webrtc/modules/video_coding/jitter_estimator.h - src - Git at Google

 /*
  *  Copyright (c) 2011 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 #ifndef WEBRTC_MODULES_VIDEO_CODING_JITTER_ESTIMATOR_H_
 #define WEBRTC_MODULES_VIDEO_CODING_JITTER_ESTIMATOR_H_

 #include "webrtc/base/rollingaccumulator.h"
 #include "webrtc/modules/video_coding/rtt_filter.h"
 #include "webrtc/typedefs.h"

 namespace webrtc {

 class Clock;

 class VCMJitterEstimator {
  public:
   VCMJitterEstimator(const Clock* clock,
                      int32_t vcmId = 0,
                      int32_t receiverId = 0);
   virtual ~VCMJitterEstimator();
   VCMJitterEstimator& operator=(const VCMJitterEstimator& rhs);

   // Resets the estimate to the initial state
   void Reset();
   void ResetNackCount();

   // Updates the jitter estimate with the new data.
   //
   // Input:
   //          - frameDelay      : Delay-delta calculated by UTILDelayEstimate in
   //          milliseconds
   //          - frameSize       : Frame size of the current frame.
   //          - incompleteFrame : Flags if the frame is used to update the
   //          estimate before it
   //                              was complete. Default is false.
   void UpdateEstimate(int64_t frameDelayMS,
                       uint32_t frameSizeBytes,
                       bool incompleteFrame = false);

   // Returns the current jitter estimate in milliseconds and adds
   // also adds an RTT dependent term in cases of retransmission.
   //  Input:
   //          - rttMultiplier  : RTT param multiplier (when applicable).
   //
   // Return value                   : Jitter estimate in milliseconds
   virtual int GetJitterEstimate(double rttMultiplier);

   // Updates the nack counter.
   void FrameNacked();

   // Updates the RTT filter.
   //
   // Input:
   //          - rttMs               : RTT in ms
   void UpdateRtt(int64_t rttMs);

   void UpdateMaxFrameSize(uint32_t frameSizeBytes);

   // A constant describing the delay from the jitter buffer
   // to the delay on the receiving side which is not accounted
   // for by the jitter buffer nor the decoding delay estimate.
   static const uint32_t OPERATING_SYSTEM_JITTER = 10;

  protected:
   // These are protected for better testing possibilities
   double _theta[2];  // Estimated line parameters (slope, offset)
   double _varNoise;  // Variance of the time-deviation from the line

   virtual bool LowRateExperimentEnabled();

  private:
   // Updates the Kalman filter for the line describing
   // the frame size dependent jitter.
   //
   // Input:
   //          - frameDelayMS    : Delay-delta calculated by UTILDelayEstimate in
   //          milliseconds
   //          - deltaFSBytes    : Frame size delta, i.e.
   //                            : frame size at time T minus frame size at time
   //                            T-1
   void KalmanEstimateChannel(int64_t frameDelayMS, int32_t deltaFSBytes);

   // Updates the random jitter estimate, i.e. the variance
   // of the time deviations from the line given by the Kalman filter.
   //
   // Input:
   //          - d_dT              : The deviation from the kalman estimate
   //          - incompleteFrame   : True if the frame used to update the
   //          estimate
   //                                with was incomplete
   void EstimateRandomJitter(double d_dT, bool incompleteFrame);

   double NoiseThreshold() const;

   // Calculates the current jitter estimate.
   //
   // Return value                 : The current jitter estimate in milliseconds
   double CalculateEstimate();

   // Post process the calculated estimate
   void PostProcessEstimate();

   // Calculates the difference in delay between a sample and the
   // expected delay estimated by the Kalman filter.
   //
   // Input:
   //          - frameDelayMS    : Delay-delta calculated by UTILDelayEstimate in
   //          milliseconds
   //          - deltaFS         : Frame size delta, i.e. frame size at time
   //                              T minus frame size at time T-1
   //
   // Return value                 : The difference in milliseconds
   double DeviationFromExpectedDelay(int64_t frameDelayMS,
                                     int32_t deltaFSBytes) const;

   double GetFrameRate() const;

   // Constants, filter parameters
   int32_t _vcmId;
   int32_t _receiverId;
   const double _phi;
   const double _psi;
   const uint32_t _alphaCountMax;
   const double _thetaLow;
   const uint32_t _nackLimit;
   const int32_t _numStdDevDelayOutlier;
   const int32_t _numStdDevFrameSizeOutlier;
   const double _noiseStdDevs;
   const double _noiseStdDevOffset;

   double _thetaCov[2][2];  // Estimate covariance
   double _Qcov[2][2];      // Process noise covariance
   double _avgFrameSize;    // Average frame size
   double _varFrameSize;    // Frame size variance
   double _maxFrameSize;    // Largest frame size received (descending
                            // with a factor _psi)
   uint32_t _fsSum;
   uint32_t _fsCount;

   int64_t _lastUpdateT;
   double _prevEstimate;     // The previously returned jitter estimate
   uint32_t _prevFrameSize;  // Frame size of the previous frame
   double _avgNoise;         // Average of the random jitter
   uint32_t _alphaCount;
   double _filterJitterEstimate;  // The filtered sum of jitter estimates

   uint32_t _startupCount;

   int64_t
       _latestNackTimestamp;  // Timestamp in ms when the latest nack was seen
   uint32_t _nackCount;       // Keeps track of the number of nacks received,
                              // but never goes above _nackLimit
   VCMRttFilter _rttFilter;

   rtc::RollingAccumulator<uint64_t> fps_counter_;
   enum ExperimentFlag { kInit, kEnabled, kDisabled };
   ExperimentFlag low_rate_experiment_;
   const Clock* clock_;
 };

