add MPDU aggregation (with contributions from Sebastien Deronne and Ioannis Selinis)
/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/*
* Copyright (c) 2005,2006 INRIA
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation;
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
* Author: Mathieu Lacage <mathieu.lacage@sophia.inria.fr>
*/
#include "wifi-phy.h"
#include "wifi-mode.h"
#include "wifi-channel.h"
#include "wifi-preamble.h"
#include "ns3/simulator.h"
#include "ns3/packet.h"
#include "ns3/assert.h"
#include "ns3/log.h"
#include "ns3/double.h"
#include "ns3/uinteger.h"
#include "ns3/enum.h"
#include "ns3/trace-source-accessor.h"
#include <cmath>
namespace ns3 {
NS_LOG_COMPONENT_DEFINE ("WifiPhy");
/****************************************************************
* This destructor is needed.
****************************************************************/
WifiPhyListener::~WifiPhyListener ()
{
}
/****************************************************************
* The actual WifiPhy class
****************************************************************/
NS_OBJECT_ENSURE_REGISTERED (WifiPhy);
TypeId
WifiPhy::GetTypeId (void)
{
static TypeId tid = TypeId ("ns3::WifiPhy")
.SetParent<Object> ()
.AddTraceSource ("PhyTxBegin",
"Trace source indicating a packet "
"has begun transmitting over the channel medium",
MakeTraceSourceAccessor (&WifiPhy::m_phyTxBeginTrace),
"ns3::Packet::TracedCallback")
.AddTraceSource ("PhyTxEnd",
"Trace source indicating a packet "
"has been completely transmitted over the channel. "
"NOTE: the only official WifiPhy implementation "
"available to this date (YansWifiPhy) never fires "
"this trace source.",
MakeTraceSourceAccessor (&WifiPhy::m_phyTxEndTrace),
"ns3::Packet::TracedCallback")
.AddTraceSource ("PhyTxDrop",
"Trace source indicating a packet "
"has been dropped by the device during transmission",
MakeTraceSourceAccessor (&WifiPhy::m_phyTxDropTrace),
"ns3::Packet::TracedCallback")
.AddTraceSource ("PhyRxBegin",
"Trace source indicating a packet "
"has begun being received from the channel medium "
"by the device",
MakeTraceSourceAccessor (&WifiPhy::m_phyRxBeginTrace),
"ns3::Packet::TracedCallback")
.AddTraceSource ("PhyRxEnd",
"Trace source indicating a packet "
"has been completely received from the channel medium "
"by the device",
MakeTraceSourceAccessor (&WifiPhy::m_phyRxEndTrace),
"ns3::Packet::TracedCallback")
.AddTraceSource ("PhyRxDrop",
"Trace source indicating a packet "
"has been dropped by the device during reception",
MakeTraceSourceAccessor (&WifiPhy::m_phyRxDropTrace),
"ns3::Packet::TracedCallback")
.AddTraceSource ("MonitorSnifferRx",
"Trace source simulating a wifi device in monitor mode "
"sniffing all received frames",
MakeTraceSourceAccessor (&WifiPhy::m_phyMonitorSniffRxTrace),
"ns3::WifiPhy::MonitorSnifferRxCallback")
.AddTraceSource ("MonitorSnifferTx",
"Trace source simulating the capability of a wifi device "
"in monitor mode to sniff all frames being transmitted",
MakeTraceSourceAccessor (&WifiPhy::m_phyMonitorSniffTxTrace),
"ns3::WifiPhy::MonitorSnifferTxCallback")
;
return tid;
}
WifiPhy::WifiPhy ()
{
NS_LOG_FUNCTION (this);
m_totalAmpduSize = 0;
m_totalAmpduNumSymbols = 0;
}
WifiPhy::~WifiPhy ()
{
NS_LOG_FUNCTION (this);
}
//return the L-SIG
WifiMode
WifiPhy::GetMFPlcpHeaderMode (WifiMode payloadMode, WifiPreamble preamble)
{
switch (payloadMode.GetBandwidth ())
{
case 20000000:
return WifiPhy::GetOfdmRate6_5MbpsBW20MHz ();
case 40000000:
return WifiPhy::GetOfdmRate13_5MbpsBW40MHz ();
default:
return WifiPhy::GetOfdmRate6_5MbpsBW20MHz ();
}
}
Time
WifiPhy::GetPlcpHtTrainingSymbolDuration (WifiPreamble preamble, WifiTxVector txvector)
{
uint8_t Ndltf, Neltf;
//We suppose here that STBC = 0.
//If STBC > 0, we need a different mapping between Nss and Nltf (IEEE 802.11n-2012 standard, page 1682).
