Geosensors to Support Crop Production: Current Applications and User Requirements
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Arnold Bregt | Lammert Kooistra | Frederick Teye | Hanna Huitu | Sirpa Thessler | A. Bregt | S. Thessler | L. Kooistra | H. Huitu | F. Teye | Frederick Teye | Sirpa Thessler
[1] A. Paap,et al. Evaluation of an optical image sensor for use in the micro-photonic real-time vegetation discrimination system , 2008, OECC/ACOFT 2008 - Joint Conference of the Opto-Electronics and Communications Conference and the Australian Conference on Optical Fibre Technology.
[2] MateseA.,et al. A wireless sensor network for precision viticulture , 2009 .
[3] F. J. Pierce,et al. Regional and on-farm wireless sensor networks for agricultural systems in Eastern Washington , 2008 .
[4] John E. Sawyer,et al. Using Active Canopy Sensors to Quantify Corn Nitrogen Stress and Nitrogen Application Rate , 2010 .
[5] Dani Shtienberg,et al. Qualification of a Plant Disease Simulation Model: Performance of the LATEBLIGHT Model Across a Broad Range of Environments. , 2005, Phytopathology.
[6] H. S. Wolff,et al. iRun: Horizontal and Vertical Shape of a Region-Based Graph Compression , 2022, Sensors.
[7] J. Goffart,et al. Potato Crop Nitrogen Status Assessment to Improve N Fertilization Management and Efficiency: Past–Present–Future , 2008, Potato Research.
[8] John H. Prueger,et al. Value of Using Different Vegetative Indices to Quantify Agricultural Crop Characteristics at Different Growth Stages under Varying Management Practices , 2010, Remote. Sens..
[9] Craig L. Dobbins,et al. Spatial analysis of yield monitor data: case studies of on-farm trials and farm management decision making , 2008, Precision Agriculture.
[10] Markku Puustinen,et al. Implementation of automatic sensors for continuous monitoring of runoff quantity and quality in small catchments , 2009 .
[11] S. Christensen,et al. Real‐time weed detection, decision making and patch spraying in maize, sugarbeet, winter wheat and winter barley , 2003 .
[12] Matthias Rothmund,et al. Original papers: Mobile farm equipment as a data source in an agricultural service architecture , 2009 .
[13] Won Suk Lee,et al. Silage Yield Monitoring System , 2002 .
[14] Ning Wang,et al. DESIGN OF AN OPTICAL WEED SENSOR USINGPLANT SPECTRAL CHARACTERISTICS , 2001 .
[15] Nicolas Tremblay,et al. A comparison of crop data measured by two commercial sensors for variable-rate nitrogen application , 2009, Precision Agriculture.
[16] Ning Wang,et al. Design of an optical weed sensor using plant spectral characteristics , 2000, SPIE Optics East.
[17] Lammert Kooistra,et al. Soil Organic Carbon mapping of partially vegetated agricultural fields with imaging spectroscopy , 2011, Int. J. Appl. Earth Obs. Geoinformation.
[18] Lars Bødker,et al. Blight management in the Nordic countries , 2006 .
[19] Koen Langendoen,et al. Murphy loves potatoes: experiences from a pilot sensor network deployment in precision agriculture , 2006, Proceedings 20th IEEE International Parallel & Distributed Processing Symposium.
[20] Paul J.M. Havinga,et al. A new wireless underground network system for continuous monitoring of soil water contents , 2009 .
[21] Thomas S. Colvin,et al. Grain Yield Mapping: Yield Sensing, Yield Reconstruction, and Errors , 2002, Precision Agriculture.
[22] R. Gerhards,et al. Practical experiences with a system for site‐specific weed control in arable crops using real‐time image analysis and GPS‐controlled patch spraying , 2006 .
[23] F. J. Pierce,et al. A remote irrigation monitoring and control system (RIMCS) for continuous move systems. Part B: field testing and results , 2010, Precision Agriculture.
[24] J. Tiusanen. Wireless Soil Scout prototype radio signal reception compared to the attenuation model , 2009, Precision Agriculture.
[25] Veronica A. J. Doerr,et al. Environmental sensor networks for vegetation, animal and soil sciences , 2010, Int. J. Appl. Earth Obs. Geoinformation.
[26] Gary Hatfield,et al. FLEET MANAGEMENT IN THE ELECTRONIC AGE. , 2003 .
