Ansi/tia-921-b network Model for Evaluating Multimedia Transmission Performance Over the Internet Protocol
Description of the Model 4.1Model Overview
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- 4.2Network Topology
- 4.3Models of Network Elements
4Description of the Model4.1Model OverviewThe new IP network model of this Standard is embodied in a discrete event software simulator. In a real sense, the simulator is the model. 6.4.1.1.1.1 contains a detailed description of the simulator code used to implement the model. Other implementations are possible, including real-time hardware network emulators for test lab use, but their behavior must match that of the simulator presented here. The IP network is modeled as a network of basic elements. Figure shows this basic network element, called a “switch.” 
Figure : Switch – Basic Model Network Element These basic network elements are wired in series into a specific network topology as described in section 4.2.
The sections that follow explain the components of the model in more detail:
4.2Network TopologyFigure shows the IP service provider’s portion of the network, called the core, represented by a cloud symbol. Basic network element switches within the core are interconnected to carry IP traffic between ports. 
Figure : Core Network Portion Figure shows the access portion of the IP network. In the downstream direction from the core to the customer premises, a series of network elements and wires are connected: edge router, DSLAM (or OLT for GPON), DSL modem (or ONT for GPON), firewall, and router. The model is bidirectional, so upstream traffic traverses the same elements in reverse order.
Figure : Access Network Portion Although the basic switch element of Figure allows interfering streams to be inserted and to exit at each stage, the network topologies of this Standard are simplified. Interferers in the models only enter and exit at the points shown next in Figure , Figure , and Figure .
Figure : Core-Only Network Model Figure (Core to LAN) illustrates a server-to-client application such as an IPTV or a web server. All of the test case simulations of this Standard (except for a single core-only case) use the core-to-LAN network model. 
Figure : Core-to-LAN Network Model Figure (LAN to LAN) illustrates an end-to-end network with LAN and access links on each side of the core as would occur in a client-to-client application such as VoIP. It is modeled as two core-to-LAN networks concatenated. Some considerations for using the LAN-to-LAN model are given in section 6.3. 
Figure : LAN-to-LAN Network Model 4.3Models of Network ElementsThe various types of network elements considered in this model are listed as the columns in Table :
Each of the network elements is modeled identically in the simulator: as the basic switch element shown in Figure . Only access head end devices (DSLAM or GPON OLT) implement multiple packet queues, one per QoS priority. Each packet queue is 65 × 1518 = 98,670 bytes. Table rows list the attributes of each element in the network model:
Table : Network Model Element Attributes
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