A Discrete-Event Network Simulator
API
uan-phy-dual.cc
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1 /* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
2 /*
3  * Copyright (c) 2009 University of Washington
4  *
5  * This program is free software; you can redistribute it and/or modify
6  * it under the terms of the GNU General Public License version 2 as
7  * published by the Free Software Foundation;
8  *
9  * This program is distributed in the hope that it will be useful,
10  * but WITHOUT ANY WARRANTY; without even the implied warranty of
11  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
12  * GNU General Public License for more details.
13  *
14  * You should have received a copy of the GNU General Public License
15  * along with this program; if not, write to the Free Software
16  * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
17  *
18  * Author: Leonard Tracy <lentracy@gmail.com>
19  * Andrea Sacco <andrea.sacco85@gmail.com>
20  */
21 
22 #include "uan-phy.h"
23 #include "uan-phy-dual.h"
24 #include "uan-phy-gen.h"
25 #include "uan-tx-mode.h"
26 #include "uan-net-device.h"
27 #include "uan-channel.h"
28 #include "ns3/double.h"
29 #include "ns3/string.h"
30 #include "ns3/log.h"
31 #include "ns3/ptr.h"
32 #include "ns3/traced-callback.h"
33 #include "ns3/trace-source-accessor.h"
34 #include "ns3/simulator.h"
35 #include "uan-header-common.h"
36 #include "uan-mac-rc.h"
37 
38 #include <cmath>
39 
40 
41 namespace ns3 {
42 
43 NS_LOG_COMPONENT_DEFINE ("UanPhyDual");
44 
45 NS_OBJECT_ENSURE_REGISTERED (UanPhyDual);
46 NS_OBJECT_ENSURE_REGISTERED (UanPhyCalcSinrDual);
47 
49 {
50 
51 }
53 {
54 
55 }
56 
57 TypeId
59 {
60  static TypeId tid = TypeId ("ns3::UanPhyCalcSinrDual")
62  .SetGroupName ("Uan")
63  .AddConstructor<UanPhyCalcSinrDual> ()
64  ;
65  return tid;
66 }
67 
68 double
70  Time arrTime,
71  double rxPowerDb,
72  double ambNoiseDb,
73  UanTxMode mode,
74  UanPdp pdp,
75  const UanTransducer::ArrivalList &arrivalList) const
76 {
77 
78  if (mode.GetModType () != UanTxMode::OTHER)
79  {
80  NS_LOG_WARN ("Calculating SINR for unsupported modulation type");
81  }
82 
83  double intKp = -DbToKp (rxPowerDb); // This packet is in the arrivalList
84  UanTransducer::ArrivalList::const_iterator it = arrivalList.begin ();
85  for (; it != arrivalList.end (); it++)
86  {
87  // Only count interference if there is overlap in incoming frequency
88  if (std::abs ( (double) it->GetTxMode ().GetCenterFreqHz () - (double) mode.GetCenterFreqHz ())
89  < (double)(it->GetTxMode ().GetBandwidthHz () / 2 + mode.GetBandwidthHz () / 2) - 0.5)
90  {
91  UanHeaderCommon ch, ch2;
92  if (pkt)
93  {
94  pkt->PeekHeader (ch);
95  }
96  it->GetPacket ()->PeekHeader (ch2);
97 
98  if (pkt)
99  {
100  if (ch.GetType () == UanMacRc::TYPE_DATA)
101  {
102  NS_LOG_DEBUG ("Adding interferer from " << ch2.GetSrc () << " against " << ch.GetSrc () << ": PktRxMode: "
103  << mode.GetName () << " Int mode: " << it->GetTxMode ().GetName () << " Separation: "
104  << std::abs ( (double) it->GetTxMode ().GetCenterFreqHz () - (double) mode.GetCenterFreqHz ())
105  << " Combined bandwidths: " << (double)(it->GetTxMode ().GetBandwidthHz () / 2 + mode.GetBandwidthHz () / 2) - 0.5);