[27] John F. Reid,et al. DEVELOPMENT OF A PRECISION SPRAYER FOR SITE-SPECIFIC WEED MANAGEMENT , 1999 .
[28] J. Stafford,et al. A variable rate pivot irrigation control system. , 2003 .
[29] Calvin D. Perry,et al. A real-time wireless smart sensor array for scheduling irrigation , 2008 .
[30] M. E. Grismer,et al. FIELD SENSOR NETWORKS AND AUTOMATED MONITORING OF SOIL WATER SENSORS , 1992 .
[31] Maohua Wang,et al. Wireless sensors in agriculture and food industry — Recent development and future perspective , 2005 .
[32] T. Heisel. Weeds in sugar beet rows, 1: Influence of neighbour plant on the beet yield, 2: Investigation of a CO2 laser for in-row weed control , 2001 .
[33] Li Li,et al. A solar-powered wireless cell for dynamically monitoring soil water content , 2009 .
[34] R. Y. van der Weide,et al. Practical weed control in arable farming and outdoor vegetable cultivation without chemicals , 2006 .
[35] J. Arnó,et al. Review. Precision Viticulture. Research topics, challenges and opportunities in site-specific vineyard management , 2009 .
[36] T. F. Burks,et al. CLASSIFICATION OF WEED SPECIES USING COLOR TEXTURE FEATURES AND DISCRIMINANT ANALYSIS , 2000 .
[37] Scott C. Burleigh,et al. Environmental Studies with the Sensor Web: Principles and Practice , 2005, Sensors (Basel, Switzerland).
[38] Declan Butler,et al. 2020 computing: Everything, everywhere , 2006, Nature.
[39] Kevin A. Delin. The Sensor Web: A Macro-Instrument for Coordinated Sensing , 2002 .
[40] Richard W. Wall,et al. Comparison of Site-Specific and Conventional Uniform Irrigation Management for Potatoes , 2002 .
[41] Craig S. T. Daughtry,et al. Acquisition of NIR-Green-Blue Digital Photographs from Unmanned Aircraft for Crop Monitoring , 2010, Remote. Sens..
[42] Jochen Hemming,et al. Root Zone Sensors for Irrigation Management in Intensive Agriculture , 2009, Sensors.
[43] Milan Kroulík,et al. Development and evaluation of forage yield measure sensors in a mowing-conditioning machine , 2007 .
[44] Salah Sukkarieh,et al. A Rotary-wing Unmanned Air Vehicle for Aquatic Weed Surveillance and Management , 2010, J. Intell. Robotic Syst..
[45] Teodor Gabriel Crainic,et al. Fleet management and logistics , 1998 .
[46] Won Suk Lee,et al. Wagon-Based Silage Yield Mapping System , 2005 .
[47] J. V. Stafford,et al. Implementing precision agriculture in the 21st century. , 2000 .
[48] F. S. Zazueta,et al. Continuous Soil Water Potential Measurement With a Microcomputer-Based Data Acquisition System , 1990 .
[49] G. Fedosejevs,et al. An integrated Earth sensing sensorweb for improved crop and rangeland yield predictions , 2007 .
[50] T. H. Sivertsen,et al. Weather information, site information and a system for dissemination of information on the Worldwide Web from a network of 52 automatic agrometeorological stations* , 2000 .
[51] William R. Raun,et al. In-Season Optical Sensing Improves Nitrogen-Use Efficiency for Winter Wheat , 2009 .
[52] Pedro Sánchez,et al. Wireless Sensor Networks for precision horticulture in Southern Spain , 2009 .
[53] Y. Kim,et al. Software design for wireless sensor-based site-specific irrigation , 2009 .
[54] Pilar Barreiro,et al. A Review of Wireless Sensor Technologies and Applications in Agriculture and Food Industry: State of the Art and Current Trends , 2009, Sensors.
[55] Kirk Martinez,et al. Environmental Sensor Networks: A revolution in the earth system science? , 2006 .
[56] David G. Schmale,et al. Coordinated aerobiological sampling of a plant pathogen in the lower atmosphere using two autonomous unmanned aerial vehicles , 2010, J. Field Robotics.
[57] D. Ehlert,et al. Variable-rate fungicide spraying in cereals using a plant cover sensor , 2006, Precision Agriculture.
[58] F. J. Pierce,et al. A Remote Irrigation Monitoring and Control System for continuous move systems. Part A: description and development , 2010, Precision Agriculture.
[59] David C. Nielsen,et al. Automated Weather Data Network for Agriculture , 1983 .
