3.28/doxygen/lte-test-fading_8cc_source.html

 /* -*-  Mode: C++; c-file-style: "gnu"; indent-tabs-mode:nil; -*- */

 /*

 * Copyright (c) 2011 Centre Tecnologic de Telecomunicacions de Catalunya (CTTC)

 *

 * This program is free software; you can redistribute it and/or modify

 * it under the terms of the GNU General Public License version 2 as

 * published by the Free Software Foundation;

 *

 * This program is distributed in the hope that it will be useful,

 * but WITHOUT ANY WARRANTY; without even the implied warranty of

 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the

 * GNU General Public License for more details.

 *

 * You should have received a copy of the GNU General Public License

 * along with this program; if not, write to the Free Software

 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA

 *

 * Author: Marco Miozzo <marco.miozzo@cttc.es>

 */


 #include "ns3/simulator.h"

 #include "ns3/log.h"

 #include "ns3/spectrum-test.h"

 #include "ns3/lte-phy-tag.h"

 #include "ns3/lte-test-ue-phy.h"

 #include "ns3/lte-chunk-processor.h"

 #include "ns3/lte-test-fading.h"

 #include <ns3/buildings-propagation-loss-model.h>

 #include <ns3/node-container.h>

 #include <ns3/mobility-helper.h>

 #include <ns3/lte-helper.h>

 #include <ns3/single-model-spectrum-channel.h>

 #include "ns3/string.h"

 #include "ns3/double.h"

 #include <ns3/building.h>

 #include <ns3/enum.h>

 #include <ns3/net-device-container.h>

 #include <ns3/lte-ue-net-device.h>

 #include <ns3/lte-enb-net-device.h>

 #include <ns3/lte-ue-rrc.h>

 #include <ns3/lte-enb-phy.h>

 #include <ns3/lte-ue-phy.h>

 #include "lte-test-sinr-chunk-processor.h"


 using namespace ns3;


 NS_LOG_COMPONENT_DEFINE ("LteFadingTest");


 LteFadingTestSuite::LteFadingTestSuite ()

 : TestSuite ("lte-fading-model", SYSTEM)

 {


   // -------------- COMPOUND TESTS ----------------------------------


   LogComponentEnable ("LteFadingTest", LOG_LEVEL_ALL);


   // NS_LOG_INFO ("Creating LteDownlinkSinrTestSuite");


   Ptr<LteHelper> lteHelper = CreateObject<LteHelper> ();


   lteHelper->SetAttribute ("PathlossModel", StringValue ("ns3::BuildingsPropagationLossModel"));


   // Create Nodes: eNodeB, home eNB, UE and home UE (UE attached to HeNB)

   NodeContainer enbNodes;

   NodeContainer henbNodes;

   NodeContainer ueNodes;

   NodeContainer hueNodes;

   enbNodes.Create (1);

   henbNodes.Create (2);

   ueNodes.Create (5);

   hueNodes.Create (3);


   // Install Mobility Model

   MobilityHelper mobility;

   mobility.SetMobilityModel ("ns3::BuildingsMobilityModel");

   mobility.Install (enbNodes);

   mobility.Install (henbNodes);

   mobility.Install (ueNodes);

   mobility.Install (hueNodes);


   NetDeviceContainer enbDevs;

   NetDeviceContainer henbDevs;

   NetDeviceContainer ueDevs;

   NetDeviceContainer hueDevs;

   enbDevs = lteHelper->InstallEnbDevice (enbNodes);

   ueDevs = lteHelper->InstallUeDevice (ueNodes);

   henbDevs = lteHelper->InstallEnbDevice (henbNodes);

   hueDevs = lteHelper->InstallUeDevice (hueNodes);


   lteHelper->Attach (ueDevs, enbDevs.Get (0));

   lteHelper->Attach (hueDevs, henbDevs.Get (0));


