由于live流是一种高带宽的应用,甚至当为数不多的客户同时采用单播从一个源请求流时,也可以使服务器的带宽饱和。作为有效解决方法的IP组播因为缺乏广泛的支持而逐渐被应用层组播代替。本文在peer to peer系统上采用以树为基础的应用层...由于live流是一种高带宽的应用,甚至当为数不多的客户同时采用单播从一个源请求流时,也可以使服务器的带宽饱和。作为有效解决方法的IP组播因为缺乏广泛的支持而逐渐被应用层组播代替。本文在peer to peer系统上采用以树为基础的应用层组播结构,实现用客户自己的带宽传输流媒体以缓解服务器附近的拥塞问题。在该结构中,每个客户peer端在应用层与传输层之间加入peering层,实现结点之间的协调和建立、维护组播树。展开更多
The recent growth of the World Wide Web has sparked new research into using the Internet for novel types of group communication, like multiparty videoconferencing and real-time streaming. Multicast has the potential t...The recent growth of the World Wide Web has sparked new research into using the Internet for novel types of group communication, like multiparty videoconferencing and real-time streaming. Multicast has the potential to be very useful, but it suffers from many problems like security. To achieve secure multicast communications with the dynamic aspect of group applications due to free membership joins and leaves in addition to member's mobility, key management is one of the most critical problems. So far, a lot of multicast key management schemes have been proposed and most of them are centralized, which have the problem of 'one point failure' and that the group controller is the bottleneck of the group. In order to solve these two problems, we propose a Key Management Scheme, using cluster-based End-System Multicast (ESM). The group management is between both 1) the main controller (MRP, Main Rendezvous Point) and the second controllers (CRP, Cluster RP), and 2) the second controllers (CRPs) and its members. So, ESM simplifies the implementation of group communication and is efficient ways to deliver a secure message to a group of recipients in a network as a practical alternative to overcome the difficulty of large scale deployment of traditional IP multicast. In this paper, we analyze different key management schemes and propose a new scheme, namely Advanced Transition/Cluster Key management Scheme (ATCKS) and find it has appropriate performance in security.展开更多
文摘由于live流是一种高带宽的应用,甚至当为数不多的客户同时采用单播从一个源请求流时,也可以使服务器的带宽饱和。作为有效解决方法的IP组播因为缺乏广泛的支持而逐渐被应用层组播代替。本文在peer to peer系统上采用以树为基础的应用层组播结构,实现用客户自己的带宽传输流媒体以缓解服务器附近的拥塞问题。在该结构中,每个客户peer端在应用层与传输层之间加入peering层,实现结点之间的协调和建立、维护组播树。
文摘The recent growth of the World Wide Web has sparked new research into using the Internet for novel types of group communication, like multiparty videoconferencing and real-time streaming. Multicast has the potential to be very useful, but it suffers from many problems like security. To achieve secure multicast communications with the dynamic aspect of group applications due to free membership joins and leaves in addition to member's mobility, key management is one of the most critical problems. So far, a lot of multicast key management schemes have been proposed and most of them are centralized, which have the problem of 'one point failure' and that the group controller is the bottleneck of the group. In order to solve these two problems, we propose a Key Management Scheme, using cluster-based End-System Multicast (ESM). The group management is between both 1) the main controller (MRP, Main Rendezvous Point) and the second controllers (CRP, Cluster RP), and 2) the second controllers (CRPs) and its members. So, ESM simplifies the implementation of group communication and is efficient ways to deliver a secure message to a group of recipients in a network as a practical alternative to overcome the difficulty of large scale deployment of traditional IP multicast. In this paper, we analyze different key management schemes and propose a new scheme, namely Advanced Transition/Cluster Key management Scheme (ATCKS) and find it has appropriate performance in security.