/usr/include/ns3.26/ns3/lte-phy.h is in libns3-dev 3.26+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>
* Marco Miozzo <mmiozzo@cttc.es>
* Nicola Baldo <nbaldo@cttc.es>
*/
#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 LteControlMessage;
/**
* \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:
/**
* @warning the default constructor should not be used
*/
LtePhy ();
/**
*
* \param dlPhy the downlink LteSpectrumPhy instance
* \param ulPhy the uplink LteSpectrumPhy instance
*/
LtePhy (Ptr<LteSpectrumPhy> dlPhy, Ptr<LteSpectrumPhy> ulPhy);
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 () const;
/**
*
* \return a pointer to the LteSpectrumPhy instance that manages the downlink
*/
Ptr<LteSpectrumPhy> GetDownlinkSpectrumPhy ();
/**
*
* \return a pointer to the LteSpectrumPhy instance that manages the uplink
*/
Ptr<LteSpectrumPhy> GetUplinkSpectrumPhy ();
/**
* \brief Queue the MAC PDU to be sent (according to m_macChTtiDelay)
* \param p the MAC PDU to sent
*/
virtual void DoSendMacPdu (Ptr<Packet> p) = 0;
/**
* Set the downlink channel
* \param c the downlink channel
*/
void SetDownlinkChannel (Ptr<SpectrumChannel> c);
/**
* Set the uplink channel
* \param c the uplink channel
*/
void SetUplinkChannel (Ptr<SpectrumChannel> c);
/**
* \brief Compute the TX Power Spectral Density
* \return a pointer to a newly allocated SpectrumValue representing the TX Power Spectral Density in W/Hz for each Resource Block
*/
virtual Ptr<SpectrumValue> CreateTxPowerSpectralDensity () = 0;
void DoDispose ();
/**
* \param tti transmission time interval
*/
void SetTti (double tti);
/**
* \returns transmission time interval
*/
double GetTti (void) const;
/**
*
* \param cellId the Cell Identifier
*/
void DoSetCellId (uint16_t cellId);
/**
* \returns the RB gruop size according to the bandwidth
*/
uint8_t GetRbgSize (void) const;
/**
* \returns the SRS periodicity (see Table 8.2-1 of 36.213)
* \param srcCi the SRS Configuration Index
*/
uint16_t GetSrsPeriodicity (uint16_t srcCi) const;
/**
* \returns the SRS Subframe offset (see Table 8.2-1 of 36.213)
* \param srcCi the SRS Configuration Index
*/
uint16_t GetSrsSubframeOffset (uint16_t srcCi) const;
/**
* \param p queue MAC PDU to be sent
*/
void SetMacPdu (Ptr<Packet> p);
/**
* \returns the packet burst to be sent
*/
Ptr<PacketBurst> GetPacketBurst (void);
/**
* \param m the control message to be sent
*/
void SetControlMessages (Ptr<LteControlMessage> m);
/**
* \returns the list of control messages to be sent
*/
std::list<Ptr<LteControlMessage> > GetControlMessages (void);
/**
* generate a CQI report based on the given SINR of Ctrl frame
*
* \param sinr the SINR vs frequency measured by the device
*/
virtual void GenerateCtrlCqiReport (const SpectrumValue& sinr) = 0;
/**
* generate a CQI report based on the given SINR of Data frame
* (used for PUSCH CQIs)
*
* \param sinr the SINR vs frequency measured by the device
*/
virtual void GenerateDataCqiReport (const SpectrumValue& sinr) = 0;
/**
* generate a report based on the linear interference and noise power
* perceived during DATA frame
* NOTE: used only by eNB
*
* \param interf the interference + noise power measured by the device
*/
virtual void ReportInterference (const SpectrumValue& interf) = 0;
/**
* generate a report based on the linear RS power perceived during CTRL
* frame
* NOTE: used only by UE for evaluating RSRP
*
* \param power the RS power measured by the device
*/
virtual void ReportRsReceivedPower (const SpectrumValue& power) = 0;
protected:
/// Pointer to the NetDevice where this PHY layer is attached.
Ptr<LteNetDevice> m_netDevice;
/**
* The downlink LteSpectrumPhy associated to this LtePhy. Also available as
* attribute `DlSpectrumPhy` in the child classes LteEnbPhy and LteUePhy.
*/
Ptr<LteSpectrumPhy> m_downlinkSpectrumPhy;
/**
* The uplink LteSpectrumPhy associated to this LtePhy. Also available as
* attribute `UlSpectrumPhy` in the child classes LteEnbPhy and LteUePhy.
*/
Ptr<LteSpectrumPhy> m_uplinkSpectrumPhy;
/**
* Transmission power in dBm. Also available as attribute `TxPower` in the
* child classes LteEnbPhy and LteUePhy.
*/
double m_txPower;
/**
* Loss (dB) in the Signal-to-Noise-Ratio due to non-idealities in the
* receiver. Also available as attribute `NoiseFigure` in the child classes
* LteEnbPhy and LteUePhy.
*
* According to [Wikipedia](http://en.wikipedia.org/wiki/Noise_figure), this
* is "the difference in decibels (dB) between the noise output of the actual
* receiver to the noise output of an ideal receiver with the same overall
* gain and bandwidth when the receivers are connected to sources at the
* standard noise temperature T0." In this model, we consider T0 = 290K.
*/
double m_noiseFigure;
/// Transmission time interval.
double m_tti;
/**
* The UL bandwidth in number of PRBs.
* Specified by the upper layer through CPHY SAP.
*/
uint8_t m_ulBandwidth;
/**
* The DL bandwidth in number of PRBs.
* Specified by the upper layer through CPHY SAP.
*/
uint8_t m_dlBandwidth;
/// The RB gruop size according to the bandwidth.
uint8_t m_rbgSize;
/**
* The downlink carrier frequency.
* Specified by the upper layer through CPHY SAP.
*/
uint16_t m_dlEarfcn;
/**
* The uplink carrier frequency.
* Specified by the upper layer through CPHY SAP.
*/
uint16_t m_ulEarfcn;
/// A queue of packet bursts to be sent.
std::vector< Ptr<PacketBurst> > m_packetBurstQueue;
/// A queue of control messages to be sent.
std::vector< std::list<Ptr<LteControlMessage> > > m_controlMessagesQueue;
/**
* Delay between MAC and channel layer in terms of TTIs. It is the delay that
* occurs between a scheduling decision in the MAC and the actual start of
* the transmission by the PHY. This is intended to be used to model the
* latency of real PHY and MAC implementations.
*
* In LteEnbPhy, it is 2 TTIs by default and can be configured through the
* `MacToChannelDelay` attribute. In LteUePhy, it is 4 TTIs.
*/
uint8_t m_macChTtiDelay;
/**
* Cell identifier. In LteEnbPhy, this corresponds to the ID of the cell
* which hosts this PHY layer. In LteUePhy, this corresponds to the ID of the
* eNodeB which this PHY layer is synchronized with.
*/
uint16_t m_cellId;
}; // end of `class LtePhy`
}
#endif /* LTE_PHY_H */
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