在为移动自组织网络设计的众多路由协议中,动态源路由协议(dsr)以其优异的性能成为目前最流行的自组织网络路由算法之一。
In a great deal of routing protocols designed for Ad hoc, DSR is one of the popular arithmetic, because of it's excellent capability.
动态源路由(dsr)协议中没有考虑任何安全的防护措施。
但是,由于设计移动组播路由协议时遇到诸多的困难,比如处理组播源的切换问题,研究工作进展非常缓慢。
However, because there are many challenges in designing routing protocols of mobile multicast, such as the issue of dealing with the multicast source handover, studying progress remains hesitant.
传统的MANET路由协议都在路由破裂后由源节点重新建路,存在较大建路延时,极大阻碍了信息的实时传送。
Traditional protocol of MANET, which has longer delay and interferes realtime transmission of information, builds a route from source node after link failure.
文章结合一种新的军用网络结构,针对其子网提出了基于动态源路由(dsr)协议的优化措施,以保证较高的报文传输成功率、较小的网络开销、较高的网络吞吐量和较小的端到端时延。
Aimed at a new structure of military network, optimized measures for DSR protocol are brought forward to pledge high massage transmission rate, low cost, high throughput and little end-to-end delay.
采用动态源路由思想和跨协议层实现技术,将自组网中的服务发现和组合问题转化为服务网络的路径发现问题。
With a single process on service path discovery, it can handle route discovery, service discovery and service composition simultaneously to meet QoS requirements and decrease control overhead.
域间路由协议指定为一个媒介遥远协议的传染源和被设计支持多个比较线路,并且根据政策发送。
IDRP was specified as a vector distant protocol and had been designed to support multiple alternative routes and policy based routing.
域间路由协议指定为一个媒介遥远协议的传染源和被设计支持多个比较线路,并且根据政策发送。
IDRP was specified as a vector distant protocol and had been designed to support multiple alternative routes and policy based routing.
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