[60] Jenna Burrell,et al. Vineyard computing: sensor networks in agricultural production , 2004, IEEE Pervasive Computing.
[61] J. Bouma,et al. Future Directions of Precision Agriculture , 2005, Precision Agriculture.
[62] Stefan Pätzold,et al. Spatial heterogeneity of soil properties and its mapping with apparent electrical conductivity , 2008 .
[63] Lutgarde M. C. Buydens,et al. The potential of field spectroscopy for the assessment of sediment properties in river floodplains , 2003 .
[64] Marnik Vanclooster,et al. Analysis of air‐launched ground‐penetrating radar techniques to measure the soil surface water content , 2006 .
[65] Andrea Peruzzi,et al. Physical weed control in organic carrot in the Fucino Valley (Italy) , 2003 .
[66] A. Thomsen,et al. Algorithms for sensor-based redistribution of nitrogen fertilizer in winter wheat , 2006, Precision Agriculture.
[67] R. V. Rossel,et al. Visible, near infrared, mid infrared or combined diffuse reflectance spectroscopy for simultaneous assessment of various soil properties , 2006 .
[68] Lars Thylén,et al. Monitoring wheat protein content on-harvester : Australian experiences , 2005 .
[69] B. Melander. Optimization of the Adjustment of a Vertical Axis Rotary Brush Weeder for Intra-Row Weed Control in Row Crops , 1997 .
[70] S. Polasky,et al. Agricultural sustainability and intensive production practices , 2002, Nature.
[71] Gerrit Hoogenboom,et al. The Georgia Automated Environmental Monitoring Network: Ten Years of Weather Information for Water Resources Management , 2003 .
[72] Steve H. L. Liang,et al. A distributed geospatial infrastructure for Sensor Web , 2005, Comput. Geosci..
[73] Vincent Marchau,et al. Innovating road traffic management by ITS: a future perspective , 2002 .
[74] Wolfgang Kresse,et al. ISO Standards for Geographic Information , 2010 .
[75] Rekha Jain,et al. Wireless Sensor Network -A Survey , 2013 .
[76] Ian F. Akyildiz,et al. Wireless sensor networks: a survey , 2002, Comput. Networks.
[77] P. Reyns,et al. A Review of Combine Sensors for Precision Farming , 2002, Precision Agriculture.
[78] John Davidson,et al. Ogc® sensor web enablement:overview and high level achhitecture. , 2007, 2007 IEEE Autotestcon.
[79] D. J. Greenwood,et al. Opportunities for improving irrigation efficiency with quantitative models, soil water sensors and wireless technology , 2009, The Journal of Agricultural Science.
[80] Luis Alonso,et al. Estimating chlorophyll content of crops from hyperspectral data using a normalized area over reflectance curve (NAOC) , 2010, Int. J. Appl. Earth Obs. Geoinformation.
[81] R. V. Rossel,et al. Soil organic carbon prediction by hyperspectral remote sensing and field vis-NIR spectroscopy: An Australian case study , 2008 .
[82] Viacheslav I. Adamchuk,et al. Review: Sensor systems for measuring soil compaction: Review and analysis , 2008 .
[83] Mark C Siemens,et al. Measuring Grain Protein Concentration with In-line Near Infrared Reflectance Spectroscopy , 2008 .
[84] Frédéric Baret,et al. Assessment of Unmanned Aerial Vehicles Imagery for Quantitative Monitoring of Wheat Crop in Small Plots , 2008, Sensors.
[85] Ahmed E. Kamal,et al. Development of a Wireless Soil Sensor Network , 2008 .
[86] Timo Huttula,et al. Wireless in-situ Sensor Network for Agriculture and Water Monitoring on a River Basin Scale in Southern Finland: Evaluation from a Data User’s Perspective , 2009, Sensors.
[87] C. Owen Gwathmey,et al. Prospects for Monitoring Cotton Crop Maturity with Normalized Difference Vegetation Index , 2010 .
[88] Chun Che Fung,et al. A STUDY ON THE REQUIREMENTS AND TOOLS FOR REAL TIME FLEET MANAGEMENT E-BUSINESS SYSTEMS IN THAILAND , 2009 .
[89] Chris McCarthy,et al. Machine vision-based weed spot spraying: a review and where next for sugarcane? , 2010 .
[90] Richard W. Wall,et al. Comparison of Site-Specific and Conventional Uniform Irrigation Management for Potatoes , 2002 .
