A Discrete-Event Network Simulator
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ns3::ThreeGppPropagationLossModel Class Referenceabstract

Base class for the 3GPP propagation models. More...

#include "three-gpp-propagation-loss-model.h"

+ Inheritance diagram for ns3::ThreeGppPropagationLossModel:
+ Collaboration diagram for ns3::ThreeGppPropagationLossModel:

Classes

struct  O2iLossMapItem
 Define a struct for the m_o2iLossMap entries. More...
 
struct  ShadowingMapItem
 Define a struct for the m_shadowingMap entries. More...
 

Public Member Functions

 ThreeGppPropagationLossModel ()
 Constructor. More...
 
 ThreeGppPropagationLossModel (const ThreeGppPropagationLossModel &)=delete
 
 ~ThreeGppPropagationLossModel () override
 Destructor. More...
 
Ptr< ChannelConditionModelGetChannelConditionModel () const
 Returns the associated channel condition model. More...
 
double GetFrequency () const
 Return the current central frequency. More...
 
bool IsO2iLowPenetrationLoss (Ptr< const ChannelCondition > cond) const
 Return true if the O2I Building Penetration loss corresponds to a low loss condition. More...
 
ThreeGppPropagationLossModeloperator= (const ThreeGppPropagationLossModel &)=delete
 
void SetChannelConditionModel (Ptr< ChannelConditionModel > model)
 Set the channel condition model used to determine the channel state (e.g., the LOS/NLOS condition) More...
 
void SetFrequency (double f)
 Set the central frequency of the model. More...
 
- Public Member Functions inherited from ns3::PropagationLossModel
 PropagationLossModel ()
 
 PropagationLossModel (const PropagationLossModel &)=delete
 
 ~PropagationLossModel () override
 
int64_t AssignStreams (int64_t stream)
 If this loss model uses objects of type RandomVariableStream, set the stream numbers to the integers starting with the offset 'stream'. More...
 
double CalcRxPower (double txPowerDbm, Ptr< MobilityModel > a, Ptr< MobilityModel > b) const
 Returns the Rx Power taking into account all the PropagationLossModel(s) chained to the current one. More...
 
Ptr< PropagationLossModelGetNext ()
 Gets the next PropagationLossModel in the chain of loss models that act on the signal. More...
 
PropagationLossModeloperator= (const PropagationLossModel &)=delete
 
void SetNext (Ptr< PropagationLossModel > next)
 Enables a chain of loss models to act on the signal. More...
 
- Public Member Functions inherited from ns3::Object
 Object ()
 Constructor. More...
 
 ~Object () override
 Destructor. More...
 
void AggregateObject (Ptr< Object > other)
 Aggregate two Objects together. More...
 
void Dispose ()
 Dispose of this Object. More...
 
AggregateIterator GetAggregateIterator () const
 Get an iterator to the Objects aggregated to this one. More...
 
TypeId GetInstanceTypeId () const override
 Get the most derived TypeId for this Object. More...
 
template<typename T >
Ptr< T > GetObject () const
 Get a pointer to the requested aggregated Object. More...
 
template<>
Ptr< ObjectGetObject () const
 Specialization of () for objects of type ns3::Object. More...
 
template<typename T >
Ptr< T > GetObject (TypeId tid) const
 Get a pointer to the requested aggregated Object by TypeId. More...
 
template<>
Ptr< ObjectGetObject (TypeId tid) const
 Specialization of (TypeId tid) for objects of type ns3::Object. More...
 
void Initialize ()
 Invoke DoInitialize on all Objects aggregated to this one. More...
 
bool IsInitialized () const
 Check if the object has been initialized. More...
 
- Public Member Functions inherited from ns3::SimpleRefCount< Object, ObjectBase, ObjectDeleter >
 SimpleRefCount ()
 Default constructor. More...
 
 SimpleRefCount (const SimpleRefCount &o[[maybe_unused]])
 Copy constructor. More...
 
uint32_t GetReferenceCount () const
 Get the reference count of the object. More...
 
SimpleRefCountoperator= (const SimpleRefCount &o[[maybe_unused]])
 Assignment operator. More...
 
void Ref () const
 Increment the reference count. More...
 
void Unref () const
 Decrement the reference count. More...
 
