modules/audio_processing/agc2/agc2_common.h - src - Git at Google

 /*
  *  Copyright (c) 2018 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_AUDIO_PROCESSING_AGC2_AGC2_COMMON_H_
 #define MODULES_AUDIO_PROCESSING_AGC2_AGC2_COMMON_H_

 #include <stddef.h>

 namespace webrtc {

 constexpr float kMinFloatS16Value = -32768.0f;
 constexpr float kMaxFloatS16Value = 32767.0f;
 constexpr float kMaxAbsFloatS16Value = 32768.0f;

 constexpr int kFrameDurationMs = 10;
 constexpr int kSubFramesInFrame = 20;
 constexpr int kMaximalNumberOfSamplesPerChannel = 480;

 constexpr float kAttackFilterConstant = 0.0f;

 // Adaptive digital gain applier settings below.
 constexpr float kHeadroomDbfs = 1.0f;
 constexpr float kMaxGainDb = 30.0f;
 constexpr float kInitialAdaptiveDigitalGainDb = 8.0f;
 // At what limiter levels should we start decreasing the adaptive digital gain.
 constexpr float kLimiterThresholdForAgcGainDbfs = -kHeadroomDbfs;

 // This is the threshold for speech. Speech frames are used for updating the
 // speech level, measuring the amount of speech, and decide when to allow target
 // gain reduction.
 constexpr float kVadConfidenceThreshold = 0.95f;

 // The amount of 'memory' of the Level Estimator. Decides leak factors.
 constexpr int kFullBufferSizeMs = 1200;
 constexpr float kFullBufferLeakFactor = 1.0f - 1.0f / kFullBufferSizeMs;

 constexpr float kInitialSpeechLevelEstimateDbfs = -30.0f;

 // Robust VAD probability and speech decisions.
 constexpr int kDefaultVadRnnResetPeriodMs = 1500;
 static_assert(kDefaultVadRnnResetPeriodMs % kFrameDurationMs == 0, "");
 constexpr float kDefaultSmoothedVadProbabilityAttack = 1.0f;
 constexpr int kDefaultLevelEstimatorAdjacentSpeechFramesThreshold = 1;

 // Saturation Protector settings.
 constexpr float kDefaultInitialSaturationMarginDb = 20.0f;
 constexpr float kDefaultExtraSaturationMarginDb = 2.0f;

 constexpr int kPeakEnveloperSuperFrameLengthMs = 400;
 static_assert(kFullBufferSizeMs % kPeakEnveloperSuperFrameLengthMs == 0,
               "Full buffer size should be a multiple of super frame length for "
               "optimal Saturation Protector performance.");

 constexpr int kPeakEnveloperBufferSize =
     kFullBufferSizeMs / kPeakEnveloperSuperFrameLengthMs + 1;

 // This value is 10 ** (-1/20 * frame_size_ms / satproc_attack_ms),
 // where satproc_attack_ms is 5000.
 constexpr float kSaturationProtectorAttackConstant = 0.9988493699365052f;

 // This value is 10 ** (-1/20 * frame_size_ms / satproc_decay_ms),
 // where satproc_decay_ms is 1000.
 constexpr float kSaturationProtectorDecayConstant = 0.9997697679981565f;

 // This is computed from kDecayMs by
 // 10 ** (-1/20 * subframe_duration / kDecayMs).
 // |subframe_duration| is |kFrameDurationMs / kSubFramesInFrame|.
 // kDecayMs is defined in agc2_testing_common.h
 constexpr float kDecayFilterConstant = 0.9998848773724686f;

 // Number of interpolation points for each region of the limiter.
 // These values have been tuned to limit the interpolated gain curve error given
 // the limiter parameters and allowing a maximum error of +/- 32768^-1.
 constexpr int kInterpolatedGainCurveKneePoints = 22;
 constexpr int kInterpolatedGainCurveBeyondKneePoints = 10;
 constexpr int kInterpolatedGainCurveTotalPoints =
     kInterpolatedGainCurveKneePoints + kInterpolatedGainCurveBeyondKneePoints;