106  }
107  }
108  intKp += DbToKp (it->GetRxPowerDb ());
109  }
110  }
111 
112  double totalIntDb = KpToDb (intKp + DbToKp (ambNoiseDb));
113 
114  NS_LOG_DEBUG (Simulator::Now ().GetSeconds () << " Calculating SINR: RxPower = " << rxPowerDb << " dB. Number of interferers = " << arrivalList.size () << " Interference + noise power = " << totalIntDb << " dB. SINR = " << rxPowerDb - totalIntDb << " dB.");
115  return rxPowerDb - totalIntDb;
116 }
117 
119  : UanPhy ()
120 {
121 
122  m_phy1 = CreateObject<UanPhyGen> ();
123  m_phy2 = CreateObject<UanPhyGen> ();
124 
125  m_phy1->SetReceiveOkCallback (m_recOkCb);
126  m_phy2->SetReceiveOkCallback (m_recOkCb);
127 
128  m_phy1->SetReceiveErrorCallback (m_recErrCb);
129  m_phy2->SetReceiveErrorCallback (m_recErrCb);
130 
131 }
132 
134 {
135 }
136 
137 void
139 {
140  if (m_phy1)
141  {
142  m_phy1->Clear ();
143  m_phy1 = 0;
144  }
145  if (m_phy2)
146  {
147  m_phy2->Clear ();
148  m_phy2 = 0;
149  }
150 }
151 void
153 {
154  Clear ();
156 }
157 
158 TypeId
160 {
161  static TypeId tid = TypeId ("ns3::UanPhyDual")
162  .SetParent<UanPhy> ()
163  .SetGroupName ("Uan")
164  .AddConstructor<UanPhyDual> ()
165  .AddAttribute ("CcaThresholdPhy1",
166  "Aggregate energy of incoming signals to move to CCA Busy state dB of Phy1.",
167  DoubleValue (10),
169  MakeDoubleChecker<double> ())
170  .AddAttribute ("CcaThresholdPhy2",
171  "Aggregate energy of incoming signals to move to CCA Busy state dB of Phy2.",
172  DoubleValue (10),
174  MakeDoubleChecker<double> ())
175  .AddAttribute ("TxPowerPhy1",
176  "Transmission output power in dB of Phy1.",
177  DoubleValue (190),
179  MakeDoubleChecker<double> ())
180  .AddAttribute ("TxPowerPhy2",
181  "Transmission output power in dB of Phy2.",
182  DoubleValue (190),
184  MakeDoubleChecker<double> ())
185  .AddAttribute ("SupportedModesPhy1",
186  "List of modes supported by Phy1.",
190  .AddAttribute ("SupportedModesPhy2",
191  "List of modes supported by Phy2.",
195  .AddAttribute ("PerModelPhy1",
196  "Functor to calculate PER based on SINR and TxMode for Phy1.",
197  StringValue ("ns3::UanPhyPerGenDefault"),
199  MakePointerChecker<UanPhyPer> ())
200  .AddAttribute ("PerModelPhy2",
201  "Functor to calculate PER based on SINR and TxMode for Phy2.",
202  StringValue ("ns3::UanPhyPerGenDefault"),
204  MakePointerChecker<UanPhyPer> ())
205  .AddAttribute ("SinrModelPhy1",
206  "Functor to calculate SINR based on pkt arrivals and modes for Phy1.",
207  StringValue ("ns3::UanPhyCalcSinrDual"),
209  MakePointerChecker<UanPhyCalcSinr> ())
210  .AddAttribute ("SinrModelPhy2",
211  "Functor to calculate SINR based on pkt arrivals and modes for Phy2.",
212  StringValue ("ns3::UanPhyCalcSinrDual"),
214  MakePointerChecker<UanPhyCalcSinr> ())
215  .AddTraceSource ("RxOk",
216  "A packet was received successfully.",
218  "ns3::UanPhy::TracedCallback")
219  .AddTraceSource ("RxError",
220  "A packet was received unsuccessfully.",
222  "ns3::UanPhy::TracedCallback")
223  .AddTraceSource ("Tx",
224  "Packet transmission beginning.",
226  "ns3::UanPhy::TracedCallback")
227 
228  ;
229 
230  return tid;
231 }
232 
233 void
235 {
236  NS_LOG_DEBUG ("Not Implemented");
237 }
238 
239 void