- Public Member Functions inherited from ns3::ObjectBase
virtual ~ObjectBase ()
 Virtual destructor. More...
 
void GetAttribute (std::string name, AttributeValue &value) const
 Get the value of an attribute, raising fatal errors if unsuccessful. More...
 
bool GetAttributeFailSafe (std::string name, AttributeValue &value) const
 Get the value of an attribute without raising errors. More...
 
void SetAttribute (std::string name, const AttributeValue &value)
 Set a single attribute, raising fatal errors if unsuccessful. More...
 
bool SetAttributeFailSafe (std::string name, const AttributeValue &value)
 Set a single attribute without raising errors. More...
 
bool TraceConnect (std::string name, std::string context, const CallbackBase &cb)
 Connect a TraceSource to a Callback with a context. More...
 
bool TraceConnectWithoutContext (std::string name, const CallbackBase &cb)
 Connect a TraceSource to a Callback without a context. More...
 
bool TraceDisconnect (std::string name, std::string context, const CallbackBase &cb)
 Disconnect from a TraceSource a Callback previously connected with a context. More...
 
bool TraceDisconnectWithoutContext (std::string name, const CallbackBase &cb)
 Disconnect from a TraceSource a Callback previously connected without a context. More...
 

Static Public Member Functions

static TypeId GetTypeId ()
 Get the type ID. More...
 
- Static Public Member Functions inherited from ns3::PropagationLossModel
static TypeId GetTypeId ()
 Get the type ID. More...
 
- Static Public Member Functions inherited from ns3::Object
static TypeId GetTypeId ()
 Register this type. More...
 
- Static Public Member Functions inherited from ns3::ObjectBase
static TypeId GetTypeId ()
 Get the type ID. More...
 

Protected Member Functions

void DoDispose () override
 Destructor implementation. More...
 
- Protected Member Functions inherited from ns3::Object
 Object (const Object &o)
 Copy an Object. More...
 
virtual void DoInitialize ()
 Initialize() implementation. More...
 
virtual void NotifyNewAggregate ()
 Notify all Objects aggregated to this one of a new Object being aggregated. More...
 
- Protected Member Functions inherited from ns3::ObjectBase
void ConstructSelf (const AttributeConstructionList &attributes)
 Complete construction of ObjectBase; invoked by derived classes. More...
 
virtual void NotifyConstructionCompleted ()
 Notifier called once the ObjectBase is fully constructed. More...
 

Static Protected Member Functions

static double Calculate2dDistance (Vector a, Vector b)
 Computes the 2D distance between two 3D vectors. More...
 

Protected Attributes

bool m_buildingPenLossesEnabled
 enable/disable building penetration losses More...
 
Ptr< ChannelConditionModelm_channelConditionModel
 pointer to the channel condition model More...
 
bool m_enforceRanges
 strictly enforce TR 38.901 parameter ranges More...
 
double m_frequency
 operating frequency in Hz More...
 
Ptr< NormalRandomVariablem_normalO2iHighLossVar
 a normal random variable for the calculation of 02i high loss, see TR38.901 Table 7.4.3-2 More...
 
Ptr< NormalRandomVariablem_normalO2iLowLossVar
 a normal random variable for the calculation of 02i low loss, see TR38.901 Table 7.4.3-2 More...
 
Ptr< NormalRandomVariablem_normRandomVariable
 normal random variable More...
 
std::unordered_map< uint32_t, O2iLossMapItemm_o2iLossMap
 map to store the o2i Loss values More...
 
Ptr< UniformRandomVariablem_randomO2iVar1
 a uniform random variable for the calculation of the indoor loss, see TR38.901 Table 7.4.3-2 More...
 
Ptr< UniformRandomVariablem_randomO2iVar2
 a uniform random variable for the calculation of the indoor loss, see TR38.901 Table 7.4.3-2 More...
 
bool m_shadowingEnabled
 enable/disable shadowing More...
 
std::unordered_map< uint32_t, ShadowingMapItemm_shadowingMap
 map to store the shadowing values More...
 

