001_5.htm
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<DIV class=im0><IMG height=3 src="1-5.files/001_5_1.jpg" width=558
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<DIV class=im1><IMG height=2 src="1-5.files/001_5_2.jpg" width=558
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<DIV class=im3><IMG height=2 src="1-5.files/001_5_4.jpg" width=561
border=0></DIV><!-- text starts here --><SPAN class=ps0><NOBR><SPAN
class=ft0>本章的重点在于呼叫控制,但是选择一种传输介质流量的协议也非常重要,需要根据易</SPAN></NOBR></SPAN> <SPAN
class=ps1><NOBR><SPAN class=ft0>使用性、健壮性、端到端连接的可靠性等因素作出决定。在第</SPAN></NOBR></SPAN>
<SPAN class=ps2><NOBR><SPAN class=ft1>2<SPAN
class=em3>章中将讨论用于介质传输的</SPAN></SPAN></NOBR></SPAN> <SPAN class=ps3><NOBR><SPAN
class=ft1>RTP/RTCP<SPAN class=em3>协议的基本原理,以及其他与</SPAN>IP<SPAN
class=em3>上的介质传输有关的问题。但是在开始讨论协议之</SPAN></SPAN></NOBR></SPAN> <SPAN
class=ps4><NOBR><SPAN
class=ft0>前,为了读者的方便,有必要简单地看看在本文中将要用到的一些术语,而无论其是否常见。</SPAN></NOBR></SPAN> <SPAN
class=ps5><NOBR><SPAN
class=ft0>读者应当注意本文不是要讨论的协议规范的替代品。我们的目标在于结合实例讨论协议的基</SPAN></NOBR></SPAN> <SPAN
class=ps6><NOBR><SPAN
class=ft0>本原理,以帮助读者对呼叫控制过程有一个一般性的理解。如果要进行产品开发的话,必须</SPAN></NOBR></SPAN> <SPAN
class=ps7><NOBR><SPAN class=ft0>使用相应的规范。</SPAN></NOBR></SPAN> <SPAN
class=ps8><NOBR><SPAN class=ft2>1.1.1 <SPAN
class=em4>缩略和缩写</SPAN></SPAN></NOBR></SPAN> <SPAN class=ps9><NOBR><SPAN
class=ft1>VoIP<SPAN class=em3>中的很多缩略和缩写来自于</SPAN>PSTN<SPAN
class=em3>和其他一些技术,例如</SPAN>ATM<SPAN class=em3>。表</SPAN>1-1<SPAN
class=em3>中列出了主要</SPAN></SPAN></NOBR></SPAN> <SPAN class=ps10><NOBR><SPAN
class=ft0>的术语和每个术语的简要解释,在后面讨论中会用到其中一些。在讨论每个协议时还会碰到</SPAN></NOBR></SPAN> <SPAN
class=ps11><NOBR><SPAN class=ft0>更多术语,那时将通过上下文对其解释。</SPAN></NOBR></SPAN> <SPAN
class=ps12><NOBR><SPAN class=ft3>表<SPAN class=em5>1-1
</SPAN>有用的缩写词</SPAN></NOBR></SPAN> <SPAN class=ps13><NOBR><SPAN
class=ft4>缩</SPAN></NOBR></SPAN> <SPAN class=ps14><NOBR><SPAN
class=ft4>写</SPAN></NOBR></SPAN> <SPAN class=ps15><NOBR><SPAN
class=ft4>意</SPAN></NOBR></SPAN> <SPAN class=ps16><NOBR><SPAN
class=ft4>义</SPAN></NOBR></SPAN> <SPAN class=ps17><NOBR><SPAN
class=ft5>AAL2</SPAN></NOBR></SPAN> <SPAN class=ps18><NOBR><SPAN
class=ft5>ANI</SPAN></NOBR></SPAN> <SPAN class=ps19><NOBR><SPAN
class=ft5>CAS</SPAN></NOBR></SPAN> <SPAN class=ps20><NOBR><SPAN
class=ft5>CCS</SPAN></NOBR></SPAN> <SPAN class=ps21><NOBR><SPAN
class=ft4>关守<SPAN class=em1>(GK)</SPAN></SPAN></NOBR></SPAN> <SPAN
class=ps22><NOBR><SPAN class=ft5>H.323</SPAN></NOBR></SPAN> <SPAN
class=ps23><NOBR><SPAN class=ft5>H.GCP(<SPAN class=em0>也是</SPAN>H.248<SPAN
class=em0>)</SPAN></SPAN></NOBR></SPAN> <SPAN class=ps24><NOBR><SPAN
