Add to ORKGThe benefits of active services and networks cannot be realised unless the associated increase in system complexity can be efficiently managed. An adaptive management solution is required. Simulation results show that a distributed genetic algorithm, inspired by observations of bacterial communities, can offer many key management functions. The algorithm is fast and efficient, even when the demand for network services is rapidly varying
Future multiservice networks will be extremely large and complex. Novel management solutions will be...
Data network complexity will increase dramatically over the next 5 years. Ad-hoc, active and parasit...
Future multiservice networks will be extremely large and complex. Novel management solutions will be...
Data network complexity will increase dramatically over the next 5 years. Ad-hoc, active and parasit...
The fast spread of the Internet and the increasing demands of the service are leading to radical cha...
Future multiservice networks will be extremely large and complex. In this environment, Active Servic...
Future multiservice networks will be extremely large and complex. In this environment, active servic...
A novel approach to quality of service control in an active service network (application layer activ...
Network complexity will increase dramatically over the next 5 years as will the amount of devices in...
Future multiservice networks will be multifractal, and thus impossible to control accurately using c...
A novel approach to quality of service control in an active service network (application layer activ...
Network complexity will increase dramatically over the next 5 years as will the amount of devices in...
A novel approach to quality of service control in an active service network (application layer activ...
Network and system management has always been of concern for telecommunication and computer system o...
Future multiservice networks will be extremely large and complex. Novel management solutions will be...
Future multiservice networks will be extremely large and complex. Novel management solutions will be...
Data network complexity will increase dramatically over the next 5 years. Ad-hoc, active and parasit...
Future multiservice networks will be extremely large and complex. Novel management solutions will be...
Data network complexity will increase dramatically over the next 5 years. Ad-hoc, active and parasit...
The fast spread of the Internet and the increasing demands of the service are leading to radical cha...
Future multiservice networks will be extremely large and complex. In this environment, Active Servic...
Future multiservice networks will be extremely large and complex. In this environment, active servic...
A novel approach to quality of service control in an active service network (application layer activ...
Network complexity will increase dramatically over the next 5 years as will the amount of devices in...
Future multiservice networks will be multifractal, and thus impossible to control accurately using c...
A novel approach to quality of service control in an active service network (application layer activ...
Network complexity will increase dramatically over the next 5 years as will the amount of devices in...
A novel approach to quality of service control in an active service network (application layer activ...
Network and system management has always been of concern for telecommunication and computer system o...
Future multiservice networks will be extremely large and complex. Novel management solutions will be...
Future multiservice networks will be extremely large and complex. Novel management solutions will be...
Data network complexity will increase dramatically over the next 5 years. Ad-hoc, active and parasit...
Future multiservice networks will be extremely large and complex. Novel management solutions will be...