Many protocols need a discovery mechanism to enable a given node to locate one or several nodes involved in the same communication. However, there is no protocol ready to fulfill this service at the network-layer. Every protocol usually implements its own solution. In particular, multicast protocols often use a searching technique based on an algorithm called expanding ring search. This algorithm searches for nodes in all directions and thus uses much bandwidth. However a typical search can usually restrict its scan in a specific direction. To enable this broadcast restriction, we propose an oriented multicast routing algorithm. The algorithm’s principle is to direct the multicast of packets towards a special node, involved in the communica...
In the future Internet, multimedia applications will be strongly present. When a group of users is c...
Many of the contemporary routing algorithms use simple mechanisms such as flooding or broadcasting t...
Original article can be found at: http://www.sciencedirect.com Copyright Elsevier Ltd. [Full text of...
Abstract — Many protocols and applications need a discovery mechanism to enable a given client node ...
Many protocols and applications need a discovery mechanism to enable a given client node to locate o...
services will require the use of multicast in the near future. However, only a few techniques are cu...
This thesis examines the issues affecting the design and implementation of scalable agent-based syst...
Abstract: As network grows in size and complexity, network management has become an increasingly cha...
In this paper, we present a multispace search algorithm, MUSQ, for the quorumcast routing problem. ...
Flood-search on-demand routing has received considerable interest for its application to mobile ad h...
In many multicomputer applications is it necessary for one node to send an identical message to many...
This paper is concerned with developing novel algorithms for multicast routing in packet switched co...
Abstract: In the age of multimedia and high-speed networks, multicast is one of the mechanism...
In the future Internet, multimedia applications will be strongly present. When a group of users is c...
Mobile Ad Hoc Networks is a kind of novel wireless network. Being independent on fixed network estab...
In the future Internet, multimedia applications will be strongly present. When a group of users is c...
Many of the contemporary routing algorithms use simple mechanisms such as flooding or broadcasting t...
Original article can be found at: http://www.sciencedirect.com Copyright Elsevier Ltd. [Full text of...
Abstract — Many protocols and applications need a discovery mechanism to enable a given client node ...
Many protocols and applications need a discovery mechanism to enable a given client node to locate o...
services will require the use of multicast in the near future. However, only a few techniques are cu...
This thesis examines the issues affecting the design and implementation of scalable agent-based syst...
Abstract: As network grows in size and complexity, network management has become an increasingly cha...
In this paper, we present a multispace search algorithm, MUSQ, for the quorumcast routing problem. ...
Flood-search on-demand routing has received considerable interest for its application to mobile ad h...
In many multicomputer applications is it necessary for one node to send an identical message to many...
This paper is concerned with developing novel algorithms for multicast routing in packet switched co...
Abstract: In the age of multimedia and high-speed networks, multicast is one of the mechanism...
In the future Internet, multimedia applications will be strongly present. When a group of users is c...
Mobile Ad Hoc Networks is a kind of novel wireless network. Being independent on fixed network estab...
In the future Internet, multimedia applications will be strongly present. When a group of users is c...
Many of the contemporary routing algorithms use simple mechanisms such as flooding or broadcasting t...
Original article can be found at: http://www.sciencedirect.com Copyright Elsevier Ltd. [Full text of...