if (txvector.GetNss () < 3)
{
Ndltf = txvector.GetNss();
}
else
{
Ndltf = 4;
}
if (txvector.GetNess () < 3)
{
Neltf = txvector.GetNess();
}
else
{
Neltf = 4;
}
switch (preamble)
{
case WIFI_PREAMBLE_HT_MF:
return MicroSeconds(4 + (4 * Ndltf) + (4 * Neltf));
case WIFI_PREAMBLE_HT_GF:
return MicroSeconds((4 * Ndltf) + (4 * Neltf));
default:
// no training for non HT
return MicroSeconds(0);
}
}
//return L-SIG
Time
WifiPhy::GetPlcpHtSigHeaderDuration (WifiMode payloadMode, WifiPreamble preamble)
{
switch (preamble)
{
case WIFI_PREAMBLE_HT_MF:
// HT-SIG
return MicroSeconds(8);
case WIFI_PREAMBLE_HT_GF:
//HT-SIG
return MicroSeconds(8);
default:
// no HT-SIG for non HT
return MicroSeconds(0);
}
}
WifiMode
WifiPhy::GetPlcpHeaderMode (WifiMode payloadMode, WifiPreamble preamble)
{
switch (payloadMode.GetModulationClass ())
{
case WIFI_MOD_CLASS_OFDM:
{
switch (payloadMode.GetBandwidth ())
{
case 5000000:
return WifiPhy::GetOfdmRate1_5MbpsBW5MHz ();
case 10000000:
return WifiPhy::GetOfdmRate3MbpsBW10MHz ();
default:
// (Section 18.3.2 "PLCP frame format"; IEEE Std 802.11-2012)
// actually this is only the first part of the PlcpHeader,
// because the last 16 bits of the PlcpHeader are using the
// same mode of the payload
return WifiPhy::GetOfdmRate6Mbps ();
}
}
//Added by Ghada to support 11n
case WIFI_MOD_CLASS_HT:
{ //return the HT-SIG
// IEEE Std 802.11n, 20.3.23
switch (preamble)
{
case WIFI_PREAMBLE_HT_MF:
switch (payloadMode.GetBandwidth ())
{
case 20000000:
return WifiPhy::GetOfdmRate13MbpsBW20MHz ();
case 40000000:
return WifiPhy::GetOfdmRate27MbpsBW40MHz ();
default:
return WifiPhy::GetOfdmRate13MbpsBW20MHz ();
}
case WIFI_PREAMBLE_HT_GF:
switch (payloadMode.GetBandwidth ())
{
case 20000000:
return WifiPhy::GetOfdmRate13MbpsBW20MHz ();
case 40000000:
return WifiPhy::GetOfdmRate27MbpsBW40MHz ();
default:
return WifiPhy::GetOfdmRate13MbpsBW20MHz ();
}
default:
return WifiPhy::GetOfdmRate6Mbps ();
}
}
case WIFI_MOD_CLASS_ERP_OFDM:
return WifiPhy::GetErpOfdmRate6Mbps ();
case WIFI_MOD_CLASS_DSSS:
if (preamble == WIFI_PREAMBLE_LONG)
{
// (Section 16.2.3 "PLCP field definitions" and Section 17.2.2.2 "Long PPDU format"; IEEE Std 802.11-2012)
return WifiPhy::GetDsssRate1Mbps ();
}
else // WIFI_PREAMBLE_SHORT
{
// (Section 17.2.2.3 "Short PPDU format"; IEEE Std 802.11-2012)
return WifiPhy::GetDsssRate2Mbps ();
}
default:
NS_FATAL_ERROR ("unsupported modulation class");
return WifiMode ();
}
}
Time
WifiPhy::GetPlcpHeaderDuration (WifiMode payloadMode, WifiPreamble preamble)
{
switch (payloadMode.GetModulationClass ())
{
case WIFI_MOD_CLASS_OFDM:
{
switch (payloadMode.GetBandwidth ())
{
case 20000000:
default:
// (Section 18.3.3 "PLCP preamble (SYNC))" and Figure 18-4 "OFDM training structure"; IEEE Std 802.11-2012)
// also (Section 18.3.2.4 "Timing related parameters" Table 18-5 "Timing-related parameters"; IEEE Std 802.11-2012)
// We return the duration of the SIGNAL field only, since the
// SERVICE field (which strictly speaking belongs to the PLCP
// header, see Section 18.3.2 and Figure 18-1) is sent using the
// payload mode.
return MicroSeconds(4);
case 10000000:
// (Section 18.3.2.4 "Timing related parameters" Table 18-5 "Timing-related parameters"; IEEE Std 802.11-2012)
return MicroSeconds(8);
case 5000000:
// (Section 18.3.2.4 "Timing related parameters" Table 18-5 "Timing-related parameters"; IEEE Std 802.11-2012)
return MicroSeconds(16);
}
}
//Added by Ghada to support 11n
case WIFI_MOD_CLASS_HT:
{ //IEEE 802.11n Figure 20.1
switch (preamble)
{
case WIFI_PREAMBLE_HT_MF:
// L-SIG
return MicroSeconds(4);
case WIFI_PREAMBLE_NONE:
case WIFI_PREAMBLE_HT_GF:
//L-SIG
return MicroSeconds(0);
default:
// L-SIG
return MicroSeconds(4);
}
}
case WIFI_MOD_CLASS_ERP_OFDM:
return MicroSeconds(4);
case WIFI_MOD_CLASS_DSSS:
if (preamble == WIFI_PREAMBLE_SHORT)
{
// (Section 17.2.2.3 "Short PPDU format" and Figure 17-2 "Short PPDU format"; IEEE Std 802.11-2012)
return MicroSeconds(24);
}
else // WIFI_PREAMBLE_LONG
{
// (Section 17.2.2.2 "Long PPDU format" and Figure 17-1 "Short PPDU format"; IEEE Std 802.11-2012)
return MicroSeconds(48);
}
default:
NS_FATAL_ERROR ("unsupported modulation class");
return MicroSeconds(0);
}
}
Time
WifiPhy::GetPlcpPreambleDuration (WifiMode payloadMode, WifiPreamble preamble)
{
switch (payloadMode.GetModulationClass ())
{
case WIFI_MOD_CLASS_OFDM:
{
