测试表明,TAP算法能够自适应管理域内设备的增加和删除,同时也能在网络拥塞时缩减轮询通信量。
The experiments show that TAP can self-adapt the network structure change such as adding and deleting equipments and can control polling traffic when a network is in congestion state.
针对具有输入时滞和状态时滞的TCP网络的拥塞控制问题,提出了一种基于自适应滑模控制的主动队列管理算法。
For the problem of congestion control in TCP networks with input-delay and state-delay, an active queue management algorithm is presented based on an adaptive sliding mode control.
针对具有输入时滞的TCP网络的拥塞控制问题,提出了一种基于自适应滑模控制的主动队列管理算法。
For the problem of congestion control in TCP networks with input-delay, an active queue management algorithm is presented based on an adaptive sliding mode control.
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