AbstractSystems which exhibit emergent behaviour, i.e., behaviour not determined by the behaviours of the constituents when considered in isolation, are becoming more common due to increasing use of distributed and decentralised designs. There have been claims that formal methods, and particularly refinement, can not be used to derive systems with emergent behaviour. In this paper, however, we argue that they can. To prove the point, we perform a refinement of an oft-cited example of emergence: the ‘glider’ pattern from Conway's Game of Life
Recent years have seen renewed interest in the emergence issue. The contemporary debate, i...
An important part of the science of complexity is the study of emergent properties arising through d...
Many natural processes occur over characteristic spatial and temporal scales. This paper presents to...
AbstractSystems which exhibit emergent behaviour, i.e., behaviour not determined by the behaviours o...
Systems which exhibit emergent behaviour, i.e., behaviour not determined by the behaviours of the co...
Summary. In this paper, we first construct a descriptive definition for emergence based on multileve...
Digital systems are becoming increasingly complex, requiring significantly more effort and resources...
This paper challenges the usual approach of emergence in terms of properties of wholes “emerging” up...
International audienceComplex systems and systems of systems (SoS) are systems characterized by the ...
As complex systems are becoming ubiquitous and are growing, especially in terms of size and intercon...
Future systems will be too complex to design and implement explicitly. Instead, we will have to lear...
Invited paperInternational audienceWe consider the ability of Discrete Event System Speci-cation (DE...
Emergent patterns in complex systems are related with many intriguing phenomena in modern science. O...
Many natural processes occur over characteristic spatial and temporal scales. This paper presents to...
We consider models of emergence, adding downward causation to conventional models where causation pe...
Recent years have seen renewed interest in the emergence issue. The contemporary debate, i...
An important part of the science of complexity is the study of emergent properties arising through d...
Many natural processes occur over characteristic spatial and temporal scales. This paper presents to...
AbstractSystems which exhibit emergent behaviour, i.e., behaviour not determined by the behaviours o...
Systems which exhibit emergent behaviour, i.e., behaviour not determined by the behaviours of the co...
Summary. In this paper, we first construct a descriptive definition for emergence based on multileve...
Digital systems are becoming increasingly complex, requiring significantly more effort and resources...
This paper challenges the usual approach of emergence in terms of properties of wholes “emerging” up...
International audienceComplex systems and systems of systems (SoS) are systems characterized by the ...
As complex systems are becoming ubiquitous and are growing, especially in terms of size and intercon...
Future systems will be too complex to design and implement explicitly. Instead, we will have to lear...
Invited paperInternational audienceWe consider the ability of Discrete Event System Speci-cation (DE...
Emergent patterns in complex systems are related with many intriguing phenomena in modern science. O...
Many natural processes occur over characteristic spatial and temporal scales. This paper presents to...
We consider models of emergence, adding downward causation to conventional models where causation pe...
Recent years have seen renewed interest in the emergence issue. The contemporary debate, i...
An important part of the science of complexity is the study of emergent properties arising through d...
Many natural processes occur over characteristic spatial and temporal scales. This paper presents to...