A Discrete-Event Network Simulator
API
test-lte-antenna.cc
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1 /* -*- Mode: C++; c-file-style: "gnu"; indent-tabs-mode:nil; -*- */
2 /*
3  * Copyright (c) 2011, 2012 Centre Tecnologic de Telecomunicacions de Catalunya (CTTC)
4  *
5  * This program is free software; you can redistribute it and/or modify
6  * it under the terms of the GNU General Public License version 2 as
7  * published by the Free Software Foundation;
8  *
9  * This program is distributed in the hope that it will be useful,
10  * but WITHOUT ANY WARRANTY; without even the implied warranty of
11  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
12  * GNU General Public License for more details.
13  *
14  * You should have received a copy of the GNU General Public License
15  * along with this program; if not, write to the Free Software
16  * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
17  *
18  * Author: Manuel Requena <manuel.requena@cttc.es>
19  * Nicola Baldo <nbaldo@cttc.es>
20  */
21 
22 #include "ns3/simulator.h"
23 #include "ns3/log.h"
24 #include "ns3/string.h"
25 #include "ns3/double.h"
26 #include "ns3/enum.h"
27 #include "ns3/boolean.h"
28 #include "ns3/test.h"
29 #include "ns3/mobility-helper.h"
30 #include "ns3/lte-helper.h"
31 
32 #include "ns3/lte-ue-phy.h"
33 #include "ns3/lte-ue-net-device.h"
34 #include "ns3/lte-enb-phy.h"
35 #include "ns3/lte-enb-net-device.h"
36 #include "ns3/ff-mac-scheduler.h"
37 
38 #include "ns3/lte-global-pathloss-database.h"
39 
40 #include <ns3/lte-chunk-processor.h>
41 
42 
43 using namespace ns3;
44 
45 NS_LOG_COMPONENT_DEFINE ("LteAntennaTest");
46 
47 
57 class LteEnbAntennaTestCase : public TestCase
58 {
59 public:
68  static std::string BuildNameString (double orientationDegrees, double beamwidthDegrees, double x, double y);
78  LteEnbAntennaTestCase (double orientationDegrees, double beamwidthDegrees, double x, double y, double antennaGainDb);
79  LteEnbAntennaTestCase ();
80  virtual ~LteEnbAntennaTestCase ();
81 
82 private:
83  virtual void DoRun (void);
84 
85  double m_orientationDegrees;
86  double m_beamwidthDegrees;
87  double m_x;
88  double m_y;
89  double m_antennaGainDb;
90 };
91 
92 
93 
94 
95 std::string LteEnbAntennaTestCase::BuildNameString (double orientationDegrees, double beamwidthDegrees, double x, double y)
96 {
97  std::ostringstream oss;
98  oss << "o=" << orientationDegrees
99  << ", bw=" << beamwidthDegrees
100  << ", x=" << x
101  << ", y=" << y;
102  return oss.str ();
103 }
104 
105 
106 LteEnbAntennaTestCase::LteEnbAntennaTestCase (double orientationDegrees, double beamwidthDegrees, double x, double y, double antennaGainDb)
107  : TestCase (BuildNameString (orientationDegrees, beamwidthDegrees, x, y)),
108  m_orientationDegrees (orientationDegrees),
109  m_beamwidthDegrees (beamwidthDegrees),
110  m_x (x),
111  m_y (y),
112  m_antennaGainDb (antennaGainDb)
113 {
114  NS_LOG_FUNCTION (this);
115 }
116 
117 LteEnbAntennaTestCase::~LteEnbAntennaTestCase ()
118 {
119 }
120 
121 void
122 LteEnbAntennaTestCase::DoRun (void)
123 {
124  Config::Reset ();
