Standard
Implementing a digital twin for flexible operation of agricultural robotics. / van Evert, Frits K.; Bresilla, Trim; Nieuwenhuizen, Ard; Veldhuisen, Bram; Hemming, Jochen; Avgoustakis, Giannis; Fountas, Spyros; Koutsiaras, Michael; Mylonas, Nikos; Baron, Suzanne; Dritsopoulos, Thanos; Legas, Markos; Hilbrands, Han; Wolters, Jeroen; Hommes, Klaas Jan; Karagiannis, Panagiotis ; Makris, Sotiris; Michalos, George; Paraforos, Dimitrios; Sharipov, Galibjon; Pedersen, Søren Marcus; Pinel, Bertrand; Radisic, Mladen; Rascón, Juan F. ; Rizzo, Carlos; Sanchez , Raul; Scovill, Alea; Serra, Oriol; Vidal, Josep.
Advances in agri-food robotics. ed. / Eldert van Henten; Yael Edan. Burleigh Dodds Science Publishing, 2024. (Burleigh Dodds series in agricultural science; No. 139).
Research output: Chapter in Book/Report/Conference proceeding › Book chapter › Research › peer-review
Harvard
van Evert, FK, Bresilla, T, Nieuwenhuizen, A, Veldhuisen, B, Hemming, J, Avgoustakis, G, Fountas, S, Koutsiaras, M, Mylonas, N, Baron, S, Dritsopoulos, T, Legas, M, Hilbrands, H, Wolters, J, Hommes, KJ, Karagiannis, P, Makris, S, Michalos, G, Paraforos, D, Sharipov, G, Pedersen, SM, Pinel, B, Radisic, M, Rascón, JF, Rizzo, C, Sanchez , R, Scovill, A, Serra, O & Vidal, J 2024, Implementing a digital twin for flexible operation of agricultural robotics. in E van Henten & Y Edan (eds), Advances in agri-food robotics. Burleigh Dodds Science Publishing, Burleigh Dodds series in agricultural science, no. 139.
APA
van Evert, F. K., Bresilla, T., Nieuwenhuizen, A., Veldhuisen, B., Hemming, J., Avgoustakis, G., Fountas, S., Koutsiaras, M., Mylonas, N., Baron, S., Dritsopoulos, T., Legas, M., Hilbrands, H., Wolters, J., Hommes, K. J., Karagiannis, P., Makris, S., Michalos, G., Paraforos, D., ... Vidal, J. (2024). Implementing a digital twin for flexible operation of agricultural robotics. In E. van Henten, & Y. Edan (Eds.), Advances in agri-food robotics Burleigh Dodds Science Publishing. Burleigh Dodds series in agricultural science No. 139
Vancouver
van Evert FK, Bresilla T, Nieuwenhuizen A, Veldhuisen B, Hemming J, Avgoustakis G et al. Implementing a digital twin for flexible operation of agricultural robotics. In van Henten E, Edan Y, editors, Advances in agri-food robotics. Burleigh Dodds Science Publishing. 2024. (Burleigh Dodds series in agricultural science; No. 139).
Author
van Evert, Frits K. ; Bresilla, Trim ; Nieuwenhuizen, Ard ; Veldhuisen, Bram ; Hemming, Jochen ; Avgoustakis, Giannis ; Fountas, Spyros ; Koutsiaras, Michael ; Mylonas, Nikos ; Baron, Suzanne ; Dritsopoulos, Thanos ; Legas, Markos ; Hilbrands, Han ; Wolters, Jeroen ; Hommes, Klaas Jan ; Karagiannis, Panagiotis ; Makris, Sotiris ; Michalos, George ; Paraforos, Dimitrios ; Sharipov, Galibjon ; Pedersen, Søren Marcus ; Pinel, Bertrand ; Radisic, Mladen ; Rascón, Juan F. ; Rizzo, Carlos ; Sanchez , Raul ; Scovill, Alea ; Serra, Oriol ; Vidal, Josep. / Implementing a digital twin for flexible operation of agricultural robotics. Advances in agri-food robotics. editor / Eldert van Henten ; Yael Edan. Burleigh Dodds Science Publishing, 2024. (Burleigh Dodds series in agricultural science; No. 139).