Private Member Functions

int64_t DoAssignStreams (int64_t stream) override
 Assign a fixed random variable stream number to the random variables used by this model. More...
 
double DoCalcRxPower (double txPowerDbm, Ptr< MobilityModel > a, Ptr< MobilityModel > b) const override
 Computes the received power by applying the pathloss model described in 3GPP TR 38.901. More...
 
virtual bool DoIsO2iLowPenetrationLoss (Ptr< const ChannelCondition > cond) const
 Indicates the condition of the o2i building penetration loss (defined in 3GPP TR 38.901 7.4.3.1). More...
 
double GetLoss (Ptr< ChannelCondition > cond, double distance2D, double distance3D, double hUt, double hBs) const
 Computes the pathloss between a and b. More...
 
virtual double GetLossLos (double distance2D, double distance3D, double hUt, double hBs) const =0
 Computes the pathloss between a and b considering that the line of sight is not obstructed. More...
 
virtual double GetLossNlos (double distance2D, double distance3D, double hUt, double hBs) const =0
 Computes the pathloss between a and b considering that the line of sight is obstructed. More...
 
virtual double GetLossNlosv (double distance2D, double distance3D, double hUt, double hBs) const
 Computes the pathloss between a and b considering that the line of sight is obstructed by a vehicle. More...
 
virtual double GetO2iDistance2dIn () const =0
 Returns the minimum of the two independently generated distances according to the uniform distribution between the minimum and the maximum value depending on the specific 3GPP scenario (UMa, UMi-Street Canyon, RMa), i.e., between 0 and 25 m for UMa and UMi-Street Canyon, and between 0 and 10 m for RMa. More...
 
virtual double GetO2iHighPenetrationLoss (Ptr< MobilityModel > a, Ptr< MobilityModel > b, ChannelCondition::LosConditionValue cond) const
 Retrieves the o2i building penetration loss value by looking at m_o2iLossMap. More...
 
virtual double GetO2iLowPenetrationLoss (Ptr< MobilityModel > a, Ptr< MobilityModel > b, ChannelCondition::LosConditionValue cond) const
 Retrieves the o2i building penetration loss value by looking at m_o2iLossMap. More...
 
double GetShadowing (Ptr< MobilityModel > a, Ptr< MobilityModel > b, ChannelCondition::LosConditionValue cond) const
 Retrieves the shadowing value by looking at m_shadowingMap. More...
 
virtual double GetShadowingCorrelationDistance (ChannelCondition::LosConditionValue cond) const =0
 Returns the shadow fading correlation distance. More...
 
virtual double GetShadowingStd (Ptr< MobilityModel > a, Ptr< MobilityModel > b, ChannelCondition::LosConditionValue cond) const =0
 Returns the shadow fading standard deviation. More...
 
virtual std::pair< double, double > GetUtAndBsHeights (double za, double zb) const
 Determines hUT and hBS. More...
 

Static Private Member Functions

static uint32_t GetKey (Ptr< MobilityModel > a, Ptr< MobilityModel > b)
 Returns an unique key for the channel between a and b. More...
 
static Vector GetVectorDifference (Ptr< MobilityModel > a, Ptr< MobilityModel > b)
 Get the difference between the node position. More...
 

Additional Inherited Members

Detailed Description

Base class for the 3GPP propagation models.

Definition at line 33 of file three-gpp-propagation-loss-model.h.

Constructor & Destructor Documentation

◆ ThreeGppPropagationLossModel() [1/2]

ns3::ThreeGppPropagationLossModel::ThreeGppPropagationLossModel ( )

◆ ~ThreeGppPropagationLossModel()

ns3::ThreeGppPropagationLossModel::~ThreeGppPropagationLossModel ( )
override

Destructor.

Definition at line 105 of file three-gpp-propagation-loss-model.cc.

References NS_LOG_FUNCTION.

◆ ThreeGppPropagationLossModel() [2/2]

ns3::ThreeGppPropagationLossModel::ThreeGppPropagationLossModel ( const ThreeGppPropagationLossModel )
delete

Member Function Documentation

◆ Calculate2dDistance()

double ns3::ThreeGppPropagationLossModel::Calculate2dDistance ( Vector  a,
Vector  b 
)
staticprotected

Computes the 2D distance between two 3D vectors.

