scandocs/uni/masterarbeit/source/simulations/moversight/EvaluationNetwork.ned

package ubeeme.moversight.simulations;
@namespace(ubeeme::moversight);

import inet.world.radio.ChannelControl;
//import ubeeme.simulations.moversight.WirelessConnectivityObserver;
import inet.networklayer.autorouting.ipv4.FlatNetworkConfigurator;
//import ubeeme.simulations.moversight.MoversightAccessPoint;
import inet.nodes.inet.Router;
//import inet.world.scenario.ScenarioManager;
import ned.DatarateChannel;
import ubeeme.simulations.moversight.DroppingChannel;
import ubeeme.simulations.moversight.MoversightPeer;
//
// @brief Represents a IEEE 802.11b WLAN channel
// delay = average packet delay (see also [1] fig. 8: 802.11 with 11Mbit/s)
// calculated depending on number of nodes n  and delay
// n=5 , delay=0.005s =  5ms
// n=10, delay=0.01s  = 10ms
// n=15, delay=0.015s = 15ms
// n=20, delay=0.02s  = 20ms
//
// => delay = (0.05s / 4) = 0.0125s = 13ms
//
// quelle: [1]: http://www3.interscience.wiley.com/cgi-bin/fulltext/112622237/PDFSTART
//
network EvaluationNetwork
{
    types:
        channel fiberline extends DatarateChannel
        {
            delay = 1us;
            datarate = 512Mbps;
        }

        channel ethernetline extends DatarateChannel
        {
            delay = 0.1us;
            datarate = 10Mbps;
        }

    submodules:
//        wHost[1]: MoversightPeer {
//            // @display("p=0,400;r=,,#707070");
//            @display("p=50,130;r=,,#707070");
//
//            numRadios = 1;
//        }

        cli[8]: MoversightPeer {
            parameters:
                IPForward = false;
                @display("i=device/laptop_s");
        }
        rte[2]: Router {
            parameters:
                @display("is=vs");
        }

//        ap1: MoversightAccessPoint {
//            @display("p=100,200;r=,,#707070");
//        }
//        ap2: MoversightAccessPoint {
//            @display("p=500,200;r=,,#707070");
//        }

        channelControl: ChannelControl {
            @display("p=59,30");
        }

        configurator: FlatNetworkConfigurator;

//        wirelessConnectivityObserver: WirelessConnectivityObserver {
//            @display("p=59,93");
//        }
    connections:
        cli[0].pppg++ <--> ethernetline <--> rte[0].pppg++;
        cli[1].pppg++ <--> ethernetline <--> rte[0].pppg++;
        cli[2].pppg++ <--> ethernetline <--> rte[0].pppg++;
        cli[3].pppg++ <--> ethernetline <--> rte[0].pppg++;
        cli[4].pppg++ <--> ethernetline <--> rte[1].pppg++;
        cli[5].pppg++ <--> ethernetline <--> rte[1].pppg++;
        cli[6].pppg++ <--> ethernetline <--> rte[1].pppg++;
        cli[7].pppg++ <--> ethernetline <--> rte[1].pppg++;
        // cli[8].pppg++ <--> fiberline <--> rte[2].pppg++;
        // cli[9].pppg++ <--> fiberline <--> rte[2].pppg++;
        // cli[10].pppg++ <--> fiberline <--> rte[2].pppg++;
        // cli[11].pppg++ <--> fiberline <--> rte[2].pppg++;
        rte[0].pppg++ <--> fiberline <--> rte[1].pppg++;
//        rte[1].pppg++ <--> fiberline <--> rte[2].pppg++;

//        rte[0].ethg++ <--> {  delay = 0.1 us; datarate = 10 Mbps; } <--> ap1.ethg++;
//        rte[0].ethg++ <--> {  delay = 0.1 us; datarate = 10 Mbps; } <--> ap2.ethg++;
}