lena-dual-stripe.cc File Reference

#include <ns3/applications-module.h>
#include <ns3/buildings-module.h>
#include <ns3/config-store-module.h>
#include <ns3/core-module.h>
#include <ns3/internet-module.h>
#include <ns3/log.h>
#include <ns3/lte-module.h>
#include <ns3/mobility-module.h>
#include <ns3/network-module.h>
#include <ns3/point-to-point-helper.h>
#include <iomanip>
#include <ios>
#include <string>
#include <vector>

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Classes
class	FemtocellBlockAllocator
	Class that takes care of installing blocks of the buildings in a given area. More...

Functions
bool	AreOverlapping (Box a, Box b)
	Check if two boxes are overlapping. More...
void	PrintGnuplottableBuildingListToFile (std::string filename)
	Print a list of buildings that can be plotted using Gnuplot. More...
void	PrintGnuplottableEnbListToFile (std::string filename)
	Print a list of ENBs that can be plotted using Gnuplot. More...
void	PrintGnuplottableUeListToFile (std::string filename)
	Print a list of UEs that can be plotted using Gnuplot. More...

Variables
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 >())
	how much the UE area extends outside the macrocell grid, expressed as fraction of the interSiteDistance More...
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())
	If true, will setup the EPC to simulate an end-to-end topology. More...
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())
	if true, will activate data flows in the downlink when EPC is being used. More...
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())
	if true, will activate data flows in the uplink when EPC is being used. More...
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())
	The path of the fading trace (by default no fading trace is loaded, i.e., fading is not considered) More...
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())
	If true, will generate a REM and then abort the simulation. More...
static ns3::GlobalValue	g_homeEnbActivationRatio ("homeEnbActivationRatio", "The HeNB activation ratio as per 3GPP R4-092042", ns3::DoubleValue(0.5), ns3::MakeDoubleChecker< double >())
	The HeNB activation ratio as per 3GPP R4-092042. More...
static ns3::GlobalValue	g_homeEnbBandwidth ("homeEnbBandwidth", "bandwidth [num RBs] used by HeNBs", ns3::UintegerValue(25), ns3::MakeUintegerChecker< uint16_t >())
	Bandwidth [num RBs] used by HeNBs. More...
static ns3::GlobalValue	g_homeEnbDeploymentRatio ("homeEnbDeploymentRatio", "The HeNB deployment ratio as per 3GPP R4-092042", ns3::DoubleValue(0.2), ns3::MakeDoubleChecker< double >())
	The HeNB deployment ratio as per 3GPP R4-092042. More...
static ns3::GlobalValue	g_homeEnbDlEarfcn ("homeEnbDlEarfcn", "DL EARFCN used by HeNBs", ns3::UintegerValue(100), ns3::MakeUintegerChecker< uint16_t >())
	DL EARFCN used by HeNBs. More...
static ns3::GlobalValue	g_homeEnbTxPowerDbm ("homeEnbTxPowerDbm", "TX power [dBm] used by HeNBs", ns3::DoubleValue(20.0), ns3::MakeDoubleChecker< double >())
	TX power [dBm] used by HeNBs. More...
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 >())
	How many (on average) home UEs per HeNB there are in the simulation. More...
static ns3::GlobalValue	g_interSiteDistance ("interSiteDistance", "min distance between two nearby macro cell sites", ns3::DoubleValue(500), ns3::MakeDoubleChecker< double >())
	min distance between two nearby macro cell sites More...
static ns3::GlobalValue	g_macroEnbBandwidth ("macroEnbBandwidth", "bandwidth [num RBs] used by macro eNBs", ns3::UintegerValue(25), ns3::MakeUintegerChecker< uint16_t >())
	Bandwidth [num RBs] used by macro eNBs. More...
static ns3::GlobalValue	g_macroEnbDlEarfcn ("macroEnbDlEarfcn", "DL EARFCN used by macro eNBs", ns3::UintegerValue(100), ns3::MakeUintegerChecker< uint16_t >())
	DL EARFCN used by macro eNBs. More...
static ns3::GlobalValue	g_macroEnbTxPowerDbm ("macroEnbTxPowerDbm", "TX power [dBm] used by macro eNBs", ns3::DoubleValue(46.0), ns3::MakeDoubleChecker< double >())
	TX power [dBm] used by macro eNBs. More...
static ns3::GlobalValue	g_macroUeDensity ("macroUeDensity", "How many macrocell UEs there are per square meter", ns3::DoubleValue(0.00002), ns3::MakeDoubleChecker< double >())
	How many macrocell UEs there are per square meter. More...
static ns3::GlobalValue	g_nApartmentsX ("nApartmentsX", "Number of apartments along the X axis in a femtocell block", ns3::UintegerValue(10), ns3::MakeUintegerChecker< uint32_t >())
	Number of apartments along the X axis in a femtocell block. More...
static ns3::GlobalValue	g_nBlocks ("nBlocks", "Number of femtocell blocks", ns3::UintegerValue(1), ns3::MakeUintegerChecker< uint32_t >())
	Number of femtocell blocks. More...
static ns3::GlobalValue	g_nFloors ("nFloors", "Number of floors", ns3::UintegerValue(1), ns3::MakeUintegerChecker< uint32_t >())
	Number of floors. More...
static ns3::GlobalValue	g_nMacroEnbSites ("nMacroEnbSites", "How many macro sites there are", ns3::UintegerValue(3), ns3::MakeUintegerChecker< uint32_t >())
	How many macro sites there are. More...
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 >())
	(minimum) number of sites along the X-axis of the hex grid More...
static ns3::GlobalValue	g_numBearersPerUe ("numBearersPerUe", "How many bearers per UE there are in the simulation", ns3::UintegerValue(1), ns3::MakeUintegerChecker< uint16_t >())
	How many bearers per UE there are in the simulation. More...
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 >())
	Maximum speed value of macro UE with random waypoint model [m/s]. More...
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 >())
	Minimum speed value of macro UE with random waypoint model [m/s]. More...
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 >())
	Resource Block Id of Data Channel, for which REM will be generated. More...
static ns3::GlobalValue	g_simTime ("simTime", "Total duration of the simulation [s]", ns3::DoubleValue(0.25), ns3::MakeDoubleChecker< double >())
	Total duration of the simulation [s]. More...
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 >())
	SRS Periodicity (has to be at least greater than the number of UEs per eNB) More...
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())
	if true, the UdpClient application will be used. More...