Parameters
athe first 3D vector
bthe second 3D vector
Returns
the 2D distance between a and b

Definition at line 498 of file three-gpp-propagation-loss-model.cc.

References two-ray-to-three-gpp-ch-calibration::x.

Referenced by DoCalcRxPower(), and ns3::ThreeGppRmaPropagationLossModel::GetShadowingStd().

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◆ DoAssignStreams()

int64_t ns3::ThreeGppPropagationLossModel::DoAssignStreams ( int64_t  stream)
overrideprivatevirtual

Assign a fixed random variable stream number to the random variables used by this model.

Subclasses must implement this; those not using random variables can return zero.

Parameters
streamfirst stream index to use
Returns
the number of stream indices assigned by this model

Implements ns3::PropagationLossModel.

Reimplemented in ns3::ThreeGppV2vUrbanPropagationLossModel, and ns3::ThreeGppUmaPropagationLossModel.

Definition at line 484 of file three-gpp-propagation-loss-model.cc.

References m_normalO2iHighLossVar, m_normalO2iLowLossVar, m_normRandomVariable, m_randomO2iVar1, m_randomO2iVar2, NS_LOG_FUNCTION, and ns3::RandomVariableStream::SetStream().

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◆ DoCalcRxPower()

double ns3::ThreeGppPropagationLossModel::DoCalcRxPower ( double  txPowerDbm,
Ptr< MobilityModel a,
Ptr< MobilityModel b 
) const
overrideprivatevirtual

Computes the received power by applying the pathloss model described in 3GPP TR 38.901.

Parameters
txPowerDbmtx power in dBm
atx mobility model
brx mobility model
Returns
the rx power in dBm

Implements ns3::PropagationLossModel.

Definition at line 155 of file three-gpp-propagation-loss-model.cc.

References Calculate2dDistance(), ns3::CalculateDistance(), GetLoss(), GetO2iHighPenetrationLoss(), GetO2iLowPenetrationLoss(), ns3::MobilityModel::GetPosition(), GetShadowing(), GetUtAndBsHeights(), IsO2iLowPenetrationLoss(), m_buildingPenLossesEnabled, m_channelConditionModel, m_frequency, m_shadowingEnabled, NS_ASSERT_MSG, and NS_LOG_FUNCTION.

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◆ DoDispose()

void ns3::ThreeGppPropagationLossModel::DoDispose ( void  )
overrideprotectedvirtual

Destructor implementation.

This method is called by Dispose() or by the Object's destructor, whichever comes first.

Subclasses are expected to implement their real destruction code in an overridden version of this method and chain up to their parent's implementation once they are done. i.e, for simplicity, the destructor of every subclass should be empty and its content should be moved to the associated DoDispose() method.

It is safe to call GetObject() from within this method.

Reimplemented from ns3::Object.

Definition at line 111 of file three-gpp-propagation-loss-model.cc.

References m_channelConditionModel, and m_shadowingMap.

◆ DoIsO2iLowPenetrationLoss()

bool ns3::ThreeGppPropagationLossModel::DoIsO2iLowPenetrationLoss ( Ptr< const ChannelCondition cond) const
privatevirtual

Indicates the condition of the o2i building penetration loss (defined in 3GPP TR 38.901 7.4.3.1).

The default implementation returns the condition as set (either based on the buildings materials, or if the probabilistic model is used in the ThreeGppChannelConditionModel, then based on the result of a random variable). The derived classes can change the default behavior by overriding this method.

Parameters
condthe ptr to the channel condition model
Returns
True for low losses, false for high losses

Reimplemented in ns3::ThreeGppRmaPropagationLossModel.

Definition at line 388 of file three-gpp-propagation-loss-model.cc.

References ns3::olsr::HIGH, ns3::olsr::LOW, and NS_ABORT_MSG.

Referenced by IsO2iLowPenetrationLoss().

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◆ GetChannelConditionModel()

Ptr< ChannelConditionModel > ns3::ThreeGppPropagationLossModel::GetChannelConditionModel ( ) const

Returns the associated channel condition model.