switch (payloadMode.GetBandwidth ())
{
case 20000000:
default:
// (Section 18.3.3 "PLCP preamble (SYNC))" Figure 18-4 "OFDM training structure"
// also Section 18.3.2.3 "Modulation-dependent parameters" Table 18-4 "Modulation-dependent parameters"; IEEE Std 802.11-2012)
return MicroSeconds(16);
case 10000000:
// (Section 18.3.3 "PLCP preamble (SYNC))" Figure 18-4 "OFDM training structure"
// also Section 18.3.2.3 "Modulation-dependent parameters" Table 18-4 "Modulation-dependent parameters"; IEEE Std 802.11-2012)
return MicroSeconds(32);
case 5000000:
// (Section 18.3.3 "PLCP preamble (SYNC))" Figure 18-4 "OFDM training structure"
// also Section 18.3.2.3 "Modulation-dependent parameters" Table 18-4 "Modulation-dependent parameters"; IEEE Std 802.11-2012)
return MicroSeconds(64);
}
}
case WIFI_MOD_CLASS_HT:
{
switch (preamble)
{
case WIFI_PREAMBLE_NONE:
//A-MPDU support since MPDUs inside an A-MPDU are sent without a preamble
return MicroSeconds(0);
default:
//IEEE 802.11n Figure 20.1 the training symbols before L_SIG or HT_SIG
return MicroSeconds(16);
}
}
case WIFI_MOD_CLASS_ERP_OFDM:
return MicroSeconds(16);
case WIFI_MOD_CLASS_DSSS:
if (preamble == WIFI_PREAMBLE_SHORT)
{
// (Section 17.2.2.3 "Short PPDU format)" Figure 17-2 "Short PPDU format"; IEEE Std 802.11-2012)
return MicroSeconds(72);
}
else // WIFI_PREAMBLE_LONG
{
// (Section 17.2.2.2 "Long PPDU format)" Figure 17-1 "Long PPDU format"; IEEE Std 802.11-2012)
return MicroSeconds(144);
}
default:
NS_FATAL_ERROR ("unsupported modulation class");
return MicroSeconds(0);
}
}
Time
WifiPhy::GetPayloadDuration (uint32_t size, WifiTxVector txvector, WifiPreamble preamble, double frequency, uint8_t packetType, uint8_t incFlag)
{
WifiMode payloadMode=txvector.GetMode();
NS_LOG_FUNCTION (size << payloadMode);
switch (payloadMode.GetModulationClass ())
{
case WIFI_MOD_CLASS_OFDM:
case WIFI_MOD_CLASS_ERP_OFDM:
{
// (Section 18.3.2.4 "Timing related parameters" Table 18-5 "Timing-related parameters"; IEEE Std 802.11-2012
// corresponds to T_{SYM} in the table)
Time symbolDuration;
switch (payloadMode.GetBandwidth ())
{
case 20000000:
default:
symbolDuration = MicroSeconds(4);
break;
case 10000000:
symbolDuration = MicroSeconds(8);
break;
case 5000000:
symbolDuration = MicroSeconds(16);
break;
}
// (Section 18.3.2.3 "Modulation-dependent parameters" Table 18-4 "Modulation-dependent parameters"; IEEE Std 802.11-2012)
// corresponds to N_{DBPS} in the table
double numDataBitsPerSymbol = payloadMode.GetDataRate () * symbolDuration.GetNanoSeconds() / 1e9;
// (Section 18.3.5.4 "Pad bits (PAD)" Equation 18-11; IEEE Std 802.11-2012)
uint32_t numSymbols;
if (packetType == 1 && preamble != WIFI_PREAMBLE_NONE)
{
//First packet in an A-MPDU
numSymbols= ceil((16 + size * 8.0 + 6) / (numDataBitsPerSymbol));
if (incFlag == 1)
{
m_totalAmpduSize += size;
m_totalAmpduNumSymbols += numSymbols;
}
}
else if (packetType == 1 && preamble == WIFI_PREAMBLE_NONE)
{
//consecutive packets in an A-MPDU
numSymbols= ((size * 8.0) / (numDataBitsPerSymbol));
if (incFlag == 1)
{
m_totalAmpduSize += size;
m_totalAmpduNumSymbols += numSymbols;
}
}
else if (packetType == 2 && preamble == WIFI_PREAMBLE_NONE)
{
//last packet in an A-MPDU
uint32_t totalAmpduSize = m_totalAmpduSize + size;
numSymbols = lrint (ceil((16 + totalAmpduSize * 8.0 + 6) / (numDataBitsPerSymbol)));
numSymbols -= m_totalAmpduNumSymbols;
if (incFlag == 1)
{
m_totalAmpduSize = 0;
m_totalAmpduNumSymbols = 0;
}
}
else if (packetType == 0 && preamble != WIFI_PREAMBLE_NONE)
{
//Not an A-MPDU
numSymbols = lrint (ceil ((16 + size * 8.0 + 6.0) / (numDataBitsPerSymbol)));
}
else
NS_FATAL_ERROR ("Wrong combination of preamble and packet type");
// Add signal extension for ERP PHY
if (payloadMode.GetModulationClass () == WIFI_MOD_CLASS_ERP_OFDM)
{
return Time (numSymbols * symbolDuration) + MicroSeconds(6);
}
else
{
return Time (numSymbols * symbolDuration);
}
}
case WIFI_MOD_CLASS_HT:
{
Time symbolDuration;
double m_Stbc;
//if short GI data rate is used then symbol duration is 3.6us else symbol duration is 4us
//In the future has to create a stationmanager that only uses these data rates if sender and reciever support GI
if (payloadMode.GetUniqueName() == "OfdmRate135MbpsBW40MHzShGi" || payloadMode.GetUniqueName() == "OfdmRate65MbpsBW20MHzShGi" )
{
symbolDuration = NanoSeconds(3600);
}
else
{
