More and more, software systems involve autonomous and distributed software components that have to execute and interact in open and dynamic environments, such as in pervasive, autonomous, and mobile applications. The requirements with respect to dynamics, openness, scalability, and decentralization call for new approaches to software design and development, capable of supporting spontaneous configuration, tolerating partial failures, or arranging adaptive reorganization of the whole system.
Inspired by the behaviour of complex natural systems, scientists and engineers have started...
More and more, software systems involve autonomous and distributed software components that have to execute and interact in open and dynamic enviro...
More and more, software systems involve autonomous and distributed software components that have to execute and interact in open and dynamic environments, such as in pervasive, autonomous, and mobile applications. The requirements with respect to dynamics, openness, scalability, and decentralization call for new approaches to software design and development, capable of supporting spontaneous configuration, tolerating partial failures, or arranging adaptive reorganization of the whole system.
Inspired by the behaviour of complex natural systems, scientists and engineers have started...
More and more, software systems involve autonomous and distributed software components that have to execute and interact in open and dynamic enviro...