/* -*- 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: Manuel Requena <manuel.requena@cttc.es>
* Nicola Baldo <nbaldo@cttc.es>
*/
#include "ns3/simulator.h"
#include "ns3/log.h"
#include "ns3/string.h"
#include "ns3/double.h"
#include <ns3/enum.h>
#include "ns3/boolean.h"
#include "ns3/mobility-helper.h"
#include "ns3/lte-helper.h"
#include "ns3/ff-mac-scheduler.h"
#include "ns3/lte-enb-phy.h"
#include "ns3/lte-enb-net-device.h"
#include "ns3/lte-ue-phy.h"
#include "ns3/lte-ue-net-device.h"
#include "lte-test-interference.h"
#include "lte-test-sinr-chunk-processor.h"
NS_LOG_COMPONENT_DEFINE ("LteInterferenceTest");
namespace ns3 {
void
LteTestDlSchedulingCallback (LteInterferenceTestCase *testcase, std::string path,
uint32_t frameNo, uint32_t subframeNo, uint16_t rnti,
uint8_t mcsTb1, uint16_t sizeTb1, uint8_t mcsTb2, uint16_t sizeTb2)
{
testcase->DlScheduling (frameNo, subframeNo, rnti, mcsTb1, sizeTb1, mcsTb2, sizeTb2);
}
void
LteTestUlSchedulingCallback (LteInterferenceTestCase *testcase, std::string path,
uint32_t frameNo, uint32_t subframeNo, uint16_t rnti,
uint8_t mcs, uint16_t sizeTb)
{
testcase->UlScheduling (frameNo, subframeNo, rnti, mcs, sizeTb);
}
/**
* TestSuite
*/
LteInterferenceTestSuite::LteInterferenceTestSuite ()
: TestSuite ("lte-interference", SYSTEM)
{
AddTestCase (new LteInterferenceTestCase ("d1=3000, d2=6000", 3000.000000, 6000.000000, 3.844681, 1.714583, 0.761558, 0.389662, 6, 4), TestCase::QUICK);
AddTestCase (new LteInterferenceTestCase ("d1=50, d2=10", 50.000000, 10.000000, 0.040000, 0.040000, 0.010399, 0.010399, 0, 0), TestCase::QUICK);
AddTestCase (new LteInterferenceTestCase ("d1=50, d2=20", 50.000000, 20.000000, 0.160000, 0.159998, 0.041154, 0.041153, 0, 0), TestCase::QUICK);
AddTestCase (new LteInterferenceTestCase ("d1=50, d2=50", 50.000000, 50.000000, 0.999997, 0.999907, 0.239828, 0.239808, 2, 2), TestCase::QUICK);
AddTestCase (new LteInterferenceTestCase ("d1=50, d2=100", 50.000000, 100.000000, 3.999955, 3.998520, 0.785259, 0.785042, 6, 6), TestCase::QUICK);
AddTestCase (new LteInterferenceTestCase ("d1=50, d2=200", 50.000000, 200.000000, 15.999282, 15.976339, 1.961072, 1.959533, 14, 14), TestCase::QUICK);
AddTestCase (new LteInterferenceTestCase ("d1=50, d2=500", 50.000000, 500.000000, 99.971953, 99.082845, 4.254003, 4.241793, 22, 22), TestCase::QUICK);
AddTestCase (new LteInterferenceTestCase ("d1=50, d2=1000", 50.000000, 1000.000000, 399.551632, 385.718468, 6.194952, 6.144825, 28, 28), TestCase::QUICK);
AddTestCase (new LteInterferenceTestCase ("d1=50, d2=10000", 50.000000, 10000.000000, 35964.181431, 8505.970614, 12.667381, 10.588084, 28, 28), TestCase::QUICK);
AddTestCase (new LteInterferenceTestCase ("d1=50, d2=100000", 50.000000, 100000.000000, 327284.773828, 10774.181090, 15.853097, 10.928917, 28, 28), TestCase::QUICK);
AddTestCase (new LteInterferenceTestCase ("d1=50, d2=1000000", 50.000000, 1000000.000000, 356132.574152, 10802.988445, 15.974963, 10.932767, 28, 28), TestCase::QUICK);
AddTestCase (new LteInterferenceTestCase ("d1=4500, d2=12600", 4500.000000, 12600.000000, 6.654462, 1.139831, 1.139781, 0.270399, 8, 2), TestCase::QUICK);