   // Test #1 Okumura Hata Model (150 < freq < 1500 MHz) (Macro<->UE)


   double distance = 2000;

   double hm = 1;

   double hb = 30;

 //   double freq = 869e6; // E_UTRA BAND #5 see table 5.5-1 of 36.101

   Ptr<BuildingsMobilityModel> mm1 = enbNodes.Get (0)->GetObject<BuildingsMobilityModel> ();

   mm1->SetPosition (Vector (0.0, 0.0, hb));


   Ptr<BuildingsMobilityModel> mm2 = ueNodes.Get (0)->GetObject<BuildingsMobilityModel> ();

   mm2->SetPosition (Vector (distance, 0.0, hm));


   AddTestCase (new LteFadingTestCase (mm1, mm2, 137.93, "OH Urban Large city"), TestCase::QUICK);


 }


 static LteFadingTestSuite lteFadingTestSuite;


 LteFadingTestCase::LteFadingTestCase (Ptr<BuildingsMobilityModel> m1, Ptr<BuildingsMobilityModel> m2, double refValue, std::string name)

 : TestCase ("FADING calculation: " + name),

 m_node1 (m1),

 m_node2 (m2),

 m_lossRef (refValue)

 {

 }


 LteFadingTestCase::~LteFadingTestCase ()

 {

 }


 void

 LteFadingTestCase::DoRun (void)

 {

   //   LogLevel logLevel = (LogLevel)(LOG_PREFIX_FUNC | LOG_PREFIX_TIME | LOG_LEVEL_ALL);


   //   LogComponentEnable ("LteEnbRrc", logLevel);

   //   LogComponentEnable ("LteUeRrc", logLevel);

   //   LogComponentEnable ("LteEnbMac", logLevel);

   //   LogComponentEnable ("LteUeMac", logLevel);

   //   LogComponentEnable ("LteRlc", logLevel);

   //   LogComponentEnable ("RrPacketScheduler", logLevel);

   //

   //   LogComponentEnable ("LtePhy", logLevel);

   //   LogComponentEnable ("LteEnbPhy", logLevel);

   //   LogComponentEnable ("LteUePhy", logLevel);

   //

   //   LogComponentEnable ("LteSpectrumPhy", logLevel);

   //   LogComponentEnable ("LteInterference", logLevel);

   //   LogComponentEnable ("LteChunkProcessor", logLevel);

   //

   //   LogComponentEnable ("LtePropagationLossModel", logLevel);

   //   LogComponentEnable ("LossModel", logLevel);

   //   LogComponentEnable ("ShadowingLossModel", logLevel);

   //   LogComponentEnable ("PenetrationLossModel", logLevel);

   //   LogComponentEnable ("MultipathLossModel", logLevel);

   //   LogComponentEnable ("PathLossModel", logLevel);

   //

   //   LogComponentEnable ("LteNetDevice", logLevel);

   //   LogComponentEnable ("LteUeNetDevice", logLevel);

   //   LogComponentEnable ("LteEnbNetDevice", logLevel);


   LogComponentEnable ("TraceFadingLossModel", LOG_LEVEL_ALL);

 //   LogComponentEnable ("TraceFadingLossModel", LOG_LEVEL_ALL);

 //   LogComponentEnable ("BuildingsPropagationLossModel", LOG_LEVEL_ALL);

   NS_LOG_INFO ("Testing " << GetName());


   m_fadingModule = CreateObject<TraceFadingLossModel> ();


   m_fadingModule->SetAttribute("TraceFilename", StringValue("../../../src/lte/model/fading-traces/fading_trace_EPA_3kmph.fad"));

   //m_fadingModule->SetAttribute("WindowSize", TimeValue(Seconds (0.003)));


   m_fadingModule->CreateFadingChannelRealization (m_node1, m_node2);


 //   Ptr<SpectrumModel> sm;

 //

 //   Bands bands;

 //   BandInfo bi;

