/usr/include/ns3/lte-phy.h is in libns3-dev 3.13+dfsg-1.
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/*
* Copyright (c) 2010 TELEMATICS LAB, DEE - Politecnico di Bari
*
* 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: Giuseppe Piro <g.piro@poliba.it>
*/
#ifndef LTE_PHY_H
#define LTE_PHY_H
#include <ns3/spectrum-value.h>
#include <ns3/mobility-model.h>
#include <ns3/packet.h>
#include <ns3/nstime.h>
#include <ns3/spectrum-phy.h>
#include <ns3/spectrum-channel.h>
#include <ns3/spectrum-signal-parameters.h>
#include <ns3/spectrum-interference.h>
#include <ns3/generic-phy.h>
#include <ns3/lte-spectrum-phy.h>
namespace ns3 {
class PacketBurst;
class LteNetDevice;
class IdealControlMessage;
/**
* \ingroup lte
*
* The LtePhy models the physical layer of LTE. It is composed by two
* LteSpectrumPhy, one for the downlink and one for the uplink.
*/
class LtePhy : public Object
{
public:
LtePhy ();
virtual ~LtePhy ();
static TypeId GetTypeId (void);
/**
* \brief Set the device where the phy layer is attached
* \param d the device
*/
void SetDevice (Ptr<LteNetDevice> d);
/**
* \brief Get the device where the phy layer is attached
* \return the pointer to the device
*/
Ptr<LteNetDevice> GetDevice ();
/**
* \brief Start a transmission. StartTx is called by the LTE device to start packet transmission.
* \param pb the packet of packets to be transmitted
* \return true if an error occurred and the transmission was not started, false otherwise.
*/
virtual bool SendPacket (Ptr<PacketBurst> pb) = 0;
/**
* Set the LTE SpectrumPhy for the downlink
* \param s the LTE SpectrumPhy
*/
void SetDownlinkSpectrumPhy (Ptr<LteSpectrumPhy> s);
/**
* Set the LTE SpectrumPhy for the uplink
* \param s the LTE SpectrumPhy
*/
void SetUplinkSpectrumPhy (Ptr<LteSpectrumPhy> s);
/**
* Get the LTE SpectrumPhy for the downlink
* \return a Ptr to the LTE SpectrumPhy for the downlink
*/
Ptr<LteSpectrumPhy> GetDownlinkSpectrumPhy ();
/**
* Get the LTE SpectrumPhy for the uplink
* \return a Ptr to the LTE SpectrumPhy for the
*/
Ptr<LteSpectrumPhy> GetUplinkSpectrumPhy ();
/**
* Set the downlink channel
* \param c the downlink channel
*/
void SetDownlinkChannel (Ptr<SpectrumChannel> c);
/**
* Get the downlink channel
* \return a Ptr to the downlink SpectrumChannel
*/
Ptr<SpectrumChannel> GetDownlinkChannel ();
/**
* Set the uplink channel
* \param c the uplink channel
*/
void SetUplinkChannel (Ptr<SpectrumChannel> c);
/**
* Get the uplink channel
* \return a Ptr to the uplink SpectrumChannel
*/
Ptr<SpectrumChannel> GetUplinkChannel ();
/**
* \brief set a list of sub channel to use in the downlink.
* A sub channel is composed by a couple of resource bloks (180KHz x 1 ms)
* \param mask a vector of intefer values. Each elements of this vector carries information about
* the corresponding DL sub channel. If the i-th value of mask is equal to 1 (0) it means that the corresponding sub channel is used (not used) for the downlink.
*/
void SetDownlinkSubChannels (std::vector<int> mask );
/**
* \brief do some operation after the set of a list of DL sub channels
*/
virtual void DoSetDownlinkSubChannels ();
/**
* \brief set a list of sub channel to use in the uplink.
* A sub channel is composed by a couple of resource bloks (180KHz x 1 ms)
* \param mask a vector of intefer values. Each elements of this vector carries information about
* the corresponding UL sub channel. If the i-th value of mask is equal to 1 (0) it means that the corresponding sub channel is used (not used) for the uplink.
*/
void SetUplinkSubChannels (std::vector<int> mask);
/**
* \brief do some operation after the set of a list of UL sub channels
*/
virtual void DoSetUplinkSubChannels ();
/**
* \brief get a list of sub channel to use in the downlink
* \return
*/
std::vector<int> GetDownlinkSubChannels (void);
/**
* \brief get a list of sub channel to use in the downlink
* \return
*/
std::vector<int> GetUplinkSubChannels (void);
/**
* \brief Compute the TX Power Spectral Density
* \return a Ptr to a created SpectrumValue
*/
virtual Ptr<SpectrumValue> CreateTxPowerSpectralDensity () = 0;
/**
* \brief Set the power transmisison, expressed in dBm
* \param pw the power transmission
*/
void SetTxPower (double pw);
/**
* \brief Get the power transmission, expressed in dBm
* \return the power transmission
*/
double GetTxPower (void);
void DoDispose ();
/**
* \brief Send SendIdealControlMessage (PDCCH map, CQI feedbacks) using the ideal control channel
* \param msg the Ideal Control Message to send
*/
virtual void SendIdealControlMessage (Ptr<IdealControlMessage> msg) = 0;
/**
* \brief Receive SendIdealControlMessage (PDCCH map, CQI feedbacks) using the ideal control channel
* \param msg the Ideal Control Message to receive
*/
virtual void ReceiveIdealControlMessage (Ptr<IdealControlMessage> msg) = 0;
/**
* \param tti transmission time interval
*/
void SetTti (double tti);
/**
* \returns transmission time interval
*/
double GetTti (void) const;
/**
* \param nrFrames the number of the current LTE frame.
*/
void SetNrFrames (uint32_t nrFrames);
/**
* \returns the number of the current LTE frame.
*/
uint32_t GetNrFrames (void) const;
/**
* \param nrSubFrames the number of the current LTE sub-frame.
*/
void SetNrSubFrames (uint32_t nrSubFrames);
/**
* \returns the number of the current LTE sub-frame.
*/
uint32_t GetNrSubFrames (void) const;
private:
Ptr<LteNetDevice> m_netDevice;
Ptr<LteSpectrumPhy> m_downlinkSpectrumPhy;
Ptr<LteSpectrumPhy> m_uplinkSpectrumPhy;
std::vector <int> m_listOfDownlinkSubchannel;
std::vector <int> m_listOfUplinkSubchannel;
double m_txPower;
static uint32_t m_nrFrames;
static uint32_t m_nrSubFrames;
double m_tti;
};
}
#endif /* LTE_PHY_H */
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