Returns
the channel condition model

Definition at line 126 of file three-gpp-propagation-loss-model.cc.

References m_channelConditionModel, and NS_LOG_FUNCTION.

Referenced by GetTypeId().

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◆ GetFrequency()

double ns3::ThreeGppPropagationLossModel::GetFrequency ( ) const

Return the current central frequency.

Returns
The current central frequency

Definition at line 142 of file three-gpp-propagation-loss-model.cc.

References m_frequency, and NS_LOG_FUNCTION.

Referenced by GetTypeId().

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◆ GetKey()

uint32_t ns3::ThreeGppPropagationLossModel::GetKey ( Ptr< MobilityModel a,
Ptr< MobilityModel b 
)
staticprivate

Returns an unique key for the channel between a and b.

The key is the value of the Cantor function calculated by using as first parameter the lowest node ID, and as a second parameter the highest node ID.

Parameters
atx mobility model
brx mobility model
Returns
channel key

Definition at line 508 of file three-gpp-propagation-loss-model.cc.

References ns3::Node::GetId(), ns3::Object::GetObject(), max, and min.

Referenced by GetO2iHighPenetrationLoss(), GetO2iLowPenetrationLoss(), and GetShadowing().

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◆ GetLoss()

double ns3::ThreeGppPropagationLossModel::GetLoss ( Ptr< ChannelCondition cond,
double  distance2D,
double  distance3D,
double  hUt,
double  hBs 
) const
private

Computes the pathloss between a and b.

Parameters
condthe channel condition
distance2Dthe 2D distance between tx and rx in meters
distance3Dthe 3D distance between tx and rx in meters
hUtthe height of the UT in meters
hBsthe height of the BS in meters
Returns
pathloss value in dB

Definition at line 216 of file three-gpp-propagation-loss-model.cc.

References GetLossLos(), GetLossNlos(), GetLossNlosv(), NS_FATAL_ERROR, and NS_LOG_FUNCTION.

Referenced by DoCalcRxPower().

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◆ GetLossLos()

virtual double ns3::ThreeGppPropagationLossModel::GetLossLos ( double  distance2D,
double  distance3D,
double  hUt,
double  hBs 
) const
privatepure virtual

Computes the pathloss between a and b considering that the line of sight is not obstructed.

Parameters
distance2Dthe 2D distance between tx and rx in meters
distance3Dthe 3D distance between tx and rx in meters
hUtthe height of the UT in meters
hBsthe height of the BS in meters
Returns
pathloss value in dB

Implemented in ns3::ThreeGppV2vHighwayPropagationLossModel, ns3::ThreeGppV2vUrbanPropagationLossModel, ns3::ThreeGppIndoorOfficePropagationLossModel, ns3::ThreeGppUmiStreetCanyonPropagationLossModel, ns3::ThreeGppUmaPropagationLossModel, and ns3::ThreeGppRmaPropagationLossModel.

Referenced by GetLoss().

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◆ GetLossNlos()

virtual double ns3::ThreeGppPropagationLossModel::GetLossNlos ( double  distance2D,
double  distance3D,
double  hUt,
double  hBs 
) const
privatepure virtual

Computes the pathloss between a and b considering that the line of sight is obstructed.

Parameters
distance2Dthe 2D distance between tx and rx in meters
distance3Dthe 3D distance between tx and rx in meters
hUtthe height of the UT in meters
hBsthe height of the BS in meters
Returns
pathloss value in dB

Implemented in ns3::ThreeGppV2vUrbanPropagationLossModel, ns3::ThreeGppIndoorOfficePropagationLossModel, ns3::ThreeGppUmiStreetCanyonPropagationLossModel, ns3::ThreeGppUmaPropagationLossModel, and ns3::ThreeGppRmaPropagationLossModel.

Referenced by GetLoss().

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◆ GetLossNlosv()

double ns3::ThreeGppPropagationLossModel::GetLossNlosv ( double  distance2D,
double  distance3D,
double  hUt,
double  hBs 
) const
privatevirtual

Computes the pathloss between a and b considering that the line of sight is obstructed by a vehicle.

By default it raises an error to avoid misuse.

