modules/congestion_controller/goog_cc/bitrate_estimator.cc - src - Git at Google

 /*
  *  Copyright (c) 2017 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.
  */

 #include "modules/congestion_controller/goog_cc/bitrate_estimator.h"

 #include <stdio.h>

 #include <algorithm>
 #include <cmath>
 #include <string>

 #include "api/units/data_rate.h"
 #include "modules/remote_bitrate_estimator/test/bwe_test_logging.h"
 #include "rtc_base/logging.h"

 namespace webrtc {

 namespace {
 constexpr int kInitialRateWindowMs = 500;
 constexpr int kRateWindowMs = 150;
 constexpr int kMinRateWindowMs = 150;
 constexpr int kMaxRateWindowMs = 1000;

 const char kBweThroughputWindowConfig[] = "WebRTC-BweThroughputWindowConfig";

 }  // namespace

 BitrateEstimator::BitrateEstimator(const WebRtcKeyValueConfig* key_value_config)
     : sum_(0),
       initial_window_ms_("initial_window_ms",
                          kInitialRateWindowMs,
                          kMinRateWindowMs,
                          kMaxRateWindowMs),
       noninitial_window_ms_("window_ms",
                             kRateWindowMs,
                             kMinRateWindowMs,
                             kMaxRateWindowMs),
       uncertainty_scale_("scale", 10.0),
       uncertainty_scale_in_alr_("scale_alr", uncertainty_scale_),
       small_sample_uncertainty_scale_("scale_small", uncertainty_scale_),
       small_sample_threshold_("small_thresh", DataSize::Zero()),
       uncertainty_symmetry_cap_("symmetry_cap", DataRate::Zero()),
       estimate_floor_("floor", DataRate::Zero()),
       current_window_ms_(0),
       prev_time_ms_(-1),
       bitrate_estimate_kbps_(-1.0f),
       bitrate_estimate_var_(50.0f) {
   // E.g WebRTC-BweThroughputWindowConfig/initial_window_ms:350,window_ms:250/
   ParseFieldTrial(
       {&initial_window_ms_, &noninitial_window_ms_, &uncertainty_scale_,
        &uncertainty_scale_in_alr_, &small_sample_uncertainty_scale_,
        &small_sample_threshold_, &uncertainty_symmetry_cap_, &estimate_floor_},
       key_value_config->Lookup(kBweThroughputWindowConfig));
 }

 BitrateEstimator::~BitrateEstimator() = default;

 void BitrateEstimator::Update(Timestamp at_time, DataSize amount, bool in_alr) {
   int rate_window_ms = noninitial_window_ms_.Get();
   // We use a larger window at the beginning to get a more stable sample that
   // we can use to initialize the estimate.
   if (bitrate_estimate_kbps_ < 0.f)
     rate_window_ms = initial_window_ms_.Get();
   bool is_small_sample = false;
   float bitrate_sample_kbps = UpdateWindow(at_time.ms(), amount.bytes(),
                                            rate_window_ms, &is_small_sample);
   if (bitrate_sample_kbps < 0.0f)
     return;
   if (bitrate_estimate_kbps_ < 0.0f) {
     // This is the very first sample we get. Use it to initialize the estimate.
     bitrate_estimate_kbps_ = bitrate_sample_kbps;
     return;
   }
   // Optionally use higher uncertainty for very small samples to avoid dropping
   // estimate and for samples obtained in ALR.
   float scale = uncertainty_scale_;
   if (is_small_sample && bitrate_sample_kbps < bitrate_estimate_kbps_) {
     scale = small_sample_uncertainty_scale_;
   } else if (in_alr && bitrate_sample_kbps < bitrate_estimate_kbps_) {
     // Optionally use higher uncertainty for samples obtained during ALR.
     scale = uncertainty_scale_in_alr_;
   }
   // Define the sample uncertainty as a function of how far away it is from the
   // current estimate. With low values of uncertainty_symmetry_cap_ we add more
   // uncertainty to increases than to decreases. For higher values we approach
   // symmetry.
   float sample_uncertainty =
       scale * std::abs(bitrate_estimate_kbps_ - bitrate_sample_kbps) /
       (bitrate_estimate_kbps_ +
        std::min(bitrate_sample_kbps,
                 uncertainty_symmetry_cap_.Get().kbps<float>()));

