%description:

This is a test for ideal radio interference handling.
The first signal is stronger than the reception threshold.
The second signal is stronger than the reception threshold.

%file: test.ned

import inet.networklayer.configurator.ipv4.IPv4NetworkConfigurator;
import inet.node.inet.WirelessHost;
import inet.physicallayer.idealradio.IdealRadioMedium;

network Test
{
    submodules:
        radioMedium: IdealRadioMedium;
        configurator: IPv4NetworkConfigurator;
        hostSender1: WirelessHost;
        hostSender2: WirelessHost;
        hostReceiver: WirelessHost;
}

%inifile: omnetpp.ini

[General]
network = Test
sim-time-limit = 500us
record-eventlog = true
ned-path = .;../../../../src

#omnetpp 5.0 - 5.1 compatibility:
eventlog-file = "${resultdir}/${configname}-${runnumber}.elog"
output-scalar-file = "${resultdir}/${configname}-${runnumber}.sca"
output-vector-file = "${resultdir}/${configname}-${runnumber}.vec"
snapshot-file = "${resultdir}/${configname}-${runnumber}.sna"

**.arpType = "GlobalARP"

**.mobility.constraintAreaMinZ = 0m
**.mobility.constraintAreaMinX = 0m
**.mobility.constraintAreaMinY = 0m
**.mobility.constraintAreaMaxX = 1000m
**.mobility.constraintAreaMaxY = 1000m
**.mobility.constraintAreaMaxZ = 0m
**.mobility.initFromDisplayString = false
**.mobility.initialY = 500m
**.mobility.initialZ = 0m
*.host*.mobilityType = "StationaryMobility"
*.hostSender1.mobility.initialX = 200m
*.hostSender2.mobility.initialX = 800m
*.hostReceiver.mobility.initialX = 400m

# nic
*.host*.wlan[*].typename = "IdealWirelessNic"
*.host*.wlan[*].bitrate = 2Mbps
*.host*.wlan[*].mac.headerLength = 10B
*.host*.wlan[*].mac.fullDuplex = false
*.host*.wlan[*].radioType = "IdealRadio"
*.host*.wlan[*].radio.transmitter.bitrate = 2Mbps
*.host*.wlan[*].radio.transmitter.preambleDuration = 0s
*.host*.wlan[*].radio.transmitter.headerBitLength = 100b
*.host*.wlan[*].radio.receiver.ignoreInterference = true
*.hostSender1.wlan[*].radio.transmitter.communicationRange = 300m
*.hostSender1.wlan[*].radio.transmitter.interferenceRange = 600m
*.hostSender1.wlan[*].radio.transmitter.detectionRange = 1.2km
*.hostSender2.wlan[*].radio.transmitter.communicationRange = 1km
*.hostSender2.wlan[*].radio.transmitter.interferenceRange = 2km
*.hostSender2.wlan[*].radio.transmitter.detectionRange = 4km
*.hostReceiver.wlan[*].radio.transmitter.communicationRange = 0m
*.hostReceiver.wlan[*].radio.transmitter.interferenceRange = 0m
*.hostReceiver.wlan[*].radio.transmitter.detectionRange = 0m

# ping app
*.hostSender*.numPingApps = 1
*.hostSender*.pingApp[0].count = 1
*.hostSender*.pingApp[0].printPing = true
*.hostSender*.pingApp[0].destAddr = "hostReceiver"
*.hostSender*.pingApp[0].startTime = 0s

%contains: results/General-0.elog
Changing radio reception state from IDLE to RECEIVING.
%contains: results/General-0.elog
Passing up contained packet `ping0' to higher layer
%contains: results/General-0.elog
Sending datagram (inet::IPv4Datagram)ping0-reply with destination = 10.0.0.1
%#--------------------------------------------------------------------------------------------------------------
%not-contains: stdout
undisposed object:
%not-contains: stdout
-- check module destructor
%#--------------------------------------------------------------------------------------------------------------