A Discrete-Event Network Simulator
API
lena-dual-stripe.cc
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1 /* -*- Mode: C++; c-file-style: "gnu"; indent-tabs-mode:nil; -*- */
2 /*
3  * Copyright (c) 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: Nicola Baldo <nbaldo@cttc.es>
19  */
20 
21 #include <ns3/core-module.h>
22 #include <ns3/network-module.h>
23 #include <ns3/mobility-module.h>
24 #include <ns3/internet-module.h>
25 #include <ns3/lte-module.h>
26 #include <ns3/config-store-module.h>
27 #include <ns3/buildings-module.h>
28 #include <ns3/point-to-point-helper.h>
29 #include <ns3/applications-module.h>
30 #include <ns3/log.h>
31 #include <iomanip>
32 #include <ios>
33 #include <string>
34 #include <vector>
35 
36 // The topology of this simulation program is inspired from
37 // 3GPP R4-092042, Section 4.2.1 Dual Stripe Model
38 // note that the term "apartments" used in that document matches with
39 // the term "room" used in the BuildingsMobilityModel
40 
41 using namespace ns3;
42 
43 NS_LOG_COMPONENT_DEFINE ("LenaDualStripe");
44 
45 bool AreOverlapping (Box a, Box b)
46 {
47  return !((a.xMin > b.xMax) || (b.xMin > a.xMax) || (a.yMin > b.yMax) || (b.yMin > a.yMax));
48 }
49 
56 {
57 public:
64  FemtocellBlockAllocator (Box area, uint32_t nApartmentsX, uint32_t nFloors);
69  void Create (uint32_t n);
71  void Create ();
72 
73 private:
79  bool OverlapsWithAnyPrevious (Box box);
81  uint32_t m_nApartmentsX;
82  uint32_t m_nFloors;
83  std::list<Box> m_previousBlocks;
84  double m_xSize;
85  double m_ySize;
88 
89 };
90 
91 FemtocellBlockAllocator::FemtocellBlockAllocator (Box area, uint32_t nApartmentsX, uint32_t nFloors)
92  : m_area (area),
93  m_nApartmentsX (nApartmentsX),
94  m_nFloors (nFloors),
95  m_xSize (nApartmentsX*10 + 20),
96  m_ySize (70)
97 {
98  m_xMinVar = CreateObject<UniformRandomVariable> ();
99  m_xMinVar->SetAttribute ("Min", DoubleValue (area.xMin));
100  m_xMinVar->SetAttribute ("Max", DoubleValue (area.xMax - m_xSize));
101  m_yMinVar = CreateObject<UniformRandomVariable> ();
102  m_yMinVar->SetAttribute ("Min", DoubleValue (area.yMin));
103  m_yMinVar->SetAttribute ("Max", DoubleValue (area.yMax - m_ySize));
104 }
105 
106 void
108 {
109  for (uint32_t i = 0; i < n; ++i)
110  {
111  Create ();
112  }
113 }
114 
115 void
117 {
118  Box box;
119  uint32_t attempt = 0;
120  do
121  {
122  NS_ASSERT_MSG (attempt < 100, "Too many failed attempts to position apartment block. Too many blocks? Too small area?");
123  box.xMin = m_xMinVar->GetValue ();
124  box.xMax = box.xMin + m_xSize;
125  box.yMin = m_yMinVar->GetValue ();
126  box.yMax = box.yMin + m_ySize;
127  ++attempt;
128  }
129  while (OverlapsWithAnyPrevious (box));
130 
131  NS_LOG_LOGIC ("allocated non overlapping block " << box);
132  m_previousBlocks.push_back (box);
133  Ptr<GridBuildingAllocator> gridBuildingAllocator;
134  gridBuildingAllocator = CreateObject<GridBuildingAllocator> ();
135  gridBuildingAllocator->SetAttribute ("GridWidth", UintegerValue (1));
136  gridBuildingAllocator->SetAttribute ("LengthX", DoubleValue (10*m_nApartmentsX));
137  gridBuildingAllocator->SetAttribute ("LengthY", DoubleValue (10*2));
138  gridBuildingAllocator->SetAttribute ("DeltaX", DoubleValue (10));
139  gridBuildingAllocator->SetAttribute ("DeltaY", DoubleValue (10));
140  gridBuildingAllocator->SetAttribute ("Height", DoubleValue (3*m_nFloors));
141  gridBuildingAllocator->SetBuildingAttribute ("NRoomsX", UintegerValue (m_nApartmentsX));
142  gridBuildingAllocator->SetBuildingAttribute ("NRoomsY", UintegerValue (2));
143  gridBuildingAllocator->SetBuildingAttribute ("NFloors", UintegerValue (m_nFloors));
144  gridBuildingAllocator->SetAttribute ("MinX", DoubleValue (box.xMin + 10));
145  gridBuildingAllocator->SetAttribute ("MinY", DoubleValue (box.yMin + 10));
146  gridBuildingAllocator->Create (2);
147 }
148 
149 bool
151 {
152  for (std::list<Box>::iterator it = m_previousBlocks.begin (); it != m_previousBlocks.end (); ++it)
153  {
154  if (AreOverlapping (*it, box))
155  {
156  return true;
157  }
158  }
159  return false;
160 }
161 
162 void
164 {
165  std::ofstream outFile;
166  outFile.open (filename.c_str (), std::ios_base::out | std::ios_base::trunc);
167  if (!outFile.is_open ())
168  {
169  NS_LOG_ERROR ("Can't open file " << filename);
170  return;
171  }
172  uint32_t index = 0;
173  for (BuildingList::Iterator it = BuildingList::Begin (); it != BuildingList::End (); ++it)
174  {
175  ++index;
176  Box box = (*it)->GetBoundaries ();
177  outFile << "set object " << index
178  << " rect from " << box.xMin << "," << box.yMin
179  << " to " << box.xMax << "," << box.yMax
180  << " front fs empty "
181  << std::endl;
182  }
183 }
184 
185 void
186 PrintGnuplottableUeListToFile (std::string filename)
187 {
188  std::ofstream outFile;
189  outFile.open (filename.c_str (), std::ios_base::out | std::ios_base::trunc);
190  if (!outFile.is_open ())
191  {
192  NS_LOG_ERROR ("Can't open file " << filename);
193  return;
194  }
195  for (NodeList::Iterator it = NodeList::Begin (); it != NodeList::End (); ++it)
196  {
197  Ptr<Node> node = *it;
198  int nDevs = node->GetNDevices ();
199  for (int j = 0; j < nDevs; j++)
200  {
201  Ptr<LteUeNetDevice> uedev = node->GetDevice (j)->GetObject <LteUeNetDevice> ();
202  if (uedev)
203  {
204  Vector pos = node->GetObject<MobilityModel> ()->GetPosition ();
205  outFile << "set label \"" << uedev->GetImsi ()
206  << "\" at "<< pos.x << "," << pos.y << " left font \"Helvetica,4\" textcolor rgb \"grey\" front point pt 1 ps 0.3 lc rgb \"grey\" offset 0,0"
207  << std::endl;
208  }
209  }
210  }
211 }
212 
213 void
214 PrintGnuplottableEnbListToFile (std::string filename)
215 {
216  std::ofstream outFile;
217  outFile.open (filename.c_str (), std::ios_base::out | std::ios_base::trunc);
218  if (!outFile.is_open ())
219  {
220  NS_LOG_ERROR ("Can't open file " << filename);
221  return;
222  }
223  for (NodeList::Iterator it = NodeList::Begin (); it != NodeList::End (); ++it)
224  {
225  Ptr<Node> node = *it;
226  int nDevs = node->GetNDevices ();
227  for (int j = 0; j < nDevs; j++)
228  {
229  Ptr<LteEnbNetDevice> enbdev = node->GetDevice (j)->GetObject <LteEnbNetDevice> ();
230  if (enbdev)
231  {
232  Vector pos = node->GetObject<MobilityModel> ()->GetPosition ();
233  outFile << "set label \"" << enbdev->GetCellId ()
234  << "\" at "<< pos.x << "," << pos.y
