002_27.htm

通讯类的标准。对要开发SS7的朋友有很大帮助的。（通讯协议）

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<DIV class=im3><IMG height=2 src="002_27.files/002_27_4.jpg" width=134 
border=0></DIV><!-- text starts here --><SPAN class=ps0><NOBR>图<SPAN 
class=em2>2-13a</SPAN>和图<SPAN class=em2>2-13b</SPAN>取自<SPAN class=em2>HP 
Internet Advisor</SPAN>捕获的一段实际跟踪记录，它们显示了在抖动</NOBR></SPAN> <SPAN 
class=ps1><NOBR>计算之上的包丢失数据。数据来自一个音频会议上的两个发送者，该会议在分开的时间实例</NOBR></SPAN> <SPAN 
class=ps2><NOBR>中立刻发生了包丢失。<SPAN 
class=em2>QoS</SPAN>参数可以设置为衡量抖动和包丢失，以便为用户感受建立客观的</NOBR></SPAN> <SPAN 
class=ps3><NOBR>测量。这样的映射还没有标准化，但是随着<SPAN 
class=em2>VoIP</SPAN>经验的增加，抖动和其他关于感知服务质量</NOBR></SPAN> <SPAN 
class=ps4><NOBR>参数的实际关系将可以建立起来。抖动是一个很好的度量，能够和参与者感受到的语音质量</NOBR></SPAN> <SPAN 
class=ps5><NOBR>联系起来。在第<SPAN 
class=em2>5</SPAN>章中，当配置参考拓扑模拟广域网损耗和抖动特性时，将讨论度量和传输质</NOBR></SPAN> <SPAN 
class=ps6><NOBR>量之间的关系，同时观察语音质量的客观测量。</NOBR></SPAN> <SPAN class=ps7><NOBR><SPAN 
class=ft1>7. IP<SPAN class=em3>性能测量</SPAN></SPAN></NOBR></SPAN> <SPAN 
class=ps8><NOBR><SPAN class=ft1>RFC 2330</SPAN></NOBR></SPAN> <SPAN 
class=ps9><NOBR>中提出了很多关于<SPAN 
class=em2>IP</SPAN>网络中试验和测量的好的概念。在这部分中，将讨论其</NOBR></SPAN> <SPAN 
class=ps10><NOBR>中一些概念，深入理解度量和测量的高层次的意义，也就是说，面向使用<SPAN 
class=em2>IP</SPAN>网络的电话应用。</NOBR></SPAN> <SPAN 
class=ps11><NOBR>包网络性能已经被业界广泛研究，包括在模拟拓扑和运转实际应用的实际拓扑中。有些</NOBR></SPAN> <SPAN 
class=ps12><NOBR>方法是有偏见的，因此是不正确的，它们利用值得怀疑的方法，得到同样值得怀疑的结论。</NOBR></SPAN> <SPAN 
class=ps13><NOBR>载波类质量电话技术是业界创造的新名词，还没有被特性化，不在平均意见分（</NOBR></SPAN> <SPAN 
class=ps14><NOBR><SPAN class=ft2>M&nbsp;e&nbsp;a&nbsp;n</SPAN></NOBR></SPAN> 
<SPAN class=ps15><NOBR><SPAN class=ft1>Opinion Scores<SPAN 
class=em0>，</SPAN>MOS<SPAN class=em0>）</SPAN><SPAN 
class=em0>结果的承认之列。我们并不知道一些基本假定对终端用户感受的影响，</SPAN></SPAN></NOBR></SPAN> <SPAN 
class=ps16><NOBR>这些正在做出的假定涉及什么是可接收的语音质量，什么不是。有一点是必然的，我们在讨</NOBR></SPAN> <SPAN 
class=ps17><NOBR>论人类听觉的心理声学模型和语音质量测量时会再一次提到它（第<SPAN class=em2>4</SPAN>章和第<SPAN 
class=em2>5</SPAN>章）。</NOBR></SPAN> <SPAN class=ps18><NOBR><SPAN 
class=ft3>当今<SPAN 
class=em4>TDM</SPAN>网络传输的语音质量是任何类型的公用包网络难以企及的。</SPAN></NOBR></SPAN> <SPAN 
class=ps19><NOBR>选择的测量方法在很大程度上影响着所获取的数据是对分析有意义的，还是危险的，因</NOBR></SPAN> <SPAN 
