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Learning Long-Term Temporal Features

Learning Long-Term Temporal Features. A Comparative Study Barry Chen. Log-Critical Band Energies. Log-Critical Band Energies. Conventional Feature Extraction. Log-Critical Band Energies. TRAPS/HATS Feature Extraction. What is a TRAP? (Background Tangent).

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Learning Long-Term Temporal Features

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  1. Learning Long-Term Temporal Features A Comparative Study Barry Chen Speech Lunch Talk

  2. Log-Critical Band Energies Speech Lunch Talk

  3. Log-Critical Band Energies Conventional Feature Extraction Speech Lunch Talk

  4. Log-Critical Band Energies TRAPS/HATS Feature Extraction Speech Lunch Talk

  5. What is a TRAP? (Background Tangent) • TRAPs were originally developed by our colleagues at OGI: Sharma, Jain (now at SRI), Hermansky and Sivadas (both now at IDIAP) • Stands for TempRAl Pattern • TRAP = a narrow frequency speech energy pattern over a period of time (usually 0.5 – 1 second long) Speech Lunch Talk

  6. Example of TRAPS Mean Temporal Patterns for 45 phonemes at 500 Hz Speech Lunch Talk

  7. TRAPS Motivation • Psychoacoustic studies suggest that human peripheral auditory system integrates information on a longer time scale • Information measurements (joint mutual information) show information still exists >100ms away within single critical-band • Potential robustness to speech degradations Speech Lunch Talk

  8. Let’s Explore • TRAPS and HATS are examples of a specific two-stage approach to learning long-term temporal features • Is this constrained two-stage approach better than an unconstrained one-stage approach? • Are the non-linear transformations of critical band trajectories, provided in different ways by TRAPS and HATS, actually necessary? Speech Lunch Talk

  9. Learn Everything in One Step Speech Lunch Talk

  10. Learn in Individual Bands Speech Lunch Talk

  11. Learn in Individual Bands Speech Lunch Talk

  12. Learn in Individual Bands Speech Lunch Talk

  13. Learn in Individual Bands Speech Lunch Talk

  14. Learn in Individual Bands Speech Lunch Talk

  15. Learn in Individual Bands Speech Lunch Talk

  16. Learn in Individual Bands Speech Lunch Talk

  17. Learn in Individual Bands Speech Lunch Talk

  18. Learn in Individual Bands Speech Lunch Talk

  19. One-Stage Approach Speech Lunch Talk

  20. 2-Stage Linear Approaches Speech Lunch Talk

  21. PCA/LDA Comments • PCA on log critical band energy trajectories scales and rotates dimensions in directions of highest variance • LDA projects in directions that maximize class separability measured by between class covariance over within class covariance • Keep top 40 dimensions for comparison with MLP-based approaches Speech Lunch Talk

  22. 2-Stage MLP-Based Approaches Speech Lunch Talk

  23. MLP Comments • As with the other 2-stage approaches, we first learn patterns independently in separate critical band trajectories, and then learn correlations among these discriminative trajectories • Interpretation of various MLP layers: • Input to hidden weights – discriminant linear transformations • Hidden unit outputs – Non-linear discriminant transforms • Before Softmax – transforms hidden activation space to unnormalized phone probability space • Output Activations – critical band phone probabilities Speech Lunch Talk

  24. Experimental Setup • Training: ~68 hours of conversational telephone speech from English CallHome, Switchboard I, and Switchboard Cellular • 1/10 used for cross-validation set for MLPs • Testing: 2001 Hub-5 Evaluation Set (Eval2001) • 2,255,609 frames and 62,890 words • Back-end recognizer: SRI’s Decipher System. 1st pass decoding using a bigram language model and within-word triphone acoustic models (thanks to Andreas Stolcke for all his help) Speech Lunch Talk

  25. Frame Accuracy Performance Speech Lunch Talk

  26. Standalone Feature System • Transform MLP outputs by: • log transform to make features more Gaussian • PCA for decorrelation • Same as Tandem setup introduced by Hermansky, Ellis, and Sharma • Use transformed MLP outputs as front-end features for the SRI recognizer Speech Lunch Talk

  27. Standalone Features Speech Lunch Talk

  28. Combination W/State-of-the-Art Front-End Feature • SRI’s 2003 PLP front-end feature is 12th order PLP with three deltas. Then heteroskedastic discriminant analysis (HLDA) transforms this 52 dimensional feature vector to 39 dimensional HLDA(PLP+3d) • Concatenate PCA truncated MLP features to HLDA(PLP+3d) and use as augmented front-end feature • Similar to Qualcom-ICSI-OGI features in AURORA Speech Lunch Talk

  29. Combo W/PLP Baseline Features Speech Lunch Talk

  30. Ranking Table Speech Lunch Talk

  31. Observations • Throughout the three various testing setups: • HATS is always #1 • The one-stage 15 Bands x 51 Frames is always #6 or second last • TRAPS is always last • PCA, LDA, HATS before sigmoid, and TRAPS before softmax flip flop in performance Speech Lunch Talk

  32. Interpretation • Learning constraints introduced by the 2-stage approach is helpful if done right. • Non-linear discriminant transform of HATS is better than linear discriminant transforms from LDA and HATS before sigmoid • The further mapping from hidden activations to critical-band phone posteriors is not helpful • Perhaps, mapping to critical-band phones is too difficult and inherently noisy • Finally, like TRAPS, HATS is complementary to the more conventional features and combines synergistically with PLP 9 Frames. Speech Lunch Talk

  33. Speech Lunch Talk

  34. Frame Accuracy Performance Speech Lunch Talk

  35. Standalone Features WER Speech Lunch Talk

  36. Combo W/PLP Baseline Features Speech Lunch Talk

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