Parameters
distance2Dthe 2D distance between tx and rx in meters
distance3Dthe 3D distance between tx and rx in meters
hUtthe height of the UT in meters
hBsthe height of the BS in meters
Returns
pathloss value in dB

Reimplemented in ns3::ThreeGppV2vUrbanPropagationLossModel.

Definition at line 405 of file three-gpp-propagation-loss-model.cc.

References NS_FATAL_ERROR, and NS_LOG_FUNCTION.

Referenced by GetLoss().

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◆ GetO2iDistance2dIn()

virtual double ns3::ThreeGppPropagationLossModel::GetO2iDistance2dIn ( ) const
privatepure virtual

Returns the minimum of the two independently generated distances according to the uniform distribution between the minimum and the maximum value depending on the specific 3GPP scenario (UMa, UMi-Street Canyon, RMa), i.e., between 0 and 25 m for UMa and UMi-Street Canyon, and between 0 and 10 m for RMa.

According to 3GPP TR 38.901 this 2D−in distance shall be UT-specifically generated. 2D−in distance is used for the O2I penetration losses calculation according to 3GPP TR 38.901 7.4.3. See GetO2iLowPenetrationLoss/GetO2iHighPenetrationLoss functions.

Returns
Returns 02i 2D distance (in meters) used to calculate low/high losses.

Implemented in ns3::ThreeGppV2vUrbanPropagationLossModel, ns3::ThreeGppIndoorOfficePropagationLossModel, ns3::ThreeGppUmiStreetCanyonPropagationLossModel, ns3::ThreeGppUmaPropagationLossModel, and ns3::ThreeGppRmaPropagationLossModel.

Referenced by GetO2iHighPenetrationLoss(), and GetO2iLowPenetrationLoss().

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◆ GetO2iHighPenetrationLoss()

double ns3::ThreeGppPropagationLossModel::GetO2iHighPenetrationLoss ( Ptr< MobilityModel a,
Ptr< MobilityModel b,
ChannelCondition::LosConditionValue  cond 
) const
privatevirtual

Retrieves the o2i building penetration loss value by looking at m_o2iLossMap.

If not found or if the channel condition changed it generates a new independent realization and stores it in the map, otherwise it calculates a new value as defined in 3GPP TR 38.901 7.4.3.1.

Note that all child classes should implement this function to support high losses calculation. As such, this function should be purely virtual.

Parameters
atx mobility model (used for the key calculation)
brx mobility model (used for the key calculation)
condthe LOS/NLOS channel condition
Returns
o2iLoss

Definition at line 316 of file three-gpp-propagation-loss-model.cc.

References GetKey(), GetO2iDistance2dIn(), m_frequency, m_normalO2iHighLossVar, m_o2iLossMap, and NS_LOG_FUNCTION.

Referenced by DoCalcRxPower().

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◆ GetO2iLowPenetrationLoss()

double ns3::ThreeGppPropagationLossModel::GetO2iLowPenetrationLoss ( Ptr< MobilityModel a,
Ptr< MobilityModel b,
ChannelCondition::LosConditionValue  cond 
) const
privatevirtual

Retrieves the o2i building penetration loss value by looking at m_o2iLossMap.

If not found or if the channel condition changed it generates a new independent realization and stores it in the map, otherwise it calculates a new value as defined in 3GPP TR 38.901 7.4.3.1.

Note that all child classes should implement this function to support low losses calculation. As such, this function should be purely virtual.

Parameters
atx mobility model (used for the key calculation)
brx mobility model (used for the key calculation)
condthe LOS/NLOS channel condition
Returns
o2iLoss

Definition at line 246 of file three-gpp-propagation-loss-model.cc.

References GetKey(), GetO2iDistance2dIn(), m_frequency, m_normalO2iLowLossVar, m_o2iLossMap, and NS_LOG_FUNCTION.

Referenced by DoCalcRxPower().

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◆ GetShadowing()

double ns3::ThreeGppPropagationLossModel::GetShadowing ( Ptr< MobilityModel a,
Ptr< MobilityModel b,
ChannelCondition::LosConditionValue  cond 
) const
private

Retrieves the shadowing value by looking at m_shadowingMap.