125  Config::SetDefault ("ns3::LteSpectrumPhy::CtrlErrorModelEnabled", BooleanValue (false));
126  Config::SetDefault ("ns3::LteSpectrumPhy::DataErrorModelEnabled", BooleanValue (false));
127  Config::SetDefault ("ns3::LteHelper::UseIdealRrc", BooleanValue (true));
128 
129  //Disable Uplink Power Control
130  Config::SetDefault ("ns3::LteUePhy::EnableUplinkPowerControl", BooleanValue (false));
131 
132  Ptr<LteHelper> lteHelper = CreateObject<LteHelper> ();
133 
134  // use 0dB Pathloss, since we are testing only the antenna gain
135  lteHelper->SetAttribute ("PathlossModel", StringValue ("ns3::ConstantSpectrumPropagationLossModel"));
136  lteHelper->SetPathlossModelAttribute ("Loss", DoubleValue (0.0));
137 
138  // Create Nodes: eNodeB and UE
139  NodeContainer enbNodes;
140  NodeContainer ueNodes;
141  enbNodes.Create (1);
142  ueNodes.Create (1);
143  NodeContainer allNodes = NodeContainer ( enbNodes, ueNodes );
144 
145  // Install Mobility Model
146  Ptr<ListPositionAllocator> positionAlloc = CreateObject<ListPositionAllocator> ();
147  positionAlloc->Add (Vector (0.0, 0.0, 0.0)); // eNB
148  positionAlloc->Add (Vector (m_x, m_y, 0.0)); // UE
149  MobilityHelper mobility;
150  mobility.SetMobilityModel ("ns3::ConstantPositionMobilityModel");
151  mobility.SetPositionAllocator (positionAlloc);
152  mobility.Install (allNodes);
153 
154  // Create Devices and install them in the Nodes (eNB and UE)
155  NetDeviceContainer enbDevs;
156  NetDeviceContainer ueDevs;
157  lteHelper->SetSchedulerType ("ns3::RrFfMacScheduler");
158  lteHelper->SetSchedulerAttribute ("UlCqiFilter", EnumValue (FfMacScheduler::PUSCH_UL_CQI));
159  lteHelper->SetEnbAntennaModelType ("ns3::CosineAntennaModel");
160  lteHelper->SetEnbAntennaModelAttribute ("Orientation", DoubleValue (m_orientationDegrees));
161  lteHelper->SetEnbAntennaModelAttribute ("HorizontalBeamwidth", DoubleValue (m_beamwidthDegrees));
162  lteHelper->SetEnbAntennaModelAttribute ("MaxGain", DoubleValue (0.0));
163 
164  // set DL and UL bandwidth.
165  lteHelper->SetEnbDeviceAttribute ("DlBandwidth", UintegerValue (25));
166  lteHelper->SetEnbDeviceAttribute ("UlBandwidth", UintegerValue (25));
167 
168  enbDevs = lteHelper->InstallEnbDevice (enbNodes);
169  ueDevs = lteHelper->InstallUeDevice (ueNodes);
170 
171  // Attach a UE to a eNB
172  lteHelper->Attach (ueDevs, enbDevs.Get (0));
173 
174  // Activate the default EPS bearer
175  enum EpsBearer::Qci q = EpsBearer::NGBR_VIDEO_TCP_DEFAULT;
176  EpsBearer bearer (q);
177  lteHelper->ActivateDataRadioBearer (ueDevs, bearer);
178 
179  // Use testing chunk processor in the PHY layer
180  // It will be used to test that the SNR is as intended
181  Ptr<LtePhy> uePhy = ueDevs.Get (0)->GetObject<LteUeNetDevice> ()->GetPhy ()->GetObject<LtePhy> ();
182  Ptr<LteChunkProcessor> testDlSinr = Create<LteChunkProcessor> ();
183  LteSpectrumValueCatcher dlSinrCatcher;
184  testDlSinr->AddCallback (MakeCallback (&LteSpectrumValueCatcher::ReportValue, &dlSinrCatcher));
185  uePhy->GetDownlinkSpectrumPhy ()->AddDataSinrChunkProcessor (testDlSinr);
186 
187  Ptr<LtePhy> enbphy = enbDevs.Get (0)->GetObject<LteEnbNetDevice> ()->GetPhy ()->GetObject<LtePhy> ();