241 {
242  NS_LOG_DEBUG ("Not Implemented");
243 }
244 
245 void
247 {
248  NS_LOG_DEBUG ("Not Implemented");
249 }
250 
251 void
252 UanPhyDual::SendPacket (Ptr<Packet> pkt, uint32_t modeNum)
253 {
254  if (modeNum <= m_phy1->GetNModes () - 1)
255  {
256  NS_LOG_DEBUG (Simulator::Now ().GetSeconds () << " Sending packet on Phy1 with mode number " << modeNum);
257  m_txLogger (pkt, m_phy1->GetTxPowerDb (), m_phy1->GetMode (modeNum));
258  m_phy1->SendPacket (pkt, modeNum);
259 
260  }
261  else
262  {
263  NS_LOG_DEBUG (Simulator::Now ().GetSeconds () << " Sending packet on Phy2 with mode number " << modeNum - m_phy1->GetNModes ());
264  m_txLogger (pkt, m_phy2->GetTxPowerDb (), m_phy2->GetMode (modeNum - m_phy1->GetNModes ()));
265  m_phy2->SendPacket (pkt, modeNum - m_phy1->GetNModes ());
266  }
267 }
268 void
270 {
271  m_phy1->RegisterListener (listener);
272  m_phy2->RegisterListener (listener);
273 }
274 
275 void
276 UanPhyDual::StartRxPacket (Ptr<Packet> pkt, double rxPowerDb, UanTxMode txMode, UanPdp pdp)
277 {
278  NS_UNUSED (rxPowerDb);
279  // Not called. StartRxPacket in m_phy1 and m_phy2 are called directly from Transducer.
280 }
281 
282 void
284 {
285  m_phy1->SetReceiveOkCallback (cb);
286  m_phy2->SetReceiveOkCallback (cb);
287 }
288 
289 void
291 {
292  m_phy1->SetReceiveErrorCallback (cb);
293  m_phy2->SetReceiveErrorCallback (cb);
294 }
295 
296 
297 void
299 {
300  m_phy1->SetTxPowerDb (txpwr);
301  m_phy2->SetTxPowerDb (txpwr);
302 }
303 
304 void
306 {
307  m_phy1->SetTxPowerDb (txpwr);
308 }
309 void
311 {
312  m_phy2->SetTxPowerDb (txpwr);
313 }
314 
315 void
317 {
318  m_phy1->SetRxThresholdDb (thresh);
319  m_phy2->SetRxThresholdDb (thresh);
320 }
321 void
323 {
324  m_phy1->SetCcaThresholdDb (thresh);
325  m_phy2->SetCcaThresholdDb (thresh);
326 }
327 
328 void
330 {
331  m_phy1->SetCcaThresholdDb (thresh);
332 }
333 void
335 {
336  m_phy2->SetCcaThresholdDb (thresh);
337 }
338 
339 
340 double
342 {
343  NS_LOG_WARN ("Warning: Dual Phy only returns TxPowerDb of Phy 1");
344  return m_phy1->GetTxPowerDb ();
345 }
346 
347 double
349 {
350  return m_phy1->GetTxPowerDb ();
351 }
352 
353 double
355 {
356  return m_phy2->GetTxPowerDb ();
357 }
358 
359 double
361 {
362  return m_phy1->GetRxThresholdDb ();
363 }
364 
365 double
367 {
368  NS_LOG_WARN ("Dual Phy only returns CCAThreshold of Phy 1");
369  return m_phy1->GetCcaThresholdDb ();
370 }
371 double
373 {
374  return m_phy1->GetCcaThresholdDb ();
375 }
376 double
378 {
379  return m_phy2->GetCcaThresholdDb ();
380 }
381 
382 bool
384 {
385  return m_phy1->IsStateIdle ();
386 }
387 bool
389 {
390  return m_phy2->IsStateIdle ();
391 }
392 
393 bool
395 {
396  return m_phy1->IsStateRx ();
397 }
398 
399 bool
401 {
402  return m_phy2->IsStateRx ();
403 }
404 
405 bool
407 {
408  return m_phy1->IsStateTx ();
409 }
410 
413 {
414  return m_phy1->GetPacketRx ();
415 }
416 
419 {
420  return m_phy2->GetPacketRx ();
421 }
422 
423 bool
425 {
426  return m_phy2->IsStateTx ();
427 }
428 bool
430 {
431  return m_phy1->IsStateSleep () && m_phy2->IsStateSleep ();
432 }
433 bool
435 {
436  return m_phy1->IsStateIdle () && m_phy2->IsStateIdle ();
437 }
438 bool
440 {
441  return !IsStateIdle () || !IsStateSleep ();
