diff options
| -rw-r--r-- | voip/jni/rtp/AudioGroup.cpp | 2 | ||||
| -rw-r--r-- | voip/jni/rtp/EchoSuppressor.cpp | 203 | ||||
| -rw-r--r-- | voip/jni/rtp/EchoSuppressor.h | 27 |
3 files changed, 128 insertions, 104 deletions
diff --git a/voip/jni/rtp/AudioGroup.cpp b/voip/jni/rtp/AudioGroup.cpp index 9da560a..0c8a725 100644 --- a/voip/jni/rtp/AudioGroup.cpp +++ b/voip/jni/rtp/AudioGroup.cpp @@ -768,7 +768,7 @@ bool AudioGroup::DeviceThread::threadLoop() LOGD("latency: output %d, input %d", track.latency(), record.latency()); // Initialize echo canceler. - EchoSuppressor echo(sampleRate, sampleCount, sampleCount * 2 + + EchoSuppressor echo(sampleCount, (track.latency() + record.latency()) * sampleRate / 1000); // Give device socket a reasonable buffer size. diff --git a/voip/jni/rtp/EchoSuppressor.cpp b/voip/jni/rtp/EchoSuppressor.cpp index ad63cd6..d5cff6e 100644 --- a/voip/jni/rtp/EchoSuppressor.cpp +++ b/voip/jni/rtp/EchoSuppressor.cpp @@ -24,146 +24,163 @@ #include "EchoSuppressor.h" -EchoSuppressor::EchoSuppressor(int sampleRate, int sampleCount, int tailLength) +// It is very difficult to do echo cancellation at this level due to the lack of +// the timing information of the samples being played and recorded. Therefore, +// for the first release only echo suppression is implemented. + +// The algorithm is derived from the "previous works" summarized in +// A new class of doubletalk detectors based on cross-correlation, +// J Benesty, DR Morgan, JH Cho, IEEE Trans. on Speech and Audio Processing. +// The method proposed in that paper is not used because of its high complexity. + +// It is well known that cross-correlation can be computed using convolution, +// but unfortunately not every mobile processor has a (fast enough) FPU. Thus +// we use integer arithmetic as much as possible and do lots of bookkeeping. +// Again, parameters and thresholds are chosen by experiments. + +EchoSuppressor::EchoSuppressor(int sampleCount, int tailLength) { - int scale = 1; - while (tailLength > 200 * scale) { - scale <<= 1; - } - if (scale > sampleCount) { - scale = sampleCount; + tailLength += sampleCount * 4; + + int shift = 0; + while ((sampleCount >> shift) > 1 && (tailLength >> shift) > 256) { + ++shift; } - mScale = scale; + mShift = shift + 4; + mScale = 1 << shift; mSampleCount = sampleCount; - mWindowSize = sampleCount / scale; - mTailLength = (tailLength + scale - 1) / scale; - mRecordLength = (sampleRate + sampleCount - 1) / sampleCount; + mWindowSize = sampleCount >> shift; + mTailLength = tailLength >> shift; + mRecordLength = tailLength * 2 / sampleCount; mRecordOffset = 0; - mXs = new float[mTailLength + mWindowSize]; - memset(mXs, 0, sizeof(float) * (mTailLength + mWindowSize)); - mXYs = new float[mTailLength]; - memset(mXYs, 0, sizeof(float) * mTailLength); - mXXs = new float[mTailLength]; - memset(mXYs, 0, sizeof(float) * mTailLength); - mYY = 0; - - mXYRecords = new float[mRecordLength * mTailLength]; - memset(mXYRecords, 0, sizeof(float) * mRecordLength * mTailLength); - mXXRecords = new float[mRecordLength * mWindowSize]; - memset(mXXRecords, 0, sizeof(float) * mRecordLength * mWindowSize); - mYYRecords = new float[mRecordLength]; - memset(mYYRecords, 0, sizeof(float) * mRecordLength); + mXs = new uint16_t[mTailLength + mWindowSize]; + memset(mXs, 0, sizeof(*mXs) * (mTailLength + mWindowSize)); + mXSums = new uint32_t[mTailLength]; + memset(mXSums, 0, sizeof(*mXSums) * mTailLength); + mX2Sums = new uint32_t[mTailLength]; + memset(mX2Sums, 0, sizeof(*mX2Sums) * mTailLength); + mXRecords = new uint16_t[mRecordLength * mWindowSize]; + memset(mXRecords, 0, sizeof(*mXRecords) * mRecordLength * mWindowSize); + + mYSum = 0; + mY2Sum = 0; + mYRecords = new uint32_t[mRecordLength]; + memset(mYRecords, 0, sizeof(*mYRecords) * mRecordLength); + mY2Records = new uint32_t[mRecordLength]; + memset(mY2Records, 0, sizeof(*mY2Records) * mRecordLength); + + mXYSums = new uint32_t[mTailLength]; + memset(mXYSums, 0, sizeof(*mXYSums) * mTailLength); + mXYRecords = new uint32_t[mRecordLength * mTailLength]; + memset(mXYRecords, 0, sizeof(*mXYRecords) * mRecordLength * mTailLength); mLastX = 0; mLastY = 0; + mWeight = 1.0f / (mRecordLength * mWindowSize); } EchoSuppressor::~EchoSuppressor() { delete [] mXs; - delete [] mXYs; - delete [] mXXs; + delete [] mXSums; + delete [] mX2Sums; + delete [] mXRecords; + delete [] mYRecords; + delete [] mY2Records; + delete [] mXYSums; delete [] mXYRecords; - delete [] mXXRecords; - delete [] mYYRecords; } void EchoSuppressor::run(int16_t *playbacked, int16_t *recorded) { - float *records; - // Update Xs. - for (int i = 0; i < mTailLength; ++i) { - mXs[i] = mXs[mWindowSize + i]; + for (int i = mTailLength - 1; i >= 0; --i) { + mXs[i + mWindowSize] = mXs[i]; } - for (int i = 0, j = 0; i < mWindowSize; ++i, j += mScale) { - float sum = 0; + for (int i = mWindowSize - 1, j = 0; i >= 0; --i, j += mScale) { + uint32_t sum = 0; for (int k = 0; k < mScale; ++k) { - float x = playbacked[j + k] >> 8; + int32_t x = playbacked[j + k] << 15; mLastX += x; - sum += (mLastX >= 0) ? mLastX : -mLastX; - mLastX = 0.005f * mLastX - x; + sum += ((mLastX >= 0) ? mLastX : -mLastX) >> 15; + mLastX -= (mLastX >> 10) + x; } - mXs[mTailLength - 1 + i] = sum; + mXs[i] = sum >> mShift; } - // Update XXs and XXRecords. - for (int i = 0; i < mTailLength - mWindowSize; ++i) { - mXXs[i] = mXXs[mWindowSize + i]; + // Update XSums, X2Sums, and XRecords. + for (int i = mTailLength - mWindowSize - 1; i >= 0; --i) { + mXSums[i + mWindowSize] = mXSums[i]; + mX2Sums[i + mWindowSize] = mX2Sums[i]; } - records = &mXXRecords[mRecordOffset * mWindowSize]; - for (int i = 0, j = mTailLength - mWindowSize; i < mWindowSize; ++i, ++j) { - float xx = mXs[mTailLength - 1 + i] * mXs[mTailLength - 1 + i]; - mXXs[j] = mXXs[j - 1] + xx - records[i]; - records[i] = xx; - if (mXXs[j] < 0) { - mXXs[j] = 0; - } + uint16_t *xRecords = &mXRecords[mRecordOffset * mWindowSize]; + for (int i = mWindowSize - 1; i >= 0; --i) { + uint16_t x = mXs[i]; + mXSums[i] = mXSums[i + 1] + x - xRecords[i]; + mX2Sums[i] = mX2Sums[i + 1] + x * x - xRecords[i] * xRecords[i]; + xRecords[i] = x; } // Compute Ys. - float ys[mWindowSize]; - for (int i = 0, j = 0; i < mWindowSize; ++i, j += mScale) { - float sum = 0; + uint16_t ys[mWindowSize]; + for (int i = mWindowSize - 1, j = 0; i >= 0; --i, j += mScale) { + uint32_t sum = 0; for (int k = 0; k < mScale; ++k) { - float y = recorded[j + k] >> 8; + int32_t y = recorded[j + k] << 15; mLastY += y; - sum += (mLastY >= 0) ? mLastY : -mLastY; - mLastY = 0.005f * mLastY - y; + sum += ((mLastY >= 0) ? mLastY : -mLastY) >> 15; + mLastY -= (mLastY >> 10) + y; } - ys[i] = sum; + ys[i] = sum >> mShift; } - // Update YY and YYRecords. - float