本文针对多种业务类型提出了一种在线呼叫接入控制算法(OCAC)。
Based on multi class services, this paper proposes an on line Call Admission Control algorithm for multi class resource sharing (OCAC).
针对集中式功率控制方式循环收敛速度慢的缺点,本文提出了基于最小二乘的功率及接入控制算法。
In order to improve the high computation complexity and delay of centralized scheme, we proposed least square based joint admission control and power allocation algorithm.
除了提供更高的带宽外,主要的解决技术集中在设计合理的体系结构、资源预约、接入控制技术、排队算法等方向。
Except getting more bandwidth, the most solutions focus on design a reasonable architecture, resource reservation, access control, queueing algorithms and so on.
在分组交换网络中,分组调度算法在交换机和路由器中决定着分组的服务规则,而接入允许控制算法则决定着带宽资源的预留和释放。
In the packet switching network, packet scheduling algorithms in the routers and switches decide how to serve packets, admission control algorithms decide bandwidth reservation and release.
通过对算法实现步骤的分析,发现这两种算法实现时需要传递大量的控制信息,以及不能区分不同速率端口的接入。
By analyzing the algorithms' steps, we found that the two algorithms need to pass a lot of control information and cannot distinguish between different rates ports.
通过对算法实现步骤的分析,发现这两种算法实现时需要传递大量的控制信息,以及不能区分不同速率端口的接入。
By analyzing the algorithms' steps, we found that the two algorithms need to pass a lot of control information and cannot distinguish between different rates ports.
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