442 }
443 bool
445 {
446  return m_phy1->IsStateRx () || m_phy2->IsStateRx ();
447 }
448 bool
450 {
451  return m_phy1->IsStateTx () || m_phy2->IsStateTx ();
452 }
453 bool
455 {
456  return m_phy1->IsStateCcaBusy () || m_phy2->IsStateCcaBusy ();
457 }
460 {
461  return m_phy1->GetChannel ();
462 }
465 {
466  return m_phy1->GetDevice ();
467 }
468 void
470 {
471  m_phy1->SetChannel (channel);
472  m_phy2->SetChannel (channel);
473 }
474 void
476 {
477  m_phy1->SetDevice (device);
478  m_phy2->SetDevice (device);
479 }
480 void
482 {
483  m_phy1->SetMac (mac);
484  m_phy2->SetMac (mac);
485 }
486 void
487 UanPhyDual::NotifyTransStartTx (Ptr<Packet> packet, double txPowerDb, UanTxMode txMode)
488 {
489  NS_UNUSED (txPowerDb);
490 }
491 void
493 {
494  m_phy1->NotifyIntChange ();
495  m_phy2->NotifyIntChange ();
496 
497 }
498 void
500 {
501  m_phy1->SetTransducer (trans);
502  m_phy2->SetTransducer (trans);
503 }
506 {
507  NS_LOG_WARN ("DualPhy Returning transducer of Phy1");
508  return m_phy1->GetTransducer ();
509 }
510 uint32_t
512 {
513  return m_phy1->GetNModes () + m_phy2->GetNModes ();
514 }
515 UanTxMode
517 {
518  if (n < m_phy1->GetNModes ())
519  {
520  return m_phy1->GetMode (n);
521  }
522  else
523  {
524  return m_phy2->GetMode (n - m_phy1->GetNModes ());
525  }
526 }
527 
530 {
531 
532  UanModesListValue modeValue;
533  m_phy1->GetAttribute ("SupportedModes", modeValue);
534  return modeValue.Get ();
535 }
536 
539 {
540  UanModesListValue modeValue;
541  m_phy2->GetAttribute ("SupportedModes", modeValue);
542  return modeValue.Get ();
543 }
544 
545 void
547 {
548  m_phy1->SetAttribute ("SupportedModes", UanModesListValue (modes));
549 }
550 
551 void
553 {
554  m_phy2->SetAttribute ("SupportedModes", UanModesListValue (modes));
555 }
556 
559 {
560  PointerValue perValue;
561  m_phy1->GetAttribute ("PerModel", perValue);
562  return perValue;
563 }
564 
567 {
568  PointerValue perValue;
569  m_phy2->GetAttribute ("PerModel", perValue);
570  return perValue;
571 }
572 
573 void
575 {
576  m_phy1->SetAttribute ("PerModel", PointerValue (per));
577 }
578 
579 void
581 {
582  m_phy2->SetAttribute ("PerModel", PointerValue (per));
583 }
584 
587 {
588  PointerValue sinrValue;
589  m_phy1->GetAttribute ("SinrModel", sinrValue);
590  return sinrValue;
591 }
592 
595 {
596  PointerValue sinrValue;
597  m_phy2->GetAttribute ("SinrModel", sinrValue);
598  return sinrValue;
599 }
600 
601 void
603 {
604  m_phy1->SetAttribute ("SinrModel", PointerValue (sinr));
605 }
606 
607 void
609 {
610  m_phy2->SetAttribute ("SinrModel", PointerValue (sinr));
611 }
612 
613 void
615 {
616  NS_LOG_DEBUG (Simulator::Now ().GetSeconds () << " Received packet");
617  m_recOkCb (pkt, sinr, mode);
618  m_rxOkLogger (pkt, sinr, mode);
619 }
620 
621 void
623 {
624  m_recErrCb (pkt, sinr);
625  m_rxErrLogger (pkt, sinr, m_phy1->GetMode (0));
626 }
627 
630 {
631  NS_FATAL_ERROR ("GetPacketRx not valid for UanPhyDual. Must specify GetPhy1PacketRx or GetPhy2PacketRx");
632  return Create<Packet> ();
633 }
634 
635 int64_t
637 {
638  NS_LOG_FUNCTION (this << stream);
639  return 0;
640 }
641 
642 }
Simulation virtual time values and global simulation resolution.