235  << " left font \"Helvetica,4\" textcolor rgb \"white\" front point pt 2 ps 0.3 lc rgb \"white\" offset 0,0"
236  << std::endl;
237  }
238  }
239  }
240 }
241 
242 
243 static ns3::GlobalValue g_nBlocks ("nBlocks",
244  "Number of femtocell blocks",
245  ns3::UintegerValue (1),
246  ns3::MakeUintegerChecker<uint32_t> ());
247 static ns3::GlobalValue g_nApartmentsX ("nApartmentsX",
248  "Number of apartments along the X axis in a femtocell block",
249  ns3::UintegerValue (10),
250  ns3::MakeUintegerChecker<uint32_t> ());
251 static ns3::GlobalValue g_nFloors ("nFloors",
252  "Number of floors",
253  ns3::UintegerValue (1),
254  ns3::MakeUintegerChecker<uint32_t> ());
255 static ns3::GlobalValue g_nMacroEnbSites ("nMacroEnbSites",
256  "How many macro sites there are",
257  ns3::UintegerValue (3),
258  ns3::MakeUintegerChecker<uint32_t> ());
259 static ns3::GlobalValue g_nMacroEnbSitesX ("nMacroEnbSitesX",
260  "(minimum) number of sites along the X-axis of the hex grid",
261  ns3::UintegerValue (1),
262  ns3::MakeUintegerChecker<uint32_t> ());
263 static ns3::GlobalValue g_interSiteDistance ("interSiteDistance",
264  "min distance between two nearby macro cell sites",
265  ns3::DoubleValue (500),
266  ns3::MakeDoubleChecker<double> ());
267 static ns3::GlobalValue g_areaMarginFactor ("areaMarginFactor",
268  "how much the UE area extends outside the macrocell grid, "
269  "expressed as fraction of the interSiteDistance",
270  ns3::DoubleValue (0.5),
271  ns3::MakeDoubleChecker<double> ());
272 static ns3::GlobalValue g_macroUeDensity ("macroUeDensity",
273  "How many macrocell UEs there are per square meter",
274  ns3::DoubleValue (0.00002),
275  ns3::MakeDoubleChecker<double> ());
276 static ns3::GlobalValue g_homeEnbDeploymentRatio ("homeEnbDeploymentRatio",
277  "The HeNB deployment ratio as per 3GPP R4-092042",
278  ns3::DoubleValue (0.2),
279  ns3::MakeDoubleChecker<double> ());
280 static ns3::GlobalValue g_homeEnbActivationRatio ("homeEnbActivationRatio",
281  "The HeNB activation ratio as per 3GPP R4-092042",
282  ns3::DoubleValue (0.5),
283  ns3::MakeDoubleChecker<double> ());
284 static ns3::GlobalValue g_homeUesHomeEnbRatio ("homeUesHomeEnbRatio",
285  "How many (on average) home UEs per HeNB there are in the simulation",
286  ns3::DoubleValue (1.0),
287  ns3::MakeDoubleChecker<double> ());
288 static ns3::GlobalValue g_macroEnbTxPowerDbm ("macroEnbTxPowerDbm",
289  "TX power [dBm] used by macro eNBs",
290  ns3::DoubleValue (46.0),
291  ns3::MakeDoubleChecker<double> ());
292 static ns3::GlobalValue g_homeEnbTxPowerDbm ("homeEnbTxPowerDbm",
293  "TX power [dBm] used by HeNBs",
294  ns3::DoubleValue (20.0),
295  ns3::MakeDoubleChecker<double> ());
296 static ns3::GlobalValue g_macroEnbDlEarfcn ("macroEnbDlEarfcn",
297  "DL EARFCN used by macro eNBs",
298  ns3::UintegerValue (100),
299  ns3::MakeUintegerChecker<uint16_t> ());
300 static ns3::GlobalValue g_homeEnbDlEarfcn ("homeEnbDlEarfcn",
301  "DL EARFCN used by HeNBs",
302  ns3::UintegerValue (100),
303  ns3::MakeUintegerChecker<uint16_t> ());
304 static ns3::GlobalValue g_macroEnbBandwidth ("macroEnbBandwidth",
305  "bandwidth [num RBs] used by macro eNBs",
306  ns3::UintegerValue (25),
307  ns3::MakeUintegerChecker<uint16_t> ());
308 static ns3::GlobalValue g_homeEnbBandwidth ("homeEnbBandwidth",
309  "bandwidth [num RBs] used by HeNBs",
310  ns3::UintegerValue (25),
311  ns3::MakeUintegerChecker<uint16_t> ());
312 static ns3::GlobalValue g_simTime ("simTime",
313  "Total duration of the simulation [s]",
314  ns3::DoubleValue (0.25),
315  ns3::MakeDoubleChecker<double> ());
316 static ns3::GlobalValue g_generateRem ("generateRem",
317  "if true, will generate a REM and then abort the simulation;"
318  "if false, will run the simulation normally (without generating any REM)",
319  ns3::BooleanValue (false),
321 static ns3::GlobalValue g_remRbId ("remRbId",
322  "Resource Block Id of Data Channel, for which REM will be generated;"
323  "default value is -1, what means REM will be averaged from all RBs of "
324  "Control Channel",
325  ns3::IntegerValue (-1),
326  MakeIntegerChecker<int32_t> ());
327 static ns3::GlobalValue g_epc ("epc",
328  "If true, will setup the EPC to simulate an end-to-end topology, "
329  "with real IP applications over PDCP and RLC UM (or RLC AM by changing "
330  "the default value of EpsBearerToRlcMapping e.g. to RLC_AM_ALWAYS). "
331  "If false, only the LTE radio access will be simulated with RLC SM. ",
332  ns3::BooleanValue (false),
334 static ns3::GlobalValue g_epcDl ("epcDl",
335  "if true, will activate data flows in the downlink when EPC is being used. "
336  "If false, downlink flows won't be activated. "
337  "If EPC is not used, this parameter will be ignored.",
338  ns3::BooleanValue (true),
340 static ns3::GlobalValue g_epcUl ("epcUl",
341  "if true, will activate data flows in the uplink when EPC is being used. "
342  "If false, uplink flows won't be activated. "
343  "If EPC is not used, this parameter will be ignored.",
344  ns3::BooleanValue (true),
346 static ns3::GlobalValue g_useUdp ("useUdp",
347  "if true, the UdpClient application will be used. "
348  "Otherwise, the BulkSend application will be used over a TCP connection. "
349  "If EPC is not used, this parameter will be ignored.",
350  ns3::BooleanValue (true),
352 static ns3::GlobalValue g_fadingTrace ("fadingTrace",
353  "The path of the fading trace (by default no fading trace "
354  "is loaded, i.e., fading is not considered)",
355  ns3::StringValue (""),
357 static ns3::GlobalValue g_numBearersPerUe ("numBearersPerUe",
358  "How many bearers per UE there are in the simulation",
359  ns3::UintegerValue (1),
360  ns3::MakeUintegerChecker<uint16_t> ());
361 static ns3::GlobalValue g_srsPeriodicity ("srsPeriodicity",
362  "SRS Periodicity (has to be at least "
363  "greater than the number of UEs per eNB)",
364  ns3::UintegerValue (80),
365  ns3::MakeUintegerChecker<uint16_t> ());
366 static ns3::GlobalValue g_outdoorUeMinSpeed ("outdoorUeMinSpeed",
367  "Minimum speed value of macro UE with random waypoint model [m/s].",
368  ns3::DoubleValue (0.0),
369  ns3::MakeDoubleChecker<double> ());
370 static ns3::GlobalValue g_outdoorUeMaxSpeed ("outdoorUeMaxSpeed",
371  "Maximum speed value of macro UE with random waypoint model [m/s].",
372  ns3::DoubleValue (0.0),
373  ns3::MakeDoubleChecker<double> ());
374 
375 int