switch (payloadMode.GetDataRate ()/ (txvector.GetNss()))
{ //shortGi
case 7200000:
case 14400000:
case 21700000:
case 28900000:
case 43300000:
case 57800000:
case 72200000:
case 15000000:
case 30000000:
case 45000000:
case 60000000:
case 90000000:
case 120000000:
case 150000000:
symbolDuration = NanoSeconds(3600);
break;
default:
symbolDuration = MicroSeconds(4);
}
}
if (txvector.IsStbc())
m_Stbc=2;
else
m_Stbc=1;
double numDataBitsPerSymbol = payloadMode.GetDataRate () * txvector.GetNss() * symbolDuration.GetNanoSeconds() / 1e9;
//check tables 20-35 and 20-36 in the standard to get cases when nes =2
double Nes=1;
// IEEE Std 802.11n, section 20.3.11, equation (20-32)
uint32_t numSymbols;
if (packetType == 1 && preamble != WIFI_PREAMBLE_NONE)
{
//First packet in an A-MPDU
numSymbols = ceil(m_Stbc*(16 + size * 8.0 + 6*Nes) / (m_Stbc* numDataBitsPerSymbol));
if (incFlag == 1)
{
m_totalAmpduSize += size;
m_totalAmpduNumSymbols += numSymbols;
}
}
else if (packetType == 1 && preamble == WIFI_PREAMBLE_NONE)
{
//consecutive packets in an A-MPDU
numSymbols = m_Stbc* ((size * 8.0 ) / (m_Stbc* numDataBitsPerSymbol));
if (incFlag == 1)
{
m_totalAmpduSize += size;
m_totalAmpduNumSymbols += numSymbols;
}
}
else if (packetType == 2 && preamble == WIFI_PREAMBLE_NONE)
{
//last packet in an A-MPDU
uint32_t totalAmpduSize = m_totalAmpduSize+size;
numSymbols = lrint (m_Stbc* ceil((16 + totalAmpduSize * 8.0 + 6*Nes) / (m_Stbc* numDataBitsPerSymbol)));
NS_ASSERT (m_totalAmpduNumSymbols <= numSymbols);
numSymbols -= m_totalAmpduNumSymbols;
if (incFlag == 1)
{
m_totalAmpduSize = 0;
m_totalAmpduNumSymbols = 0;
}
}
else if (packetType == 0 && preamble != WIFI_PREAMBLE_NONE)
//Not an A-MPDU
{
numSymbols = lrint (m_Stbc*ceil ((16 + size * 8.0 + 6.0*Nes) / (m_Stbc* numDataBitsPerSymbol)));
}
else
NS_FATAL_ERROR ("Wrong combination of preamble and packet type");
if (frequency >= 2400 && frequency <= 2500 && ((packetType == 0 && preamble != WIFI_PREAMBLE_NONE) || (packetType == 2 && preamble == WIFI_PREAMBLE_NONE))) //at 2.4 GHz
{
return Time (numSymbols * symbolDuration) + MicroSeconds(6);
}
else //at 5 GHz
{
return Time (numSymbols * symbolDuration);
}
}
case WIFI_MOD_CLASS_DSSS:
// (Section 17.2.3.6 "Long PLCP LENGTH field"; IEEE Std 802.11-2012)
NS_LOG_LOGIC (" size=" << size
<< " mode=" << payloadMode
<< " rate=" << payloadMode.GetDataRate () );
return MicroSeconds (lrint (ceil ((size * 8.0) / (payloadMode.GetDataRate () / 1.0e6))));
default:
NS_FATAL_ERROR ("unsupported modulation class");
return MicroSeconds (0);
}
}
Time
WifiPhy::CalculateTxDuration (uint32_t size, WifiTxVector txvector, WifiPreamble preamble, double frequency, uint8_t packetType, uint8_t incFlag)
{
WifiMode payloadMode=txvector.GetMode();
Time duration = GetPlcpPreambleDuration (payloadMode, preamble)
+ GetPlcpHeaderDuration (payloadMode, preamble)
+ GetPlcpHtSigHeaderDuration (payloadMode, preamble)
+ GetPlcpHtTrainingSymbolDuration (preamble, txvector)
+ GetPayloadDuration (size, txvector, preamble, frequency, packetType, incFlag);
return duration;
}
void
WifiPhy::NotifyTxBegin (Ptr<const Packet> packet)
{
m_phyTxBeginTrace (packet);
}
void
WifiPhy::NotifyTxEnd (Ptr<const Packet> packet)
{
m_phyTxEndTrace (packet);
}
void
WifiPhy::NotifyTxDrop (Ptr<const Packet> packet)
{
m_phyTxDropTrace (packet);
}
void
WifiPhy::NotifyRxBegin (Ptr<const Packet> packet)
{
m_phyRxBeginTrace (packet);
}
void
WifiPhy::NotifyRxEnd (Ptr<const Packet> packet)
{
m_phyRxEndTrace (packet);
}
void
WifiPhy::NotifyRxDrop (Ptr<const Packet> packet)
{
m_phyRxDropTrace (packet);
}
void
WifiPhy::NotifyMonitorSniffRx (Ptr<const Packet> packet, uint16_t channelFreqMhz, uint16_t channelNumber, uint32_t rate, bool isShortPreamble, double signalDbm, double noiseDbm)
{
m_phyMonitorSniffRxTrace (packet, channelFreqMhz, channelNumber, rate, isShortPreamble, signalDbm, noiseDbm);
}
void
WifiPhy::NotifyMonitorSniffTx (Ptr<const Packet> packet, uint16_t channelFreqMhz, uint16_t channelNumber, uint32_t rate, bool isShortPreamble, uint8_t txPower)
{
m_phyMonitorSniffTxTrace (packet, channelFreqMhz, channelNumber, rate, isShortPreamble, txPower);
}
// Clause 15 rates (DSSS)
WifiMode
WifiPhy::GetDsssRate1Mbps ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("DsssRate1Mbps",
WIFI_MOD_CLASS_DSSS,
true,
22000000, 1000000,
WIFI_CODE_RATE_UNDEFINED,
2);
return mode;
}
WifiMode