188  Ptr<LteChunkProcessor> testUlSinr = Create<LteChunkProcessor> ();
189  LteSpectrumValueCatcher ulSinrCatcher;
190  testUlSinr->AddCallback (MakeCallback (&LteSpectrumValueCatcher::ReportValue, &ulSinrCatcher));
191  enbphy->GetUplinkSpectrumPhy ()->AddDataSinrChunkProcessor (testUlSinr);
192 
193 
194  // keep track of all path loss values in two centralized objects
195  DownlinkLteGlobalPathlossDatabase dlPathlossDb;
196  UplinkLteGlobalPathlossDatabase ulPathlossDb;
197  // we rely on the fact that LteHelper creates the DL channel object first, then the UL channel object,
198  // hence the former will have index 0 and the latter 1
199  Config::Connect ("/ChannelList/0/PathLoss",
200  MakeCallback (&DownlinkLteGlobalPathlossDatabase::UpdatePathloss, &dlPathlossDb));
201  Config::Connect ("/ChannelList/1/PathLoss",
202  MakeCallback (&UplinkLteGlobalPathlossDatabase::UpdatePathloss, &ulPathlossDb));
203 
204  Simulator::Stop (Seconds (0.035));
205  Simulator::Run ();
206 
207  const double enbTxPowerDbm = 30; // default eNB TX power over whole bandwidth
208  const double ueTxPowerDbm = 10; // default UE TX power over whole bandwidth
209  const double ktDbm = -174; // reference LTE noise PSD
210  const double noisePowerDbm = ktDbm + 10 * std::log10 (25 * 180000); // corresponds to kT*bandwidth in linear units
211  const double ueNoiseFigureDb = 9.0; // default UE noise figure
212  const double enbNoiseFigureDb = 5.0; // default eNB noise figure
213  double tolerance = (m_antennaGainDb != 0) ? std::abs (m_antennaGainDb) * 0.001 : 0.001;
214 
215  // first test with SINR from LteChunkProcessor
216  // this can only be done for not-too-bad SINR otherwise the measurement won't be available
217  double expectedSinrDl = enbTxPowerDbm + m_antennaGainDb - noisePowerDbm + ueNoiseFigureDb;
218  if (expectedSinrDl > 0)
219  {
220  double calculatedSinrDbDl = -INFINITY;
221  if (dlSinrCatcher.GetValue () != 0)
222  {
223  calculatedSinrDbDl = 10.0 * std::log10 (dlSinrCatcher.GetValue ()->operator[] (0));
224  }
225  // remember that propagation loss is 0dB
226  double calculatedAntennaGainDbDl = - (enbTxPowerDbm - calculatedSinrDbDl - noisePowerDbm - ueNoiseFigureDb);
227  NS_LOG_INFO ("expected " << m_antennaGainDb << " actual " << calculatedAntennaGainDbDl << " tol " << tolerance);
228  NS_TEST_ASSERT_MSG_EQ_TOL (calculatedAntennaGainDbDl, m_antennaGainDb, tolerance, "Wrong DL antenna gain!");
229  }
230  double expectedSinrUl = ueTxPowerDbm + m_antennaGainDb - noisePowerDbm + enbNoiseFigureDb;
231  if (expectedSinrUl > 0)
232  {
233  double calculatedSinrDbUl = -INFINITY;
234  if (ulSinrCatcher.GetValue () != 0)
235  {
236  calculatedSinrDbUl = 10.0 * std::log10 (ulSinrCatcher.GetValue ()->operator[] (0));
237  }
238  double calculatedAntennaGainDbUl = - (ueTxPowerDbm - calculatedSinrDbUl - noisePowerDbm - enbNoiseFigureDb);
239  NS_TEST_ASSERT_MSG_EQ_TOL (calculatedAntennaGainDbUl, m_antennaGainDb, tolerance, "Wrong UL antenna gain!");
240  }
241 
242 
243  // repeat the same tests with the LteGlobalPathlossDatabases
244  double measuredLossDl = dlPathlossDb.GetPathloss (1, 1);