Definition: nstime.h:102
Ptr< const AttributeChecker > MakeUanModesListChecker(void)
Definition: uan-tx-mode.cc:303
#define NS_LOG_FUNCTION(parameters)
If log level LOG_FUNCTION is enabled, this macro will output all input parameters separated by "...
virtual void DoDispose()
Destructor implementation.
#define NS_OBJECT_ENSURE_REGISTERED(type)
Register an Object subclass with the TypeId system.
Definition: object-base.h:45
virtual uint32_t GetNModes(void)
Get the number of transmission modes supported by this Phy.
RxOkCallback m_recOkCb
Callback when packet received without errors.
Definition: uan-phy-dual.h:254
Hold variables of type string.
Definition: string.h:41
Ptr< UanPhyCalcSinr > GetSinrModelPhy2(void) const
Get the SINR calculator.
static TypeId GetTypeId(void)
Register this type.
Definition: uan-phy-dual.cc:58
virtual Ptr< UanTransducer > GetTransducer(void)
Get the attached transducer.
virtual void SetEnergyModelCallback(DeviceEnergyModel::ChangeStateCallback callback)
Set the DeviceEnergyModel callback for UanPhy device.
virtual ~UanPhyCalcSinrDual()
Destructor.
Definition: uan-phy-dual.cc:52
Ptr< UanPhy > m_phy1
First Phy layer.
Definition: uan-phy-dual.h:243
Ptr< UanPhy > m_phy2
Second Phy layer.
Definition: uan-phy-dual.h:245
virtual void SetMac(Ptr< UanMac > mac)
Set the MAC forwarding messages to this Phy.
#define NS_LOG_COMPONENT_DEFINE(name)
Define a Log component with a specific name.
Definition: log.h:202
virtual bool IsStateSleep(void)
#define NS_UNUSED(x)
Mark a local variable as unused.
Definition: unused.h:36
virtual Ptr< UanChannel > GetChannel(void) const
Get the attached channel.
double GetCcaThresholdPhy1(void) const
Get the CCA threshold signal strength required to detect channel busy.
Container for UanTxModes.
Definition: uan-tx-mode.h:257
#define NS_FATAL_ERROR(msg)
Report a fatal error with a message and terminate.
Definition: fatal-error.h:162
uint32_t GetBandwidthHz(void) const
Get the transmission signal bandwidth.
Definition: uan-tx-mode.cc:63
UanModesList GetModesPhy1(void) const
Get the list of available modes.
virtual void DoDispose(void)
Destructor implementation.
Definition: object.cc:346
virtual bool IsStateTx(void)
virtual void SetCcaThresholdDb(double thresh)
Set the threshold for detecting channel busy.
bool IsPhy1Rx(void)
double GetCcaThresholdPhy2(void) const
Get the CCA threshold signal strength required to detect channel busy.
Unspecified/undefined.
Definition: uan-tx-mode.h:54
uint8_t GetType(void) const
Get the header type value.
bool IsPhy2Rx(void)
Ptr< Packet > GetPacketRx(void) const
Get the packet currently being received.
virtual void SetDevice(Ptr< UanNetDevice > device)
Set the device hosting this Phy.
channel
Definition: third.py:85
Ptr< const TraceSourceAccessor > MakeTraceSourceAccessor(T a)
Create a TraceSourceAccessor which will control access to the underlying trace source.
virtual ~UanPhyDual()
Dummy destructor.
virtual void SetTxPowerDb(double txpwr)
Set the transmit power.