Function Documentation

AreOverlapping()

bool AreOverlapping	(	Box	a,
		Box	b
	)

Check if two boxes are overlapping.

Parameters

a	First box.
b	Second box.

Returns

true if the boxes are overlapping, false otherwise.

Definition at line 53 of file lena-dual-stripe.cc.

References ns3::Box::xMax, ns3::Box::xMin, ns3::Box::yMax, and ns3::Box::yMin.

Referenced by FemtocellBlockAllocator::OverlapsWithAnyPrevious().

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PrintGnuplottableBuildingListToFile()

void PrintGnuplottableBuildingListToFile

(

std::string

filename

)

Print a list of buildings that can be plotted using Gnuplot.

Parameters

filename

the output file name.

Definition at line 177 of file lena-dual-stripe.cc.

References NS_LOG_ERROR, ns3::Box::xMax, ns3::Box::xMin, ns3::Box::yMax, and ns3::Box::yMin.

PrintGnuplottableEnbListToFile()

void PrintGnuplottableEnbListToFile

(

std::string

filename

)

Print a list of ENBs that can be plotted using Gnuplot.

Parameters

filename

the output file name.

Definition at line 236 of file lena-dual-stripe.cc.

References ns3::LteEnbNetDevice::GetCellId(), ns3::Node::GetDevice(), ns3::Node::GetNDevices(), ns3::Object::GetObject(), and NS_LOG_ERROR.

