/* * 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_RNN_VAD_COMMON_H_ #define MODULES_AUDIO_PROCESSING_AGC2_RNN_VAD_COMMON_H_ #include namespace webrtc { namespace rnn_vad { constexpr double kPi = 3.14159265358979323846; constexpr int kSampleRate24kHz = 24000; constexpr int kFrameSize10ms24kHz = kSampleRate24kHz / 100; constexpr int kFrameSize20ms24kHz = kFrameSize10ms24kHz * 2; // Pitch buffer. constexpr int kMinPitch24kHz = kSampleRate24kHz / 800; // 0.00125 s. constexpr int kMaxPitch24kHz = kSampleRate24kHz / 62.5; // 0.016 s. constexpr int kBufSize24kHz = kMaxPitch24kHz + kFrameSize20ms24kHz; static_assert((kBufSize24kHz & 1) == 0, "The buffer size must be even."); // 24 kHz analysis. // Define a higher minimum pitch period for the initial search. This is used to // avoid searching for very short periods, for which a refinement step is // responsible. constexpr int kInitialMinPitch24kHz = 3 * kMinPitch24kHz; static_assert(kMinPitch24kHz < kInitialMinPitch24kHz, ""); static_assert(kInitialMinPitch24kHz < kMaxPitch24kHz, ""); static_assert(kMaxPitch24kHz > kInitialMinPitch24kHz, ""); // Number of (inverted) lags during the initial pitch search phase at 24 kHz. constexpr int kInitialNumLags24kHz = kMaxPitch24kHz - kInitialMinPitch24kHz; // Number of (inverted) lags during the pitch search refinement phase at 24 kHz. constexpr int kRefineNumLags24kHz = kMaxPitch24kHz + 1; static_assert( kRefineNumLags24kHz > kInitialNumLags24kHz, "The refinement step must search the pitch in an extended pitch range."); // 12 kHz analysis. constexpr int kSampleRate12kHz = 12000; constexpr int kFrameSize10ms12kHz = kSampleRate12kHz / 100; constexpr int kFrameSize20ms12kHz = kFrameSize10ms12kHz * 2; constexpr int kBufSize12kHz = kBufSize24kHz / 2; constexpr int kInitialMinPitch12kHz = kInitialMinPitch24kHz / 2; constexpr int kMaxPitch12kHz = kMaxPitch24kHz / 2; static_assert(kMaxPitch12kHz > kInitialMinPitch12kHz, ""); // The inverted lags for the pitch interval [`kInitialMinPitch12kHz`, // `kMaxPitch12kHz`] are in the range [0, `kNumLags12kHz`]. constexpr int kNumLags12kHz = kMaxPitch12kHz - kInitialMinPitch12kHz; // 48 kHz constants. constexpr int kMinPitch48kHz = kMinPitch24kHz * 2; constexpr int kMaxPitch48kHz = kMaxPitch24kHz * 2; // Spectral features. constexpr int kNumBands = 22; constexpr int kNumLowerBands = 6; static_assert((0 < kNumLowerBands) && (kNumLowerBands < kNumBands), ""); constexpr int kCepstralCoeffsHistorySize = 8; static_assert(kCepstralCoeffsHistorySize > 2, "The history size must at least be 3 to compute first and second " "derivatives."); constexpr int kFeatureVectorSize = 42; } // namespace rnn_vad } // namespace webrtc #endif // MODULES_AUDIO_PROCESSING_AGC2_RNN_VAD_COMMON_H_