376 main (int argc, char *argv[])
377 {
378  // change some default attributes so that they are reasonable for
379  // this scenario, but do this before processing command line
380  // arguments, so that the user is allowed to override these settings
381  Config::SetDefault ("ns3::UdpClient::Interval", TimeValue (MilliSeconds (1)));
382  Config::SetDefault ("ns3::UdpClient::MaxPackets", UintegerValue (1000000));
383  Config::SetDefault ("ns3::LteRlcUm::MaxTxBufferSize", UintegerValue (10 * 1024));
384 
385  CommandLine cmd (__FILE__);
386  cmd.Parse (argc, argv);
387  ConfigStore inputConfig;
388  inputConfig.ConfigureDefaults ();
389  // parse again so you can override input file default values via command line
390  cmd.Parse (argc, argv);
391 
392  // the scenario parameters get their values from the global attributes defined above
393  UintegerValue uintegerValue;
394  IntegerValue integerValue;
395  DoubleValue doubleValue;
396  BooleanValue booleanValue;
397  StringValue stringValue;
398  GlobalValue::GetValueByName ("nBlocks", uintegerValue);
399  uint32_t nBlocks = uintegerValue.Get ();
400  GlobalValue::GetValueByName ("nApartmentsX", uintegerValue);
401  uint32_t nApartmentsX = uintegerValue.Get ();
402  GlobalValue::GetValueByName ("nFloors", uintegerValue);
403  uint32_t nFloors = uintegerValue.Get ();
404  GlobalValue::GetValueByName ("nMacroEnbSites", uintegerValue);
405  uint32_t nMacroEnbSites = uintegerValue.Get ();
406  GlobalValue::GetValueByName ("nMacroEnbSitesX", uintegerValue);
407  uint32_t nMacroEnbSitesX = uintegerValue.Get ();
408  GlobalValue::GetValueByName ("interSiteDistance", doubleValue);
409  double interSiteDistance = doubleValue.Get ();
410  GlobalValue::GetValueByName ("areaMarginFactor", doubleValue);
411  double areaMarginFactor = doubleValue.Get ();
412  GlobalValue::GetValueByName ("macroUeDensity", doubleValue);
413  double macroUeDensity = doubleValue.Get ();
414  GlobalValue::GetValueByName ("homeEnbDeploymentRatio", doubleValue);
415  double homeEnbDeploymentRatio = doubleValue.Get ();
416  GlobalValue::GetValueByName ("homeEnbActivationRatio", doubleValue);
417  double homeEnbActivationRatio = doubleValue.Get ();
418  GlobalValue::GetValueByName ("homeUesHomeEnbRatio", doubleValue);
419  double homeUesHomeEnbRatio = doubleValue.Get ();
420  GlobalValue::GetValueByName ("macroEnbTxPowerDbm", doubleValue);
421  double macroEnbTxPowerDbm = doubleValue.Get ();
422  GlobalValue::GetValueByName ("homeEnbTxPowerDbm", doubleValue);
423  double homeEnbTxPowerDbm = doubleValue.Get ();
424  GlobalValue::GetValueByName ("macroEnbDlEarfcn", uintegerValue);
425  uint32_t macroEnbDlEarfcn = uintegerValue.Get ();
426  GlobalValue::GetValueByName ("homeEnbDlEarfcn", uintegerValue);
427  uint32_t homeEnbDlEarfcn = uintegerValue.Get ();
428  GlobalValue::GetValueByName ("macroEnbBandwidth", uintegerValue);
429  uint16_t macroEnbBandwidth = uintegerValue.Get ();
430  GlobalValue::GetValueByName ("homeEnbBandwidth", uintegerValue);
431  uint16_t homeEnbBandwidth = uintegerValue.Get ();
432  GlobalValue::GetValueByName ("simTime", doubleValue);
433  double simTime = doubleValue.Get ();
434  GlobalValue::GetValueByName ("epc", booleanValue);
435  bool epc = booleanValue.Get ();
436  GlobalValue::GetValueByName ("epcDl", booleanValue);
437  bool epcDl = booleanValue.Get ();
438  GlobalValue::GetValueByName ("epcUl", booleanValue);
439  bool epcUl = booleanValue.Get ();
440  GlobalValue::GetValueByName ("useUdp", booleanValue);
441  bool useUdp = booleanValue.Get ();
442  GlobalValue::GetValueByName ("generateRem", booleanValue);
443  bool generateRem = booleanValue.Get ();
444  GlobalValue::GetValueByName ("remRbId", integerValue);
445  int32_t remRbId = integerValue.Get ();
446  GlobalValue::GetValueByName ("fadingTrace", stringValue);
447  std::string fadingTrace = stringValue.Get ();
448  GlobalValue::GetValueByName ("numBearersPerUe", uintegerValue);
449  uint16_t numBearersPerUe = uintegerValue.Get ();
450  GlobalValue::GetValueByName ("srsPeriodicity", uintegerValue);
451  uint16_t srsPeriodicity = uintegerValue.Get ();
452  GlobalValue::GetValueByName ("outdoorUeMinSpeed", doubleValue);
453  uint16_t outdoorUeMinSpeed = doubleValue.Get ();
454  GlobalValue::GetValueByName ("outdoorUeMaxSpeed", doubleValue);
455  uint16_t outdoorUeMaxSpeed = doubleValue.Get ();
456 
457  Config::SetDefault ("ns3::LteEnbRrc::SrsPeriodicity", UintegerValue (srsPeriodicity));
458 
459  Box macroUeBox;
460  double ueZ = 1.5;
461  if (nMacroEnbSites > 0)
462  {
463  uint32_t currentSite = nMacroEnbSites -1;
464  uint32_t biRowIndex = (currentSite / (nMacroEnbSitesX + nMacroEnbSitesX + 1));
465  uint32_t biRowRemainder = currentSite % (nMacroEnbSitesX + nMacroEnbSitesX + 1);
466  uint32_t rowIndex = biRowIndex*2 + 1;
467  if (biRowRemainder >= nMacroEnbSitesX)
468  {
469  ++rowIndex;
470  }
471  uint32_t nMacroEnbSitesY = rowIndex;
472  NS_LOG_LOGIC ("nMacroEnbSitesY = " << nMacroEnbSitesY);
473 
474  macroUeBox = Box (-areaMarginFactor*interSiteDistance,
475  (nMacroEnbSitesX + areaMarginFactor)*interSiteDistance,
476  -areaMarginFactor*interSiteDistance,
477  (nMacroEnbSitesY -1)*interSiteDistance*sqrt (0.75) + areaMarginFactor*interSiteDistance,
478  ueZ, ueZ);
479  }
480  else
481  {
482  // still need the box to place femtocell blocks
483  macroUeBox = Box (0, 150, 0, 150, ueZ, ueZ);
484  }
485 
486  FemtocellBlockAllocator blockAllocator (macroUeBox, nApartmentsX, nFloors);
487  blockAllocator.Create (nBlocks);
488 
489 
490  uint32_t nHomeEnbs = round (4 * nApartmentsX * nBlocks * nFloors * homeEnbDeploymentRatio * homeEnbActivationRatio);
491  NS_LOG_LOGIC ("nHomeEnbs = " << nHomeEnbs);
492  uint32_t nHomeUes = round (nHomeEnbs * homeUesHomeEnbRatio);
493  NS_LOG_LOGIC ("nHomeUes = " << nHomeUes);
494  double macroUeAreaSize = (macroUeBox.xMax - macroUeBox.xMin) * (macroUeBox.yMax - macroUeBox.yMin);
495  uint32_t nMacroUes = round (macroUeAreaSize * macroUeDensity);
496  NS_LOG_LOGIC ("nMacroUes = " << nMacroUes << " (density=" << macroUeDensity << ")");
497 
498  NodeContainer homeEnbs;
499  homeEnbs.Create (nHomeEnbs);
500  NodeContainer macroEnbs;
501  macroEnbs.Create (3 * nMacroEnbSites);
502  NodeContainer homeUes;
503  homeUes.Create (nHomeUes);
504  NodeContainer macroUes;
505  macroUes.Create (nMacroUes);
506 
508  mobility.SetMobilityModel ("ns3::ConstantPositionMobilityModel");