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PrintGnuplottableUeListToFile()

void PrintGnuplottableUeListToFile

(

std::string

filename

)

Print a list of UEs that can be plotted using Gnuplot.

Parameters

filename

the output file name.

Definition at line 202 of file lena-dual-stripe.cc.

References ns3::Node::GetDevice(), ns3::Node::GetNDevices(), ns3::Object::GetObject(), and NS_LOG_ERROR.

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Variable Documentation

g_areaMarginFactor

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 >()) ( "areaMarginFactor"  , "how much the UE area extends outside the macrocell  grid, " "expressed as fraction of the interSiteDistance"  , ns3::DoubleValue(0.5)  , ns3::MakeDoubleChecker< double >  ()  )

static

how much the UE area extends outside the macrocell grid, expressed as fraction of the interSiteDistance

g_epc

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()) ( "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()    )

static

If true, will setup the EPC to simulate an end-to-end topology.

g_epcDl

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()) ( "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

if true, will activate data flows in the downlink when EPC is being used.

g_epcUl

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()) ( "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()    )

static

if true, will activate data flows in the uplink when EPC is being used.

g_fadingTrace

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()) ( "fadingTrace"  , "The path of the fading trace (by default no fading trace " "is loaded, i.e., fading is not considered)"  , ns3::StringValue("")  , ns3::MakeStringChecker()    )

static

The path of the fading trace (by default no fading trace is loaded, i.e., fading is not considered)

g_generateRem

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()) ( "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()    )

static

If true, will generate a REM and then abort the simulation.

g_homeEnbActivationRatio

ns3::GlobalValue g_homeEnbActivationRatio("homeEnbActivationRatio", "The HeNB activation ratio as per 3GPP R4-092042", ns3::DoubleValue(0.5), ns3::MakeDoubleChecker< double >()) ( "homeEnbActivationRatio"  , "The HeNB activation ratio as per 3GPP R4-092042"  , ns3::DoubleValue(0.5)  , ns3::MakeDoubleChecker< double >  ()  )

static

The HeNB activation ratio as per 3GPP R4-092042.

g_homeEnbBandwidth

ns3::GlobalValue g_homeEnbBandwidth("homeEnbBandwidth", "bandwidth [num RBs] used by HeNBs", ns3::UintegerValue(25), ns3::MakeUintegerChecker< uint16_t >()) ( "homeEnbBandwidth"  , "bandwidth used by HeNBs"  [num RBs], ns3::UintegerValue(25)  , ns3::MakeUintegerChecker< uint16_t >  ()  )

static

Bandwidth [num RBs] used by HeNBs.

g_homeEnbDeploymentRatio

ns3::GlobalValue g_homeEnbDeploymentRatio("homeEnbDeploymentRatio", "The HeNB deployment ratio as per 3GPP R4-092042", ns3::DoubleValue(0.2), ns3::MakeDoubleChecker< double >()) ( "homeEnbDeploymentRatio"  , "The HeNB deployment ratio as per 3GPP R4-092042"  , ns3::DoubleValue(0.2)  , ns3::MakeDoubleChecker< double >  ()  )

static

The HeNB deployment ratio as per 3GPP R4-092042.

g_homeEnbDlEarfcn

ns3::GlobalValue g_homeEnbDlEarfcn("homeEnbDlEarfcn", "DL EARFCN used by HeNBs", ns3::UintegerValue(100), ns3::MakeUintegerChecker< uint16_t >()) ( "homeEnbDlEarfcn"  , "DL EARFCN used by HeNBs"  , ns3::UintegerValue(100)  , ns3::MakeUintegerChecker< uint16_t >  ()  )

static

DL EARFCN used by HeNBs.

