modules/video_coding/timing/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 MODULES_VIDEO_CODING_TIMING_JITTER_ESTIMATOR_H_
 #define MODULES_VIDEO_CODING_TIMING_JITTER_ESTIMATOR_H_

 #include <algorithm>
 #include <memory>
 #include <queue>

 #include "absl/strings/string_view.h"
 #include "absl/types/optional.h"
 #include "api/field_trials_view.h"
 #include "api/units/data_size.h"
 #include "api/units/frequency.h"
 #include "api/units/time_delta.h"
 #include "api/units/timestamp.h"
 #include "modules/video_coding/timing/frame_delay_variation_kalman_filter.h"
 #include "modules/video_coding/timing/rtt_filter.h"
 #include "rtc_base/experiments/struct_parameters_parser.h"
 #include "rtc_base/numerics/moving_percentile_filter.h"
 #include "rtc_base/rolling_accumulator.h"

 namespace webrtc {

 class Clock;

 class JitterEstimator {
  public:
   // Configuration struct for statically overriding some constants and
   // behaviour, configurable through field trials.
   struct Config {
     static constexpr char kFieldTrialsKey[] = "WebRTC-JitterEstimatorConfig";

     // Parses a field trial string and validates the values.
     static Config ParseAndValidate(absl::string_view field_trial);

     std::unique_ptr<StructParametersParser> Parser() {
       // clang-format off
       return StructParametersParser::Create(
           "avg_frame_size_median", &avg_frame_size_median,
           "max_frame_size_percentile", &max_frame_size_percentile,
           "frame_size_window", &frame_size_window,
           "num_stddev_delay_clamp", &num_stddev_delay_clamp,
           "num_stddev_delay_outlier", &num_stddev_delay_outlier,
           "num_stddev_size_outlier", &num_stddev_size_outlier,
           "congestion_rejection_factor", &congestion_rejection_factor,
           "estimate_noise_when_congested", &estimate_noise_when_congested);
       // clang-format on
     }

     bool MaxFrameSizePercentileEnabled() const {
       return max_frame_size_percentile.has_value();
     }

     // If true, the "avg" frame size is calculated as the median over a window
     // of recent frame sizes.
     bool avg_frame_size_median = false;

     // If set, the "max" frame size is calculated as this percentile over a
     // window of recent frame sizes.
     absl::optional<double> max_frame_size_percentile = absl::nullopt;

     // The length of the percentile filters' window, in number of frames.
     absl::optional<int> frame_size_window = absl::nullopt;

     // The incoming frame delay variation samples are clamped to be at most
     // this number of standard deviations away from zero.
     //
     // Increasing this value clamps fewer samples.
     absl::optional<double> num_stddev_delay_clamp = absl::nullopt;

     // A (relative) frame delay variation sample is an outlier if its absolute
     // deviation from the Kalman filter model falls outside this number of
     // sample standard deviations.
     //
     // Increasing this value rejects fewer samples.
     absl::optional<double> num_stddev_delay_outlier = absl::nullopt;

     // An (absolute) frame size sample is an outlier if its positive deviation
     // from the estimated average frame size falls outside this number of sample
     // standard deviations.
     //
     // Increasing this value rejects fewer samples.
     absl::optional<double> num_stddev_size_outlier = absl::nullopt;

     // A (relative) frame size variation sample is deemed "congested", and is
     // thus rejected, if its value is less than this factor times the estimated
     // max frame size.
     //
     // Decreasing this value rejects fewer samples.
     absl::optional<double> congestion_rejection_factor = absl::nullopt;

     // If true, the noise estimate will be updated for congestion rejected
     // frames. This is currently enabled by default, but that may not be optimal
     // since congested frames typically are not spread around the line with
     // Gaussian noise. (This is the whole reason for the congestion rejection!)
     bool estimate_noise_when_congested = true;
   };

   JitterEstimator(Clock* clock, const FieldTrialsView& field_trials);
   JitterEstimator(const JitterEstimator&) = delete;
   JitterEstimator& operator=(const JitterEstimator&) = delete;
   ~JitterEstimator();

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

   // Updates the jitter estimate with the new data.
   //
   // Input:
   //          - frame_delay      : Delay-delta calculated by UTILDelayEstimate.
   //          - frame_size       : Frame size of the current frame.
   void UpdateEstimate(TimeDelta frame_delay, DataSize frame_size);

   // Returns the current jitter estimate and adds an RTT dependent term in cases
   // of retransmission.
   //  Input:
   //          - rtt_multiplier   : RTT param multiplier (when applicable).
   //          - rtt_mult_add_cap : Multiplier cap from the RTTMultExperiment.
   //
   // Return value              : Jitter estimate.
   TimeDelta GetJitterEstimate(double rtt_multiplier,
                               absl::optional<TimeDelta> rtt_mult_add_cap);

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

   // Updates the RTT filter.
   //
   // Input:
   //          - rtt          : Round trip time.
   void UpdateRtt(TimeDelta rtt);

   // Returns the configuration. Only to be used by unit tests.
   Config GetConfigForTest() const;

  private:
   // 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.
   void EstimateRandomJitter(double d_dT);

   double NoiseThreshold() const;

