services will require the use of multicast in the near future. However, only a few techniques are currently used in network-layer multicast routing protocols, such as flooding, pruning or reverse path construction methods. We propose an algorithm to define a new way of multicasting. The base principle is to perform a limited multicast channeled around the unicast path joining the sender to a specific destination, hence the name “oriented”. This algorithm is close to reverse path multicast algorithms but the flooding is much more controlled. A protocol based on our algorithm could have many applications such as performing network node searches in a specific area. The algorithm is tailored as to be scalable to enable its use in an inter-domai...
grantor: University of TorontoThis work studies the problem of multicast routing both at a...
In virtual-circuit environments that provide a multicast capability, fixed routing algorithms provid...
In this paper, we investigate the dynamic multicast routing problem and briefly discuss the we-llkno...
Many protocols need a discovery mechanism to enable a given node to locate one or several nodes invo...
Abstract: In the age of multimedia and high-speed networks, multicast is one of the mechanism...
In many multicomputer applications is it necessary for one node to send an identical message to many...
Most of the multicast routing protocols for ad-hoc networks today are based on shared or source-base...
In the past, very few network applications involved multiple users and none of them had QoS (Quality...
While Differentiated Services reach maturity, and a few per hop aggregate behaviors are being stand...
In this work we have proposed a practical approach for multicasting in wide area networks. It is a m...
Abstract-Routing in a mobile ad hoc network is challenging because nodes can move at any time, inval...
Abstract. Multicast communication is one of particular important services in peer-to-peer networking...
www.elsevier.com/locate/jpdc A distributed multicast routing algorithm for real-time applications in...
Abstract|This paper presents a new traÆc engineering tech-nique for dynamic constrained multicast ro...
Wu JG, Ye XG, Jiang AQ. A routing algorithm in heterogeneous overlay multicast networks. Journal o
grantor: University of TorontoThis work studies the problem of multicast routing both at a...
In virtual-circuit environments that provide a multicast capability, fixed routing algorithms provid...
In this paper, we investigate the dynamic multicast routing problem and briefly discuss the we-llkno...
Many protocols need a discovery mechanism to enable a given node to locate one or several nodes invo...
Abstract: In the age of multimedia and high-speed networks, multicast is one of the mechanism...
In many multicomputer applications is it necessary for one node to send an identical message to many...
Most of the multicast routing protocols for ad-hoc networks today are based on shared or source-base...
In the past, very few network applications involved multiple users and none of them had QoS (Quality...
While Differentiated Services reach maturity, and a few per hop aggregate behaviors are being stand...
In this work we have proposed a practical approach for multicasting in wide area networks. It is a m...
Abstract-Routing in a mobile ad hoc network is challenging because nodes can move at any time, inval...
Abstract. Multicast communication is one of particular important services in peer-to-peer networking...
www.elsevier.com/locate/jpdc A distributed multicast routing algorithm for real-time applications in...
Abstract|This paper presents a new traÆc engineering tech-nique for dynamic constrained multicast ro...
Wu JG, Ye XG, Jiang AQ. A routing algorithm in heterogeneous overlay multicast networks. Journal o
grantor: University of TorontoThis work studies the problem of multicast routing both at a...
In virtual-circuit environments that provide a multicast capability, fixed routing algorithms provid...
In this paper, we investigate the dynamic multicast routing problem and briefly discuss the we-llkno...