Integrated control of agricultural tractors and implements: a review of potential opportunities relating to cultivation and crop establishment machinery |
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| Authors: | Andrew J Scarlett |
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| Institution: | 1. Department of Control Engineering, Faculty of Electrical Engineering, Czech Technical University in Prague, Technická 2, 166 27 Prague 6, Czech Republic;2. Honeywell Automotive Software, Honeywell, V Parku 2326/18, 148 00 Prague 4, Czech Republic;1. College of Agricultural Engineering, Madakasira 515301, India;2. Agricultural and Food Engineering Department, IIT Kharagpur, 721302, India;3. Central Potato Research Station, Jalandhar 144003, India;4. Directorate of Weed Research, Jabalpur 482004, India;5. CIAE, Bhopal 462038, India;1. Department of Agricultural Machinery and Technologies Engineering, Faculty of Agriculture, Canakkale Onsekiz Mart University, Canakkale, Turkey;2. Department of Electronics and Automation, Can Vocational School, Canakkale Onsekiz Mart University, Canakkale, Turkey;1. Agricultural Machinery Division, Institute of Agricultural Engineering (IAE), College of Engineering and Agro-industrial Technology (CEAT), UP Los Baños (UPLB), College, Laguna 4031, Philippines;2. Agricultural Machinery Division, IAE, CEAT, UPLB, College, Laguna, Philippines;3. Agricultural and Bio-processing Division, IAE, CEAT, UPLB, College, Laguna, Philippines;4. Agricultural Systems Cluster, College of Agriculture, UPLB, College, Laguna, Philippines;1. University of Natural Resources and Life Sciences, Vienna (BOKU), Department of Crop Sciences, Experimental Farm Groß-Enzersdorf, Schloßhofer Straße 31, 2301 Groß-Enzersdorf, Austria;2. University of Natural Resources and Life Sciences, Vienna (BOKU), Department of Crop Sciences, Division of Agronomy, Konrad-Lorenz-Straße 24, 3430 Tulln an der Donau, Austria |
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| Abstract: | The quality of work and the output of a tractor-implement combination relies heavily upon the concentration and skill of the operator. Electronic systems are used increasingly to control tractor sub-systems, i.e. engine, transmission, implement hitch, external hydraulics, and driveline, and to monitor or control certain implements. However, current systems operate autonomously, relying entirely upon the operator for coordination. An integrated hierarchical control system could potentially monitor operating parameters pertinent to both the tractor and attached implements and use this information to control relevant tractor and implement sub-systems in a coordinated manner, thereby improving machine performance. Potential opportunities for the application of real-time, integrated, hierarchical control techniques to certain cultivation and crop establishment implements currently in use on European farms are reviewed. Specific implements (and their parameters) considered include primary cultivation machinery (control of working depth and working width), secondary cultivation machinery (control of working depth and seedbed quality) and crop establishment machinery (control of seeding depth and seed rate). Outline control strategies are proposed for these applications, and sensors and other hardware required to implement the control systems are identified. It is speculated that the agronomic and economic benefits which are likely to result from the implementation of the proposed technology, will enable economic justification of the proposed control systems in two to four operating seasons. These savings are likely to result from greater operational efficiency and more precise control of agronomic inputs. |
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| Keywords: | Tractors Implements Electronics Control Cultivation Drilling |
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