Ptr< Packet > GetPhy1PacketRx(void) const
Get the packet currently being received.
virtual bool IsStateBusy(void)
virtual double GetRxThresholdDb(void)
Get the minimum received signal strength required to receive a packet without errors.
void SetCcaThresholdPhy1(double thresh)
Set the threshold for detecting channel busy.
virtual Ptr< UanNetDevice > GetDevice(void) const
Get the device hosting this Phy.
Ptr< const AttributeAccessor > MakePointerAccessor(T1 a1)
Create an AttributeAccessor for a class data member, or a lone class get functor or set method...
Definition: pointer.h:220
virtual bool IsStateIdle(void)
UanPhyDual()
Constructor.
virtual void NotifyTransStartTx(Ptr< Packet > packet, double txPowerDb, UanTxMode txMode)
Called when a transmission is beginning on the attached transducer.
virtual void SendPacket(Ptr< Packet > pkt, uint32_t modeNum)
Send a packet using a specific transmission mode.
The power delay profile returned by propagation models.
Abstraction of packet modulation information.
Definition: uan-tx-mode.h:41
mac
Definition: third.py:92
ns3::TracedCallback< Ptr< const Packet >, double, UanTxMode > m_txLogger
A packet was sent from this Phy.
Definition: uan-phy-dual.h:252
Ptr< UanPhyPer > GetPerModelPhy2(void) const
Get the error probability model.
uint32_t PeekHeader(Header &header) const
Deserialize but does not remove the header from the internal buffer.
Definition: packet.cc:290
virtual void Clear(void)
Clear all pointer references.
double GetTxPowerDbPhy1(void) const
Get the current transmit power, in dB.
std::list< UanPacketArrival > ArrivalList
List of arriving packets overlapping in time.
virtual void NotifyIntChange(void)
Called when there has been a change in the amount of interference this node is experiencing from othe...
double DbToKp(double db) const
Convert dB re 1 uPa to kilopascals.
Definition: uan-phy.h:82
virtual void SetChannel(Ptr< UanChannel > channel)
Attach to a channel.
Mac8Address GetSrc(void) const
Get the source address.
Ptr< Packet > GetPhy2PacketRx(void) const
Get the packet currently being received.
void SetModesPhy1(UanModesList modes)
Set the available modes.
bool IsPhy2Idle(void)
virtual void EnergyRechargeHandler(void)
Handle the energy recharge event.
Every class exported by the ns3 library is enclosed in the ns3 namespace.
Common packet header fields.
Hold objects of type Ptr<T>.
Definition: pointer.h:36
RxErrCallback m_recErrCb
Callback when packet received with errors.
Definition: uan-phy-dual.h:256
void SetPerModelPhy1(Ptr< UanPhyPer > per)
Set the error probability model.
Interface for PHY event listener.
Definition: uan-phy.h:146
virtual void StartRxPacket(Ptr< Packet > pkt, double rxPowerDb, UanTxMode txMode, UanPdp pdp)
Packet arriving from channel: i.e.
void RxOkFromSubPhy(Ptr< Packet > pkt, double sinr, UanTxMode mode)
Handle callback and logger for packets received without error.
void SetTxPowerDbPhy1(double txpwr)
Set the transmit power.
virtual bool IsStateRx(void)
void SetTxPowerDbPhy2(double txpwr)
Set the transmit power.
ns3::TracedCallback< Ptr< const Packet >, double, UanTxMode > m_rxErrLogger
A packet was received unsuccessfully.
Definition: uan-phy-dual.h:250
static Time Now(void)
Return the current simulation virtual time.
Definition: simulator.cc:249
void RxErrFromSubPhy(Ptr< Packet > pkt, double sinr)
Handle callback and logger for packets received with error.
Class used for calculating SINR of packet in UanPhy.
Definition: uan-phy.h:44
ns3::TracedCallback< Ptr< const Packet >, double, UanTxMode > m_rxOkLogger
A packet was received successfully.
Definition: uan-phy-dual.h:248
void SetModesPhy2(UanModesList modes)
Set the available modes.
Base class for UAN Phy models.
Definition: uan-phy.h:175
Ptr< const AttributeAccessor > MakeDoubleAccessor(T1 a1)
Create an AttributeAccessor for a class data member, or a lone class get functor or set method...