yy = 0; - for (int i = 0; i < mWindowSize; ++i) { - yy += ys[i] * ys[i]; - } - mYY += yy - mYYRecords[mRecordOffset]; - mYYRecords[mRecordOffset] = yy; - if (mYY < 0) { - mYY = 0; + // Update YSum, Y2Sum, YRecords, and Y2Records. + uint32_t ySum = 0; + uint32_t y2Sum = 0; + for (int i = mWindowSize - 1; i >= 0; --i) { + ySum += ys[i]; + y2Sum += ys[i] * ys[i]; } - - // Update XYs and XYRecords. - records = &mXYRecords[mRecordOffset * mTailLength]; - for (int i = 0; i < mTailLength; ++i) { - float xy = 0; - for (int j = 0;j < mWindowSize; ++j) { - xy += mXs[i + j] * ys[j]; - } - mXYs[i] += xy - records[i]; - records[i] = xy; - if (mXYs[i] < 0) { - mXYs[i] = 0; + mYSum += ySum - mYRecords[mRecordOffset]; + mY2Sum += y2Sum - mY2Records[mRecordOffset]; + mYRecords[mRecordOffset] = ySum; + mY2Records[mRecordOffset] = y2Sum; + + // Update XYSums and XYRecords. + uint32_t *xyRecords = &mXYRecords[mRecordOffset * mTailLength]; + for (int i = mTailLength - 1; i >= 0; --i) { + uint32_t xySum = 0; + for (int j = mWindowSize - 1; j >= 0; --j) { + xySum += mXs[i + j] * ys[j]; } + mXYSums[i] += xySum - xyRecords[i]; + xyRecords[i] = xySum; } - // Computes correlations from XYs, XXs, and YY. - float weight = 1.0f / (mYY + 1); - float correlation = 0; + // Compute correlations. + float corr2 = 0.0f; int latency = 0; - for (int i = 0; i < mTailLength; ++i) { - float c = mXYs[i] * mXYs[i] * weight / (mXXs[i] + 1); - if (c > correlation) { - correlation = c; + float varY = mY2Sum - mWeight * mYSum * mYSum; + for (int i = mTailLength - 1; i >= 0; --i) { + float varX = mX2Sums[i] - mWeight * mXSums[i] * mXSums[i]; + float cov = mXYSums[i] - mWeight * mXSums[i] * mYSum; + float c2 = cov * cov / (varX * varY + 1); + if (c2 > corr2) { + corr2 = c2; latency = i; } } + //LOGI("correlation^2 = %.10f, latency = %d", corr2, latency * mScale); - correlation = sqrtf(correlation); - if (correlation > 0.3f) { - float factor = 1.0f - correlation; - factor *= factor; - factor /= 2.0; // suppress harder + // Do echo suppression. + if (corr2 > 0.1f) { + int factor = (corr2 > 1.0f) ? 0 : (1.0f - sqrtf(corr2)) * 4096; for (int i = 0; i < mSampleCount; ++i) { - recorded[i] *= factor; + recorded[i] = recorded[i] * factor >> 16; } } - //LOGI("latency %5d, correlation %.10f", latency, correlation); - // Increase RecordOffset. ++mRecordOffset; diff --git a/voip/jni/rtp/EchoSuppressor.h b/voip/jni/rtp/EchoSuppressor.h index 85decf5..2f3b593 100644 --- a/voip/jni/rtp/EchoSuppressor.h +++ b/voip/jni/rtp/EchoSuppressor.h @@ -23,11 +23,12 @@ class EchoSuppressor { public: // The sampleCount must be power of 2. - EchoSuppressor(int sampleRate, int sampleCount, int tailLength); + EchoSuppressor(int sampleCount, int tailLength); ~EchoSuppressor(); void run(int16_t *playbacked, int16_t *recorded); private: + int mShift; int mScale; int mSampleCount; int mWindowSize; @@ -35,17 +36,23 @@ private: int mRecordLength; int mRecordOffset; - float *mXs; - float *mXYs; - float *mXXs; - float mYY; + uint16_t *mXs; + uint32_t *mXSums; + uint32_t *mX2Sums; + uint16_t *mXRecords; - float *mXYRecords; - float *mXXRecords; - float *mYYRecords; + uint32_t mYSum; + uint32_t mY2Sum; + uint32_t *mYRecords; + uint32_t *mY2Records; - float mLastX; - float mLastY; + uint32_t *mXYSums; + uint32_t *mXYRecords; + + int32_t mLastX; + int32_t mLastY; + + float mWeight; }; #endif |