Universitat de Girona
Hand weeding has traditionally been a labor-intensive and time consuming task, making it an ideal candidate for automation. However, fields with high weed density remain a challenge for autonomous sys tems. In such scenarios, the limited number of robots and their tooling capacities create bottlenecks, leading to extended mission times. Nuga is a more capable system proposed by Paltech to improve throughput efficiency and reduce total mission duration. These benefits, how ever, depend on effectively solving the task allocation problem with a focus on minimizing tool idle time. To address this, we propose three task allocation algorithms of different paradigms: graph search, optimization-based, and market-based. Our results demonstrate that these approaches can reduce total mission time by up to 22.8% in high density scenarios and decrease tool idle time by as much as 94.9% in comparison with the baseline method.
9
Master's final project
English
Weeds control; Males herbes -- Control; Agricultura -- Innovacions; Agricultural innovations; Robots -- Sistemes de control; Robots -- Control systems; Robots autònoms; Autonomous robots
Universitat de Girona. Institut de Recerca en Visió per Computador i Robòtica
Attribution-NonCommercial-NoDerivatives 4.0 International
http://creativecommons.org/licenses/by-nc-nd/4.0/