class=ft5>ISUP</SPAN></NOBR></SPAN> <SPAN class=ps25><NOBR><SPAN
class=ft5>MCU</SPAN></NOBR></SPAN> <SPAN class=ps26><NOBR><SPAN
class=ft5>MEGACO</SPAN></NOBR></SPAN> <SPAN class=ps27><NOBR><SPAN
class=ft5>MF</SPAN></NOBR></SPAN> <SPAN class=ps28><NOBR><SPAN
class=ft5>MGCP</SPAN></NOBR></SPAN> <SPAN class=ps29><NOBR><SPAN
class=ft6>第<SPAN class=em6>1</SPAN>章<SPAN
class=em6>IP</SPAN>语音和交互应用的协议</SPAN></NOBR></SPAN> <SPAN class=ps30><NOBR><SPAN
class=ft7>5</SPAN></NOBR></SPAN> <SPAN class=ps31><NOBR><SPAN
class=ft8>文档</SPAN></NOBR></SPAN> <SPAN class=ps32><NOBR>异步传输模式适配层<SPAN
class=em1>2<SPAN class=em0>(</SPAN>ATM Adaptation Layer 2<SPAN
class=em0>)</SPAN></SPAN>。用于在<SPAN class=em1>ATM</SPAN>主干网络上有效传</NOBR></SPAN>
<SPAN class=ps33><NOBR>输语音和实时流,其等待时间比完全的<SPAN
class=em1>IP</SPAN>传输要少</NOBR></SPAN> <SPAN class=ps34><NOBR>自动数字标识(<SPAN
class=em1>Automatic Number Identification</SPAN>),例如呼叫者的<SPAN
class=em1>ID</SPAN></NOBR></SPAN> <SPAN class=ps35><NOBR>信道相关信令(<SPAN
class=em1>Channel Associated Signaling</SPAN>),或者带内信令。这种类型的信令</NOBR></SPAN>
<SPAN class=ps36><NOBR>在携带语音数据的同一电路上传输。这个术语很普通,但是在<SPAN
class=em1>PSTN</SPAN>中得到广泛使用。</NOBR></SPAN> <SPAN class=ps37><NOBR><SPAN
class=ft10>CAS<SPAN class=em0>信令的例子是</SPAN>POTS<SPAN class=em0>、</SPAN>MF<SPAN
class=em0>信令(见下文)</SPAN></SPAN></NOBR></SPAN> <SPAN class=ps38><NOBR>、<SPAN
class=em1>T1</SPAN>设备中的<SPAN class=em1>a/b/c/d</SPAN>位抢占信令</NOBR></SPAN> <SPAN
class=ps39><NOBR>公用信道信令(<SPAN class=em1>Common Channel Signaling</SPAN>)。它是<SPAN
class=em1>CAS</SPAN>之外的另一种信令方式,</NOBR></SPAN> <SPAN
class=ps40><NOBR>它不在携带语音数据的同一电路上运行,也叫做带外信令。有两类主要的<SPAN class=em1>CCS<SPAN
class=em0>:</SPAN></SPAN>相关</NOBR></SPAN> <SPAN class=ps41><NOBR>的<SPAN
class=em1>CCS</SPAN>信令运行在携带语音数据的同一物理设备上,但是在不同的电路上。其例子是</NOBR></SPAN> <SPAN
class=ps42><NOBR><SPAN class=ft10>ISDN<SPAN class=em0>中的</SPAN>PRI<SPAN
class=em0>信令。不相关的</SPAN>CCS<SPAN
class=em0>信令运行在完全不同的设备上,甚至是在不同的网</SPAN></SPAN></NOBR></SPAN> <SPAN
class=ps43><NOBR>络上。其例子是信令系统<SPAN class=em1>7<SPAN class=em0>(</SPAN>SS7<SPAN
class=em0>)</SPAN></SPAN></NOBR></SPAN> <SPAN class=ps44><NOBR><SPAN
class=ft10>H.323<SPAN
class=em0>协议环境中使用,但也用在其他的协议中。在概念上和我们先看到的通用网</SPAN></SPAN></NOBR></SPAN> <SPAN
class=ps45><NOBR>关控制器相似。<SPAN class=em1>GK</SPAN>被认为是<SPAN
class=em1>H.323</SPAN>信令拓扑的核心,但是根据不同的规范,在网络中</NOBR></SPAN> <SPAN
class=ps46><NOBR>也并不是一定需要<SPAN class=em1>GK</SPAN></NOBR></SPAN> <SPAN
class=ps47><NOBR><SPAN class=ft10>ITU-T<SPAN
class=em0>为基于包的多媒体通信制定的标准。它使用</SPAN>H.225.0<SPAN
class=em0>来注册、接受、状态、</SPAN></SPAN></NOBR></SPAN> <SPAN