 //

 //   bi.fl = 2.400e9;

 //   bi.fc = 2.410e9;

 //   bi.fh = 2.420e9;

 //   bands.push_back (bi);

 //

 //   bi.fl = 2.420e9;

 //   bi.fc = 2.431e9;

 //   bi.fh = 2.442e9;

 //   bands.push_back (bi);

 //

 //   sm = Create<SpectrumModel> (bands);

 //

 //   /**

 //   * TX signal #1: Power Spectral Density (W/Hz) of the signal  = [0 0] dBm and BW = [20 22] MHz

 //   */

 //   Ptr<SpectrumValue> inPsd1 = Create<SpectrumValue> (sm);

 //   (*inPsd1)[0] = 1.;

 //   (*inPsd1)[1] = 1.;

 //   Ptr<SpectrumValue> outPsd1 = Create<SpectrumValue> (sm);

 //   outPsd1 = m_fadingModule->CalcRxPowerSpectralDensity (inPsd1, m_node1, m_node2);

 //

 //   NS_LOG_INFO ("A ver " << (*outPsd1)[0] << " " << (*outPsd1)[1]);

   double samplingInterval = 0.001;

   double time = 0.0;

   while (time<0.010)

     {

       Time t = Seconds (time);

       Simulator::Schedule(t, &LteFadingTestCase::GetFadingSample, this);

       time += samplingInterval;

     }

   Simulator::Stop (Seconds (10.1));

   Simulator::Run ();

   Simulator::Destroy ();

 //   double loss = m_downlinkPropagationLossModel->GetLoss (m_node1, m_node2);

   time = 0.0;

   int rbNum = 2;

   std::vector<double> sum (rbNum);

   std::vector<double> sumSquared (rbNum);

   for (int i = 0; i < rbNum; i++)

     {

       sum.at (i) = 0.;

       sumSquared.at (i) = 0.;

     }

   for (std::vector<SpectrumValue>::size_type i = 0; i != m_fadingSamples.size (); i++)

   {

     NS_LOG_INFO ("Sample time " << time << " : " << m_fadingSamples.at(i)[0] << " " << m_fadingSamples.at(i)[1]);

     time += samplingInterval;

     for (int j = 0; j < rbNum; j++)

     {

       sum.at (j) += m_fadingSamples.at(i)[j];

       sumSquared.at (j) += (m_fadingSamples.at(i)[j]*m_fadingSamples.at(i)[j]);

     }

   }

 //   NS_LOG_INFO ("Calculated loss: " << loss);

   NS_LOG_INFO ("Theoretical loss: " << m_lossRef);

   for (int i = 0; i < rbNum; i++)

     {

       double mean = sum.at (i)/m_fadingSamples.size ();

       double sigma = sqrt(sumSquared.at (i)/m_fadingSamples.size () - (mean*mean));

       NS_LOG_INFO (" Mean " << mean << " sigma " << sigma);

     }


   //   NS_TEST_ASSERT_MSG_EQ_TOL(loss, m_lossRef, 0.1, "Wrong loss !");

 }


 void

 LteFadingTestCase::GetFadingSample ()

 {

   Ptr<SpectrumModel> sm;


   Bands bands;

   BandInfo bi;


   bi.fl = 2.400e9;

   bi.fc = 2.410e9;

   bi.fh = 2.420e9;

   bands.push_back (bi);


   bi.fl = 2.420e9;

   bi.fc = 2.431e9;

   bi.fh = 2.442e9;

   bands.push_back (bi);


   sm = Create<SpectrumModel> (bands);


   Ptr<SpectrumValue> inPsd1 = Create<SpectrumValue> (sm);

   (*inPsd1)[0] = 1.;

   (*inPsd1)[1] = 1.;

   Ptr<SpectrumValue> outPsd1 = Create<SpectrumValue> (sm);

   outPsd1 = m_fadingModule->CalcRxPowerSpectralDensity (inPsd1, m_node1, m_node2);

