The main volatile chemical components of RPR are(Z, Z)-9,12-octadecadienoic acid, n-hexadecanoic acid and 2-hydroxy-benzaldehyde.
赤芍主要挥发成分为(Z, Z)-9, 12-十八碳二烯酸,正十六碳酸和2-羟基苯甲醛。
Fairness Algorithm (FA) is the key technology in RPR.
公平算法是弹性分组环中的关键技术。
Metropolitan optical transport network RPR technical requirement etc.
城市光传送网弹性分组环(rpr)技术要求等。
This paper uses M/G/1/K model to analyze the length of RPR queue systems.
利用M/G/1/K排队模型分析弹性分组环中各类业务缓存中的分组队列长度。
Through supervisory frame in RPR network manages transport service in RPR network.
通过弹性分组环网管理帧管理弹性分组环网传送业务。
We do further and comprehensive research about the RPR fair algorithm in this paper.
本文重点对弹性分组环网中的带宽公平分配算法进行了深入的探讨和研究。
The IEEE created a draft specification for RPR and is expected to ratify the standard this year.
IEEE为RPR制定了一个规范草案,可望今年内获得批准成为标准。
One of the key techniques of Resilient Packet Ring (RPR) is ring distributed fairness algorithm.
弹性分组环(RPR)中最关键的技术之一是环路分布式公平算法。
Resilient Packet Ring (RPR) is regarded as the substitution to re -build man to meet the demand.
弹性分组环(rpr)被认为是重建城域网以满足新业务需求的替代方式。
When a failure is detected, the RPR switching mechanism restores networks in less than 50 millisec.
当检测到故障时,RPR交换的机制能在不足50毫秒的时间内恢复网络。
Because RPR is a layer 2 MAC-based technology, it can operate over multiple physical layers, including SONET.
由于RPR是第二层基于MAC的技术,所以它能在多个物理层上工作,包括SONET。
In the next generation of embedded MSTP Resilient Packet Ring (RPR) technology, is of great significance!
在新一代的MSTP中内嵌弹性分组环(rpr)技术,具有重要意义!
DFT circuits implemented in RPR ASIC reduces difficulties in circuit test and greatly improves fault coverage.
DFT电路的实现大大降低了专用集成电路的测试难度,提高了故障覆盖率。
The paper mainly introduced compatibility and its plan of RPR technology and expressway SDH transmission system.
主要介绍RPR技术与现在的高速公路SDH传输系统的兼容,以及实现兼容的方案。
The RPR requests distribution of each signal path between two nodes in the circle and insurance of the bandwidth.
RPR要求对环中两节点间的每一信道分配并确保证带宽。
One network with high survivability, expandable and fully reflect the technological superiority of RPR is in need.
这就迫切需要一种具有高生存性的,可扩展的,充分体现R PR技术优越性的网络。
The key objective of RPR is to achieve high bandwidth utilization, optimum spatial reuse and fairness simultaneously.
制定这一标准的目的是同时达到高的带宽利用率,理想的空间重用和公平性。
The closed form solution of 3 RPR planar parallel mechanism was obtained. It is a 6 th degree equation in one variable.
从而导出3 - RPR平面并联机构正运动学封闭形式解为一元六次方程。
The present invention represents a broardband management (RPR) and flux control technology of elastic group ring network.
本发明描述了用于在弹性分组(RPR)网络上的带宽管理和流量控制技术。
Presented the routing method of the packet going to the RPR ring network and its control plane and forwarding plane design.
研究提出了报文上RPR环网的选路表方法,以及控制平面和转发平面的设计实现。
In this paper, we have developed primary bandwidth model of RPR and analysed its bandwidth utilization factor and fairness policy.
论文通过建立弹性分组环基本带宽模型并对其带宽利用率及带宽分配的公平策略进行分析。
Analyses the RPR technical architecture, detail introduce the problems it can solve in the application of MSTP at the present day.
分析R PR技术的体系结构,详细介绍该技术所能解决的问题和该技术在目前的应用。
Resilient Packet Ring (RPR) is an IEEE standardized next-generation metro optical transport technology based on ring network topology .
弹性分组环(RPR)是一个由IEEE标准化的基于环网拓扑的新一代城域光传送技术。
This article discusses the working mechanism of RPR-based MSR with protocol stack frame structure node function and networking included.
详细探讨了基于RPR的MSR的工作机理,包括协议栈和帧结构、节点功能结构、组网应用等几个方面。
CONCLUSION The mail volatile chemical components of RPR are(Z, Z)-9,12-octadecadienoic acid, n-hexadecanoic acid and 2-hydroxy-benzaldehyde.
结论赤芍主要挥发成分为(Z,Z)-9,12-十八碳二烯酸,正十六碳酸和水杨醛。
ObjectiveTo study the effect of red peony root (RPR) on serum proteome in rat suffering from noxious heat with blood stasis Syndrome (NH-BS).
目的研究赤芍对大鼠热毒血瘀证的血清蛋白质组变化的影响。
The session concludes with a discussion on design and deployment recommendations for building RPR networks illustrated by several case studies.
最后将讨论几个案例,对构建RPR网络提出若干设计和部署建议,以此对本课程进行总结。
Comparing the different sampling proportion, the core collection of sampling proportion 50% with higher CV, VAR and RPR was the best than others.
比较不同聚类压缩的预选核心种质,综合进行评价后最终确定聚类压缩50%为核心种质的最佳取样比例。
Comparing the different sampling proportion, the core collection of sampling proportion 50% with higher CV, VAR and RPR was the best than others.
比较不同聚类压缩的预选核心种质,综合进行评价后最终确定聚类压缩50%为核心种质的最佳取样比例。
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