[91] D. Haboudane,et al. New spectral indicator assessing the efficiency of crop nitrogen treatment in corn and wheat , 2010 .
[92] Ning Wang,et al. Review: Wireless sensors in agriculture and food industry-Recent development and future perspective , 2006 .
[93] Simone Orlandini,et al. PLASMO: a computer program for grapevine downy mildew development forecasting , 1993 .
[94] Santosh K. Pitla,et al. Potential for pesticide and nutrient savings via map-based automatic boom section control of spray nozzles , 2010 .
[95] L. Balzano,et al. Blind Calibration of Sensor Networks , 2007, 2007 6th International Symposium on Information Processing in Sensor Networks.
[96] F. J. Pierce,et al. Relating apparent electrical conductivity to soil properties across the north-central USA , 2005 .
[97] Yan Zhang,et al. Development of an integrated wireless sensor network micro-environmental monitoring system. , 2008, ISA transactions.
[98] Nicolas Tremblay,et al. Strategies to Make Use of Plant Sensors-Based Diagnostic Information for Nitrogen Recommendations , 2009 .
[99] V. Alchanatis,et al. Review: Sensing technologies for precision specialty crop production , 2010 .
[100] D. K. Giles,et al. Precision weed control system for cotton , 2002 .
[101] Qin Zhang,et al. Wireless Data Fusion System for Agricultural Vehicle Positioning , 2005 .
[102] Iver Thysen,et al. Agriculture in the Information Society. , 2000 .
[103] K. Shepherd,et al. Global soil characterization with VNIR diffuse reflectance spectroscopy , 2006 .
[104] U. Schmidhalter,et al. Precision Farming – Adaptation of Land Use Management to Small Scale Heterogeneity , 2008 .
[105] L. Hoffmann,et al. Measuring soil organic carbon in croplands at regional scale using airborne imaging spectroscopy , 2010 .
[106] Mehmet Can Vuran,et al. Development of a Testbed for Wireless Underground Sensor Networks , 2010, EURASIP J. Wirel. Commun. Netw..
[107] Albert-Jan Baerveldt,et al. An Agricultural Mobile Robot with Vision-Based Perception for Mechanical Weed Control , 2002, Auton. Robots.
[108] Liisa Pesonen,et al. InfoXT - User-centric mobile information management in automated plant production : recommendations and guidelines for a novel, intelligent, integrated information and decision support framework for planning and control of mobile working units , 2008 .
[109] Jan G. P. W. Clevers,et al. A simplified approach for yield prediction of sugar beet based on optical remote sensing data , 1997 .
[110] Brett Whelan,et al. Site-specific variation in wheat grain protein concentration and wheat grain yield measured on an Australian farm using harvester-mounted on-the-go sensors , 2009 .
[111] J. Sinfield,et al. Review: Evaluation of sensing technologies for on-the-go detection of macro-nutrients in cultivated soils , 2010 .
[112] Pascal Simonet,et al. IS EVERYTHING EVERYWHERE , 2009 .
[113] S. F. Di Gennaro,et al. A wireless sensor network for precision viticulture: The NAV system , 2009 .
[114] David C. Slaughter,et al. Autonomous robotic weed control systems: A review , 2008 .
[115] Alex B. McBratney,et al. Site-Specific Durum Wheat Quality and Its Relationship to Soil Properties in a Single Field in Northern New South Wales , 2002, Precision Agriculture.
[116] N. Robinson,et al. Advances in precision agriculture in south-eastern Australia. II. Spatio-temporal prediction of crop yield using terrain derivatives and proximally sensed data , 2009 .
[117] Paul J. Jasa,et al. YIELD MONITOR ACCURACY: SUCCESSFUL FARMING MAGAZINE CASE STUDY , 2002 .
[118] Mingyan Liu,et al. A Wireless Soil Moisture Smart Sensor Web Using Physics-Based Optimal Control: Concept and Initial Demonstrations , 2010, IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing.
[119] Arnold Bregt,et al. User Requirements and Future Expectations for Geosensor Networks - An Assessment , 2009, GSN.
[120] I. Yule,et al. A method for spatial prediction of daily soil water status for precise irrigation scheduling , 2009 .
[121] N. Zhang,et al. Precision agriculture—a worldwide overview , 2002 .
[122] Ralf Bill,et al. Applications of open geospatial web services in precision agriculture: a review , 2009, Precision Agriculture.