An application class and packet priority-based queue management and adaptive packet drop mechanism in the routers for Internet congestion control is put forward.
提出了一种基于应用类别和分组优先级的队列管理与自适应丢包机制,用于路由器内因特网拥塞控制。
Ideally the policy should tell the kernel to DROP that packet.
理想的策略应该告诉内核DROP该信息包。
A packet can also be blocked and killed using target DROP or REJECT.
还可以使用目标DROP或REJECT来阻塞并杀死信息包。
DROP: a packet that matches a rule perfectly that has a DROP target will be blocked and no further processing will be done on it.
DROP:当信息包与具有DROP目标的规则完全匹配时,会阻塞该信息包,并且不对它做进一步处理。
Optical and packet layers used in proven functional recovery method would be more reliable, intelligently deal with the root causes of network performance under the drop.
光纤和分组层上采用的经过实践验证的功能恢复方法可以更可靠、智能地根据根本原因处理网络性能下降情况。
Router will abort IP packet when buffer is full and the IP packet is coming in. the tail drop do not use the link enough with TCP/IP's slow start.
当缓冲区满时的丢包策略,最常用的方法是采用尾丢包的方式,而尾丢包的方式和TCP/IP协议的慢启动管理策略会导致全局同步化,给网络带来不良影响,线路利用率不高。
Router will abort IP packet when buffer is full and the IP packet is coming in. the tail drop do not use the link enough with TCP/IP's slow start.
当缓冲区满时的丢包策略,最常用的方法是采用尾丢包的方式,而尾丢包的方式和TCP/IP协议的慢启动管理策略会导致全局同步化,给网络带来不良影响,线路利用率不高。
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