WifiPhy::GetDsssRate2Mbps ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("DsssRate2Mbps",
WIFI_MOD_CLASS_DSSS,
true,
22000000, 2000000,
WIFI_CODE_RATE_UNDEFINED,
4);
return mode;
}
// Clause 18 rates (HR/DSSS)
WifiMode
WifiPhy::GetDsssRate5_5Mbps ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("DsssRate5_5Mbps",
WIFI_MOD_CLASS_DSSS,
true,
22000000, 5500000,
WIFI_CODE_RATE_UNDEFINED,
4);
return mode;
}
WifiMode
WifiPhy::GetDsssRate11Mbps ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("DsssRate11Mbps",
WIFI_MOD_CLASS_DSSS,
true,
22000000, 11000000,
WIFI_CODE_RATE_UNDEFINED,
4);
return mode;
}
// Clause 19.5 rates (ERP-OFDM)
WifiMode
WifiPhy::GetErpOfdmRate6Mbps ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("ErpOfdmRate6Mbps",
WIFI_MOD_CLASS_ERP_OFDM,
true,
20000000, 6000000,
WIFI_CODE_RATE_1_2,
2);
return mode;
}
WifiMode
WifiPhy::GetErpOfdmRate9Mbps ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("ErpOfdmRate9Mbps",
WIFI_MOD_CLASS_ERP_OFDM,
false,
20000000, 9000000,
WIFI_CODE_RATE_3_4,
2);
return mode;
}
WifiMode
WifiPhy::GetErpOfdmRate12Mbps ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("ErpOfdmRate12Mbps",
WIFI_MOD_CLASS_ERP_OFDM,
true,
20000000, 12000000,
WIFI_CODE_RATE_1_2,
4);
return mode;
}
WifiMode
WifiPhy::GetErpOfdmRate18Mbps ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("ErpOfdmRate18Mbps",
WIFI_MOD_CLASS_ERP_OFDM,
false,
20000000, 18000000,
WIFI_CODE_RATE_3_4,
4);
return mode;
}
WifiMode
WifiPhy::GetErpOfdmRate24Mbps ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("ErpOfdmRate24Mbps",
WIFI_MOD_CLASS_ERP_OFDM,
true,
20000000, 24000000,
WIFI_CODE_RATE_1_2,
16);
return mode;
}
WifiMode
WifiPhy::GetErpOfdmRate36Mbps ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("ErpOfdmRate36Mbps",
WIFI_MOD_CLASS_ERP_OFDM,
false,
20000000, 36000000,
WIFI_CODE_RATE_3_4,
16);
return mode;
}
WifiMode
WifiPhy::GetErpOfdmRate48Mbps ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("ErpOfdmRate48Mbps",
WIFI_MOD_CLASS_ERP_OFDM,
false,
20000000, 48000000,
WIFI_CODE_RATE_2_3,
64);
return mode;
}
WifiMode
WifiPhy::GetErpOfdmRate54Mbps ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("ErpOfdmRate54Mbps",
WIFI_MOD_CLASS_ERP_OFDM,
false,
20000000, 54000000,
WIFI_CODE_RATE_3_4,
64);
return mode;
}
// Clause 17 rates (OFDM)
WifiMode
WifiPhy::GetOfdmRate6Mbps ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate6Mbps",
WIFI_MOD_CLASS_OFDM,
true,
20000000, 6000000,
WIFI_CODE_RATE_1_2,
2);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate9Mbps ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate9Mbps",
WIFI_MOD_CLASS_OFDM,
false,
20000000, 9000000,
WIFI_CODE_RATE_3_4,
2);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate12Mbps ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate12Mbps",
WIFI_MOD_CLASS_OFDM,
true,
20000000, 12000000,
WIFI_CODE_RATE_1_2,
4);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate18Mbps ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate18Mbps",
WIFI_MOD_CLASS_OFDM,
false,
20000000, 18000000,
WIFI_CODE_RATE_3_4,
4);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate24Mbps ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate24Mbps",
WIFI_MOD_CLASS_OFDM,
true,
20000000, 24000000,
WIFI_CODE_RATE_1_2,
16);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate36Mbps ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate36Mbps",
WIFI_MOD_CLASS_OFDM,
false,
20000000, 36000000,
WIFI_CODE_RATE_3_4,
16);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate48Mbps ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate48Mbps",
WIFI_MOD_CLASS_OFDM,
false,
20000000, 48000000,
WIFI_CODE_RATE_2_3,
64);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate54Mbps ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate54Mbps",
WIFI_MOD_CLASS_OFDM,
false,
20000000, 54000000,
WIFI_CODE_RATE_3_4,
64);
return mode;
}
// 10 MHz channel rates
WifiMode
WifiPhy::GetOfdmRate3MbpsBW10MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate3MbpsBW10MHz",
WIFI_MOD_CLASS_OFDM,
true,
10000000, 3000000,
WIFI_CODE_RATE_1_2,
2);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate4_5MbpsBW10MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate4_5MbpsBW10MHz",
WIFI_MOD_CLASS_OFDM,
false,
10000000, 4500000,
WIFI_CODE_RATE_3_4,