509 
510 
511  Ptr <LteHelper> lteHelper = CreateObject<LteHelper> ();
512  lteHelper->SetAttribute ("PathlossModel", StringValue ("ns3::HybridBuildingsPropagationLossModel"));
513  lteHelper->SetPathlossModelAttribute ("ShadowSigmaExtWalls", DoubleValue (0));
514  lteHelper->SetPathlossModelAttribute ("ShadowSigmaOutdoor", DoubleValue (1));
515  lteHelper->SetPathlossModelAttribute ("ShadowSigmaIndoor", DoubleValue (1.5));
516  // use always LOS model
517  lteHelper->SetPathlossModelAttribute ("Los2NlosThr", DoubleValue (1e6));
518  lteHelper->SetSpectrumChannelType ("ns3::MultiModelSpectrumChannel");
519 
520 // lteHelper->EnableLogComponents ();
521 // LogComponentEnable ("PfFfMacScheduler", LOG_LEVEL_ALL);
522 
523  if (!fadingTrace.empty ())
524  {
525  lteHelper->SetAttribute ("FadingModel", StringValue ("ns3::TraceFadingLossModel"));
526  lteHelper->SetFadingModelAttribute ("TraceFilename", StringValue (fadingTrace));
527  }
528 
529  Ptr<PointToPointEpcHelper> epcHelper;
530  if (epc)
531  {
532  NS_LOG_LOGIC ("enabling EPC");
533  epcHelper = CreateObject<PointToPointEpcHelper> ();
534  lteHelper->SetEpcHelper (epcHelper);
535  }
536 
537  // Macro eNBs in 3-sector hex grid
538 
539  mobility.Install (macroEnbs);
540  BuildingsHelper::Install (macroEnbs);
541  Ptr<LteHexGridEnbTopologyHelper> lteHexGridEnbTopologyHelper = CreateObject<LteHexGridEnbTopologyHelper> ();
542  lteHexGridEnbTopologyHelper->SetLteHelper (lteHelper);
543  lteHexGridEnbTopologyHelper->SetAttribute ("InterSiteDistance", DoubleValue (interSiteDistance));
544  lteHexGridEnbTopologyHelper->SetAttribute ("MinX", DoubleValue (interSiteDistance/2));
545  lteHexGridEnbTopologyHelper->SetAttribute ("GridWidth", UintegerValue (nMacroEnbSitesX));
546  Config::SetDefault ("ns3::LteEnbPhy::TxPower", DoubleValue (macroEnbTxPowerDbm));
547  lteHelper->SetEnbAntennaModelType ("ns3::ParabolicAntennaModel");
548  lteHelper->SetEnbAntennaModelAttribute ("Beamwidth", DoubleValue (70));
549  lteHelper->SetEnbAntennaModelAttribute ("MaxAttenuation", DoubleValue (20.0));
550  lteHelper->SetEnbDeviceAttribute ("DlEarfcn", UintegerValue (macroEnbDlEarfcn));
551  lteHelper->SetEnbDeviceAttribute ("UlEarfcn", UintegerValue (macroEnbDlEarfcn + 18000));
552  lteHelper->SetEnbDeviceAttribute ("DlBandwidth", UintegerValue (macroEnbBandwidth));
553  lteHelper->SetEnbDeviceAttribute ("UlBandwidth", UintegerValue (macroEnbBandwidth));
554  NetDeviceContainer macroEnbDevs = lteHexGridEnbTopologyHelper->SetPositionAndInstallEnbDevice (macroEnbs);
555 
556  if (epc)
557  {
558  // this enables handover for macro eNBs
559  lteHelper->AddX2Interface (macroEnbs);
560  }
561 
562  // HomeEnbs randomly indoor
563 
564  Ptr<PositionAllocator> positionAlloc = CreateObject<RandomRoomPositionAllocator> ();
565  mobility.SetPositionAllocator (positionAlloc);
566  mobility.Install (homeEnbs);
567  BuildingsHelper::Install (homeEnbs);
568  Config::SetDefault ("ns3::LteEnbPhy::TxPower", DoubleValue (homeEnbTxPowerDbm));
569  lteHelper->SetEnbAntennaModelType ("ns3::IsotropicAntennaModel");
570  lteHelper->SetEnbDeviceAttribute ("DlEarfcn", UintegerValue (homeEnbDlEarfcn));
571  lteHelper->SetEnbDeviceAttribute ("UlEarfcn", UintegerValue (homeEnbDlEarfcn + 18000));
572  lteHelper->SetEnbDeviceAttribute ("DlBandwidth", UintegerValue (homeEnbBandwidth));
573  lteHelper->SetEnbDeviceAttribute ("UlBandwidth", UintegerValue (homeEnbBandwidth));
574  lteHelper->SetEnbDeviceAttribute ("CsgId", UintegerValue (1));
575  lteHelper->SetEnbDeviceAttribute ("CsgIndication", BooleanValue (true));
576  NetDeviceContainer homeEnbDevs = lteHelper->InstallEnbDevice (homeEnbs);
577 
578  // home UEs located in the same apartment in which there are the Home eNBs
579  positionAlloc = CreateObject<SameRoomPositionAllocator> (homeEnbs);
580  mobility.SetPositionAllocator (positionAlloc);
581  mobility.Install (homeUes);
582  BuildingsHelper::Install (homeUes);
583  // set the home UE as a CSG member of the home eNodeBs
584  lteHelper->SetUeDeviceAttribute ("CsgId", UintegerValue (1));
585  NetDeviceContainer homeUeDevs = lteHelper->InstallUeDevice (homeUes);
586 
587  // macro Ues
588  NS_LOG_LOGIC ("randomly allocating macro UEs in " << macroUeBox << " speedMin " << outdoorUeMinSpeed << " speedMax " << outdoorUeMaxSpeed);
589  if (outdoorUeMaxSpeed!=0.0)
590  {
591  mobility.SetMobilityModel ("ns3::SteadyStateRandomWaypointMobilityModel");
592 
593  Config::SetDefault ("ns3::SteadyStateRandomWaypointMobilityModel::MinX", DoubleValue (macroUeBox.xMin));
594  Config::SetDefault ("ns3::SteadyStateRandomWaypointMobilityModel::MinY", DoubleValue (macroUeBox.yMin));
595  Config::SetDefault ("ns3::SteadyStateRandomWaypointMobilityModel::MaxX", DoubleValue (macroUeBox.xMax));
596  Config::SetDefault ("ns3::SteadyStateRandomWaypointMobilityModel::MaxY", DoubleValue (macroUeBox.yMax));
597  Config::SetDefault ("ns3::SteadyStateRandomWaypointMobilityModel::Z", DoubleValue (ueZ));
598  Config::SetDefault ("ns3::SteadyStateRandomWaypointMobilityModel::MaxSpeed", DoubleValue (outdoorUeMaxSpeed));
599  Config::SetDefault ("ns3::SteadyStateRandomWaypointMobilityModel::MinSpeed", DoubleValue (outdoorUeMinSpeed));
600 
601  // this is not used since SteadyStateRandomWaypointMobilityModel
602  // takes care of initializing the positions; however we need to
603  // reset it since the previously used PositionAllocator
604  // (SameRoom) will cause an error when used with homeDeploymentRatio=0
605  positionAlloc = CreateObject<RandomBoxPositionAllocator> ();
606  mobility.SetPositionAllocator (positionAlloc);
607  mobility.Install (macroUes);
608 
609  // forcing initialization so we don't have to wait for Nodes to
610  // start before positions are assigned (which is needed to
611  // output node positions to file and to make AttachToClosestEnb work)
612  for (NodeContainer::Iterator it = macroUes.Begin ();
613  it != macroUes.End ();
614  ++it)
615  {
616  (*it)->Initialize ();
617  }
618  }
619  else
620  {
621  positionAlloc = CreateObject<RandomBoxPositionAllocator> ();
622  Ptr<UniformRandomVariable> xVal = CreateObject<UniformRandomVariable> ();
623  xVal->SetAttribute ("Min", DoubleValue (macroUeBox.xMin));
624  xVal->SetAttribute ("Max", DoubleValue (macroUeBox.xMax));
625  positionAlloc->SetAttribute ("X", PointerValue (xVal));
626  Ptr<UniformRandomVariable> yVal = CreateObject<UniformRandomVariable> ();