g_homeEnbTxPowerDbm

ns3::GlobalValue g_homeEnbTxPowerDbm("homeEnbTxPowerDbm", "TX power [dBm] used by HeNBs", ns3::DoubleValue(20.0), ns3::MakeDoubleChecker< double >()) ( "homeEnbTxPowerDbm"  , "TX power used by HeNBs"  [dBm], ns3::DoubleValue(20.0)  , ns3::MakeDoubleChecker< double >  ()  )

static

TX power [dBm] used by HeNBs.

g_homeUesHomeEnbRatio

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 >()) ( "homeUesHomeEnbRatio"  , "How many (on average) home UEs per HeNB there are in the simulation"  , ns3::DoubleValue(1.0)  , ns3::MakeDoubleChecker< double >  ()  )

static

How many (on average) home UEs per HeNB there are in the simulation.

g_interSiteDistance

ns3::GlobalValue g_interSiteDistance("interSiteDistance", "min distance between two nearby macro cell sites", ns3::DoubleValue(500), ns3::MakeDoubleChecker< double >()) ( "interSiteDistance"  , "min distance between two nearby macro cell sites"  , ns3::DoubleValue(500)  , ns3::MakeDoubleChecker< double >  ()  )

static

min distance between two nearby macro cell sites

g_macroEnbBandwidth

ns3::GlobalValue g_macroEnbBandwidth("macroEnbBandwidth", "bandwidth [num RBs] used by macro eNBs", ns3::UintegerValue(25), ns3::MakeUintegerChecker< uint16_t >()) ( "macroEnbBandwidth"  , "bandwidth used by macro eNBs"  [num RBs], ns3::UintegerValue(25)  , ns3::MakeUintegerChecker< uint16_t >  ()  )

static

Bandwidth [num RBs] used by macro eNBs.

g_macroEnbDlEarfcn

ns3::GlobalValue g_macroEnbDlEarfcn("macroEnbDlEarfcn", "DL EARFCN used by macro eNBs", ns3::UintegerValue(100), ns3::MakeUintegerChecker< uint16_t >()) ( "macroEnbDlEarfcn"  , "DL EARFCN used by macro eNBs"  , ns3::UintegerValue(100)  , ns3::MakeUintegerChecker< uint16_t >  ()  )

static

DL EARFCN used by macro eNBs.

g_macroEnbTxPowerDbm

ns3::GlobalValue g_macroEnbTxPowerDbm("macroEnbTxPowerDbm", "TX power [dBm] used by macro eNBs", ns3::DoubleValue(46.0), ns3::MakeDoubleChecker< double >()) ( "macroEnbTxPowerDbm"  , "TX power used by macro eNBs"  [dBm], ns3::DoubleValue(46.0)  , ns3::MakeDoubleChecker< double >  ()  )

static

TX power [dBm] used by macro eNBs.

g_macroUeDensity

ns3::GlobalValue g_macroUeDensity("macroUeDensity", "How many macrocell UEs there are per square meter", ns3::DoubleValue(0.00002), ns3::MakeDoubleChecker< double >()) ( "macroUeDensity"  , "How many macrocell UEs there are per square meter"  , ns3::DoubleValue(0.00002)  , ns3::MakeDoubleChecker< double >  ()  )

static

How many macrocell UEs there are per square meter.

g_nApartmentsX

ns3::GlobalValue g_nApartmentsX("nApartmentsX", "Number of apartments along the X axis in a femtocell block", ns3::UintegerValue(10), ns3::MakeUintegerChecker< uint32_t >()) ( "nApartmentsX"  , "Number of apartments along the X axis in a femtocell block"  , ns3::UintegerValue(10)  , ns3::MakeUintegerChecker< uint32_t >  ()  )

static

Number of apartments along the X axis in a femtocell block.

g_nBlocks

ns3::GlobalValue g_nBlocks("nBlocks", "Number of femtocell blocks", ns3::UintegerValue(1), ns3::MakeUintegerChecker< uint32_t >()) ( "nBlocks"  , "Number of femtocell blocks"  , ns3::UintegerValue(1)  , ns3::MakeUintegerChecker< uint32_t >  ()  )

static

Number of femtocell blocks.