2);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate6MbpsBW10MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate6MbpsBW10MHz",
WIFI_MOD_CLASS_OFDM,
true,
10000000, 6000000,
WIFI_CODE_RATE_1_2,
4);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate9MbpsBW10MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate9MbpsBW10MHz",
WIFI_MOD_CLASS_OFDM,
false,
10000000, 9000000,
WIFI_CODE_RATE_3_4,
4);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate12MbpsBW10MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate12MbpsBW10MHz",
WIFI_MOD_CLASS_OFDM,
true,
10000000, 12000000,
WIFI_CODE_RATE_1_2,
16);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate18MbpsBW10MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate18MbpsBW10MHz",
WIFI_MOD_CLASS_OFDM,
false,
10000000, 18000000,
WIFI_CODE_RATE_3_4,
16);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate24MbpsBW10MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate24MbpsBW10MHz",
WIFI_MOD_CLASS_OFDM,
false,
10000000, 24000000,
WIFI_CODE_RATE_2_3,
64);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate27MbpsBW10MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate27MbpsBW10MHz",
WIFI_MOD_CLASS_OFDM,
false,
10000000, 27000000,
WIFI_CODE_RATE_3_4,
64);
return mode;
}
// 5 MHz channel rates
WifiMode
WifiPhy::GetOfdmRate1_5MbpsBW5MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate1_5MbpsBW5MHz",
WIFI_MOD_CLASS_OFDM,
true,
5000000, 1500000,
WIFI_CODE_RATE_1_2,
2);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate2_25MbpsBW5MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate2_25MbpsBW5MHz",
WIFI_MOD_CLASS_OFDM,
false,
5000000, 2250000,
WIFI_CODE_RATE_3_4,
2);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate3MbpsBW5MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate3MbpsBW5MHz",
WIFI_MOD_CLASS_OFDM,
true,
5000000, 3000000,
WIFI_CODE_RATE_1_2,
4);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate4_5MbpsBW5MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate4_5MbpsBW5MHz",
WIFI_MOD_CLASS_OFDM,
false,
5000000, 4500000,
WIFI_CODE_RATE_3_4,
4);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate6MbpsBW5MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate6MbpsBW5MHz",
WIFI_MOD_CLASS_OFDM,
true,
5000000, 6000000,
WIFI_CODE_RATE_1_2,
16);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate9MbpsBW5MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate9MbpsBW5MHz",
WIFI_MOD_CLASS_OFDM,
false,
5000000, 9000000,
WIFI_CODE_RATE_3_4,
16);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate12MbpsBW5MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate12MbpsBW5MHz",
WIFI_MOD_CLASS_OFDM,
false,
5000000, 12000000,
WIFI_CODE_RATE_2_3,
64);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate13_5MbpsBW5MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate13_5MbpsBW5MHz",
WIFI_MOD_CLASS_OFDM,
false,
5000000, 13500000,
WIFI_CODE_RATE_3_4,
64);
return mode;
}
// Clause 20
WifiMode
WifiPhy::GetOfdmRate6_5MbpsBW20MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate6_5MbpsBW20MHz",
WIFI_MOD_CLASS_HT,
true,
20000000, 6500000,
WIFI_CODE_RATE_1_2,
2);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate7_2MbpsBW20MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate7_2MbpsBW20MHz",
WIFI_MOD_CLASS_HT,
false,
20000000, 7200000,
WIFI_CODE_RATE_1_2,
2);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate13MbpsBW20MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate13MbpsBW20MHz",
WIFI_MOD_CLASS_HT,
true,
20000000, 13000000,
WIFI_CODE_RATE_1_2,
4);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate14_4MbpsBW20MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate14_4MbpsBW20MHz",
WIFI_MOD_CLASS_HT,
false,
20000000, 14400000,
WIFI_CODE_RATE_1_2,
4);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate19_5MbpsBW20MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate19_5MbpsBW20MHz",
WIFI_MOD_CLASS_HT,
true,
20000000, 19500000,
WIFI_CODE_RATE_3_4,
4);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate21_7MbpsBW20MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate21_7MbpsBW20MHz",
WIFI_MOD_CLASS_HT,
false,
20000000, 21700000,
WIFI_CODE_RATE_3_4,
4);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate26MbpsBW20MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate26MbpsBW20MHz",
WIFI_MOD_CLASS_HT,
true,
20000000, 26000000,
WIFI_CODE_RATE_1_2,