   (*outPsd1)[0] = (10 * std::log10 (180000*(*outPsd1)[0])) - (10 * std::log10 (180000*(*inPsd1)[0]));

   (*outPsd1)[1] = (10 * std::log10 (180000*(*outPsd1)[1])) - (10 * std::log10 (180000*(*inPsd1)[1]));

   m_fadingSamples.push_back ((*outPsd1));

 }

ns3::Time
Simulation virtual time values and global simulation resolution.
Definition: nstime.h:102

LteFadingTestCase::m_node2
Ptr< BuildingsMobilityModel > m_node2
building mobility model #2
Definition: lte-test-fading.h:78

ns3::Ptr< LteHelper >

ns3::LteHelper::InstallEnbDevice
NetDeviceContainer InstallEnbDevice(NodeContainer c)
Create a set of eNodeB devices.
Definition: lte-helper.cc:474

ns3::Object::GetObject
Ptr< T > GetObject(void) const
Get a pointer to the requested aggregated Object.
Definition: object.h:459

ns3::StringValue
Hold variables of type string.
Definition: string.h:41

ns3::NetDeviceContainer::Get
Ptr< NetDevice > Get(uint32_t i) const
Get the Ptr stored in this container at a given index.
Definition: net-device-container.cc:62

LteFadingTestCase::m_fadingSamples
std::vector< SpectrumValue > m_fadingSamples
fading samples
Definition: lte-test-fading.h:81

ns3::TestSuite
A suite of tests to run.
Definition: test.h:1342

ns3::LteHelper::Attach
void Attach(NetDeviceContainer ueDevices)
Enables automatic attachment of a set of UE devices to a suitable cell using Idle mode initial cell s...
Definition: lte-helper.cc:957

NS_LOG_COMPONENT_DEFINE
#define NS_LOG_COMPONENT_DEFINE(name)
Define a Log component with a specific name.
Definition: log.h:201

NS_LOG_INFO
#define NS_LOG_INFO(msg)
Use NS_LOG to output a message of level LOG_INFO.
Definition: log.h:277

MRG32k3a::m1
const double m1
First component modulus, 232 - 209.
Definition: rng-stream.cc:57

ns3::TestCase
encapsulates test code
Definition: test.h:1155

ns3::Bands
std::vector< BandInfo > Bands
Container of BandInfo.
Definition: spectrum-model.h:54

LteFadingTestCase::m_fadingModule
Ptr< TraceFadingLossModel > m_fadingModule
fading loss model
Definition: lte-test-fading.h:79

ns3::MobilityHelper::Install
void Install(Ptr< Node > node) const
"Layout" a single node according to the current position allocator type.
Definition: mobility-helper.cc:130

ns3::LogComponentEnable
void LogComponentEnable(char const *name, enum LogLevel level)
Enable the logging output associated with that log component.
Definition: log.cc:369

third.mobility
tuple mobility
Definition: third.py:101

lteFadingTestSuite
static LteFadingTestSuite lteFadingTestSuite
Definition: lte-test-fading.cc:123

ns3::TestCase::AddTestCase
void AddTestCase(TestCase *testCase, TestDuration duration=QUICK)
Add an individual child TestCase to this test suite.
Definition: test.cc:299

LteFadingTestCase::DoRun
virtual void DoRun(void)
Implementation to actually run this TestCase.
Definition: lte-test-fading.cc:143

ns3::BandInfo::fc
double fc
center frequency
Definition: spectrum-model.h:48

LteFadingTestSuite::LteFadingTestSuite
LteFadingTestSuite()
Test 1.1 Fading compound test.
Definition: lte-test-fading.cc:59

ns3::NetDeviceContainer
holds a vector of ns3::NetDevice pointers
Definition: net-device-container.h:41