g_nFloors

ns3::GlobalValue g_nFloors("nFloors", "Number of floors", ns3::UintegerValue(1), ns3::MakeUintegerChecker< uint32_t >()) ( "nFloors"  , "Number of floors"  , ns3::UintegerValue(1)  , ns3::MakeUintegerChecker< uint32_t >  ()  )

static

Number of floors.

g_nMacroEnbSites

ns3::GlobalValue g_nMacroEnbSites("nMacroEnbSites", "How many macro sites there are", ns3::UintegerValue(3), ns3::MakeUintegerChecker< uint32_t >()) ( "nMacroEnbSites"  , "How many macro sites there are"  , ns3::UintegerValue(3)  , ns3::MakeUintegerChecker< uint32_t >  ()  )

static

How many macro sites there are.

g_nMacroEnbSitesX

ns3::GlobalValue g_nMacroEnbSitesX("nMacroEnbSitesX", "(minimum) number of sites along the X-axis of the hex grid", ns3::UintegerValue(1), ns3::MakeUintegerChecker< uint32_t >()) ( "nMacroEnbSitesX"  , "(minimum) number of sites along the X-axis of the hex grid"  , ns3::UintegerValue(1)  , ns3::MakeUintegerChecker< uint32_t >  ()  )

static

(minimum) number of sites along the X-axis of the hex grid

g_numBearersPerUe

ns3::GlobalValue g_numBearersPerUe("numBearersPerUe", "How many bearers per UE there are in the simulation", ns3::UintegerValue(1), ns3::MakeUintegerChecker< uint16_t >()) ( "numBearersPerUe"  , "How many bearers per UE there are in the simulation"  , ns3::UintegerValue(1)  , ns3::MakeUintegerChecker< uint16_t >  ()  )

static

How many bearers per UE there are in the simulation.

g_outdoorUeMaxSpeed

ns3::GlobalValue g_outdoorUeMaxSpeed("outdoorUeMaxSpeed", "Maximum speed value of macro UE with random waypoint model [m/s].", ns3::DoubleValue(0.0), ns3::MakeDoubleChecker< double >()) ( "outdoorUeMaxSpeed"  , "Maximum speed value of macro UE with random waypoint model ."  [m/s], ns3::DoubleValue(0.0)  , ns3::MakeDoubleChecker< double >  ()  )

static

Maximum speed value of macro UE with random waypoint model [m/s].

g_outdoorUeMinSpeed

ns3::GlobalValue g_outdoorUeMinSpeed("outdoorUeMinSpeed", "Minimum speed value of macro UE with random waypoint model [m/s].", ns3::DoubleValue(0.0), ns3::MakeDoubleChecker< double >()) ( "outdoorUeMinSpeed"  , "Minimum speed value of macro UE with random waypoint model ."  [m/s], ns3::DoubleValue(0.0)  , ns3::MakeDoubleChecker< double >  ()  )

static

Minimum speed value of macro UE with random waypoint model [m/s].

g_remRbId

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 >()) ( "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 >  ()  )

static

Resource Block Id of Data Channel, for which REM will be generated.

g_simTime

ns3::GlobalValue g_simTime("simTime", "Total duration of the simulation [s]", ns3::DoubleValue(0.25), ns3::MakeDoubleChecker< double >()) ( "simTime"  , "Total duration of the simulation "  [s], ns3::DoubleValue(0.25)  , ns3::MakeDoubleChecker< double >  ()  )

static

Total duration of the simulation [s].

g_srsPeriodicity

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 >()) ( "srsPeriodicity"  , "SRS Periodicity (has to be at least " "greater than the number of UEs per eNB)"  , ns3::UintegerValue(80)  , ns3::MakeUintegerChecker< uint16_t >  ()  )

static

SRS Periodicity (has to be at least greater than the number of UEs per eNB)

g_useUdp

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()) ( "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()    )

static

if true, the UdpClient application will be used.