245  NS_TEST_ASSERT_MSG_EQ_TOL (measuredLossDl, -m_antennaGainDb, tolerance, "Wrong DL loss!");
246  double measuredLossUl = ulPathlossDb.GetPathloss (1, 1);
247  NS_TEST_ASSERT_MSG_EQ_TOL (measuredLossUl, -m_antennaGainDb, tolerance, "Wrong UL loss!");
248 
249 
250  Simulator::Destroy ();
251 }
252 
253 
260 class LteAntennaTestSuite : public TestSuite
261 {
262 public:
263  LteAntennaTestSuite ();
264 };
265 
266 
267 LteAntennaTestSuite::LteAntennaTestSuite ()
268  : TestSuite ("lte-antenna", SYSTEM)
269 {
270  NS_LOG_FUNCTION (this);
271 
272  // orientation beamwidth x y gain
273  AddTestCase (new LteEnbAntennaTestCase ( 0.0, 90.0, 1.0, 0.0, 0.0), TestCase::QUICK);
274  AddTestCase (new LteEnbAntennaTestCase ( 0.0, 90.0, 1.0, 1.0, -3.0), TestCase::QUICK);
275  AddTestCase (new LteEnbAntennaTestCase ( 0.0, 90.0, 1.0, -1.0, -3.0), TestCase::QUICK);
276  AddTestCase (new LteEnbAntennaTestCase ( 0.0, 90.0, -1.0, -1.0, -36.396), TestCase::QUICK);
277  AddTestCase (new LteEnbAntennaTestCase ( 0.0, 90.0, -1.0, -0.0, -1414.6), TestCase::QUICK);
278  AddTestCase (new LteEnbAntennaTestCase ( 0.0, 90.0, -1.0, 1.0, -36.396), TestCase::QUICK);
279  AddTestCase (new LteEnbAntennaTestCase ( 45.0, 90.0, 1.0, 1.0, 0.0), TestCase::QUICK);
280  AddTestCase (new LteEnbAntennaTestCase ( -45.0, 90.0, 1.0, -1.0, 0.0), TestCase::QUICK);
281  AddTestCase (new LteEnbAntennaTestCase ( 90.0, 90.0, 1.0, 1.0, -3.0), TestCase::QUICK);
282  AddTestCase (new LteEnbAntennaTestCase ( -90.0, 90.0, 1.0, -1.0, -3.0), TestCase::QUICK);
283 
284  AddTestCase (new LteEnbAntennaTestCase ( 0.0, 120.0, 1.0, 0.0, 0.0), TestCase::QUICK);
285  AddTestCase (new LteEnbAntennaTestCase ( 0.0, 120.0, 0.5, sin(M_PI/3), -3.0), TestCase::QUICK);
286  AddTestCase (new LteEnbAntennaTestCase ( 0.0, 120.0, 0.5, -sin(M_PI/3), -3.0), TestCase::QUICK);
287  AddTestCase (new LteEnbAntennaTestCase ( 0.0, 120.0, -1.0, -2.0, -13.410), TestCase::QUICK);
288  AddTestCase (new LteEnbAntennaTestCase ( 0.0, 120.0, -1.0, 1.0, -20.034), TestCase::QUICK);
289  AddTestCase (new LteEnbAntennaTestCase ( 60.0, 120.0, 0.5, sin(M_PI/3), 0.0), TestCase::QUICK);
290  AddTestCase (new LteEnbAntennaTestCase ( -60.0, 120.0, 0.5, -sin(M_PI/3), 0.0), TestCase::QUICK);
291  AddTestCase (new LteEnbAntennaTestCase ( -60.0, 120.0, 0.5, -sin(M_PI/3), 0.0), TestCase::QUICK);
292  AddTestCase (new LteEnbAntennaTestCase ( -120.0, 120.0, -0.5, -sin(M_PI/3), 0.0), TestCase::QUICK);
293  AddTestCase (new LteEnbAntennaTestCase ( -120.0, 120.0, 0.5, -sin(M_PI/3), -3.0), TestCase::QUICK);
294  AddTestCase (new LteEnbAntennaTestCase ( -120.0, 120.0, -1, 0, -3.0), TestCase::QUICK);
295  AddTestCase (new LteEnbAntennaTestCase ( -120.0, 120.0, -1, 2, -15.578), TestCase::QUICK);
296  AddTestCase (new LteEnbAntennaTestCase ( -120.0, 120.0, 1, 0, -14.457), TestCase::QUICK);
297  AddTestCase (new LteEnbAntennaTestCase ( -120.0, 120.0, 1, 2, -73.154), TestCase::QUICK);
298  AddTestCase (new LteEnbAntennaTestCase ( -120.0, 120.0, 1, -0.1, -12.754), TestCase::QUICK);
299 
300 
301 }
302 
303 static LteAntennaTestSuite lteAntennaTestSuite;
LteAntennaTestSuite
Lte Enb Antenna Test Suite.