16);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate28_9MbpsBW20MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate28_9MbpsBW20MHz",
WIFI_MOD_CLASS_HT,
false,
20000000, 28900000,
WIFI_CODE_RATE_1_2,
16);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate39MbpsBW20MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate39MbpsBW20MHz",
WIFI_MOD_CLASS_HT,
true,
20000000, 39000000,
WIFI_CODE_RATE_3_4,
16);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate43_3MbpsBW20MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate43_3MbpsBW20MHz",
WIFI_MOD_CLASS_HT,
false,
20000000, 43300000,
WIFI_CODE_RATE_3_4,
16);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate52MbpsBW20MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate52MbpsBW20MHz",
WIFI_MOD_CLASS_HT,
true,
20000000, 52000000,
WIFI_CODE_RATE_2_3,
64);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate57_8MbpsBW20MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate57_8MbpsBW20MHz",
WIFI_MOD_CLASS_HT,
false,
20000000, 57800000,
WIFI_CODE_RATE_2_3,
64);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate58_5MbpsBW20MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate58_5MbpsBW20MHz",
WIFI_MOD_CLASS_HT,
true,
20000000, 58500000,
WIFI_CODE_RATE_3_4,
64);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate65MbpsBW20MHzShGi ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate65MbpsBW20MHzShGi",
WIFI_MOD_CLASS_HT,
false,
20000000, 65000000,
WIFI_CODE_RATE_3_4,
64);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate65MbpsBW20MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate65MbpsBW20MHz",
WIFI_MOD_CLASS_HT,
true,
20000000, 65000000,
WIFI_CODE_RATE_5_6,
64);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate72_2MbpsBW20MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate72_2MbpsBW20MHz",
WIFI_MOD_CLASS_HT,
false,
20000000, 72200000,
WIFI_CODE_RATE_5_6,
64);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate13_5MbpsBW40MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate13_5MbpsBW40MHz",
WIFI_MOD_CLASS_HT,
false,
40000000, 13500000,
WIFI_CODE_RATE_1_2,
2);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate15MbpsBW40MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate15MbpsBW40MHz",
WIFI_MOD_CLASS_HT,
false,
40000000, 15000000,
WIFI_CODE_RATE_1_2,
2);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate27MbpsBW40MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate27MbpsBW40MHz",
WIFI_MOD_CLASS_HT,
false,
40000000, 27000000,
WIFI_CODE_RATE_1_2,
4);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate30MbpsBW40MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate30MbpsBW40MHz",
WIFI_MOD_CLASS_HT,
false,
40000000, 30000000,
WIFI_CODE_RATE_1_2,
4);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate40_5MbpsBW40MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate40_5MbpsBW40MHz",
WIFI_MOD_CLASS_HT,
false,
40000000, 40500000,
WIFI_CODE_RATE_3_4,
4);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate45MbpsBW40MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate45MbpsBW40MHz",
WIFI_MOD_CLASS_HT,
false,
40000000, 45000000,
WIFI_CODE_RATE_3_4,
4);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate54MbpsBW40MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate54MbpsBW40MHz",
WIFI_MOD_CLASS_HT,
false,
40000000, 54000000,
WIFI_CODE_RATE_1_2,
16);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate60MbpsBW40MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate60MbpsBW40MHz",
WIFI_MOD_CLASS_HT,
false,
40000000, 60000000,
WIFI_CODE_RATE_1_2,
16);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate81MbpsBW40MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate81MbpsBW40MHz",
WIFI_MOD_CLASS_HT,
false,
40000000, 81000000,
WIFI_CODE_RATE_3_4,
16);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate90MbpsBW40MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate90MbpsBW40MHz",
WIFI_MOD_CLASS_HT,
false,
40000000, 90000000,
WIFI_CODE_RATE_3_4,
16);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate108MbpsBW40MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate108MbpsBW40MHz",
WIFI_MOD_CLASS_HT,
false,
40000000, 108000000,
WIFI_CODE_RATE_2_3,
64);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate120MbpsBW40MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate120MbpsBW40MHz",
