TY - JOUR
T1 - RoBétArmé Project
T2 - Human-robot collaborative construction system for shotcrete digitization and automation through advanced perception, cognition, mobility and additive manufacturing skills
AU - Kostavelis, Ioannis
AU - Nalpantidis, Lazaros
AU - Detry, Renaud
AU - Bruyninckx, Herman
AU - Billard, Aude
AU - Christian, Schlette
AU - Bosch, Marc
AU - Andronikidis, Konstantinos
AU - Lund-Nielsen, Henrik
AU - Yosefipor, Pedram
AU - Wajid, Usman
AU - Tomar, Rahul
AU - Martínez, Fernando LLano
AU - Fugaroli, Federica
AU - Papargyriou, Despoina
AU - Mehandjiev, Nikolay
AU - Bhullar, Gash
AU - Gonçalves, Estefânia
AU - Bentzen, Jonas
AU - Essenbæk, Mads
AU - Cremona, Christian
AU - Wong, Mary
AU - Sanchez, Marcos
AU - Giakoumis, Dimitrios
AU - Tzovaras, Dimitrios
N1 - Copyright: © 2024 Kostavelis I et al.
PY - 2024
Y1 - 2024
N2 - The importance of construction automation has grown worldwide, aiming to deliver new machineries for the automation of roads, tunnels, bridges, buildings and earth-work construction. This need is mainly driven by (i) the shortage and rising costs of skilled workers, (ii) the tremendous increased needs for new infrastructures to serve the daily activities and (iii) the immense demand for maintenance of ageing infrastructure. Shotcrete (sprayed concrete) is increasingly becoming popular technology among contractors and builders, as its application is extremely economical and flexible as the growth in construction repairs in developed countries demand excessive automation of concrete placement. Even if shotcrete technology is heavily mechanized, the actual application is still performed manually at a large extend. RoBétArméEuropean project targets the Construction 4.0 transformation of the construction with shotcrete with the adoption of breakthrough technologies such as sensors, augmented reality systems, high-performance computing, additive manufacturing, advanced materials, autonomous robots and simulation systems, technologies that have already been studied and applied so far in Industry 4.0. The paper at hand showcases the development of a novel robotic system with advanced perception, cognition and digitization capabilities for the automation of all phases of shotcrete application. In particular, the challenges and barriers in shotcrete automation are presented and the RoBétArmésuggested solutions are outlined. We introduce a basic conceptual architecture of the system to be developed and we demonstrate the four application scenarios on which the system is designated to operate.
AB - The importance of construction automation has grown worldwide, aiming to deliver new machineries for the automation of roads, tunnels, bridges, buildings and earth-work construction. This need is mainly driven by (i) the shortage and rising costs of skilled workers, (ii) the tremendous increased needs for new infrastructures to serve the daily activities and (iii) the immense demand for maintenance of ageing infrastructure. Shotcrete (sprayed concrete) is increasingly becoming popular technology among contractors and builders, as its application is extremely economical and flexible as the growth in construction repairs in developed countries demand excessive automation of concrete placement. Even if shotcrete technology is heavily mechanized, the actual application is still performed manually at a large extend. RoBétArméEuropean project targets the Construction 4.0 transformation of the construction with shotcrete with the adoption of breakthrough technologies such as sensors, augmented reality systems, high-performance computing, additive manufacturing, advanced materials, autonomous robots and simulation systems, technologies that have already been studied and applied so far in Industry 4.0. The paper at hand showcases the development of a novel robotic system with advanced perception, cognition and digitization capabilities for the automation of all phases of shotcrete application. In particular, the challenges and barriers in shotcrete automation are presented and the RoBétArmésuggested solutions are outlined. We introduce a basic conceptual architecture of the system to be developed and we demonstrate the four application scenarios on which the system is designated to operate.
U2 - 10.12688/openreseurope.16601.1
DO - 10.12688/openreseurope.16601.1
M3 - Journal article
C2 - 38385118
SN - 2732-5121
VL - 4
SP - 4
JO - Open Research Europe
JF - Open Research Europe
IS - 4
ER -