   // Calculates the current jitter estimate.
   //
   // Return value                 : The current jitter estimate.
   TimeDelta CalculateEstimate();

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

   // Returns the estimated incoming frame rate.
   Frequency GetFrameRate() const;

   // Configuration that may override some internals.
   const Config config_;

   // Filters the {frame_delay_delta, frame_size_delta} measurements through
   // a linear Kalman filter.
   FrameDelayVariationKalmanFilter kalman_filter_;

   // TODO(bugs.webrtc.org/14381): Update `avg_frame_size_bytes_` to DataSize
   // when api/units have sufficient precision.
   double avg_frame_size_bytes_;  // Average frame size
   double var_frame_size_bytes2_;  // Frame size variance. Unit is bytes^2.
   // Largest frame size received (descending with a factor kPsi).
   // Used by default.
   // TODO(bugs.webrtc.org/14381): Update `max_frame_size_bytes_` to DataSize
   // when api/units have sufficient precision.
   double max_frame_size_bytes_;
   // Percentile frame sized received (over a window). Only used if configured.
   MovingMedianFilter<int64_t> avg_frame_size_median_bytes_;
   MovingPercentileFilter<int64_t> max_frame_size_bytes_percentile_;
   // TODO(bugs.webrtc.org/14381): Update `startup_frame_size_sum_bytes_` to
   // DataSize when api/units have sufficient precision.
   double startup_frame_size_sum_bytes_;
   size_t startup_frame_size_count_;

   absl::optional<Timestamp> last_update_time_;
   // The previously returned jitter estimate
   absl::optional<TimeDelta> prev_estimate_;
   // Frame size of the previous frame
   absl::optional<DataSize> prev_frame_size_;
   // Average of the random jitter. Unit is milliseconds.
   double avg_noise_ms_;
   // Variance of the time-deviation from the line. Unit is milliseconds^2.
   double var_noise_ms2_;
   size_t alpha_count_;
   // The filtered sum of jitter estimates
   TimeDelta filter_jitter_estimate_ = TimeDelta::Zero();

   size_t startup_count_;
   // Time when the latest nack was seen
   Timestamp latest_nack_ = Timestamp::Zero();
   // Keeps track of the number of nacks received, but never goes above
   // kNackLimit.
   size_t nack_count_;
   RttFilter rtt_filter_;

   // Tracks frame rates in microseconds.
   rtc::RollingAccumulator<uint64_t> fps_counter_;
   Clock* clock_;
 };

 }  // namespace webrtc

 #endif  // MODULES_VIDEO_CODING_TIMING_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 MODULES_VIDEO_CODING_TIMING_JITTER_ESTIMATOR_H_
	#define MODULES_VIDEO_CODING_TIMING_JITTER_ESTIMATOR_H_

	#include <algorithm>
	#include <memory>
	#include <queue>

	#include "absl/strings/string_view.h"
	#include "absl/types/optional.h"
	#include "api/field_trials_view.h"
	#include "api/units/data_size.h"
	#include "api/units/frequency.h"
	#include "api/units/time_delta.h"
	#include "api/units/timestamp.h"
	#include "modules/video_coding/timing/frame_delay_variation_kalman_filter.h"
	#include "modules/video_coding/timing/rtt_filter.h"
	#include "rtc_base/experiments/struct_parameters_parser.h"
	#include "rtc_base/numerics/moving_percentile_filter.h"
	#include "rtc_base/rolling_accumulator.h"

	namespace webrtc {

	class Clock;

	class JitterEstimator {
	public:
	// Configuration struct for statically overriding some constants and
	// behaviour, configurable through field trials.
	struct Config {
	static constexpr char kFieldTrialsKey[] = "WebRTC-JitterEstimatorConfig";

	// Parses a field trial string and validates the values.
	static Config ParseAndValidate(absl::string_view field_trial);

	std::unique_ptr<StructParametersParser> Parser() {
	// clang-format off
	return StructParametersParser::Create(
	"avg_frame_size_median", &avg_frame_size_median,
	"max_frame_size_percentile", &max_frame_size_percentile,
	"frame_size_window", &frame_size_window,
	"num_stddev_delay_clamp", &num_stddev_delay_clamp,
	"num_stddev_delay_outlier", &num_stddev_delay_outlier,
	"num_stddev_size_outlier", &num_stddev_size_outlier,
	"congestion_rejection_factor", &congestion_rejection_factor,
	"estimate_noise_when_congested", &estimate_noise_when_congested);
	// clang-format on
	}

	bool MaxFrameSizePercentileEnabled() const {
	return max_frame_size_percentile.has_value();
	}

	// If true, the "avg" frame size is calculated as the median over a window
	// of recent frame sizes.
	bool avg_frame_size_median = false;

	// If set, the "max" frame size is calculated as this percentile over a
	// window of recent frame sizes.
	absl::optional<double> max_frame_size_percentile = absl::nullopt;

	// The length of the percentile filters' window, in number of frames.
	absl::optional<int> frame_size_window = absl::nullopt;