WIFI_MOD_CLASS_HT,
false,
40000000, 120000000,
WIFI_CODE_RATE_2_3,
64);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate121_5MbpsBW40MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate121_5MbpsBW40MHz",
WIFI_MOD_CLASS_HT,
false,
40000000, 121500000,
WIFI_CODE_RATE_3_4,
64);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate135MbpsBW40MHzShGi ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate135MbpsBW40MHzShGi",
WIFI_MOD_CLASS_HT,
false,
40000000, 135000000,
WIFI_CODE_RATE_3_4,
64);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate135MbpsBW40MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate135MbpsBW40MHz",
WIFI_MOD_CLASS_HT,
false,
40000000, 135000000,
WIFI_CODE_RATE_5_6,
64);
return mode;
}
WifiMode
WifiPhy::GetOfdmRate150MbpsBW40MHz ()
{
static WifiMode mode =
WifiModeFactory::CreateWifiMode ("OfdmRate150MbpsBW40MHz",
WIFI_MOD_CLASS_HT,
false,
40000000, 150000000,
WIFI_CODE_RATE_5_6,
64);
return mode;
}
std::ostream& operator<< (std::ostream& os, enum WifiPhy::State state)
{
switch (state)
{
case WifiPhy::IDLE:
return (os << "IDLE");
case WifiPhy::CCA_BUSY:
return (os << "CCA_BUSY");
case WifiPhy::TX:
return (os << "TX");
case WifiPhy::RX:
return (os << "RX");
case WifiPhy::SWITCHING:
return (os << "SWITCHING");
case WifiPhy::SLEEP:
return (os << "SLEEP");
default:
NS_FATAL_ERROR ("Invalid WifiPhy state");
return (os << "INVALID");
}
}
} // namespace ns3
namespace {
static class Constructor
{
public:
Constructor ()
{
ns3::WifiPhy::GetDsssRate1Mbps ();
ns3::WifiPhy::GetDsssRate2Mbps ();
ns3::WifiPhy::GetDsssRate5_5Mbps ();
ns3::WifiPhy::GetDsssRate11Mbps ();
ns3::WifiPhy::GetErpOfdmRate6Mbps ();
ns3::WifiPhy::GetErpOfdmRate9Mbps ();
ns3::WifiPhy::GetErpOfdmRate12Mbps ();
ns3::WifiPhy::GetErpOfdmRate18Mbps ();
ns3::WifiPhy::GetErpOfdmRate24Mbps ();
ns3::WifiPhy::GetErpOfdmRate36Mbps ();
ns3::WifiPhy::GetErpOfdmRate48Mbps ();
ns3::WifiPhy::GetErpOfdmRate54Mbps ();
ns3::WifiPhy::GetOfdmRate6Mbps ();
ns3::WifiPhy::GetOfdmRate9Mbps ();
ns3::WifiPhy::GetOfdmRate12Mbps ();
ns3::WifiPhy::GetOfdmRate18Mbps ();
ns3::WifiPhy::GetOfdmRate24Mbps ();
ns3::WifiPhy::GetOfdmRate36Mbps ();
ns3::WifiPhy::GetOfdmRate48Mbps ();
ns3::WifiPhy::GetOfdmRate54Mbps ();
ns3::WifiPhy::GetOfdmRate3MbpsBW10MHz ();
ns3::WifiPhy::GetOfdmRate4_5MbpsBW10MHz ();
ns3::WifiPhy::GetOfdmRate6MbpsBW10MHz ();
ns3::WifiPhy::GetOfdmRate9MbpsBW10MHz ();
ns3::WifiPhy::GetOfdmRate12MbpsBW10MHz ();
ns3::WifiPhy::GetOfdmRate18MbpsBW10MHz ();
ns3::WifiPhy::GetOfdmRate24MbpsBW10MHz ();
ns3::WifiPhy::GetOfdmRate27MbpsBW10MHz ();
ns3::WifiPhy::GetOfdmRate1_5MbpsBW5MHz ();
ns3::WifiPhy::GetOfdmRate2_25MbpsBW5MHz ();
ns3::WifiPhy::GetOfdmRate3MbpsBW5MHz ();
ns3::WifiPhy::GetOfdmRate4_5MbpsBW5MHz ();
ns3::WifiPhy::GetOfdmRate6MbpsBW5MHz ();
ns3::WifiPhy::GetOfdmRate9MbpsBW5MHz ();
ns3::WifiPhy::GetOfdmRate12MbpsBW5MHz ();
ns3::WifiPhy::GetOfdmRate13_5MbpsBW5MHz ();
ns3::WifiPhy::GetOfdmRate6_5MbpsBW20MHz ();
ns3::WifiPhy::GetOfdmRate13MbpsBW20MHz ();
ns3::WifiPhy::GetOfdmRate19_5MbpsBW20MHz ();
ns3::WifiPhy::GetOfdmRate26MbpsBW20MHz ();
ns3::WifiPhy::GetOfdmRate39MbpsBW20MHz ();
ns3::WifiPhy::GetOfdmRate52MbpsBW20MHz ();
ns3::WifiPhy::GetOfdmRate58_5MbpsBW20MHz ();
ns3::WifiPhy::GetOfdmRate65MbpsBW20MHz ();
ns3::WifiPhy::GetOfdmRate13_5MbpsBW40MHz ();
ns3::WifiPhy::GetOfdmRate27MbpsBW40MHz ();
ns3::WifiPhy::GetOfdmRate40_5MbpsBW40MHz ();
ns3::WifiPhy::GetOfdmRate54MbpsBW40MHz ();
ns3::WifiPhy::GetOfdmRate81MbpsBW40MHz ();
ns3::WifiPhy::GetOfdmRate108MbpsBW40MHz ();
ns3::WifiPhy::GetOfdmRate121_5MbpsBW40MHz ();
ns3::WifiPhy::GetOfdmRate135MbpsBW40MHz ();
ns3::WifiPhy::GetOfdmRate7_2MbpsBW20MHz ();
ns3::WifiPhy::GetOfdmRate14_4MbpsBW20MHz ();
ns3::WifiPhy::GetOfdmRate21_7MbpsBW20MHz ();
ns3::WifiPhy::GetOfdmRate28_9MbpsBW20MHz ();
ns3::WifiPhy::GetOfdmRate43_3MbpsBW20MHz ();
ns3::WifiPhy::GetOfdmRate57_8MbpsBW20MHz ();
ns3::WifiPhy::GetOfdmRate65MbpsBW20MHzShGi ();
ns3::WifiPhy::GetOfdmRate72_2MbpsBW20MHz ();
ns3::WifiPhy::GetOfdmRate15MbpsBW40MHz ();
ns3::WifiPhy::GetOfdmRate30MbpsBW40MHz ();
ns3::WifiPhy::GetOfdmRate45MbpsBW40MHz ();
ns3::WifiPhy::GetOfdmRate60MbpsBW40MHz ();
ns3::WifiPhy::GetOfdmRate90MbpsBW40MHz ();
ns3::WifiPhy::GetOfdmRate120MbpsBW40MHz ();
ns3::WifiPhy::GetOfdmRate135MbpsBW40MHzShGi ();
ns3::WifiPhy::GetOfdmRate150MbpsBW40MHz ();
}
} g_constructor;
}