627  yVal->SetAttribute ("Min", DoubleValue (macroUeBox.yMin));
628  yVal->SetAttribute ("Max", DoubleValue (macroUeBox.yMax));
629  positionAlloc->SetAttribute ("Y", PointerValue (yVal));
630  Ptr<UniformRandomVariable> zVal = CreateObject<UniformRandomVariable> ();
631  zVal->SetAttribute ("Min", DoubleValue (macroUeBox.zMin));
632  zVal->SetAttribute ("Max", DoubleValue (macroUeBox.zMax));
633  positionAlloc->SetAttribute ("Z", PointerValue (zVal));
634  mobility.SetPositionAllocator (positionAlloc);
635  mobility.Install (macroUes);
636  }
637  BuildingsHelper::Install (macroUes);
638 
639  NetDeviceContainer macroUeDevs = lteHelper->InstallUeDevice (macroUes);
640 
641  Ipv4Address remoteHostAddr;
642  NodeContainer ues;
643  Ipv4StaticRoutingHelper ipv4RoutingHelper;
644  Ipv4InterfaceContainer ueIpIfaces;
645  Ptr<Node> remoteHost;
646  NetDeviceContainer ueDevs;
647 
648  if (epc)
649  {
650  NS_LOG_LOGIC ("setting up internet and remote host");
651 
652  // Create a single RemoteHost
653  NodeContainer remoteHostContainer;
654  remoteHostContainer.Create (1);
655  remoteHost = remoteHostContainer.Get (0);
656  InternetStackHelper internet;
657  internet.Install (remoteHostContainer);
658 
659  // Create the Internet
660  PointToPointHelper p2ph;
661  p2ph.SetDeviceAttribute ("DataRate", DataRateValue (DataRate ("100Gb/s")));
662  p2ph.SetDeviceAttribute ("Mtu", UintegerValue (1500));
663  p2ph.SetChannelAttribute ("Delay", TimeValue (Seconds (0.010)));
664  Ptr<Node> pgw = epcHelper->GetPgwNode ();
665  NetDeviceContainer internetDevices = p2ph.Install (pgw, remoteHost);
666  Ipv4AddressHelper ipv4h;
667  ipv4h.SetBase ("1.0.0.0", "255.0.0.0");
668  Ipv4InterfaceContainer internetIpIfaces = ipv4h.Assign (internetDevices);
669  // in this container, interface 0 is the pgw, 1 is the remoteHost
670  remoteHostAddr = internetIpIfaces.GetAddress (1);
671 
672  Ipv4StaticRoutingHelper ipv4RoutingHelper;
673  Ptr<Ipv4StaticRouting> remoteHostStaticRouting = ipv4RoutingHelper.GetStaticRouting (remoteHost->GetObject<Ipv4> ());
674  remoteHostStaticRouting->AddNetworkRouteTo (Ipv4Address ("7.0.0.0"), Ipv4Mask ("255.0.0.0"), 1);
675 
676  // for internetworking purposes, consider together home UEs and macro UEs
677  ues.Add (homeUes);
678  ues.Add (macroUes);
679  ueDevs.Add (homeUeDevs);
680  ueDevs.Add (macroUeDevs);
681 
682  // Install the IP stack on the UEs
683  internet.Install (ues);
684  ueIpIfaces = epcHelper->AssignUeIpv4Address (NetDeviceContainer (ueDevs));
685 
686  // attachment (needs to be done after IP stack configuration)
687  // using initial cell selection
688  lteHelper->Attach (macroUeDevs);
689  lteHelper->Attach (homeUeDevs);
690  }
691  else
692  {
693  // macro UEs attached to the closest macro eNB
694  lteHelper->AttachToClosestEnb (macroUeDevs, macroEnbDevs);
695 
696  // each home UE is attached explicitly to its home eNB
699  for (ueDevIt = homeUeDevs.Begin (), enbDevIt = homeEnbDevs.Begin ();
700  ueDevIt != homeUeDevs.End (); ++ueDevIt, ++enbDevIt)
701  {
702  // this because of the order in which SameRoomPositionAllocator
703  // will place the UEs
704  if (enbDevIt == homeEnbDevs.End ())
705  {
706  enbDevIt = homeEnbDevs.Begin ();
707  }
708  lteHelper->Attach (*ueDevIt, *enbDevIt);
709  }
710  }
711 
712  if (epc)
713  {
714  NS_LOG_LOGIC ("setting up applications");
715 
716  // Install and start applications on UEs and remote host
717  uint16_t dlPort = 10000;
718  uint16_t ulPort = 20000;
719 
720  // randomize a bit start times to avoid simulation artifacts
721  // (e.g., buffer overflows due to packet transmissions happening
722  // exactly at the same time)
723  Ptr<UniformRandomVariable> startTimeSeconds = CreateObject<UniformRandomVariable> ();
724  if (useUdp)
725  {
726  startTimeSeconds->SetAttribute ("Min", DoubleValue (0));
727  startTimeSeconds->SetAttribute ("Max", DoubleValue (0.010));
728  }
729  else
730  {
731  // TCP needs to be started late enough so that all UEs are connected
732  // otherwise TCP SYN packets will get lost
733  startTimeSeconds->SetAttribute ("Min", DoubleValue (0.100));
734  startTimeSeconds->SetAttribute ("Max", DoubleValue (0.110));
735  }
736 
737  for (uint32_t u = 0; u < ues.GetN (); ++u)
738  {
739  Ptr<Node> ue = ues.Get (u);
740  // Set the default gateway for the UE
741  Ptr<Ipv4StaticRouting> ueStaticRouting = ipv4RoutingHelper.GetStaticRouting (ue->GetObject<Ipv4> ());
742  ueStaticRouting->SetDefaultRoute (epcHelper->GetUeDefaultGatewayAddress (), 1);
743 
744  for (uint32_t b = 0; b < numBearersPerUe; ++b)
745  {
746  ++dlPort;
747  ++ulPort;
748 
751 
752  if (useUdp)
753  {
754  if (epcDl)
755  {
756  NS_LOG_LOGIC ("installing UDP DL app for UE " << u);
757  UdpClientHelper dlClientHelper (ueIpIfaces.GetAddress (u), dlPort);
758  clientApps.Add (dlClientHelper.Install (remoteHost));
759  PacketSinkHelper dlPacketSinkHelper ("ns3::UdpSocketFactory",
760  InetSocketAddress (Ipv4Address::GetAny (), dlPort));
761  serverApps.Add (dlPacketSinkHelper.Install (ue));
762  }
763  if (epcUl)
764  {
765  NS_LOG_LOGIC ("installing UDP UL app for UE " << u);
766  UdpClientHelper ulClientHelper (remoteHostAddr, ulPort);
767  clientApps.Add (ulClientHelper.Install (ue));
768  PacketSinkHelper ulPacketSinkHelper ("ns3::UdpSocketFactory",
769  InetSocketAddress (Ipv4Address::GetAny (), ulPort));
770  serverApps.Add (ulPacketSinkHelper.Install (remoteHost));
771  }
772  }
773  else // use TCP
774  {
775  if (epcDl)
776  {
777  NS_LOG_LOGIC ("installing TCP DL app for UE " << u);
778  BulkSendHelper dlClientHelper ("ns3::TcpSocketFactory",
779  InetSocketAddress (ueIpIfaces.GetAddress (u), dlPort));
780  dlClientHelper.SetAttribute ("MaxBytes", UintegerValue (0));
781  clientApps.Add (dlClientHelper.Install (remoteHost));
782  PacketSinkHelper dlPacketSinkHelper ("ns3::TcpSocketFactory",
783  InetSocketAddress (Ipv4Address::GetAny (), dlPort));
784  serverApps.Add (dlPacketSinkHelper.Install (ue));
785  }
786  if (epcUl)
787  {
788  NS_LOG_LOGIC ("installing TCP UL app for UE " << u);
789  BulkSendHelper ulClientHelper ("ns3::TcpSocketFactory",
790  InetSocketAddress (remoteHostAddr, ulPort));
791  ulClientHelper.SetAttribute ("MaxBytes", UintegerValue (0));
792  clientApps.Add (ulClientHelper.Install (ue));
793  PacketSinkHelper ulPacketSinkHelper ("ns3::TcpSocketFactory",
