服务器动态反馈服务器负载信息,实现不均衡负载重新分配。
Servers feedback the load information dynamically and the load that is not balancing is redistributed.
这一点可以实现把浪费降到最低,不会给员工和设备带来过度的负载,也不会出现不均衡的生产水平。
This helps achieve the goal of minimizing waste (muda), not overburdening people or the equipment (muri), and not creating uneven production levels (mura).
针对于这个问题提出的方案就是通过负载分担组网来解决网络带宽分配不均衡的问题。
The plan that reduce the possible of network congestion is through load sharing network to solve the problem which the different assignment of network bandwidth.
针对最大连通度算法簇头节点负载过重,各簇头间负载极不均衡的问题,提出一种双簇头分簇算法。
To the load of cluster heads is always high and terribly unbalanced in maximum link degree clustering algorithm, a two cluster-heads clustering algorithm is proposed.
当P 2 P网络出现负载不均衡,某些节点负载过大的情况时,网络可能回出现链路拥塞,单点失效,网络延迟等问题,并且大大降低网络的利用率。
Imbalanced P2P network could lead to kinds of issues such as certain nodes being overload, network congestion, single point failure, network delay and decreased the use ratio of network.
在基于DHT的结构化p2p系统中,DHT的使用以及节点处理能力的不同导致系统中节点的负载不均衡。
In DHT-based P2P systems, DHT and the heterogeneity of node capacities can cause a load imbalance problem.
由于用户数据流量的差异引起各个模块间负载的不均衡,因此必须均衡各个模块间的负载,提高模块的利用率,进而提高整个系统的效率。
Because of the distinction of user data traffic, module load imbalance, so we must balance module load, improve module utilize rate, improve the whole system efficiency.
在基于DHT的结构化p2p系统中,DHT的使用以及节点处理能力的不同导致系统中节点的负载不均衡。
In DHT-based P2P systems, DHT and the heterogeneity of node capacities can cause a load imbalance problem. Existing load balancing approaches have two limitations.
考虑到网关“热点”问题和链路负载不均衡,本文提出一种基于链路优先级信道分配的多信道MAC协议(PC A - MMAC)。
Considering gateway "hot spots" and link loads, this thesis proposes a multi-channel MAC protocol with link priority-aware channel assignment (PCA-MMAC).
基于均衡的应用层组播协议克服了现有的应用层组播协议在节点负载、网络时延、流量分布、受失效节点影响等方面的不均衡。
Balanced Application layer multicast Protocol overcomes the unbalance in node degree, distribution of flows, network delay, effect of node failure etc.
发动机内部轴线的轻微安装偏差被怀疑是导致负载不均衡,并导致在过低的使用小时数时产生疲劳故障。
Slight misalignment of the internal shaft is suspected to cause side loading and lead to premature fatigue failure at low hours.
通过对光网络时间不均衡性的研究发现,低负载情况下光网络的资源利用率存在较强波动性。
The dissertation analyzes the uneven time distribution characteristic of optical network and finds that the instantaneous network utilization is very bursty under light loading.
通过对光网络时间不均衡性的研究发现,低负载情况下光网络的资源利用率存在较强波动性。
The dissertation analyzes the uneven time distribution characteristic of optical network and finds that the instantaneous network utilization is very bursty under light loading.
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