A possible model for future network management is proposed. This is based on a community of bacterial strains, each organism handling network requests in the same way as bacteria metabolise energy sources. This model makes use of the unique methods that bacteria use to transfer and share genetic material, to create a more robust solution to the service provision problems associated with future data networks. A community of autonomous, bacteria-like nodes appears to provide some degree of self-stabilising behaviour
Future communication networks will be composed of a diversity of highly heterogeneous network varian...
We believe that the challenges faced by future network applications, such as scalability, adaptabili...
Abstract—In this paper we discuss the bacterial network communication design with respect to metabol...
Network complexity will increase dramatically over the next 5 years as will the amount of devices in...
A possible model for future network quality of service control is proposed. This is based on a commu...
A possible model for future network quality of service control is proposed. This is based on a commu...
Data network complexity will increase dramatically over the next 5 years. Ad-hoc, active and parasit...
Data network complexity will increase dramatically over the next 5 years. Ad-hoc, active and parasit...
Communication systems have continually played a major role in our lives. In particular in recent yea...
International audienceBiology is a rich source of inspiration in designing digital artifacts capable...
he amount of information in the new emerging all-embracing pervasive environments will be enormous. ...
Bio-inspired techniques are based on principles, or models, of biological systems. In general, natur...
The developments in the communication and networking technologies have yielded many existing and env...
Network complexity will increase dramatically over the next 5 years as will the amount of devices in...
We believe that the challenges faced by future network applications, such as scalability, adaptabili...
Future communication networks will be composed of a diversity of highly heterogeneous network varian...
We believe that the challenges faced by future network applications, such as scalability, adaptabili...
Abstract—In this paper we discuss the bacterial network communication design with respect to metabol...
Network complexity will increase dramatically over the next 5 years as will the amount of devices in...
A possible model for future network quality of service control is proposed. This is based on a commu...
A possible model for future network quality of service control is proposed. This is based on a commu...
Data network complexity will increase dramatically over the next 5 years. Ad-hoc, active and parasit...
Data network complexity will increase dramatically over the next 5 years. Ad-hoc, active and parasit...
Communication systems have continually played a major role in our lives. In particular in recent yea...
International audienceBiology is a rich source of inspiration in designing digital artifacts capable...
he amount of information in the new emerging all-embracing pervasive environments will be enormous. ...
Bio-inspired techniques are based on principles, or models, of biological systems. In general, natur...
The developments in the communication and networking technologies have yielded many existing and env...
Network complexity will increase dramatically over the next 5 years as will the amount of devices in...
We believe that the challenges faced by future network applications, such as scalability, adaptabili...
Future communication networks will be composed of a diversity of highly heterogeneous network varian...
We believe that the challenges faced by future network applications, such as scalability, adaptabili...
Abstract—In this paper we discuss the bacterial network communication design with respect to metabol...