794  InetSocketAddress (Ipv4Address::GetAny (), ulPort));
795  serverApps.Add (ulPacketSinkHelper.Install (remoteHost));
796  }
797  } // end if (useUdp)
798 
799  Ptr<EpcTft> tft = Create<EpcTft> ();
800  if (epcDl)
801  {
803  dlpf.localPortStart = dlPort;
804  dlpf.localPortEnd = dlPort;
805  tft->Add (dlpf);
806  }
807  if (epcUl)
808  {
810  ulpf.remotePortStart = ulPort;
811  ulpf.remotePortEnd = ulPort;
812  tft->Add (ulpf);
813  }
814 
815  if (epcDl || epcUl)
816  {
817  EpsBearer bearer (EpsBearer::NGBR_VIDEO_TCP_DEFAULT);
818  lteHelper->ActivateDedicatedEpsBearer (ueDevs.Get (u), bearer, tft);
819  }
820  Time startTime = Seconds (startTimeSeconds->GetValue ());
821  serverApps.Start (startTime);
822  clientApps.Start (startTime);
823 
824  } // end for b
825  }
826 
827  }
828  else // (epc == false)
829  {
830  // for radio bearer activation purposes, consider together home UEs and macro UEs
831  NetDeviceContainer ueDevs;
832  ueDevs.Add (homeUeDevs);
833  ueDevs.Add (macroUeDevs);
834  for (uint32_t u = 0; u < ueDevs.GetN (); ++u)
835  {
836  Ptr<NetDevice> ueDev = ueDevs.Get (u);
837  for (uint32_t b = 0; b < numBearersPerUe; ++b)
838  {
839  enum EpsBearer::Qci q = EpsBearer::NGBR_VIDEO_TCP_DEFAULT;
840  EpsBearer bearer (q);
841  lteHelper->ActivateDataRadioBearer (ueDev, bearer);
842  }
843  }
844  }
845 
847  if (generateRem)
848  {
849  PrintGnuplottableBuildingListToFile ("buildings.txt");
850  PrintGnuplottableEnbListToFile ("enbs.txt");
851  PrintGnuplottableUeListToFile ("ues.txt");
852 
853  remHelper = CreateObject<RadioEnvironmentMapHelper> ();
854  remHelper->SetAttribute ("Channel", PointerValue (lteHelper->GetDownlinkSpectrumChannel ()));
855  remHelper->SetAttribute ("OutputFile", StringValue ("lena-dual-stripe.rem"));
856  remHelper->SetAttribute ("XMin", DoubleValue (macroUeBox.xMin));
857  remHelper->SetAttribute ("XMax", DoubleValue (macroUeBox.xMax));
858  remHelper->SetAttribute ("YMin", DoubleValue (macroUeBox.yMin));
859  remHelper->SetAttribute ("YMax", DoubleValue (macroUeBox.yMax));
860  remHelper->SetAttribute ("Z", DoubleValue (1.5));
861 
862  if (remRbId >= 0)
863  {
864  remHelper->SetAttribute ("UseDataChannel", BooleanValue (true));
865  remHelper->SetAttribute ("RbId", IntegerValue (remRbId));
866  }
867 
868  remHelper->Install ();
869  // simulation will stop right after the REM has been generated
870  }
871  else
872  {
873  Simulator::Stop (Seconds (simTime));
874  }
875 
876  lteHelper->EnableMacTraces ();
877  lteHelper->EnableRlcTraces ();
878  if (epc)
879  {
880  lteHelper->EnablePdcpTraces ();
881  }
882 
883  Simulator::Run ();
884 
885  //GtkConfigStore config;
886  //config.ConfigureAttributes ();
887 
888  lteHelper = 0;
889  Simulator::Destroy ();
890  return 0;
891 }
holds a vector of ns3::Application pointers.
Introspection did not find any typical Config paths.
Definition: config-store.h:59
uint8_t Add(PacketFilter f)
add a PacketFilter to the Traffic Flow Template
Definition: epc-tft.cc:240
Ptr< NetDevice > Get(uint32_t i) const
Get the Ptr<NetDevice> stored in this container at a given index.
uint32_t m_nFloors
number of floors
Simulation virtual time values and global simulation resolution.
Definition: nstime.h:103
void SetPathlossModelAttribute(std::string n, const AttributeValue &v)
Set an attribute for the path loss models to be created.
Definition: lte-helper.cc:393
an Inet address class
double zMin
The z coordinate of the down bound of the box.
Definition: box.h:118
bool AreOverlapping(Box a, Box b)
static ns3::GlobalValue g_epcUl("epcUl", "if true, will activate data flows in the uplink when EPC is being used. " "If false, uplink flows won't be activated. " "If EPC is not used, this parameter will be ignored.", ns3::BooleanValue(true), ns3::MakeBooleanChecker())
void PrintGnuplottableEnbListToFile(std::string filename)
static ns3::GlobalValue g_useUdp("useUdp", "if true, the UdpClient application will be used. " "Otherwise, the BulkSend application will be used over a TCP connection. " "If EPC is not used, this parameter will be ignored.", ns3::BooleanValue(true), ns3::MakeBooleanChecker())
AttributeValue implementation for Boolean.
Definition: boolean.h:36
static ns3::GlobalValue g_macroUeDensity("macroUeDensity", "How many macrocell UEs there are per square meter", ns3::DoubleValue(0.00002), ns3::MakeDoubleChecker< double >())
NetDeviceContainer InstallEnbDevice(NodeContainer c)
Create a set of eNodeB devices.
Definition: lte-helper.cc:474
A helper to make it easier to instantiate an ns3::BulkSendApplication on a set of nodes...
holds a vector of std::pair of Ptr<Ipv4> and interface index.
void SetDefaultRoute(Ipv4Address nextHop, uint32_t interface, uint32_t metric=0)
Add a default route to the static routing table.
std::vector< Ptr< Node > >::const_iterator Iterator
Node container iterator.
static ns3::GlobalValue g_nFloors("nFloors", "Number of floors", ns3::UintegerValue(1), ns3::MakeUintegerChecker< uint32_t >())
Iterator End(void) const
Get an iterator which indicates past-the-last NetDevice in the container.
Hold variables of type string.
Definition: string.h:41
Ptr< UniformRandomVariable > m_xMinVar
X minimum variance.
static ns3::GlobalValue g_generateRem("generateRem", "if true, will generate a REM and then abort the simulation;" "if false, will run the simulation normally (without generating any REM)", ns3::BooleanValue(false), ns3::MakeBooleanChecker())
NetDeviceContainer Install(NodeContainer c)
a class to represent an Ipv4 address mask
Definition: ipv4-address.h:269
Ptr< NetDevice > GetDevice(uint32_t index) const
Retrieve the index-th NetDevice associated to this node.
Definition: node.cc:144
serverApps
Definition: first.py:52
BuildingContainer Create(uint32_t n) const
Create a set of buildings allocated on a grid.
static ns3::GlobalValue g_areaMarginFactor("areaMarginFactor", "how much the UE area extends outside the macrocell grid, " "expressed as fraction of the interSiteDistance", ns3::DoubleValue(0.5), ns3::MakeDoubleChecker< double >())
Hold a signed integer type.
Definition: integer.h:44
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:961
#define NS_LOG_COMPONENT_DEFINE(name)
Define a Log component with a specific name.
Definition: log.h:205
Time MilliSeconds(uint64_t value)
Construct a Time in the indicated unit.
Definition: nstime.h:1297
void EnableRlcTraces(void)
Enable trace sinks for RLC layer.