If not found or if the channel condition changed it generates a new independent realization and stores it in the map, otherwise it correlates the new value with the previous one using the autocorrelation function defined in 3GPP TR 38.901, Sec. 7.4.4.

Parameters
atx mobility model
brx mobility model
condthe LOS/NLOS channel condition
Returns
shadowing loss in dB

Definition at line 416 of file three-gpp-propagation-loss-model.cc.

References GetKey(), ns3::Vector2D::GetLength(), GetShadowingCorrelationDistance(), GetShadowingStd(), GetVectorDifference(), m_normRandomVariable, m_shadowingMap, and NS_LOG_FUNCTION.

Referenced by DoCalcRxPower().

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◆ GetShadowingCorrelationDistance()

virtual double ns3::ThreeGppPropagationLossModel::GetShadowingCorrelationDistance ( ChannelCondition::LosConditionValue  cond) const
privatepure virtual

Returns the shadow fading correlation distance.

Parameters
condthe LOS/NLOS channel condition
Returns
shadowing correlation distance in meters

Implemented in ns3::ThreeGppV2vUrbanPropagationLossModel, ns3::ThreeGppIndoorOfficePropagationLossModel, ns3::ThreeGppUmiStreetCanyonPropagationLossModel, ns3::ThreeGppUmaPropagationLossModel, and ns3::ThreeGppRmaPropagationLossModel.

Referenced by GetShadowing().

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◆ GetShadowingStd()

virtual double ns3::ThreeGppPropagationLossModel::GetShadowingStd ( Ptr< MobilityModel a,
Ptr< MobilityModel b,
ChannelCondition::LosConditionValue  cond 
) const
privatepure virtual

Returns the shadow fading standard deviation.

Parameters
atx mobility model
brx mobility model
condthe LOS/NLOS channel condition
Returns
shadowing std in dB

Implemented in ns3::ThreeGppV2vUrbanPropagationLossModel, ns3::ThreeGppIndoorOfficePropagationLossModel, ns3::ThreeGppUmiStreetCanyonPropagationLossModel, ns3::ThreeGppUmaPropagationLossModel, and ns3::ThreeGppRmaPropagationLossModel.

Referenced by GetShadowing().

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◆ GetTypeId()

TypeId ns3::ThreeGppPropagationLossModel::GetTypeId ( void  )
static

◆ GetUtAndBsHeights()

std::pair< double, double > ns3::ThreeGppPropagationLossModel::GetUtAndBsHeights ( double  za,
double  zb 
) const
privatevirtual

Determines hUT and hBS.

The default implementation assumes that the tallest node is the BS and the smallest is the UT. The derived classes can change the default behavior by overriding this method.

Parameters
zathe height of the first node in meters
zbthe height of the second node in meters
Returns
std::pair of heights in meters, the first element is hUt and the second is hBs

Reimplemented in ns3::ThreeGppUmiStreetCanyonPropagationLossModel.

Definition at line 473 of file three-gpp-propagation-loss-model.cc.

References max, and min.

Referenced by DoCalcRxPower().

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◆ GetVectorDifference()

Vector ns3::ThreeGppPropagationLossModel::GetVectorDifference ( Ptr< MobilityModel a,
Ptr< MobilityModel b 
)
staticprivate

Get the difference between the node position.

The difference is calculated as (b-a) if Id(a) < Id (b), or (a-b) if Id(b) <= Id(a).

Parameters
aFirst node
bSecond node
Returns
the difference between the node vector position

Definition at line 522 of file three-gpp-propagation-loss-model.cc.

References ns3::Object::GetObject(), and ns3::MobilityModel::GetPosition().

Referenced by GetShadowing().

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◆ IsO2iLowPenetrationLoss()

bool ns3::ThreeGppPropagationLossModel::IsO2iLowPenetrationLoss ( Ptr< const ChannelCondition cond) const

Return true if the O2I Building Penetration loss corresponds to a low loss condition.

Parameters
condThe ptr to the channel condition model
Returns
True for low loss, false for high

Definition at line 149 of file three-gpp-propagation-loss-model.cc.

References DoIsO2iLowPenetrationLoss().

Referenced by DoCalcRxPower().

