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Source: Performance Technologies
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Downloaded from Digital Engineering Library @ McGraw-Hill (www.digitalengineeringlibrary.com) Copyright 2004 The McGraw-Hill Companies. All rights reserved. Any use is subject to the Terms of Use as given at the website.
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The Public Switched Telephone Network (PSTN)
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Figure 2-7 The OSI Reference Model and the SS7 protocol stack (Source: Performance Technologies)
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SS7 Protocol Stack The hardware and software functions of the SS7 protocol are divided into functional abstractions called levels. These levels map loosely to the Open Systems Interconnect (OSI) seven-layer model defined by the International Standards Organization (ISO), as shown in Figure 2-7.
Message Transfer Part The Message Transfer Part (MTP) is divided into three levels. The lowest level, MTP level 1, is equivalent to the OSI physical layer. MTP level 1 defines the physical, electrical, and functional characteristics of the digital signaling link. Physical interfaces defined include E-1 (2,048 Kbps; 32 64-Kbps channels), DS-1 (1,544 Kbps; 24 64-Kbps channels), V.35 (64 Kbps), DS-0 (64 Kbps), and DS-0A (56 Kbps). MTP level 2 ensures accurate end-to-end transmission of a message across a signaling link. Level 2 implements flow control, message sequence validation, and error checking. When an error occurs on a signaling link, the message (or set of messages) is retransmitted. MTP level 2 is equivalent to the OSI data link layer. MTP level 3 provides message routing between signaling points in the SS7 network. MTP level 3 reroutes traffic away from failed links and signaling points, and it controls traffic when congestion occurs. MTP level 3 is equivalent to the OSI network layer.
Downloaded from Digital Engineering Library @ McGraw-Hill (www.digitalengineeringlibrary.com) Copyright 2004 The McGraw-Hill Companies. All rights reserved. Any use is subject to the Terms of Use as given at the website.
The Public Switched Telephone Network (PSTN)
The Public Switched Telephone Network (PSTN)
ISDN User Part (ISUP) The ISDN User Part (ISUP) defines the protocol used
to set up, manage, and release trunk circuits that carry voice and data between terminating line exchanges (between a calling party and a called party). ISUP is used for both ISDN and non-ISDN calls. However, calls that originate and terminate at the same switch do not use ISUP signaling.
Telephone User Part (TUP) In some parts of the world (such as China and
Brazil), the Telephone User Part (TUP) is used to support basic call setup and teardown. TUP handles analog circuits only. In many countries, ISUP has replaced TUP for call management.
Signaling Connection Control Part (SCCP) SCCP provides connectionless and
connection-oriented network services and global title translation (GTT) capabilities above MTP level 3. A global title is an address (a dialed 800 number, calling card number, or mobile subscriber identification number) that is translated by SCCP into a destination point code and subsystem number. A subsystem number uniquely identifies an application at the destination signaling point. SCCP is used as the transport layer for TCAPbased services.
Transaction Capabilities Applications Part (TCAP) TCAP supports the exchange
of noncircuit-related data between applications across the SS7 network using the SCCP connectionless service. Queries and responses sent between SSPs and SCPs are carried in TCAP messages. For example, an SSP sends a TCAP query to determine the routing number associated with a dialed 800/888 number and to check the personal identification number (PIN) of a calling card user. In mobile networks (IS-41 and GSM), TCAP carries Mobile Application Part (MAP) messages sent between mobile switches and databases to support user authentication, equipment identification, and roaming.
The Advanced Intelligent Network (AIN)
How are features delivered In one concept, features are made possible by the Advanced Intelligent Network (AIN) and SS7. The AIN is a telephone network architecture that separates service logic from switching equipment, enabling new services to be added without having to redesign switches to support new services. It encourages competition among service providers as it makes it easier for a provider to add services, and it offers customers more service choices. Developed by Bell Communications Research, AIN is recognized as an industry standard in North America.
Downloaded from Digital Engineering Library @ McGraw-Hill (www.digitalengineeringlibrary.com) Copyright 2004 The McGraw-Hill Companies. All rights reserved. Any use is subject to the Terms of Use as given at the website.
The Public Switched Telephone Network (PSTN)
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