 }  // namespace webrtc

 #endif  // MODULES_AUDIO_PROCESSING_AGC2_AGC2_COMMON_H_
	/*
	* Copyright (c) 2018 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_AUDIO_PROCESSING_AGC2_AGC2_COMMON_H_
	#define MODULES_AUDIO_PROCESSING_AGC2_AGC2_COMMON_H_

	#include <stddef.h>

	namespace webrtc {

	constexpr float kMinFloatS16Value = -32768.0f;
	constexpr float kMaxFloatS16Value = 32767.0f;
	constexpr float kMaxAbsFloatS16Value = 32768.0f;

	constexpr int kFrameDurationMs = 10;
	constexpr int kSubFramesInFrame = 20;
	constexpr int kMaximalNumberOfSamplesPerChannel = 480;

	constexpr float kAttackFilterConstant = 0.0f;

	// Adaptive digital gain applier settings below.
	constexpr float kHeadroomDbfs = 1.0f;
	constexpr float kMaxGainDb = 30.0f;
	constexpr float kInitialAdaptiveDigitalGainDb = 8.0f;
	// At what limiter levels should we start decreasing the adaptive digital gain.
	constexpr float kLimiterThresholdForAgcGainDbfs = -kHeadroomDbfs;

	// This is the threshold for speech. Speech frames are used for updating the
	// speech level, measuring the amount of speech, and decide when to allow target
	// gain reduction.
	constexpr float kVadConfidenceThreshold = 0.95f;

	// The amount of 'memory' of the Level Estimator. Decides leak factors.
	constexpr int kFullBufferSizeMs = 1200;
	constexpr float kFullBufferLeakFactor = 1.0f - 1.0f / kFullBufferSizeMs;

	constexpr float kInitialSpeechLevelEstimateDbfs = -30.0f;

	// Robust VAD probability and speech decisions.
	constexpr int kDefaultVadRnnResetPeriodMs = 1500;
	static_assert(kDefaultVadRnnResetPeriodMs % kFrameDurationMs == 0, "");
	constexpr float kDefaultSmoothedVadProbabilityAttack = 1.0f;
	constexpr int kDefaultLevelEstimatorAdjacentSpeechFramesThreshold = 1;

	// Saturation Protector settings.
	constexpr float kDefaultInitialSaturationMarginDb = 20.0f;
	constexpr float kDefaultExtraSaturationMarginDb = 2.0f;

	constexpr int kPeakEnveloperSuperFrameLengthMs = 400;
	static_assert(kFullBufferSizeMs % kPeakEnveloperSuperFrameLengthMs == 0,
	"Full buffer size should be a multiple of super frame length for "
	"optimal Saturation Protector performance.");

	constexpr int kPeakEnveloperBufferSize =
	kFullBufferSizeMs / kPeakEnveloperSuperFrameLengthMs + 1;

	// This value is 10 ** (-1/20 * frame_size_ms / satproc_attack_ms),
	// where satproc_attack_ms is 5000.
	constexpr float kSaturationProtectorAttackConstant = 0.9988493699365052f;

	// This value is 10 ** (-1/20 * frame_size_ms / satproc_decay_ms),
	// where satproc_decay_ms is 1000.
	constexpr float kSaturationProtectorDecayConstant = 0.9997697679981565f;

	// This is computed from kDecayMs by
	// 10 ** (-1/20 * subframe_duration / kDecayMs).
	// \|subframe_duration\| is \|kFrameDurationMs / kSubFramesInFrame\|.
	// kDecayMs is defined in agc2_testing_common.h
	constexpr float kDecayFilterConstant = 0.9998848773724686f;

	// Number of interpolation points for each region of the limiter.
	// These values have been tuned to limit the interpolated gain curve error given
	// the limiter parameters and allowing a maximum error of +/- 32768^-1.
	constexpr int kInterpolatedGainCurveKneePoints = 22;
	constexpr int kInterpolatedGainCurveBeyondKneePoints = 10;
	constexpr int kInterpolatedGainCurveTotalPoints =
	kInterpolatedGainCurveKneePoints + kInterpolatedGainCurveBeyondKneePoints;

	} // namespace webrtc

	#endif // MODULES_AUDIO_PROCESSING_AGC2_AGC2_COMMON_H_