Definition: lte-helper.cc:1436
aggregate IP/TCP/UDP functionality to existing Nodes.
uint16_t localPortEnd
end of the port number range of the UE
Definition: epc-tft.h:140
static ns3::GlobalValue g_numBearersPerUe("numBearersPerUe", "How many bearers per UE there are in the simulation", ns3::UintegerValue(1), ns3::MakeUintegerChecker< uint16_t >())
void SetUeDeviceAttribute(std::string n, const AttributeValue &v)
Set an attribute for the UE devices (LteUeNetDevice) to be created.
Definition: lte-helper.cc:422
A helper to make it easier to instantiate an ns3::PacketSinkApplication on a set of nodes...
cmd
Definition: second.py:35
void SetLteHelper(Ptr< LteHelper > h)
Set the LteHelper to be used to actually create the EnbNetDevices.
Build a set of PointToPointNetDevice objects.
Iterator End(void) const
Get an iterator which indicates past-the-last Node in the container.
FemtocellBlockAllocator(Box area, uint32_t nApartmentsX, uint32_t nFloors)
Constructor.
Hold a so-called &#39;global value&#39;.
Definition: global-value.h:73
double xMax
The x coordinate of the right bound of the box.
Definition: box.h:112
void ActivateDataRadioBearer(NetDeviceContainer ueDevices, EpsBearer bearer)
Activate a Data Radio Bearer on a given UE devices (for LTE-only simulation).
Definition: lte-helper.cc:1314
void SetDeviceAttribute(std::string name, const AttributeValue &value)
Set an attribute value to be propagated to each NetDevice created by the helper.
uint8_t ActivateDedicatedEpsBearer(NetDeviceContainer ueDevices, EpsBearer bearer, Ptr< EpcTft > tft)
Activate a dedicated EPS bearer on a given set of UE devices.
Definition: lte-helper.cc:1069
static Vector GetPosition(Ptr< Node > node)
Definition: wifi-ap.cc:96
Ptr< SpectrumChannel > GetDownlinkSpectrumChannel(void) const
Definition: lte-helper.cc:218
NetDeviceContainer SetPositionAndInstallEnbDevice(NodeContainer c)
Position the nodes on a hex grid and install the corresponding EnbNetDevices with antenna boresight c...
static ns3::GlobalValue g_epc("epc", "If true, will setup the EPC to simulate an end-to-end topology, " "with real IP applications over PDCP and RLC UM (or RLC AM by changing " "the default value of EpsBearerToRlcMapping e.g. to RLC_AM_ALWAYS). " "If false, only the LTE radio access will be simulated with RLC SM. ", ns3::BooleanValue(false), ns3::MakeBooleanChecker())
Ptr< UniformRandomVariable > m_yMinVar
Y minimum variance.
static ns3::GlobalValue g_fadingTrace("fadingTrace", "The path of the fading trace (by default no fading trace " "is loaded, i.e., fading is not considered)", ns3::StringValue(""), ns3::MakeStringChecker())
a 3d box
Definition: box.h:34
double yMax
The y coordinate of the top bound of the box.
Definition: box.h:116
mobility
Definition: third.py:108
static ns3::GlobalValue g_homeUesHomeEnbRatio("homeUesHomeEnbRatio", "How many (on average) home UEs per HeNB there are in the simulation", ns3::DoubleValue(1.0), ns3::MakeDoubleChecker< double >())
Class for representing data rates.
Definition: data-rate.h:88
void EnablePdcpTraces(void)
Enable trace sinks for PDCP layer.
Definition: lte-helper.cc:1579
void AttachToClosestEnb(NetDeviceContainer ueDevices, NetDeviceContainer enbDevices)
Manual attachment of a set of UE devices to the network via the closest eNodeB (with respect to dista...
Definition: lte-helper.cc:1037
Ptr< const AttributeChecker > MakeStringChecker(void)
Definition: string.cc:30
Keep track of the current position and velocity of an object.
static ns3::GlobalValue g_nMacroEnbSitesX("nMacroEnbSitesX", "(minimum) number of sites along the X-axis of the hex grid", ns3::UintegerValue(1), ns3::MakeUintegerChecker< uint32_t >())
uint64_t GetImsi() const
Get the IMSI.
virtual Ipv4InterfaceContainer AssignUeIpv4Address(NetDeviceContainer ueDevices)
Assign IPv4 addresses to UE devices.
std::string Get(void) const
Definition: string.cc:31
Create a client application which sends UDP packets carrying a 32bit sequence number and a 64 bit tim...
AttributeValue implementation for Time.
Definition: nstime.h:1353
bool OverlapsWithAnyPrevious(Box box)
Function that checks if the box area is overlapping with some of previously created building blocks...
Ipv4Address GetAddress(uint32_t i, uint32_t j=0) const
uint16_t GetCellId() const
Iterator Begin(void) const
Get an iterator which refers to the first NetDevice in the container.
void Add(NetDeviceContainer other)
Append the contents of another NetDeviceContainer to the end of this container.
Hold an unsigned integer type.
Definition: uinteger.h:44
Vector3D Vector
Definition: vector.h:297
double startTime
holds a vector of ns3::NetDevice pointers
void Create()
Create function.
static ns3::GlobalValue g_outdoorUeMinSpeed("outdoorUeMinSpeed", "Minimum speed value of macro UE with random waypoint model [m/s].", ns3::DoubleValue(0.0), ns3::MakeDoubleChecker< double >())
std::vector< Ptr< Building > >::const_iterator Iterator
Definition: building-list.h:36
double yMin
The y coordinate of the bottom bound of the box.
Definition: box.h:114
Parse command-line arguments.
Definition: command-line.h:227
#define NS_LOG_LOGIC(msg)
Use NS_LOG to output a message of level LOG_LOGIC.
Definition: log.h:289
void SetEnbAntennaModelType(std::string type)
Set the type of antenna model to be used by eNodeB devices.
Definition: lte-helper.cc:408
bool Get(void) const
Definition: boolean.cc:51
static ns3::GlobalValue g_homeEnbActivationRatio("homeEnbActivationRatio", "The HeNB activation ratio as per 3GPP R4-092042", ns3::DoubleValue(0.5), ns3::MakeDoubleChecker< double >())
uint32_t GetN(void) const
Get the number of Ptr<Node> stored in this container.
void SetSpectrumChannelType(std::string type)
Set the type of spectrum channel to be used in both DL and UL.
Definition: lte-helper.cc:461
void ConfigureDefaults(void)
Configure the default values.
Access to the IPv4 forwarding table, interfaces, and configuration.
Definition: ipv4.h:76
Ptr< T > GetObject(void) const
Get a pointer to the requested aggregated Object.
Definition: object.h:470
uint64_t Get(void) const
Definition: uinteger.cc:35
double Get(void) const
Definition: double.cc:35
void SetFadingModelAttribute(std::string n, const AttributeValue &v)
Set an attribute for the fading model to be created (both DL and UL).
Definition: lte-helper.cc:455
void PrintGnuplottableUeListToFile(std::string filename)
static ns3::GlobalValue g_simTime("simTime", "Total duration of the simulation [s]", ns3::DoubleValue(0.25), ns3::MakeDoubleChecker< double >())
Ptr< T > Create(Ts... args)
Create class instances by constructors with varying numbers of arguments and return them by Ptr...
Definition: ptr.h:405
static ns3::GlobalValue g_homeEnbDeploymentRatio("homeEnbDeploymentRatio", "The HeNB deployment ratio as per 3GPP R4-092042", ns3::DoubleValue(0.2), ns3::MakeDoubleChecker< double >())
uint16_t remotePortEnd
end of the port number range of the remote host
Definition: epc-tft.h:138
Every class exported by the ns3 library is enclosed in the ns3 namespace.
keep track of a set of node pointers.
Hold objects of type Ptr<T>.
Definition: pointer.h:36
std::vector< Ptr< Node > >::const_iterator Iterator
Node container iterator.