LteFadingTestCase::GetFadingSample
void GetFadingSample()
Definition: lte-test-fading.cc:258

ns3::SpectrumPropagationLossModel::CalcRxPowerSpectralDensity
Ptr< SpectrumValue > CalcRxPowerSpectralDensity(Ptr< const SpectrumValue > txPsd, Ptr< const MobilityModel > a, Ptr< const MobilityModel > b) const
This method is to be called to calculate.
Definition: spectrum-propagation-loss-model.cc:64

ns3
Every class exported by the ns3 library is enclosed in the ns3 namespace.

ns3::BandInfo::fl
double fl
lower limit of subband
Definition: spectrum-model.h:47

ns3::NodeContainer
keep track of a set of node pointers.
Definition: node-container.h:38

LteFadingTestCase::m_node1
Ptr< BuildingsMobilityModel > m_node1
building mobility model #1
Definition: lte-test-fading.h:77

ns3::MobilityHelper::SetMobilityModel
void SetMobilityModel(std::string type, std::string n1="", const AttributeValue &v1=EmptyAttributeValue(), std::string n2="", const AttributeValue &v2=EmptyAttributeValue(), std::string n3="", const AttributeValue &v3=EmptyAttributeValue(), std::string n4="", const AttributeValue &v4=EmptyAttributeValue(), std::string n5="", const AttributeValue &v5=EmptyAttributeValue(), std::string n6="", const AttributeValue &v6=EmptyAttributeValue(), std::string n7="", const AttributeValue &v7=EmptyAttributeValue(), std::string n8="", const AttributeValue &v8=EmptyAttributeValue(), std::string n9="", const AttributeValue &v9=EmptyAttributeValue())
Definition: mobility-helper.cc:79

LteFadingTestCase
Fading test case is checking if the pathloss between macro and UE is equal to the theoretical value w...
Definition: lte-test-fading.h:59

LteFadingTestCase::~LteFadingTestCase
virtual ~LteFadingTestCase()
Definition: lte-test-fading.cc:138

LteFadingTestSuite
Test 1.1 fading model.
Definition: lte-test-fading.h:44

ns3::LteHelper::InstallUeDevice
NetDeviceContainer InstallUeDevice(NodeContainer c)
Create a set of UE devices.
Definition: lte-helper.cc:489

ns3::MobilityHelper
Helper class used to assign positions and mobility models to nodes.
Definition: mobility-helper.h:42

ns3::NodeContainer::Get
Ptr< Node > Get(uint32_t i) const
Get the Ptr stored in this container at a given index.
Definition: node-container.cc:88

ns3::Seconds
Time Seconds(double value)
Construct a Time in the indicated unit.
Definition: nstime.h:1007

LteFadingTestCase::LteFadingTestCase
LteFadingTestCase(Ptr< BuildingsMobilityModel > m1, Ptr< BuildingsMobilityModel > m2, double refValue, std::string name)
Lte Fading Test Case function.
Definition: lte-test-fading.cc:130

ns3::LOG_LEVEL_ALL
Print everything.
Definition: log.h:112

MRG32k3a::m2
const double m2
Second component modulus, 232 - 22853.
Definition: rng-stream.cc:60

ns3::TestCase::GetName
std::string GetName(void) const
Definition: test.cc:370

ns3::NodeContainer::Create
void Create(uint32_t n)
Create n nodes and append pointers to them to the end of this NodeContainer.
Definition: node-container.cc:93

ns3::BandInfo::fh
double fh
upper limit of subband
Definition: spectrum-model.h:49

ns3::ObjectBase::SetAttribute
void SetAttribute(std::string name, const AttributeValue &value)
Set a single attribute, raising fatal errors if unsuccessful.
Definition: object-base.cc:185

ns3::BandInfo
The building block of a SpectrumModel.
Definition: spectrum-model.h:45

LteFadingTestCase::m_lossRef
double m_lossRef
loss reference
Definition: lte-test-fading.h:80