Definition: double.h:42
uint32_t GetCenterFreqHz(void) const
Get the transmission center frequency.
Definition: uan-tx-mode.cc:57
void SetSinrModelPhy2(Ptr< UanPhyCalcSinr > calcSinr)
Set the SINR calculator.
double KpToDb(double kp) const
Convert kilopascals to dB re 1 uPa.
Definition: uan-phy.h:92
virtual void SetRxThresholdDb(double thresh)
Set the minimum SINR threshold to receive a packet without errors.
void SetSinrModelPhy1(Ptr< UanPhyCalcSinr > calcSinr)
Set the SINR calculator.
virtual void SetReceiveOkCallback(RxOkCallback cb)
Set the callback to be used when a packet is received without error.
bool IsPhy1Tx(void)
virtual void SetTransducer(Ptr< UanTransducer > trans)
Attach a transducer to this Phy.
int64_t AssignStreams(int64_t stream)
Assign a fixed random variable stream number to the random variables used by this model...
#define NS_LOG_WARN(msg)
Use NS_LOG to output a message of level LOG_WARN.
Definition: log.h:262
#define NS_LOG_DEBUG(msg)
Use NS_LOG to output a message of level LOG_DEBUG.
Definition: log.h:270
virtual void RegisterListener(UanPhyListener *listener)
Register a UanPhyListener to be notified of common UanPhy events.
static TypeId GetTypeId()
Register this type.
virtual void SetReceiveErrorCallback(RxErrCallback cb)
Set the callback to be used when a packet is received with errors.
Two channel Phy.
Definition: uan-phy-dual.h:81
std::string GetName(void) const
Get the mode name.
Definition: uan-tx-mode.cc:75
Ptr< const AttributeAccessor > MakeUanModesListAccessor(T1 a1)
Create an AttributeAccessor for a class data member, or a lone class get functor or set method...
Definition: uan-tx-mode.h:314
UanModesList Get(void) const
Definition: uan-tx-mode.cc:303
virtual bool IsStateCcaBusy(void)
UanPhyCalcSinrDual()
Constructor.
Definition: uan-phy-dual.cc:48
This class can be used to hold variables of floating point type such as &#39;double&#39; or &#39;float&#39;...
Definition: double.h:41
Ptr< UanPhyCalcSinr > GetSinrModelPhy1(void) const
Get the SINR calculator.
bool IsPhy1Idle(void)
static UanModesList GetDefaultModes(void)
Get the default transmission modes.
Definition: uan-phy-gen.cc:570
a unique identifier for an interface.
Definition: type-id.h:58
virtual double CalcSinrDb(Ptr< Packet > pkt, Time arrTime, double rxPowerDb, double ambNoiseDb, UanTxMode mode, UanPdp pdp, const UanTransducer::ArrivalList &arrivalList) const
Calculate the SINR value for a packet.
Definition: uan-phy-dual.cc:69
bool IsPhy2Tx(void)
TypeId SetParent(TypeId tid)
Set the parent TypeId.
Definition: type-id.cc:915
void SetPerModelPhy2(Ptr< UanPhyPer > per)
Set the error probability model.
double GetTxPowerDbPhy2(void) const
Get the current transmit power, in dB.
virtual double GetCcaThresholdDb(void)
Get the CCA threshold signal strength required to detect channel busy.
Default SINR model for UanPhyDual.
Definition: uan-phy-dual.h:41
void SetCcaThresholdPhy2(double thresh)
Set the threshold for detecting channel busy.
AttributeValue implementation for UanModesList.
Definition: uan-tx-mode.h:314
Ptr< UanPhyPer > GetPerModelPhy1(void) const
Get the error probability model.
virtual UanTxMode GetMode(uint32_t n)
Get a specific transmission mode.
virtual void EnergyDepletionHandler(void)
Handle the energy depletion event.
UanModesList GetModesPhy2(void) const
Get the list of available modes.
virtual double GetTxPowerDb(void)
Get the current transmit power, in dB.
ModulationType GetModType(void) const
Get the modulation type of the mode.
Definition: uan-tx-mode.cc:39