Definition: node-list.h:44
static ns3::GlobalValue g_nApartmentsX("nApartmentsX", "Number of apartments along the X axis in a femtocell block", ns3::UintegerValue(10), ns3::MakeUintegerChecker< uint32_t >())
static ns3::GlobalValue g_nMacroEnbSites("nMacroEnbSites", "How many macro sites there are", ns3::UintegerValue(3), ns3::MakeUintegerChecker< uint32_t >())
double GetValue(double min, double max)
Get the next random value, as a double in the specified range .
void Install()
Deploy the RemSpectrumPhy objects that generate the map according to the specified settings...
void AddX2Interface(NodeContainer enbNodes)
Create an X2 interface between all the eNBs in a given set.
Definition: lte-helper.cc:1221
uint32_t m_nApartmentsX
X apartments.
static ns3::GlobalValue g_srsPeriodicity("srsPeriodicity", "SRS Periodicity (has to be at least " "greater than the number of UEs per eNB)", ns3::UintegerValue(80), ns3::MakeUintegerChecker< uint16_t >())
double zMax
The z coordinate of the up bound of the box.
Definition: box.h:120
This class contains the specification of EPS Bearers.
Definition: eps-bearer.h:91
std::list< Box > m_previousBlocks
previous bocks
static ns3::GlobalValue g_macroEnbDlEarfcn("macroEnbDlEarfcn", "DL EARFCN used by macro eNBs", ns3::UintegerValue(100), ns3::MakeUintegerChecker< uint16_t >())
void SetChannelAttribute(std::string name, const AttributeValue &value)
Set an attribute value to be propagated to each Channel created by the helper.
#define NS_ASSERT_MSG(condition, message)
At runtime, in debugging builds, if this condition is not true, the program prints the message to out...
Definition: assert.h:88
static ns3::GlobalValue g_homeEnbDlEarfcn("homeEnbDlEarfcn", "DL EARFCN used by HeNBs", ns3::UintegerValue(100), ns3::MakeUintegerChecker< uint16_t >())
void Install(std::string nodeName) const
Aggregate implementations of the ns3::Ipv4, ns3::Ipv6, ns3::Udp, and ns3::Tcp classes onto the provid...
NetDeviceContainer InstallUeDevice(NodeContainer c)
Create a set of UE devices.
Definition: lte-helper.cc:489
void SetBuildingAttribute(std::string n, const AttributeValue &v)
Set an attribute to be used for each new building to be created.
Helper class used to assign positions and mobility models to nodes.
void AddNetworkRouteTo(Ipv4Address network, Ipv4Mask networkMask, Ipv4Address nextHop, uint32_t interface, uint32_t metric=0)
Add a network route to the static routing table.
Ipv4 addresses are stored in host order in this class.
Definition: ipv4-address.h:41
Ipv4InterfaceContainer Assign(const NetDeviceContainer &c)
Assign IP addresses to the net devices specified in the container based on the current network prefix...
static ns3::GlobalValue g_macroEnbTxPowerDbm("macroEnbTxPowerDbm", "TX power [dBm] used by macro eNBs", ns3::DoubleValue(46.0), ns3::MakeDoubleChecker< double >())
void Add(NodeContainer other)
Append the contents of another NodeContainer to the end of this container.
void SetEpcHelper(Ptr< EpcHelper > h)
Set the EpcHelper to be used to setup the EPC network in conjunction with the setup of the LTE radio ...
Definition: lte-helper.cc:272
static ns3::GlobalValue g_nBlocks("nBlocks", "Number of femtocell blocks", ns3::UintegerValue(1), ns3::MakeUintegerChecker< uint32_t >())
static ns3::GlobalValue g_interSiteDistance("interSiteDistance", "min distance between two nearby macro cell sites", ns3::DoubleValue(500), ns3::MakeDoubleChecker< double >())
Helper class that adds ns3::Ipv4StaticRouting objects.
AttributeValue implementation for DataRate.
Definition: data-rate.h:298
virtual Ptr< Node > GetPgwNode() const
Get the PGW node.
std::vector< Ptr< NetDevice > >::const_iterator Iterator
NetDevice container iterator.
Time Seconds(double value)
Construct a Time in the indicated unit.
Definition: nstime.h:1289
uint32_t GetN(void) const
Get the number of Ptr<NetDevice> stored in this container.
void SetDefault(std::string name, const AttributeValue &value)
Definition: config.cc:849
Ptr< const AttributeChecker > MakeBooleanChecker(void)
Definition: boolean.cc:121
void PrintGnuplottableBuildingListToFile(std::string filename)
void SetEnbAntennaModelAttribute(std::string n, const AttributeValue &v)
Set an attribute for the eNodeB antenna model to be created.
Definition: lte-helper.cc:415
static ns3::GlobalValue g_homeEnbBandwidth("homeEnbBandwidth", "bandwidth [num RBs] used by HeNBs", ns3::UintegerValue(25), ns3::MakeUintegerChecker< uint16_t >())
Class that takes care of installing blocks of the buildings in a given area.
Ptr< Node > Get(uint32_t i) const
Get the Ptr<Node> stored in this container at a given index.
clientApps
Definition: first.py:61
Qci
QoS Class Indicator.
Definition: eps-bearer.h:106
A helper class to make life easier while doing simple IPv4 address assignment in scripts.
static ns3::GlobalValue g_outdoorUeMaxSpeed("outdoorUeMaxSpeed", "Maximum speed value of macro UE with random waypoint model [m/s].", ns3::DoubleValue(0.0), ns3::MakeDoubleChecker< double >())
#define NS_LOG_ERROR(msg)
Use NS_LOG to output a message of level LOG_ERROR.
Definition: log.h:257
void Create(uint32_t n)
Create n nodes and append pointers to them to the end of this NodeContainer.
void EnableMacTraces(void)
Enable trace sinks for MAC layer.
Definition: lte-helper.cc:1530
static ns3::GlobalValue g_epcDl("epcDl", "if true, will activate data flows in the downlink when EPC is being used. " "If false, downlink flows won't be activated. " "If EPC is not used, this parameter will be ignored.", ns3::BooleanValue(true), ns3::MakeBooleanChecker())
static ns3::GlobalValue g_homeEnbTxPowerDbm("homeEnbTxPowerDbm", "TX power [dBm] used by HeNBs", ns3::DoubleValue(20.0), ns3::MakeDoubleChecker< double >())
This class can be used to hold variables of floating point type such as &#39;double&#39; or &#39;float&#39;...
Definition: double.h:41
void SetAttribute(std::string name, const AttributeValue &value)
Set a single attribute, raising fatal errors if unsuccessful.
Definition: object-base.cc:185
The eNodeB device implementation.
virtual Ipv4Address GetUeDefaultGatewayAddress()
Iterator Begin(void) const
Get an iterator which refers to the first Node in the container.
uint16_t remotePortStart
start of the port number range of the remote host
Definition: epc-tft.h:137
uint32_t GetNDevices(void) const
Definition: node.cc:152
Ptr< Ipv4StaticRouting > GetStaticRouting(Ptr< Ipv4 > ipv4) const
Try and find the static routing protocol as either the main routing protocol or in the list of routin...
double xMin
The x coordinate of the left bound of the box.
Definition: box.h:110
static ns3::GlobalValue g_macroEnbBandwidth("macroEnbBandwidth", "bandwidth [num RBs] used by macro eNBs", ns3::UintegerValue(25), ns3::MakeUintegerChecker< uint16_t >())
void SetBase(Ipv4Address network, Ipv4Mask mask, Ipv4Address base="0.0.0.1")
Set the base network number, network mask and base address.
Implement the data structure representing a TrafficFlowTemplate Packet Filter.
Definition: epc-tft.h:74
void SetEnbDeviceAttribute(std::string n, const AttributeValue &v)
Set an attribute for the eNodeB devices (LteEnbNetDevice) to be created.
Definition: lte-helper.cc:400
uint16_t localPortStart
start of the port number range of the UE
Definition: epc-tft.h:139
static ns3::GlobalValue g_remRbId("remRbId", "Resource Block Id of Data Channel, for which REM will be generated;" "default value is -1, what means REM will be averaged from all RBs of " "Control Channel", ns3::IntegerValue(-1), MakeIntegerChecker< int32_t >())
The LteUeNetDevice class implements the UE net device.
int64_t Get(void) const
Definition: integer.cc:35