多点广播是网络支持多媒体业务的关键技术之一。
Multicast is becoming a key requirement of network supporting multimedia applications.
论文提出了适用于实时交互式协作环境的可靠多点广播协议。
The paper proposes a reliable multicast protocol which is appropriate for real-time and interactive collaborative environment.
多点传送是IP网络协议的一项功能,它在专用多点广播路由器和协议堆栈的辅助下工作。
Multicasting is a function of the IP network protocol, with the help of special multicast routers and protocol stacks.
RMM也将在InfiniBand和共享内存之上运行,能够以多点广播(一对多)和单点广播(一对一)的模式进行操作。
RMM will also work over InfiniBand and Shared memory, and can operate in either multicast (one-to-many) or unicast (one-to-one) mode.
它实现了Messenger接口,并且将收到的任何消息转发给所有注册过的Messenger—有点象多点广播AWT事件。
It implements the Messenger interface and forwards any messages it receives to all registered Messengers — sort of like multicasting AWT events.
多点广播的接收方可能很多,为了有效地进行传输,路由器要构造一个连接IP多点广播组所有成员的树,采用多点广播路由选择协议并启用多点广播数据包转发功能。
Since multicast may have many receivers, for effective transmission, the router needs a tree to join multiple IP members, with Multicast RIP and its data packet forwarding function.
它们可用于点对点子接口配置或点对多点非广播多址配置。
They can be used in point-to-point subinterface configuration or point-to-multipoint nonbroadcast multiaccess (NBMA) configuration.
一旦建立了SVC,它就像一个PVC一样的工作。SVC可被用于点对点子界面配置或点对多点非广播多路访问(NBMA)配置中。
Once an SVC is established, it functions like a PVC. SVCs can be used in point-to-point subinterface configuration or point-to-multipoint nonbroadcast multiaccess (NBMA) configuration.
IP组播技术实现了IP网络中点到多点的高效数据传输, 它能弥补单播通信和广播通信的不足。
IP multicast technique realizes efficient data transmission from one point to multiple points in IP network, and remedies the defects of unicast and broadcast communication.
IP组播技术实现了IP网络中点到多点的高效数据传输, 它能弥补单播通信和广播通信的不足。
IP multicast technique realizes efficient data transmission from one point to multiple points in IP network, and remedies the defects of unicast and broadcast communication.
应用推荐