class=ps48><NOBR>呼叫信令与控制。还使用<SPAN
class=em1>H.245</SPAN>来完成介质描述和控制、端点容量交换、携带介质流</NOBR></SPAN> <SPAN
class=ps49><NOBR>的逻辑信道的一般控制。其他一些协议补充完整了</NOBR></SPAN> <SPAN
class=ps50><NOBR><SPAN class=ft10>H.323<SPAN
class=em0>标准,我们将提供一个</SPAN></SPAN></NOBR></SPAN> <SPAN class=ps51><NOBR><SPAN
class=ft10>H.323<SPAN class=em0>信令和介质传输的协议栈</SPAN></SPAN></NOBR></SPAN> <SPAN
class=ps52><NOBR><SPAN class=ft10>ITU-T<SPAN class=em0>协议草案,它试图将</SPAN>IETF<SPAN
class=em0>和</SPAN>ITU<SPAN class=em0>信令标准合并和统一成</SPAN>MEGACO<SPAN
class=em0>协议</SPAN></SPAN></NOBR></SPAN> <SPAN class=ps53><NOBR><SPAN
class=ft10>SS7<SPAN class=em0>信令网络的</SPAN>ISDN<SPAN class=em0>用户部件(<SPAN
class=em1>ISDN User Part</SPAN>)</SPAN></SPAN></NOBR></SPAN> <SPAN
class=ps54><NOBR>。<SPAN class=em1>SS7</SPAN>信令网络使用的高层包交换</NOBR></SPAN> <SPAN
class=ps55><NOBR>协议,负责在<SPAN class=em1>PSTN</SPAN>中建立电话呼叫,以及用户特性,例如呼叫者<SPAN
class=em1>ID</SPAN>、呼叫转发等。</NOBR></SPAN> <SPAN
class=ps56><NOBR>对于呼叫建立和拆卸中的链路到链路的信令,它是个直接和<SPAN class=em1>MTP</SPAN>相接的第<SPAN
class=em1>4</SPAN>层协议。</NOBR></SPAN> <SPAN
class=ps57><NOBR>对于与设备无关的端到端信令,它与<SPAN class=em1>SCCP</SPAN>相接,是<SPAN
class=em1>TCAP</SPAN>的对等实体</NOBR></SPAN> <SPAN class=ps58><NOBR>多点控制单元(<SPAN
class=em1>Multipoint Control Unit</SPAN>),是<SPAN
class=em1>H.323</SPAN>网络的一个元件。它提供对三</NOBR></SPAN> <SPAN
class=ps59><NOBR>个或多个终端的多点会议的支持。也提供参与会议的多个端点的资源管理和编码解码</NOBR></SPAN> <SPAN
class=ps60><NOBR>协商</NOBR></SPAN> <SPAN class=ps61><NOBR><SPAN
class=ft10>IETF<SPAN class=em0>的介质网关控制协议(<SPAN class=em1>Media Gateway Control
Protocol</SPAN>)</SPAN></SPAN></NOBR></SPAN> <SPAN class=ps62><NOBR>。这是<SPAN
class=em1>IETF/ITU-T</SPAN>工</NOBR></SPAN> <SPAN
class=ps63><NOBR>作组的努力方向,他们致力得到未来的基于<SPAN
class=em1>IP</SPAN>的电话实现的通用信令协议</NOBR></SPAN> <SPAN class=ps64><NOBR>多频信令(<SPAN
class=em1>MultiFrequency Signaling</SPAN>)。使用一组频率来同步数字<SPAN
class=em1>0</SPAN>到<SPAN class=em1>9</SPAN>的常用的带</NOBR></SPAN> <SPAN
class=ps65><NOBR>内<SPAN class=em1>CAS</SPAN>信令,也控制编码<SPAN
class=em1>KP(</SPAN>数字脉冲的起点<SPAN class=em1>)</SPAN>和<SPAN
class=em1>ST(</SPAN>数字脉冲的终点<SPAN class=em1>)</SPAN>。它用于<SPAN class=em1>PSTN<SPAN
class=em0>,</SPAN></SPAN></NOBR></SPAN> <SPAN
class=ps66><NOBR>并有望继续使用很长时间,因为它还用于紧急呼叫的信令和呼叫建立(如<SPAN
class=em7>911</SPAN>呼叫<SPAN class=em2><SUP>①</SUP></SPAN>)</NOBR></SPAN> <SPAN
class=ps67><NOBR>介质网关控制协议(<SPAN class=em1>Media Gateway Control
Protocol</SPAN>)。主要基于<SPAN class=em1>SGCP</SPAN>和<SPAN
class=em1>IPDC</SPAN>的</NOBR></SPAN> <SPAN class=ps68><NOBR>部分。复合的<SPAN
class=em1>S/MGCP</SPAN>协议将在下一节中讨论</NOBR></SPAN> </BODY></HTML>
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