Descrizione del progetto
Robot ibridi, mobili e a doppio braccio per una produzione riconfigurabile in modo dinamico
Le attrezzature di produzione che non sono in grado di supportare molteplici operazioni in ambienti dinamici compromettono la produttività dei modelli di produzione in serie. L’industria dell’UE si trova dinanzi a sfide per quanto concerne l’impiego di manodopera a basso costo a causa del rapido aumento dei salari e dei crescenti costi energetici e logistici. Fattori quali l’elevata variabilità dei prodotti, le attrezzature di processo dedicate e le spese di manutenzione non consentono ai robot di garantire la completa automazione delle attività manuali. Il settore manifatturiero richiede concetti di produzione innovativi che enfatizzino l’autonomia e la collaborazione tra le diverse risorse produttive. Il progetto THOMAS, finanziato dall’UE, spianerà la strada a reparti di produzione riconfigurabili in modo dinamico mediante l’utilizzo di robot autonomi, mobili e a doppio braccio in grado di percepire l’ambiente circostante, di collaborare tra loro e di lavorare a fianco di altre risorse produttive e di operatori umani.
Obiettivo
The productivity of the serial production model is compromised by the need to perform changes in the production equipment that cannot support multiple operations in dynamic environments. Low cost labour is no longer an option for EU manufacturers due to the fast rise of wages and the increasing costs of energy and logistics. Manual tasks cannot be fully automated with a good ratio of cost vs robustness using standard robots due to: high product variability, dedicated process equipment and high cost of maintenance by expert users. The answer to this challenge lays in the creation of production concepts that base their operation on the autonomy and collaboration between production resources.
The vision of THOMAS is: “to create a dynamically reconfigurable shopfloor utilizing autonomous, mobile dual arm robots that are able to perceive their environment and through reasoning, cooperate with each other and with other production resources including human operators”.
The objective of THOMAS are to:
- Enable mobility on products and resources. Introducing mobile robots able to navigate in the shopfloor and utilize dexterous tooling to perform multiple operations.
- Enabling perception of the task and the environment using a) the individual resource’s and b) collaborative perception by combining sensors of multiple resources
- Dynamic balancing of workload. Allowing the resources to communicate over a common network and automatically adjust their behaviour by sharing or reallocating tasks dynamically.
- Fast programming and automatic execution of new tasks by a) automatically generating the robot program for new products and b) applying skills over the perceived environment to determine required adaptations
- Safe human robot collaboration, eliminating physical barriers, by introducing cognitive abilities that allow the detection of humans and their intentions
THOMAS will demonstrate and validate its developments in the automotive and the aeronautics industrial sectors.
Campo scientifico
Not validated
Not validated
- social scienceseconomics and businesseconomicsproduction economicsproductivity
- engineering and technologyelectrical engineering, electronic engineering, information engineeringelectronic engineeringsensors
- engineering and technologymechanical engineeringvehicle engineeringaerospace engineeringaeronautical engineering
Programma(i)
Argomento(i)
Meccanismo di finanziamento
IA - Innovation actionCoordinatore
265 04 Rio Patras
Grecia