   float sample_var = sample_uncertainty * sample_uncertainty;
   // Update a bayesian estimate of the rate, weighting it lower if the sample
   // uncertainty is large.
   // The bitrate estimate uncertainty is increased with each update to model
   // that the bitrate changes over time.
   float pred_bitrate_estimate_var = bitrate_estimate_var_ + 5.f;
   bitrate_estimate_kbps_ = (sample_var * bitrate_estimate_kbps_ +
                             pred_bitrate_estimate_var * bitrate_sample_kbps) /
                            (sample_var + pred_bitrate_estimate_var);
   bitrate_estimate_kbps_ =
       std::max(bitrate_estimate_kbps_, estimate_floor_.Get().kbps<float>());
   bitrate_estimate_var_ = sample_var * pred_bitrate_estimate_var /
                           (sample_var + pred_bitrate_estimate_var);
   BWE_TEST_LOGGING_PLOT(1, "acknowledged_bitrate", at_time.ms(),
                         bitrate_estimate_kbps_ * 1000);
 }

 float BitrateEstimator::UpdateWindow(int64_t now_ms,
                                      int bytes,
                                      int rate_window_ms,
                                      bool* is_small_sample) {
   RTC_DCHECK(is_small_sample != nullptr);
   // Reset if time moves backwards.
   if (now_ms < prev_time_ms_) {
     prev_time_ms_ = -1;
     sum_ = 0;
     current_window_ms_ = 0;
   }
   if (prev_time_ms_ >= 0) {
     current_window_ms_ += now_ms - prev_time_ms_;
     // Reset if nothing has been received for more than a full window.
     if (now_ms - prev_time_ms_ > rate_window_ms) {
       sum_ = 0;
       current_window_ms_ %= rate_window_ms;
     }
   }
   prev_time_ms_ = now_ms;
   float bitrate_sample = -1.0f;
   if (current_window_ms_ >= rate_window_ms) {
     *is_small_sample = sum_ < small_sample_threshold_->bytes();
     bitrate_sample = 8.0f * sum_ / static_cast<float>(rate_window_ms);
     current_window_ms_ -= rate_window_ms;
     sum_ = 0;
   }
   sum_ += bytes;
   return bitrate_sample;
 }

 absl::optional<DataRate> BitrateEstimator::bitrate() const {
   if (bitrate_estimate_kbps_ < 0.f)
     return absl::nullopt;
   return DataRate::KilobitsPerSec(bitrate_estimate_kbps_);
 }

 absl::optional<DataRate> BitrateEstimator::PeekRate() const {
   if (current_window_ms_ > 0)
     return DataSize::Bytes(sum_) / TimeDelta::Millis(current_window_ms_);
   return absl::nullopt;
 }

 void BitrateEstimator::ExpectFastRateChange() {
   // By setting the bitrate-estimate variance to a higher value we allow the
   // bitrate to change fast for the next few samples.
   bitrate_estimate_var_ += 200;
 }

 }  // namespace webrtc
	/*
	* Copyright (c) 2017 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.
	*/

	#include "modules/congestion_controller/goog_cc/bitrate_estimator.h"

	#include <stdio.h>

	#include <algorithm>
	#include <cmath>
	#include <string>

	#include "api/units/data_rate.h"
	#include "modules/remote_bitrate_estimator/test/bwe_test_logging.h"
	#include "rtc_base/logging.h"

	namespace webrtc {

	namespace {
	constexpr int kInitialRateWindowMs = 500;
	constexpr int kRateWindowMs = 150;
	constexpr int kMinRateWindowMs = 150;
	constexpr int kMaxRateWindowMs = 1000;

	const char kBweThroughputWindowConfig[] = "WebRTC-BweThroughputWindowConfig";

	} // namespace

	BitrateEstimator::BitrateEstimator(const WebRtcKeyValueConfig* key_value_config)
	: sum_(0),
	initial_window_ms_("initial_window_ms",
	kInitialRateWindowMs,
	kMinRateWindowMs,
	kMaxRateWindowMs),
	noninitial_window_ms_("window_ms",
	kRateWindowMs,
	kMinRateWindowMs,
	kMaxRateWindowMs),
	uncertainty_scale_("scale", 10.0),
	uncertainty_scale_in_alr_("scale_alr", uncertainty_scale_),
	small_sample_uncertainty_scale_("scale_small", uncertainty_scale_),
	small_sample_threshold_("small_thresh", DataSize::Zero()),
	uncertainty_symmetry_cap_("symmetry_cap", DataRate::Zero()),
	estimate_floor_("floor", DataRate::Zero()),
	current_window_ms_(0),
	prev_time_ms_(-1),
	bitrate_estimate_kbps_(-1.0f),
	bitrate_estimate_var_(50.0f) {
	// E.g WebRTC-BweThroughputWindowConfig/initial_window_ms:350,window_ms:250/
	ParseFieldTrial(
	{&initial_window_ms_, &noninitial_window_ms_, &uncertainty_scale_,
	&uncertainty_scale_in_alr_, &small_sample_uncertainty_scale_,
	&small_sample_threshold_, &uncertainty_symmetry_cap_, &estimate_floor_},
	key_value_config->Lookup(kBweThroughputWindowConfig));
	}