Definition: test-lte-antenna.cc:261
LteEnbAntennaTestCase
Tests that the propagation model and the antenna parameters are generate the correct values.
Definition: test-lte-antenna.cc:58
LteEnbAntennaTestCase::m_orientationDegrees
double m_orientationDegrees
antenna orientation in degrees
Definition: test-lte-antenna.cc:85
LteEnbAntennaTestCase::m_antennaGainDb
double m_antennaGainDb
antenna gain in dB
Definition: test-lte-antenna.cc:89
LteEnbAntennaTestCase::BuildNameString
static std::string BuildNameString(double orientationDegrees, double beamwidthDegrees, double x, double y)
Build name string.
Definition: test-lte-antenna.cc:95
LteEnbAntennaTestCase::DoRun
virtual void DoRun(void)
Implementation to actually run this TestCase.
Definition: test-lte-antenna.cc:122
LteEnbAntennaTestCase::m_x
double m_x
x position of the UE
Definition: test-lte-antenna.cc:87
LteEnbAntennaTestCase::m_beamwidthDegrees
double m_beamwidthDegrees
antenna beamwidth in degrees
Definition: test-lte-antenna.cc:86
LteEnbAntennaTestCase::m_y
double m_y
y position of the UE
Definition: test-lte-antenna.cc:88
ns3::BooleanValue
AttributeValue implementation for Boolean.
Definition: boolean.h:37
ns3::DoubleValue
This class can be used to hold variables of floating point type such as 'double' or 'float'.
Definition: double.h:41
ns3::EnumValue
Hold variables of type enum.
Definition: enum.h:55
ns3::EpsBearer
This class contains the specification of EPS Bearers.
Definition: eps-bearer.h:92
ns3::EpsBearer::Qci
Qci
QoS Class Indicator.
Definition: eps-bearer.h:107
ns3::LteEnbNetDevice
The eNodeB device implementation.
Definition: lte-enb-net-device.h:57
ns3::LteGlobalPathlossDatabase::GetPathloss
double GetPathloss(uint16_t cellId, uint64_t imsi)
Definition: lte-global-pathloss-database.cc:56
ns3::LteHelper::SetSchedulerAttribute
void SetSchedulerAttribute(std::string n, const AttributeValue &v)
Set an attribute for the scheduler to be created.
Definition: lte-helper.cc:293
ns3::LteHelper::InstallEnbDevice
NetDeviceContainer InstallEnbDevice(NodeContainer c)
Create a set of eNodeB devices.
Definition: lte-helper.cc:474
ns3::LteHelper::SetEnbAntennaModelType
void SetEnbAntennaModelType(std::string type)
Set the type of antenna model to be used by eNodeB devices.
Definition: lte-helper.cc:408
ns3::LteHelper::SetSchedulerType
void SetSchedulerType(std::string type)
Set the type of scheduler to be used by eNodeB devices.
Definition: lte-helper.cc:279
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:959
ns3::LteHelper::SetPathlossModelAttribute
void SetPathlossModelAttribute(std::string n, const AttributeValue &v)
Set an attribute for the path loss models to be created.
Definition: lte-helper.cc:393
ns3::LteHelper::SetEnbAntennaModelAttribute
void SetEnbAntennaModelAttribute(std::string n, const AttributeValue &v)
Set an attribute for the eNodeB antenna model to be created.
Definition: lte-helper.cc:415
ns3::LteHelper::SetEnbDeviceAttribute
void SetEnbDeviceAttribute(std::string n, const AttributeValue &v)
Set an attribute for the eNodeB devices (LteEnbNetDevice) to be created.
Definition: lte-helper.cc:400
ns3::LteHelper::ActivateDataRadioBearer
void ActivateDataRadioBearer(NetDeviceContainer ueDevices, EpsBearer bearer)
Activate a Data Radio Bearer on a given UE devices (for LTE-only simulation).