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◆ operator=()

ThreeGppPropagationLossModel& ns3::ThreeGppPropagationLossModel::operator= ( const ThreeGppPropagationLossModel )
delete

◆ SetChannelConditionModel()

void ns3::ThreeGppPropagationLossModel::SetChannelConditionModel ( Ptr< ChannelConditionModel model)

Set the channel condition model used to determine the channel state (e.g., the LOS/NLOS condition)

Parameters
modelpointer to the channel condition model

Definition at line 119 of file three-gpp-propagation-loss-model.cc.

References m_channelConditionModel, and NS_LOG_FUNCTION.

Referenced by ThreeGppShadowingTestCase::ChangeChannelCondition(), BuildingsPenetrationLossesTestCase::DoRun(), ThreeGppV2vUrbanPropagationLossModelTestCase::DoRun(), ThreeGppV2vHighwayPropagationLossModelTestCase::DoRun(), GetTypeId(), and ThreeGppShadowingTestCase::RunTest().

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◆ SetFrequency()

void ns3::ThreeGppPropagationLossModel::SetFrequency ( double  f)

Set the central frequency of the model.

Parameters
fthe central frequency in the range in Hz, between 500.0e6 and 100.0e9 Hz

Definition at line 133 of file three-gpp-propagation-loss-model.cc.

References f(), m_frequency, NS_ASSERT_MSG, and NS_LOG_FUNCTION.

Referenced by GetTypeId().

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Member Data Documentation

◆ m_buildingPenLossesEnabled

bool ns3::ThreeGppPropagationLossModel::m_buildingPenLossesEnabled
protected

enable/disable building penetration losses

Definition at line 308 of file three-gpp-propagation-loss-model.h.

Referenced by DoCalcRxPower(), and GetTypeId().

◆ m_channelConditionModel

◆ m_enforceRanges

◆ m_frequency

◆ m_normalO2iHighLossVar

Ptr<NormalRandomVariable> ns3::ThreeGppPropagationLossModel::m_normalO2iHighLossVar
protected

a normal random variable for the calculation of 02i high loss, see TR38.901 Table 7.4.3-2

Definition at line 340 of file three-gpp-propagation-loss-model.h.

Referenced by ThreeGppPropagationLossModel(), DoAssignStreams(), and GetO2iHighPenetrationLoss().

◆ m_normalO2iLowLossVar

Ptr<NormalRandomVariable> ns3::ThreeGppPropagationLossModel::m_normalO2iLowLossVar
protected

a normal random variable for the calculation of 02i low loss, see TR38.901 Table 7.4.3-2

Definition at line 337 of file three-gpp-propagation-loss-model.h.

Referenced by ThreeGppPropagationLossModel(), DoAssignStreams(), and GetO2iLowPenetrationLoss().

◆ m_normRandomVariable

◆ m_o2iLossMap

std::unordered_map<uint32_t, O2iLossMapItem> ns3::ThreeGppPropagationLossModel::m_o2iLossMap
mutableprotected

map to store the o2i Loss values

Definition at line 330 of file three-gpp-propagation-loss-model.h.

Referenced by GetO2iHighPenetrationLoss(), and GetO2iLowPenetrationLoss().

◆ m_randomO2iVar1

Ptr<UniformRandomVariable> ns3::ThreeGppPropagationLossModel::m_randomO2iVar1
protected

◆ m_randomO2iVar2

Ptr<UniformRandomVariable> ns3::ThreeGppPropagationLossModel::m_randomO2iVar2
protected

◆ m_shadowingEnabled

bool ns3::ThreeGppPropagationLossModel::m_shadowingEnabled
protected

enable/disable shadowing

Definition at line 306 of file three-gpp-propagation-loss-model.h.

Referenced by DoCalcRxPower(), and GetTypeId().

◆ m_shadowingMap

std::unordered_map<uint32_t, ShadowingMapItem> ns3::ThreeGppPropagationLossModel::m_shadowingMap
mutableprotected

map to store the shadowing values

Definition at line 320 of file three-gpp-propagation-loss-model.h.

Referenced by DoDispose(), and GetShadowing().


The documentation for this class was generated from the following files: