/usr/include/ns3/uan-phy-gen.h is in libns3-dev 3.13+dfsg-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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/*
* Copyright (c) 2009 University of Washington
*
* 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: Leonard Tracy <lentracy@gmail.com>
* Andrea Sacco <andrea.sacco85@gmail.com>
*/
#ifndef UAN_PHY_GEN_H
#define UAN_PHY_GEN_H
#include "uan-phy.h"
#include "ns3/traced-callback.h"
#include "ns3/nstime.h"
#include "ns3/device-energy-model.h"
#include <list>
namespace ns3 {
/**
* \class UanPhyPerGenDefault
* \brief Default Packet Error Rate calculator for UanPhyGen
* Considers no error if SINR is > user defined threshold
* (configured by an attribute).
*/
class UanPhyPerGenDefault : public UanPhyPer
{
public:
UanPhyPerGenDefault ();
virtual ~UanPhyPerGenDefault ();
static TypeId GetTypeId (void);
virtual double CalcPer (Ptr<Packet> pkt, double sinrDb, UanTxMode mode);
private:
double m_thresh;
};
/**
* \class UanPhyPerUmodem
* \brief Packet error rate calculation assuming WHOI Micromodem like PHY
* Calculates PER assuming rate 1/2 convolutional code with constraint length 9
* with soft decision viterbi decoding and a CRC capable of correcting 1 bit error
*/
class UanPhyPerUmodem : public UanPhyPer
{
public:
UanPhyPerUmodem ();
virtual ~UanPhyPerUmodem ();
static TypeId GetTypeId (void);
/**
*
* This implementation uses calculations
* for binary FSK modulation coded by a rate 1/2 convolutional code
* with constraint length = 9 and a viterbi decoder and finally a CRC capable
* of correcting one bit error. These equations can be found in
* the book, Digital Communications, by Proakis (Any version I think)
*
* \param pkt Packet which is under consideration
* \param sinrDb SINR at receiver
* \param mode TX mode used to transmit packet
* \returns Probability of packet error
*/
virtual double CalcPer (Ptr<Packet> pkt, double sinrDb, UanTxMode mode);
private:
double NChooseK (uint32_t n, uint32_t k);
};
/**
* \class UanPhyCalcSinrDefault
* \brief Default SINR calculator for UanPhyGen
* The default ignores mode data and assumes that all rxpower transmitted is
* captured by the receiver, and that all signal power associated with
* interfering packets affects SINR identically to additional ambient noise.
*/
class UanPhyCalcSinrDefault : public UanPhyCalcSinr
{
public:
UanPhyCalcSinrDefault ();
virtual ~UanPhyCalcSinrDefault ();
static TypeId GetTypeId (void);
/**
* This implementation simply adds all arriving signal power
* and assumes it acts identically to additional noise.
*
* \param pkt Packet which is under consideration
* \param arrTime Arrival time of packet pkt
* \param rxPowerDb Received signal power at receiver
* \param ambNoiseDb Ambient channel noise in dB re 1 uPa
* \param mode TX mode used to transmit packet
* \param pdp Power delay profile of arriving packet pkt
* \param arrivalList List of other, simultaneously arriving packets
* \returns Probability of packet error
*/
virtual double CalcSinrDb (Ptr<Packet> pkt,
Time arrTime,
double rxPowerDb,
double ambNoiseDb,
UanTxMode mode,
UanPdp pdp,
const UanTransducer::ArrivalList &arrivalList
) const;
};
/**
* \class UanPhyCalcSinrFhFsk
* \brief WHOI Micromodem like FH-FSK model
*
* Model of interference calculation for FH-FSK wherein all nodes
* use an identical hopping pattern. In this case, there is an (M-1)*SymbolTime
* clearing time between symbols transmitted on the same frequency.
* This clearing time combats ISI from channel delay spread and also has
* a byproduct of possibly reducing interference from other transmitted packets.
*/
class UanPhyCalcSinrFhFsk : public UanPhyCalcSinr
{
public:
UanPhyCalcSinrFhFsk ();
virtual ~UanPhyCalcSinrFhFsk ();
static TypeId GetTypeId (void);
virtual double CalcSinrDb (Ptr<Packet> pkt,
Time arrTime,
double rxPowerDb,
double ambNoiseDb,
UanTxMode mode,
UanPdp pdp,
const UanTransducer::ArrivalList &arrivalList
) const;
private:
uint32_t m_hops;
};
/**
* \class UanPhyGen
* \brief Generic PHY model
*
* This is a generic PHY class. SINR and PER information
* are controlled via attributes. By adapting the SINR
* and PER models to a specific situation, this PHY should
* be able to model a wide variety of networks.