AddTestCase (new LteInterferenceTestCase ("d1=5400, d2=12600", 5400.000000, 12600.000000, 4.621154, 0.791549, 0.876368, 0.193019, 6, 0), TestCase::QUICK);
}
static LteInterferenceTestSuite lteLinkAdaptationWithInterferenceTestSuite;
/**
* TestCase
*/
LteInterferenceTestCase::LteInterferenceTestCase (std::string name, double d1, double d2, double dlSinr, double ulSinr, double dlSe, double ulSe, uint16_t dlMcs, uint16_t ulMcs)
: TestCase (name),
m_d1 (d1),
m_d2 (d2),
m_dlSinrDb (10 * std::log10 (dlSinr)),
m_ulSinrDb (10 * std::log10 (ulSinr)),
m_dlSe (dlSe),
m_ulSe (ulSe),
m_dlMcs (dlMcs),
m_ulMcs (ulMcs)
{
}
LteInterferenceTestCase::~LteInterferenceTestCase ()
{
}
void
LteInterferenceTestCase::DoRun (void)
{
NS_LOG_INFO (this << GetName ());
Config::SetDefault ("ns3::LteSpectrumPhy::CtrlErrorModelEnabled", BooleanValue (false));
Config::SetDefault ("ns3::LteSpectrumPhy::DataErrorModelEnabled", BooleanValue (false));
Config::SetDefault ("ns3::LteAmc::AmcModel", EnumValue (LteAmc::PiroEW2010));
Config::SetDefault ("ns3::LteAmc::Ber", DoubleValue (0.00005));
Ptr<LteHelper> lteHelper = CreateObject<LteHelper> ();
lteHelper->SetAttribute ("PathlossModel", StringValue ("ns3::FriisSpectrumPropagationLossModel"));
lteHelper->SetAttribute ("UseIdealRrc", BooleanValue (false));
// Create Nodes: eNodeB and UE
NodeContainer enbNodes;
NodeContainer ueNodes1;
NodeContainer ueNodes2;
enbNodes.Create (2);
ueNodes1.Create (1);
ueNodes2.Create (1);
NodeContainer allNodes = NodeContainer ( enbNodes, ueNodes1, ueNodes2);
// the topology is the following:
// d2
// UE1-----------eNB2
// | |
// d1| |d1
// | d2 |
// eNB1----------UE2
//
Ptr<ListPositionAllocator> positionAlloc = CreateObject<ListPositionAllocator> ();
positionAlloc->Add (Vector (0.0, 0.0, 0.0)); // eNB1
positionAlloc->Add (Vector (m_d2, m_d1, 0.0)); // eNB2
positionAlloc->Add (Vector (0.0, m_d1, 0.0)); // UE1
positionAlloc->Add (Vector (m_d2, 0.0, 0.0)); // UE2
MobilityHelper mobility;
mobility.SetMobilityModel ("ns3::ConstantPositionMobilityModel");
mobility.SetPositionAllocator (positionAlloc);
mobility.Install (allNodes);
// Create Devices and install them in the Nodes (eNB and UE)
NetDeviceContainer enbDevs;
NetDeviceContainer ueDevs1;
NetDeviceContainer ueDevs2;
lteHelper->SetSchedulerType ("ns3::RrFfMacScheduler");
lteHelper->SetSchedulerAttribute ("UlCqiFilter", EnumValue (FfMacScheduler::PUSCH_UL_CQI));
enbDevs = lteHelper->InstallEnbDevice (enbNodes);
ueDevs1 = lteHelper->InstallUeDevice (ueNodes1);
ueDevs2 = lteHelper->InstallUeDevice (ueNodes2);
lteHelper->Attach (ueDevs1, enbDevs.Get (0));
lteHelper->Attach (ueDevs2, enbDevs.Get (1));
// Activate an EPS bearer
enum EpsBearer::Qci q = EpsBearer::GBR_CONV_VOICE;
EpsBearer bearer (q);
lteHelper->ActivateDataRadioBearer (ueDevs1, bearer);
lteHelper->ActivateDataRadioBearer (ueDevs2, bearer);
// Use testing chunk processor in the PHY layer
// It will be used to test that the SNR is as intended
// we plug in two instances, one for DL and one for UL
Ptr<LtePhy> ue1Phy = ueDevs1.Get (0)->GetObject<LteUeNetDevice> ()->GetPhy ()->GetObject<LtePhy> ();