	// The incoming frame delay variation samples are clamped to be at most
	// this number of standard deviations away from zero.
	//
	// Increasing this value clamps fewer samples.
	absl::optional<double> num_stddev_delay_clamp = absl::nullopt;

	// A (relative) frame delay variation sample is an outlier if its absolute
	// deviation from the Kalman filter model falls outside this number of
	// sample standard deviations.
	//
	// Increasing this value rejects fewer samples.
	absl::optional<double> num_stddev_delay_outlier = absl::nullopt;

	// An (absolute) frame size sample is an outlier if its positive deviation
	// from the estimated average frame size falls outside this number of sample
	// standard deviations.
	//
	// Increasing this value rejects fewer samples.
	absl::optional<double> num_stddev_size_outlier = absl::nullopt;

	// A (relative) frame size variation sample is deemed "congested", and is
	// thus rejected, if its value is less than this factor times the estimated
	// max frame size.
	//
	// Decreasing this value rejects fewer samples.
	absl::optional<double> congestion_rejection_factor = absl::nullopt;

	// If true, the noise estimate will be updated for congestion rejected
	// frames. This is currently enabled by default, but that may not be optimal
	// since congested frames typically are not spread around the line with
	// Gaussian noise. (This is the whole reason for the congestion rejection!)
	bool estimate_noise_when_congested = true;
	};

	JitterEstimator(Clock* clock, const FieldTrialsView& field_trials);
	JitterEstimator(const JitterEstimator&) = delete;
	JitterEstimator& operator=(const JitterEstimator&) = delete;
	~JitterEstimator();

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

	// Updates the jitter estimate with the new data.
	//
	// Input:
	// - frame_delay : Delay-delta calculated by UTILDelayEstimate.
	// - frame_size : Frame size of the current frame.
	void UpdateEstimate(TimeDelta frame_delay, DataSize frame_size);

	// Returns the current jitter estimate and adds an RTT dependent term in cases
	// of retransmission.
	// Input:
	// - rtt_multiplier : RTT param multiplier (when applicable).
	// - rtt_mult_add_cap : Multiplier cap from the RTTMultExperiment.
	//
	// Return value : Jitter estimate.
	TimeDelta GetJitterEstimate(double rtt_multiplier,
	absl::optional<TimeDelta> rtt_mult_add_cap);

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

	// Updates the RTT filter.
	//
	// Input:
	// - rtt : Round trip time.
	void UpdateRtt(TimeDelta rtt);

	// Returns the configuration. Only to be used by unit tests.
	Config GetConfigForTest() const;

	private:
	// 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.
	void EstimateRandomJitter(double d_dT);

	double NoiseThreshold() const;

	// Calculates the current jitter estimate.
	//
	// Return value : The current jitter estimate.
	TimeDelta CalculateEstimate();

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

	// Returns the estimated incoming frame rate.
	Frequency GetFrameRate() const;

	// Configuration that may override some internals.
	const Config config_;

	// Filters the {frame_delay_delta, frame_size_delta} measurements through
	// a linear Kalman filter.
	FrameDelayVariationKalmanFilter kalman_filter_;

	// TODO(bugs.webrtc.org/14381): Update `avg_frame_size_bytes_` to DataSize
	// when api/units have sufficient precision.
	double avg_frame_size_bytes_; // Average frame size
	double var_frame_size_bytes2_; // Frame size variance. Unit is bytes^2.
	// Largest frame size received (descending with a factor kPsi).
	// Used by default.
	// TODO(bugs.webrtc.org/14381): Update `max_frame_size_bytes_` to DataSize
	// when api/units have sufficient precision.
	double max_frame_size_bytes_;
	// Percentile frame sized received (over a window). Only used if configured.
	MovingMedianFilter<int64_t> avg_frame_size_median_bytes_;
	MovingPercentileFilter<int64_t> max_frame_size_bytes_percentile_;
	// TODO(bugs.webrtc.org/14381): Update `startup_frame_size_sum_bytes_` to
	// DataSize when api/units have sufficient precision.
	double startup_frame_size_sum_bytes_;
	size_t startup_frame_size_count_;

	absl::optional<Timestamp> last_update_time_;
	// The previously returned jitter estimate
	absl::optional<TimeDelta> prev_estimate_;
	// Frame size of the previous frame
	absl::optional<DataSize> prev_frame_size_;
	// Average of the random jitter. Unit is milliseconds.
	double avg_noise_ms_;
	// Variance of the time-deviation from the line. Unit is milliseconds^2.
	double var_noise_ms2_;
	size_t alpha_count_;
	// The filtered sum of jitter estimates
	TimeDelta filter_jitter_estimate_ = TimeDelta::Zero();

	size_t startup_count_;
	// Time when the latest nack was seen
	Timestamp latest_nack_ = Timestamp::Zero();
	// Keeps track of the number of nacks received, but never goes above
	// kNackLimit.
	size_t nack_count_;
	RttFilter rtt_filter_;

	// Tracks frame rates in microseconds.
	rtc::RollingAccumulator<uint64_t> fps_counter_;
	Clock* clock_;
	};

	} // namespace webrtc

	#endif // MODULES_VIDEO_CODING_TIMING_JITTER_ESTIMATOR_H_