	BitrateEstimator::~BitrateEstimator() = default;

	void BitrateEstimator::Update(Timestamp at_time, DataSize amount, bool in_alr) {
	int rate_window_ms = noninitial_window_ms_.Get();
	// We use a larger window at the beginning to get a more stable sample that
	// we can use to initialize the estimate.
	if (bitrate_estimate_kbps_ < 0.f)
	rate_window_ms = initial_window_ms_.Get();
	bool is_small_sample = false;
	float bitrate_sample_kbps = UpdateWindow(at_time.ms(), amount.bytes(),
	rate_window_ms, &is_small_sample);
	if (bitrate_sample_kbps < 0.0f)
	return;
	if (bitrate_estimate_kbps_ < 0.0f) {
	// This is the very first sample we get. Use it to initialize the estimate.
	bitrate_estimate_kbps_ = bitrate_sample_kbps;
	return;
	}
	// Optionally use higher uncertainty for very small samples to avoid dropping
	// estimate and for samples obtained in ALR.
	float scale = uncertainty_scale_;
	if (is_small_sample && bitrate_sample_kbps < bitrate_estimate_kbps_) {
	scale = small_sample_uncertainty_scale_;
	} else if (in_alr && bitrate_sample_kbps < bitrate_estimate_kbps_) {
	// Optionally use higher uncertainty for samples obtained during ALR.
	scale = uncertainty_scale_in_alr_;
	}
	// Define the sample uncertainty as a function of how far away it is from the
	// current estimate. With low values of uncertainty_symmetry_cap_ we add more
	// uncertainty to increases than to decreases. For higher values we approach
	// symmetry.
	float sample_uncertainty =
	scale * std::abs(bitrate_estimate_kbps_ - bitrate_sample_kbps) /
	(bitrate_estimate_kbps_ +
	std::min(bitrate_sample_kbps,
	uncertainty_symmetry_cap_.Get().kbps<float>()));

	float sample_var = sample_uncertainty * sample_uncertainty;
	// Update a bayesian estimate of the rate, weighting it lower if the sample
	// uncertainty is large.
	// The bitrate estimate uncertainty is increased with each update to model
	// that the bitrate changes over time.
	float pred_bitrate_estimate_var = bitrate_estimate_var_ + 5.f;
	bitrate_estimate_kbps_ = (sample_var * bitrate_estimate_kbps_ +
	pred_bitrate_estimate_var * bitrate_sample_kbps) /
	(sample_var + pred_bitrate_estimate_var);
	bitrate_estimate_kbps_ =
	std::max(bitrate_estimate_kbps_, estimate_floor_.Get().kbps<float>());
	bitrate_estimate_var_ = sample_var * pred_bitrate_estimate_var /
	(sample_var + pred_bitrate_estimate_var);
	BWE_TEST_LOGGING_PLOT(1, "acknowledged_bitrate", at_time.ms(),
	bitrate_estimate_kbps_ * 1000);
	}

	float BitrateEstimator::UpdateWindow(int64_t now_ms,
	int bytes,
	int rate_window_ms,
	bool* is_small_sample) {
	RTC_DCHECK(is_small_sample != nullptr);
	// Reset if time moves backwards.
	if (now_ms < prev_time_ms_) {
	prev_time_ms_ = -1;
	sum_ = 0;
	current_window_ms_ = 0;
	}
	if (prev_time_ms_ >= 0) {
	current_window_ms_ += now_ms - prev_time_ms_;
	// Reset if nothing has been received for more than a full window.
	if (now_ms - prev_time_ms_ > rate_window_ms) {
	sum_ = 0;
	current_window_ms_ %= rate_window_ms;
	}
	}
	prev_time_ms_ = now_ms;
	float bitrate_sample = -1.0f;
	if (current_window_ms_ >= rate_window_ms) {
	*is_small_sample = sum_ < small_sample_threshold_->bytes();
	bitrate_sample = 8.0f * sum_ / static_cast<float>(rate_window_ms);
	current_window_ms_ -= rate_window_ms;
	sum_ = 0;
	}
	sum_ += bytes;
	return bitrate_sample;
	}

	absl::optional<DataRate> BitrateEstimator::bitrate() const {
	if (bitrate_estimate_kbps_ < 0.f)
	return absl::nullopt;
	return DataRate::KilobitsPerSec(bitrate_estimate_kbps_);
	}

	absl::optional<DataRate> BitrateEstimator::PeekRate() const {
	if (current_window_ms_ > 0)
	return DataSize::Bytes(sum_) / TimeDelta::Millis(current_window_ms_);
	return absl::nullopt;
	}

	void BitrateEstimator::ExpectFastRateChange() {
	// By setting the bitrate-estimate variance to a higher value we allow the
	// bitrate to change fast for the next few samples.
	bitrate_estimate_var_ += 200;
	}

	} // namespace webrtc