我有一个模拟,其中两个模块UDPBasicApp(客户端和服务器)通过以太网链路连接在一起。相反,我希望它们通过无线信道连接在一起。网络由以下NED文件定义:
package udpbasic;
import inet.networklayer.autorouting.ipv4.IPv4NetworkConfigurator;
import inet.nodes.ethernet.Eth10M;
import inet.nodes.inet.StandardHost;
network ClientServer
{
@display("bgb=380,247");
submodules:
client: StandardHost
{
@display("p=84,100");
}
server: StandardHost
{
@display("p=278,100");
}
configurator: IPv4NetworkConfigurator
{
@display("p=181,188");
}
connections:
client.ethg++ <--> Eth10M <--> server.ethg++;
}
我知道我必须改变这条线
client.ethg++ <--> Eth10M <--> server.ethg++;
定义以太网链路。我可以连接客户端和服务器槽 无线链接?显然,我正在寻找最基本的配置。 我是OMNeT ++和INET的新手;我搜索过INET API参考,但事实并非如此 帮助那么多。我会感谢任何建议。
答案 0 :(得分:1)
我建议您阅读INET 3.0中的无线教程。 https://github.com/inet-framework/inet/blob/master/tutorials/wireless/omnetpp.ini
Ini文件:
[General]
# Some global configuration to make the model simpler
# At this point you should take a look at the NED files corresponding to this Ini file.
# They are rather simple. The only interesting thing is that they are using parametrized types
# (i.e. like) so we will be able to change the type of the different modules from the Ini file.
# This allows us go through the tutorial only by changing parameter values in this file.
# Limit the simulation to 25s
sim-time-limit = 25s
# Let's configure ARP
# ARP in the real world is used to figure out the MAC address of a node from its IPv4 address.
# We do not want to use it in this wireless tutorial as it just adds some uninteresting
# message exchanges before the real communication between the nodes can start. We will use
# the GlobalARP module instead that can automatically provide all the MAC-IP assocoations
# for the nodes out of band.
**.arpType = "GlobalARP"
# Now we are ready to jump into the tutorial
[Config Wireless01]
description = Two nodes communicating via UDP
network = WirelessA
# Configure an application for hostA that sends a constant
# UDP traffic around 800Kbps (+ protocol overhead)
*.hostA.numUdpApps = 1
*.hostA.udpApp[0].typename = "UDPBasicApp"
*.hostA.udpApp[0].destAddresses = "hostB"
*.hostA.udpApp[0].destPort = 5000
*.hostA.udpApp[0].messageLength = 1000B
*.hostA.udpApp[0].sendInterval = exponential(10ms)
# Configure an app that receives the USP traffic (and simply drops the data)
*.hostB.numUdpApps = 1
*.hostB.udpApp[0].typename = "UDPSink"
*.hostB.udpApp[0].localPort = 5000
# Configure the hosts to have a single "ideal" wireless NIC. An IdealWirelessNic
# can be configured with a maximum communication range. All packets withing range
# are always received successfully while out of range messages are never received.
# This is useful if we are not interested how the actual messages get to their destination,
# we just want to be sure that they get there once the nodes are in range.
*.host*.wlan[*].typename = "IdealWirelessNic"
# All radios and MACs should run on 1Mbps in our examples
**.bitrate = 1Mbps
# Mandatory physical layer parameters
*.host*.wlan[*].radio.transmitter.maxCommunicationRange = 500m
# Simplify the IdealWirelessNic even further. We do not care even if there are
# transmission collisions. Any number of nodes in range can transmit at the same time
# and the packets will be still successfully delivered.
*.host*.wlan[*].radio.receiver.ignoreInterference = true
# Result: HostA can send data to hostB using almost the whole 1Mbps bandwidth.
对应的NED文件:
package inet.tutorials.wireless;
import inet.networklayer.configurator.ipv4.IPv4NetworkConfigurator;
import inet.node.inet.INetworkNode;
import inet.physicallayer.contract.packetlevel.IRadioMedium;
// - create a network and specify the size to 500x500
// - drop an IPv4NetworkConfigurator and rename it to "configurator"
// - drop an IdealRadioMedium module and rename to "radioMedium"
// - drop two standardhosts at the 100,100 and 400,400 position and
// rename them to hostA and hostB
network WirelessA
{
@display("bgb=500,500");
@figure[thruputInstrument](type=gauge; pos=370,90; size=120,120; maxValue=2500; tickSize=500; colorStrip=green 0.75 yellow 0.9 red;label=Number of packets received; moduleName=hostB.udpApp[0]; signalName=rcvdPk);
string hostType = default("WirelessHost");
string mediumType = default("IdealRadioMedium");
submodules:
configurator: IPv4NetworkConfigurator {
@display("p=149,29");
}
radioMedium: <mediumType> like IRadioMedium {
@display("p=309,24");
}
hostA: <hostType> like INetworkNode {
@display("p=50,250");
}
hostB: <hostType> like INetworkNode {
@display("p=450,250");
}
}