 }  // namespace webrtc

 #endif  // WEBRTC_MODULES_VIDEO_CODING_JITTER_ESTIMATOR_H_
	/*
	* Copyright (c) 2011 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	#ifndef WEBRTC_MODULES_VIDEO_CODING_JITTER_ESTIMATOR_H_
	#define WEBRTC_MODULES_VIDEO_CODING_JITTER_ESTIMATOR_H_

	#include "webrtc/base/rollingaccumulator.h"
	#include "webrtc/modules/video_coding/rtt_filter.h"
	#include "webrtc/typedefs.h"

	namespace webrtc {

	class Clock;

	class VCMJitterEstimator {
	public:
	VCMJitterEstimator(const Clock* clock,
	int32_t vcmId = 0,
	int32_t receiverId = 0);
	virtual ~VCMJitterEstimator();
	VCMJitterEstimator& operator=(const VCMJitterEstimator& rhs);

	// Resets the estimate to the initial state
	void Reset();
	void ResetNackCount();

	// Updates the jitter estimate with the new data.
	//
	// Input:
	// - frameDelay : Delay-delta calculated by UTILDelayEstimate in
	// milliseconds
	// - frameSize : Frame size of the current frame.
	// - incompleteFrame : Flags if the frame is used to update the
	// estimate before it
	// was complete. Default is false.
	void UpdateEstimate(int64_t frameDelayMS,
	uint32_t frameSizeBytes,
	bool incompleteFrame = false);

	// Returns the current jitter estimate in milliseconds and adds
	// also adds an RTT dependent term in cases of retransmission.
	// Input:
	// - rttMultiplier : RTT param multiplier (when applicable).
	//
	// Return value : Jitter estimate in milliseconds
	virtual int GetJitterEstimate(double rttMultiplier);

	// Updates the nack counter.
	void FrameNacked();

	// Updates the RTT filter.
	//
	// Input:
	// - rttMs : RTT in ms
	void UpdateRtt(int64_t rttMs);

	void UpdateMaxFrameSize(uint32_t frameSizeBytes);

	// A constant describing the delay from the jitter buffer
	// to the delay on the receiving side which is not accounted
	// for by the jitter buffer nor the decoding delay estimate.
	static const uint32_t OPERATING_SYSTEM_JITTER = 10;

	protected:
	// These are protected for better testing possibilities
	double _theta[2]; // Estimated line parameters (slope, offset)
	double _varNoise; // Variance of the time-deviation from the line

	virtual bool LowRateExperimentEnabled();

	private:
	// Updates the Kalman filter for the line describing
	// the frame size dependent jitter.
	//
	// Input:
	// - frameDelayMS : Delay-delta calculated by UTILDelayEstimate in
	// milliseconds
	// - deltaFSBytes : Frame size delta, i.e.
	// : frame size at time T minus frame size at time
	// T-1
	void KalmanEstimateChannel(int64_t frameDelayMS, int32_t deltaFSBytes);

	// Updates the random jitter estimate, i.e. the variance
	// of the time deviations from the line given by the Kalman filter.
	//
	// Input:
	// - d_dT : The deviation from the kalman estimate
	// - incompleteFrame : True if the frame used to update the
	// estimate
	// with was incomplete
	void EstimateRandomJitter(double d_dT, bool incompleteFrame);

	double NoiseThreshold() const;

	// Calculates the current jitter estimate.
	//
	// Return value : The current jitter estimate in milliseconds
	double CalculateEstimate();

	// Post process the calculated estimate
	void PostProcessEstimate();

	// Calculates the difference in delay between a sample and the
	// expected delay estimated by the Kalman filter.
	//
	// Input:
	// - frameDelayMS : Delay-delta calculated by UTILDelayEstimate in
	// milliseconds
	// - deltaFS : Frame size delta, i.e. frame size at time
	// T minus frame size at time T-1
	//
	// Return value : The difference in milliseconds
	double DeviationFromExpectedDelay(int64_t frameDelayMS,
	int32_t deltaFSBytes) const;

	double GetFrameRate() const;

	// Constants, filter parameters
	int32_t _vcmId;
	int32_t _receiverId;
	const double _phi;
	const double _psi;
	const uint32_t _alphaCountMax;
	const double _thetaLow;
	const uint32_t _nackLimit;
	const int32_t _numStdDevDelayOutlier;
	const int32_t _numStdDevFrameSizeOutlier;
	const double _noiseStdDevs;
	const double _noiseStdDevOffset;

	double _thetaCov[2][2]; // Estimate covariance
	double _Qcov[2][2]; // Process noise covariance
	double _avgFrameSize; // Average frame size
	double _varFrameSize; // Frame size variance
	double _maxFrameSize; // Largest frame size received (descending
	// with a factor _psi)
	uint32_t _fsSum;
	uint32_t _fsCount;

	int64_t _lastUpdateT;
	double _prevEstimate; // The previously returned jitter estimate
	uint32_t _prevFrameSize; // Frame size of the previous frame
	double _avgNoise; // Average of the random jitter
	uint32_t _alphaCount;
	double _filterJitterEstimate; // The filtered sum of jitter estimates

	uint32_t _startupCount;

	int64_t
	_latestNackTimestamp; // Timestamp in ms when the latest nack was seen
	uint32_t _nackCount; // Keeps track of the number of nacks received,
	// but never goes above _nackLimit
	VCMRttFilter _rttFilter;

	rtc::RollingAccumulator<uint64_t> fps_counter_;
	enum ExperimentFlag { kInit, kEnabled, kDisabled };
	ExperimentFlag low_rate_experiment_;
	const Clock* clock_;
	};

	} // namespace webrtc

	#endif // WEBRTC_MODULES_VIDEO_CODING_JITTER_ESTIMATOR_H_