Bibtex
@inbook{ff7a682346134c819cf6e615965cb45d,
title = "Implementing a digital twin for flexible operation of agricultural robotics",
abstract = "Robots have replaced labour in several sectors of the economy. In industrial manufacturing, digital twin systems allow to plan, schedule and optimize production by robots. In agriculture, robots have not yet reached widespread acceptance, in part because digital twin technology is rarely used. The aim of the ROBS4CROPS project is to accelerate the transition towards robotic agriculture by bringing knowledge and experience from the manufacturing domain to agriculture. The project envisions an agricultural robotic system that consists of autonomous vehicles and smart implements that are orchestrated by a Farming Controller. At the half-way mark of our 4-year project, we are able to present autonomous vehicles and smart vehicles working in four European countries, as well as an early implementation of the Farming Controller. Results so far indicate that the project{\textquoteright}s vision is achievable and that digital twin technology will be helpful in the acceptance of robots in agriculture.",
author = "{van Evert}, {Frits K.} and Trim Bresilla and Ard Nieuwenhuizen and Bram Veldhuisen and Jochen Hemming and Giannis Avgoustakis and Spyros Fountas and Michael Koutsiaras and Nikos Mylonas and Suzanne Baron and Thanos Dritsopoulos and Markos Legas and Han Hilbrands and Jeroen Wolters and Hommes, {Klaas Jan} and Panagiotis Karagiannis and Sotiris Makris and George Michalos and Dimitrios Paraforos and Galibjon Sharipov and Pedersen, {S{\o}ren Marcus} and Bertrand Pinel and Mladen Radisic and Rasc{\'o}n, {Juan F.} and Carlos Rizzo and Raul Sanchez and Alea Scovill and Oriol Serra and Josep Vidal",
year = "2024",
language = "English",
isbn = "978-1-80146-277-8",
series = "Burleigh Dodds series in agricultural science",
publisher = "Burleigh Dodds Science Publishing",
number = "139",
editor = "{van Henten}, Eldert and Yael Edan",
booktitle = "Advances in agri-food robotics",
}
RIS
TY - CHAP
T1 - Implementing a digital twin for flexible operation of agricultural robotics
AU - van Evert, Frits K.
AU - Bresilla, Trim
AU - Nieuwenhuizen, Ard
AU - Veldhuisen, Bram
AU - Hemming, Jochen
AU - Avgoustakis, Giannis
AU - Fountas, Spyros
AU - Koutsiaras, Michael
AU - Mylonas, Nikos
AU - Baron, Suzanne
AU - Dritsopoulos, Thanos
AU - Legas, Markos
AU - Hilbrands, Han
AU - Wolters, Jeroen
AU - Hommes, Klaas Jan
AU - Karagiannis, Panagiotis
AU - Makris, Sotiris
AU - Michalos, George
AU - Paraforos, Dimitrios
AU - Sharipov, Galibjon
AU - Pedersen, Søren Marcus
AU - Pinel, Bertrand
AU - Radisic, Mladen
AU - Rascón, Juan F.
AU - Rizzo, Carlos
AU - Sanchez , Raul
AU - Scovill, Alea
AU - Serra, Oriol
AU - Vidal, Josep
PY - 2024
Y1 - 2024
N2 - Robots have replaced labour in several sectors of the economy. In industrial manufacturing, digital twin systems allow to plan, schedule and optimize production by robots. In agriculture, robots have not yet reached widespread acceptance, in part because digital twin technology is rarely used. The aim of the ROBS4CROPS project is to accelerate the transition towards robotic agriculture by bringing knowledge and experience from the manufacturing domain to agriculture. The project envisions an agricultural robotic system that consists of autonomous vehicles and smart implements that are orchestrated by a Farming Controller. At the half-way mark of our 4-year project, we are able to present autonomous vehicles and smart vehicles working in four European countries, as well as an early implementation of the Farming Controller. Results so far indicate that the project’s vision is achievable and that digital twin technology will be helpful in the acceptance of robots in agriculture.
AB - Robots have replaced labour in several sectors of the economy. In industrial manufacturing, digital twin systems allow to plan, schedule and optimize production by robots. In agriculture, robots have not yet reached widespread acceptance, in part because digital twin technology is rarely used. The aim of the ROBS4CROPS project is to accelerate the transition towards robotic agriculture by bringing knowledge and experience from the manufacturing domain to agriculture. The project envisions an agricultural robotic system that consists of autonomous vehicles and smart implements that are orchestrated by a Farming Controller. At the half-way mark of our 4-year project, we are able to present autonomous vehicles and smart vehicles working in four European countries, as well as an early implementation of the Farming Controller. Results so far indicate that the project’s vision is achievable and that digital twin technology will be helpful in the acceptance of robots in agriculture.
M3 - Book chapter
SN - 978-1-80146-277-8
T3 - Burleigh Dodds series in agricultural science
BT - Advances in agri-food robotics
A2 - van Henten, Eldert
A2 - Edan, Yael
PB - Burleigh Dodds Science Publishing
ER -