Definition: lte-helper.cc:1313
ns3::LteHelper::InstallUeDevice
NetDeviceContainer InstallUeDevice(NodeContainer c)
Create a set of UE devices.
Definition: lte-helper.cc:489
ns3::LtePhy
The LtePhy models the physical layer of LTE.
Definition: lte-phy.h:53
ns3::LteSpectrumValueCatcher
A sink to be plugged to the callback of LteChunkProcessor allowing to save and later retrieve the lat...
Definition: lte-chunk-processor.h:104
ns3::LteSpectrumValueCatcher::GetValue
Ptr< SpectrumValue > GetValue()
Definition: lte-chunk-processor.cc:97
ns3::LteUeNetDevice
The LteUeNetDevice class implements the UE net device.
Definition: lte-ue-net-device.h:57
ns3::MobilityHelper
Helper class used to assign positions and mobility models to nodes.
Definition: mobility-helper.h:43
ns3::NetDeviceContainer
holds a vector of ns3::NetDevice pointers
Definition: net-device-container.h:42
ns3::NetDeviceContainer::Get
Ptr< NetDevice > Get(uint32_t i) const
Get the Ptr<NetDevice> stored in this container at a given index.
Definition: net-device-container.cc:62
ns3::NodeContainer
keep track of a set of node pointers.
Definition: node-container.h:39
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:98
ns3::ObjectBase::SetAttribute
void SetAttribute(std::string name, const AttributeValue &value)
Set a single attribute, raising fatal errors if unsuccessful.
Definition: object-base.cc:256
ns3::Object::GetObject
Ptr< T > GetObject(void) const
Get a pointer to the requested aggregated Object.
Definition: object.h:470
ns3::StringValue
Hold variables of type string.
Definition: string.h:41
ns3::TestCase
encapsulates test code
Definition: test.h:994
ns3::TestCase::AddTestCase
void AddTestCase(TestCase *testCase, TestDuration duration=QUICK)
Add an individual child TestCase to this test suite.
Definition: test.cc:299
ns3::TestSuite
A suite of tests to run.
Definition: test.h:1188
ns3::UintegerValue
Hold an unsigned integer type.
Definition: uinteger.h:44
ns3::Config::Reset
void Reset(void)
Reset the initial value of every attribute as well as the value of every global to what they were bef...
Definition: config.cc:820
ns3::Config::SetDefault
void SetDefault(std::string name, const AttributeValue &value)
Definition: config.cc:849
ns3::Config::Connect
void Connect(std::string path, const CallbackBase &cb)
Definition: config.cc:920
NS_LOG_COMPONENT_DEFINE
#define NS_LOG_COMPONENT_DEFINE(name)
Define a Log component with a specific name.
Definition: log.h:205
NS_LOG_FUNCTION
#define NS_LOG_FUNCTION(parameters)
If log level LOG_FUNCTION is enabled, this macro will output all input parameters separated by ",...
Definition: log-macros-enabled.h:244
NS_LOG_INFO
#define NS_LOG_INFO(msg)
Use NS_LOG to output a message of level LOG_INFO.
Definition: log.h:281
NS_TEST_ASSERT_MSG_EQ_TOL
#define NS_TEST_ASSERT_MSG_EQ_TOL(actual, limit, tol, msg)
Test that actual and expected (limit) values are equal to plus or minus some tolerance and report and...
Definition: test.h:323
ns3::Seconds
Time Seconds(double value)
Construct a Time in the indicated unit.
Definition: nstime.h:1244
ns3
Every class exported by the ns3 library is enclosed in the ns3 namespace.
ns3::MakeCallback
Callback< R, Ts... > MakeCallback(R(T::*memPtr)(Ts...), OBJ objPtr)
Build Callbacks for class method members which take varying numbers of arguments and potentially retu...
Definition: callback.h:1648
sample-rng-plot.x
list x
Random number samples.
Definition: sample-rng-plot.py:37
third.mobility
mobility
Definition: third.py:108
lteAntennaTestSuite
static LteAntennaTestSuite lteAntennaTestSuite
Definition: test-lte-antenna.cc:303