Nowadays, systems are becoming increasingly complex, mainly due to an exponential increase in the number of entities and their interconnections. Examples of these complex systems can be found in manufacturing, smart-grids, traffic control, logistics, economics and biology, among others. Due to this complexity, particularly in manufacturing, a lack of responsiveness in coping with demand for higher quality products, the drastic reduction in product lifecycles and the increasing need for product customization are being observed. Traditional solutions, based on central monolithic control structures, are becoming obsolete as they are not suitable for reacting and adapting to these perturbations. The decentralization of the complexity problem th...
Traditional centralized manufacturing structures were found inadequate to face the challenging requi...
Traditional manufacturing solutions, based on centralized structures, are ineffective in unpredictab...
The current need for flexibility, re-configurability and robustness are crucial reasons for moving t...
Worldwide systems are increasingly growing into unprecedented complexity levels. This increase of sy...
Global economy is driving manufacturing companies into a paradigm revolution. Highly customizable p...
Multi-agents systems and holonic manufacturing systems are suitable approaches to design a new and a...
New manufacturing control architectures rely on the decentralization of the system entities to handl...
Evolvable control systems face the demands for modularity, decentralization, reconfigurabil-ity and ...
Le monde des entreprises est profondément soumis à un ensemble de contraintes toujours plus exigeant...
Traditional centralized and rigid control structures are becoming inflexible to face the requirement...
This paper intends to discuss self-organisation and learning capabilities in autonomous and cooperat...
In the recent evolution of production control systems, the emergence of decentralized systems capabl...
In the last decades significant changes in the manufacturing environment have been noticed: moving f...
Part 7: Smart SystemsInternational audienceTraditional manufacturing solutions, based on centralized...
In the manufacturing world, globalisation leads to a trend towards the reduction of batches and prod...
Traditional centralized manufacturing structures were found inadequate to face the challenging requi...
Traditional manufacturing solutions, based on centralized structures, are ineffective in unpredictab...
The current need for flexibility, re-configurability and robustness are crucial reasons for moving t...
Worldwide systems are increasingly growing into unprecedented complexity levels. This increase of sy...
Global economy is driving manufacturing companies into a paradigm revolution. Highly customizable p...
Multi-agents systems and holonic manufacturing systems are suitable approaches to design a new and a...
New manufacturing control architectures rely on the decentralization of the system entities to handl...
Evolvable control systems face the demands for modularity, decentralization, reconfigurabil-ity and ...
Le monde des entreprises est profondément soumis à un ensemble de contraintes toujours plus exigeant...
Traditional centralized and rigid control structures are becoming inflexible to face the requirement...
This paper intends to discuss self-organisation and learning capabilities in autonomous and cooperat...
In the recent evolution of production control systems, the emergence of decentralized systems capabl...
In the last decades significant changes in the manufacturing environment have been noticed: moving f...
Part 7: Smart SystemsInternational audienceTraditional manufacturing solutions, based on centralized...
In the manufacturing world, globalisation leads to a trend towards the reduction of batches and prod...
Traditional centralized manufacturing structures were found inadequate to face the challenging requi...
Traditional manufacturing solutions, based on centralized structures, are ineffective in unpredictab...
The current need for flexibility, re-configurability and robustness are crucial reasons for moving t...