2): 104-113.
Macarthur D, Schueller J K, Crane C D. Remotely-piloted mini-helicopter imaging of citrus. ASAE paper No. 051055. ASAE, St. Joseph, Mich., USA, 2005.
Macarthur D, Schueller J K, Lee W S, Crane C D, MacArthur E Z, Parsons L R. Remotely-piloted helicopter citrus yield map estimation. ASABE paper No. 063096. ASABE, St. Joseph, Mich., USA, 2006.
Swain K C, Jayasuriya H P W, Thomson S J. Adoption of an unmanned helicopter for low-altitude remote sensing to estimate yield and total biomass of a rice crop. Transactions of the ASABE, 2010; 53(1): 21-27.
Sugiura R, Ishii K, Noguchi N. Remote sensing technology for field information using an unmanned helicopter. Proceedings of Automation technology for off-road equipment, Kyoto, Japan, 7-8 October, 2004; pp. 1-10.
Iwahori T, Sugiura R, Ishii K, Noguchi N. Development of 3-D GIS map generation system using an unmanned helicopter. ASAE paper No. 051020. ASAE, St. Joseph, Mich., USA, 2005.
Sugiura R, Noguchi N, Ishii K, Terao H. The development of remote sensing system using unmanned helicopter. Proceedings of Automation Technology for Off-road Equipment, Chicago, USA, 26-27 July 2002; pp. 1-9.
Fukagawa T, Ishii K, Noguchi N, Terao H. Detecting crop growth by a multispectral imaging sensor. ASAE paper No. 033125. ASAE, St. Joseph, Mich., USA, 2003.
Yokobori J, Niwa K, Sugiura R, Noguchi N, Chiba Y. Variable management for uniform potato yield using remote sensing images with unmanned helicopter. Proceedings of Automation Technology for Off-road Equipment, Kyoto, Japan, 7-8 October 2004; pp. 447-454.
Sugiura R, Noguchi N, Ishii K. Remote-sensing technology for vegetation monitoring using an unmanned helicopter. Biosystems Engineering, 2005; 90(4): 369-379.
Iwahori T, Sugiura R, Ishii K, Noguchi N. Remote sensing technology using an unmanned helicopter with a control pan-head. Proceedings of Automation Technology for Off-road Equipment, Kyoto, Japan, 7-8 October 2004; pp. 220-225.
Tanaka K, Nakatsubo A, Sugiura T, Minagawa H, Shimada H. Application of the hyperspectral remote sensing by an unmanned helicopter in maize (Zee mays L.) production (part 1). ASABE paper No. 1110621. ASABE, St. Joseph, Mich., USA, 2011.
Tanaka K, Nakatsubo A, Sugiura T, Minagawa H, Shimada H. Application of the hyperspectral remote sensing by an unmanned helicopter in maize (Zee mays L.) production (part 2). ASABE paper No. 1110622. ASABE, St. Joseph, Mich., USA, 2011.
Pena-Barraganan J M, Kelly M, de-Castroa A I, Lopez-Granadosa F. Object-based approach for crop row characterization in UAV images for site-specific weed management. Proceedings of the 4th GEOBIA, Rio de Janeiro, Brazil, 7-9 May 2012; pp.426-430.
Torres-Sanchez J, Lopez-Granados F, De Castro A I, Pena-Barragan J M. Configuration and specifications of an unmanned aerial vehicle (UAV) for early site specific weed management. Plos One, 2013; 8(3): 1-15.
Garcia-Ruiz F, Sankaran S, Maja J M, Lee W S, Rasmussen J, Ehsani R. Comparison of two aerial imaging platforms for identification of Huanglongbing-infected citrus trees. Computers and Electronics in Agriculture, 2013; 91: 106-115.
Johnson L F, Herwitz S R, Lobitz B M, Dunagan S E. Feasibility of monitoring coffee field ripeness with airborne multispectral imagery. Applied Engineering in Agriculture, 2004; 20(6): 845-849.
Copyright (c)