class=ps20><NOBR>为它会导致错误的结论。</NOBR></SPAN> <SPAN class=ps21><NOBR><SPAN 
class=ft3>测量必须由可重复的、一致的实验来进行，使用校准的仪器，存储实际的或实</SPAN></NOBR></SPAN> <SPAN 
class=ps22><NOBR><SPAN class=ft3>验产生的通信量样本，以及绝对的时间参考。</SPAN></NOBR></SPAN> <SPAN 
class=ps23><NOBR>可重复的实验产生一致的读数，但是并不需要是相同的结果。这是理解如何测试</NOBR></SPAN> <SPAN 
class=ps24><NOBR><SPAN class=ft1>IP<SPAN 
class=em0>网络</SPAN></SPAN></NOBR></SPAN> <SPAN 
class=ps25><NOBR>的关键。一般来说，在实际包网络中，几乎所有的观测量本质上都是随机的，观测的数值由</NOBR></SPAN> <SPAN 
class=ps26><NOBR>随机变量，而不是绝对数字，来表示。这就是包交换应用中性能测量的本质，人们已经认识</NOBR></SPAN> <SPAN 
class=ps27><NOBR>到，网络的几个关键特性可以通过现实的测量或模拟获得的经验分布或拟合分布代替。</NOBR></SPAN> <SPAN 
class=ps28><NOBR><SPAN 
class=ft3>度量是我们要测量其值的数量。度量可以随时间变化的，也可以不变。它可以</SPAN></NOBR></SPAN> <SPAN 
class=ps29><NOBR><SPAN class=ft3>是随机变量，最近主观度量已经被引入<SPAN 
class=em4>VoIP</SPAN>质量分析中。</SPAN></NOBR></SPAN> <SPAN class=ps30><NOBR><SPAN 
class=ft1>VoIP<SPAN 
class=em3>电话技术的一些最重要的度量是：延迟、回声、抖动、语音清晰度和感知</SPAN></SPAN></NOBR></SPAN> <SPAN 
class=ps31><NOBR><SPAN class=ft3>质量。</SPAN></NOBR></SPAN> <SPAN 
class=ps32><NOBR>建立绝对的时间参考，有时候说起来容易做起来难。测量单向包传输延迟的简单实验会</NOBR></SPAN> <SPAN 
class=ps33><NOBR>导致十分复杂的设置。将在第<SPAN 
class=em2>5</SPAN>章中的实验和测量部分讨论这个问题。</NOBR></SPAN> <SPAN 
class=ps34><NOBR>使用可靠的时间参考非常重要。过低估计两个主机时钟之间<SPAN 
class=em2>0.01%</SPAN>频率差别的影响是很诱</NOBR></SPAN> <SPAN 
class=ps35><NOBR>人的想法，但是请考虑下面的例子。如果一个主机每隔<SPAN 
class=em2>20ms</SPAN>发送一个包，它的时钟比接收方</NOBR></SPAN> <SPAN class=ps36><NOBR>慢<SPAN 
class=em2>0.01%<SPAN class=em0>，</SPAN></SPAN>接收方希望按它的时钟间隔每隔<SPAN 
class=em2>20ms</SPAN>接收包，那么它每隔<SPAN class=em2>3</SPAN>分钟<SPAN 
class=em2>20</SPAN>秒就会出现饥饿</NOBR></SPAN> <SPAN 
class=ps37><NOBR>（接收不到包）。</NOBR></SPAN> <SPAN class=ps38><NOBR>不过，主机（在<SPAN 
class=em2>IP</SPAN>测量方法框架中包括路由器）通常从<SPAN 
class=em2>PSTN</SPAN>网络获得它们的时间参考。</NOBR></SPAN> <SPAN class=ps39><NOBR><SPAN 
class=ft3>第<SPAN class=em5>2</SPAN>章&nbsp;包网络的介质传输</SPAN></NOBR></SPAN> <SPAN 
class=ps40><NOBR><SPAN class=ft4>83</SPAN></NOBR></SPAN> <SPAN 
class=ps41><NOBR><SPAN class=ft5>文档</SPAN></NOBR></SPAN> <SPAN 
class=ps42><NOBR><SPAN class=ft2>RFC 2330<SPAN class=em1>，</SPAN>Framework for 
IP Performance Metrics<SPAN class=em1>，</SPAN>V.Paxson et.al<SPAN 
class=em1>。</SPAN></SPAN></NOBR></SPAN> </BODY></HTML>