Ptr<LteTestSinrChunkProcessor> testDlSinr1 = Create<LteTestSinrChunkProcessor> (ue1Phy);
ue1Phy->GetDownlinkSpectrumPhy ()->AddDataSinrChunkProcessor (testDlSinr1);
Ptr<LtePhy> enb1phy = enbDevs.Get (0)->GetObject<LteEnbNetDevice> ()->GetPhy ()->GetObject<LtePhy> ();
Ptr<LteTestSinrChunkProcessor> testUlSinr1 = Create<LteTestSinrChunkProcessor> (enb1phy);
enb1phy->GetUplinkSpectrumPhy ()->AddDataSinrChunkProcessor (testUlSinr1);
Config::Connect ("/NodeList/0/DeviceList/0/LteEnbMac/DlScheduling",
MakeBoundCallback (&LteTestDlSchedulingCallback, this));
Config::Connect ("/NodeList/0/DeviceList/0/LteEnbMac/UlScheduling",
MakeBoundCallback (&LteTestUlSchedulingCallback, this));
// same as above for eNB2 and UE2
Ptr<LtePhy> ue2Phy = ueDevs2.Get (0)->GetObject<LteUeNetDevice> ()->GetPhy ()->GetObject<LtePhy> ();
Ptr<LteTestSinrChunkProcessor> testDlSinr2 = Create<LteTestSinrChunkProcessor> (ue2Phy);
ue2Phy->GetDownlinkSpectrumPhy ()->AddDataSinrChunkProcessor (testDlSinr2);
Ptr<LtePhy> enb2phy = enbDevs.Get (1)->GetObject<LteEnbNetDevice> ()->GetPhy ()->GetObject<LtePhy> ();
Ptr<LteTestSinrChunkProcessor> testUlSinr2 = Create<LteTestSinrChunkProcessor> (enb2phy);
enb1phy->GetUplinkSpectrumPhy ()->AddDataSinrChunkProcessor (testUlSinr2);
Config::Connect ("/NodeList/1/DeviceList/0/LteEnbMac/DlScheduling",
MakeBoundCallback (&LteTestDlSchedulingCallback, this));
Config::Connect ("/NodeList/1/DeviceList/0/LteEnbMac/UlScheduling",
MakeBoundCallback (&LteTestUlSchedulingCallback, this));
// need to allow for RRC connection establishment + SRS
Simulator::Stop (Seconds (0.100));
Simulator::Run ();
if (m_dlMcs > 0)
{
double dlSinr1Db = 10.0 * std::log10 (testDlSinr1->GetSinr ()->operator[] (0));
NS_TEST_ASSERT_MSG_EQ_TOL (dlSinr1Db, m_dlSinrDb, 0.01, "Wrong SINR in DL! (eNB1 --> UE1)");
double dlSinr2Db = 10.0 * std::log10 (testDlSinr2->GetSinr ()->operator[] (0));
NS_TEST_ASSERT_MSG_EQ_TOL (dlSinr2Db, m_dlSinrDb, 0.01, "Wrong SINR in DL! (eNB2 --> UE2)");
}
if (m_ulMcs > 0)
{
double ulSinr1Db = 10.0 * std::log10 (testUlSinr1->GetSinr ()->operator[] (0));
NS_TEST_ASSERT_MSG_EQ_TOL (ulSinr1Db, m_ulSinrDb, 0.01, "Wrong SINR in UL! (UE1 --> eNB1)");
double ulSinr2Db = 10.0 * std::log10 (testUlSinr2->GetSinr ()->operator[] (0));
NS_TEST_ASSERT_MSG_EQ_TOL (ulSinr2Db, m_ulSinrDb, 0.01, "Wrong SINR in UL! (UE2 --> eNB2)");
}
Simulator::Destroy ();
}
void
LteInterferenceTestCase::DlScheduling (uint32_t frameNo, uint32_t subframeNo, uint16_t rnti,
uint8_t mcsTb1, uint16_t sizeTb1, uint8_t mcsTb2, uint16_t sizeTb2)
{
// need to allow for RRC connection establishment + CQI feedback reception
if (Simulator::Now () > MilliSeconds (35))
{
NS_TEST_ASSERT_MSG_EQ ((uint32_t)mcsTb1, (uint32_t)m_dlMcs, "Wrong DL MCS ");
}
}
void
LteInterferenceTestCase::UlScheduling (uint32_t frameNo, uint32_t subframeNo, uint16_t rnti,
uint8_t mcs, uint16_t sizeTb)
{
// need to allow for RRC connection establishment + SRS transmission
if (Simulator::Now () > MilliSeconds (50))
{
NS_TEST_ASSERT_MSG_EQ ((uint32_t)mcs, (uint32_t)m_ulMcs, "Wrong UL MCS");
}
}
} // namespace ns3