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The impact of swarm robotics on arable farm size and structure in the UK

Author

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  • Lowenberg-DeBoer, James
  • Behrendt, Karl
  • Godwin, Richard
  • Franklin, Kit

Abstract

Swarm robotics has the potential to radically change the economies of size in agriculture and this will impact farm size and structure in the UK. This study uses a systematic review of the economics of agricultural robotics literature, data from the Hands Free Hectare (HFH) demonstration project which showed the technical feasibility of robotic grain production, and farm-level linear programming (LP) to estimate changes in the average cost curve for wheat and oilseed rape from swarm robotics. The study shows that robotic grain production is technically and economically feasible. A preliminary analysis suggests that robotic production allows medium size farms to approach minimum per unit production cost levels and that the UK costs of production can compete with imported grain. The ability to achieve minimum production costs at relatively small farm size means that the pressure to “get big or get out” will diminish. Costs of production that are internationally competitive will mean reduced need for government subsidies and greater independence for farmers. The ability of swarm robotics to achieve minimum production costs even on small, irregularly shaped fields will reduce pressure to tear out hedges, cut infield trees and enlarge fields.

Suggested Citation

  • Lowenberg-DeBoer, James & Behrendt, Karl & Godwin, Richard & Franklin, Kit, 2019. "The impact of swarm robotics on arable farm size and structure in the UK," Agri-Tech Economics Papers 296492, Harper Adams University, Land, Farm & Agribusiness Management Department.
    • Handle: RePEc:ags:haaepa:296492
    DOI: 10.22004/ag.econ.296492
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    Cited by:

    1. Lowenberg-DeBoer, James & Pope, Tom William & Roberts, Joe Mark, 2020. "Feasibility of Autonomous Equipment for Biopesticide Application," Land, Farm & Agribusiness Management Department 308162, Harper Adams University, Land, Farm & Agribusiness Management Department.
    2. Scott M. Swinton, 2022. "Precision conservation: Linking set‐aside and working lands policy," Applied Economic Perspectives and Policy, John Wiley & Sons, vol. 44(3), pages 1158-1167, September.
    3. Lowenberg-DeBoer, James & Pope, Tom William & Roberts, Joe Mark, 2020. "Feasibility of Autonomous Equipment for Biopesticide Application," Agri-Tech Economics Papers 308162, Harper Adams University, Land, Farm & Agribusiness Management Department.
    4. Boehlje, Michael & Langemeier, Michael, 2022. "Potential Payoffs of Precision Agriculture," Journal of the ASFMRA, American Society of Farm Managers and Rural Appraisers, vol. 2022.
    5. Revell, G.B. & Powell, J.W. & Welsh, J.M., 2020. "Economic Potential of Autonomous Tractor Technology in Australian Cotton Production Systems," AFBM Journal, Australasian Farm Business Management Network, vol. 17(1), October.

    More about this item

    Keywords

    Agribusiness; Crop Production/Industries; Farm Management; Land Economics/Use; Research and Development/Tech Change/Emerging Technologies;
    All these keywords.

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