%description: This is a test for APSKDimensionalRadio interference handling. The first signal is weaker than the reception threshold. The second signal is weaker than the reception threshold. No signals are expected to be received. %file: test.ned import inet.networklayer.configurator.ipv4.IPv4NetworkConfigurator; import inet.node.inet.WirelessHost; import inet.physicallayer.apskradio.packetlevel.APSKDimensionalRadioMedium; network Test { submodules: radioMedium: APSKDimensionalRadioMedium; 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 # radio medium *.radioMedium.backgroundNoise.power = -110dBm # nic *.host*.wlan[*].typename = "IdealWirelessNic" *.host*.wlan[*].bitrate = 2Mbps *.host*.wlan[*].mac.headerLength = 10B *.host*.wlan[*].mac.fullDuplex = false *.host*.wlan[*].radioType = "APSKDimensionalRadio" *.host*.wlan[*].radio.transmitter.bitrate = 2Mbps *.host*.wlan[*].radio.transmitter.preambleDuration = 0s *.host*.wlan[*].radio.transmitter.headerBitLength = 100b *.host*.wlan[*].radio.carrierFrequency = 2.4GHz *.host*.wlan[*].radio.bandwidth = 2MHz *.host*.wlan[*].radio.receiver.energyDetection = -90dBm *.host*.wlan[*].radio.receiver.sensitivity = -80dBm *.host*.wlan[*].radio.receiver.snirThreshold = 10dB *.hostSender1.wlan[*].radio.transmitter.power = 1mW *.hostSender2.wlan[*].radio.transmitter.power = 1mW *.hostReceiver.wlan[*].radio.transmitter.power = 0W # 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 %not-contains: results/General-0.elog Changing radio reception state from IDLE to RECEIVING. %not-contains: results/General-0.elog Received (inet::IdealMacFrame)ping0 contains bit errors or collision, dropping it %not-contains: results/General-0.elog Passing up contained packet `ping0' to higher layer %#-------------------------------------------------------------------------------------------------------------- %not-contains: stdout undisposed object: %not-contains: stdout -- check module destructor %#--------------------------------------------------------------------------------------------------------------