*/
class UanPhyGen : public UanPhy
{
public:
UanPhyGen ();
virtual ~UanPhyGen ();
/**
* \returns Default TX modes of UanPhyGen
*/
static UanModesList GetDefaultModes (void);
static TypeId GetTypeId (void);
virtual void SetEnergyModelCallback (DeviceEnergyModel::ChangeStateCallback cb);
virtual void EnergyDepletionHandler (void);
virtual void SendPacket (Ptr<Packet> pkt, uint32_t modeNum);
virtual void RegisterListener (UanPhyListener *listener);
virtual void StartRxPacket (Ptr<Packet> pkt, double rxPowerDb, UanTxMode txMode, UanPdp pdp);
virtual void SetReceiveOkCallback (RxOkCallback cb);
virtual void SetReceiveErrorCallback (RxErrCallback cb);
virtual bool IsStateSleep (void);
virtual bool IsStateIdle (void);
virtual bool IsStateBusy (void);
virtual bool IsStateRx (void);
virtual bool IsStateTx (void);
virtual bool IsStateCcaBusy (void);
virtual void SetRxGainDb (double gain);
virtual void SetTxPowerDb (double txpwr);
virtual void SetRxThresholdDb (double thresh);
virtual void SetCcaThresholdDb (double thresh);
virtual double GetRxGainDb (void);
virtual double GetTxPowerDb (void);
virtual double GetRxThresholdDb (void);
virtual double GetCcaThresholdDb (void);
virtual Ptr<UanChannel> GetChannel (void) const;
virtual Ptr<UanNetDevice> GetDevice (void);
virtual Ptr<UanTransducer> GetTransducer (void);
virtual void SetChannel (Ptr<UanChannel> channel);
virtual void SetDevice (Ptr<UanNetDevice> device);
virtual void SetMac (Ptr<UanMac> mac);
virtual void SetTransducer (Ptr<UanTransducer> trans);
virtual void NotifyTransStartTx (Ptr<Packet> packet, double txPowerDb, UanTxMode txMode);
virtual void NotifyIntChange (void);
virtual uint32_t GetNModes (void);
virtual UanTxMode GetMode (uint32_t n);
virtual Ptr<Packet> GetPacketRx (void) const;
virtual void Clear (void);
virtual void SetSleepMode (bool sleep);
private:
typedef std::list<UanPhyListener *> ListenerList;
UanModesList m_modes;
State m_state;
ListenerList m_listeners;
RxOkCallback m_recOkCb;
RxErrCallback m_recErrCb;
Ptr<UanChannel> m_channel;
Ptr<UanTransducer> m_transducer;
Ptr<UanNetDevice> m_device;
Ptr<UanMac> m_mac;
Ptr<UanPhyPer> m_per;
Ptr<UanPhyCalcSinr> m_sinr;
double m_rxGainDb;
double m_txPwrDb;
double m_rxThreshDb;
double m_ccaThreshDb;
Ptr<Packet> m_pktRx;
double m_minRxSinrDb;
double m_rxRecvPwrDb;
Time m_pktRxArrTime;
UanPdp m_pktRxPdp;
UanTxMode m_pktRxMode;
bool m_cleared;
bool m_disabled;
DeviceEnergyModel::ChangeStateCallback m_energyCallback;
TracedCallback<Ptr<const Packet>, double, UanTxMode > m_rxOkLogger;
TracedCallback<Ptr<const Packet>, double, UanTxMode > m_rxErrLogger;
TracedCallback<Ptr<const Packet>, double, UanTxMode > m_txLogger;
double CalculateSinrDb (Ptr<Packet> pkt, Time arrTime, double rxPowerDb, UanTxMode mode, UanPdp pdp);
double GetInterferenceDb (Ptr<Packet> pkt);
double DbToKp (double db);
double KpToDb (double kp);
void RxEndEvent (Ptr<Packet> pkt, double rxPowerDb, UanTxMode txMode);
void TxEndEvent ();
void UpdatePowerConsumption (const State state);
void NotifyListenersRxStart (void);
void NotifyListenersRxGood (void);
void NotifyListenersRxBad (void);
void NotifyListenersCcaStart (void);
void NotifyListenersCcaEnd (void);
void NotifyListenersTxStart (Time duration);
protected:
virtual void DoDispose ();
};
} // namespace ns3
#endif /* UAN_PHY_GEN_H */
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