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MUSIC CONTENT ANALYSIS ON AUDIO QUALITY AND ITS APPLICATION TO MUSIC RETRIEVAL CAI JINGLI (A0095623B) (B.Sc., East China Normal University) A THESIS SUBMITTED FOR THE DEGREE OF MASTER OF SCIENCE DEPARTMENT OF COMPUTER SCIENCE NATIONAL UNIVERSITY OF SINGAPORE 2015 ' Declaration I hereby declare that this thesis is my original work and it has been written by all me in its cntircty I have duly acknowlcdged thc sourccsof information which have been used in the thesis This thesis has also not been submitted for any degreein any university previously (Aooe5623B) cAr JTNGLT Jan 2015 s{ l:1ij d ltl ".i Acknowledgments During my stay in Sound and Music Computing (SMC) group, I had the fortune to experience an atmosphere of motivation, support, and encouragement that was crucial for progress in my research activities as well as my personal growth First and foremost, I would like to express my sincere gratitude to my supervisor, Dr Wang Ye, who has supported and led me in my two years’ study and research work He is always there helping me and giving me suggestion and guide on my work I’m deeply infected by his passion and spirit of diligence for the work I also would like to thank all who directly or indirectly involved in my research projects I thank Zhonghua Li, Ju-Chiang Wang, Zhiyan Duan, Shenggao Zhu and Sam Fang for their collaborations and help I also wish to thank the other friends in SMC lab and in daily life, who support me and help me in various aspacts I also want to thank the School of Computing for giving me the opportunity to study here and also providing me with financial support Finally, I would like to express my deepest appreciation for my parents, who have always supported and encouraged me in my study and life ii Contents List of Figures List of Tables Introduction viii ix 1.1 Background and Motivation 1.2 Contribution 1.3 Chapter Plan Literature Survey 2.1 6 2.1.1 Audio Quality Standardization 2.1.2 Research on Audio Quality of Multimedia Signals 2.1.3 2.2 Audio Quality Assessment Research on Audio Quality of Music Music Search Engine 2.2.1 Research on Multidimensional Music Search Engine 2.2.2 Research on Personalized Music Search Engine The Approach for Music Quality Assessment 3.1 10 12 12 3.1.1 Data Collection 12 3.1.2 Audio Feature Sets 14 3.1.3 Machine Learning for Ranking 15 3.1.4 Baseline 16 3.1.5 Segmentation 17 3.1.6 3.2 Framework System Fusion 17 Segmentation and Segment Coupling 18 3.2.1 18 Equalization-based Scheme iii Contents 3.2.2 3.3 iv Structure-based Scheme 20 Fusion Strategy 23 3.3.1 Early Fusion 23 3.3.2 Late Fusion 23 Experiment and Result 4.1 26 27 4.1.1 Performance Metric 27 4.1.2 Baseline 28 4.1.3 Effect of K for Equalization-based Scheme (ES) 31 4.1.4 Early Fusion Study for Equalization-based Scheme (ES) 31 4.1.5 Performance Study for Each Individual Segment with ES 32 4.1.6 Early Fusion Study for the Confidence-aware (CA) Method 33 4.1.7 Early Fusion Study for the Label-aware (LA) Method 34 4.1.8 Late Fusion Study 35 4.1.9 4.2 Objective Evaluation Efficiency Analysis 36 Subjective Evaluation 37 4.2.1 Methodology and Performance Metric 37 4.2.2 Result and Discussion 38 Application to Music Retrieval: i2 MUSE 5.1 40 40 5.1.1 Interface 41 5.1.2 5.2 System Description Framework 42 43 5.2.1 Music Dimensions and Data Collection 43 5.2.2 Content Analysis and Indexing 43 5.2.3 5.3 System Construction Dimensions Correlation Analysis 44 Music Search 45 5.3.1 Interactive Query Input 45 5.3.2 Query Match and Ranking 46 Contents v 5.4 Experiment and Result 47 5.4.1 System Evaluation 47 5.4.2 Effectiveness Study 49 5.4.3 Usability Study 49 5.5 Personalized Music Search with Recommendation Conclusion and Future work 51 53 6.1 Conclusion 53 6.2 Future Work 54 References 55 Summary Nowadays, more and more users are uploading their music recordings of live music concerts to video sharing websites such as YouTube The audio quality of these uploads, however, varies widely due to their recording conditions, and most existing video search engines not take the audio quality into consideration when ranking their search results Given the fact that most users prefer live music videos with better audio quality, we propose the first automatic, non-reference audio quality assessment framework for live music video search online We first construct two annotated datasets of live music recordings The dataset contains 500 human-annotated pieces, and the second contains 2,400 synthetic pieces systematically generated by adding noise effects to clean recordings Then we formulate the assessment task as a ranking problem and try to solve it using a learning-based scheme Initially, we employ “song-level” feature representation and single learning to rank algorithm to predict the quality of the recordings To improve the performance, we then explore various segmentation methods and “segment-level” feature representations to better account for the temporal characteristics of live music Moreover, we also develop a number of integrated learning methods to enhance the capability of learning-to-rank To validate the effectiveness of our framework, we perform both objective and subjective evaluations Results show that our framework significantly improve the ranking performance of live music recording retrieval and can prove useful for various real-world music applications In the end, we apply the work to our Intelligent & Interactive Multidimensional mUsic Search Engine (i2 MUSE), which is a novel content-based music search engine and enables users to input music queries with multiple dimensions efficiently The i2 MUSE provides seven musical dimensions, including tempo, beat strength, genre, mood, instrument, vocal and audio quality to set and retrieve the music We have conducted a pilot user study with 30 vi Contents subjects and validated the effectiveness and usability of the system Now the system is strengthened to be a more functional domain-specific search engine, integrating music retrieval and recommendation techniques for music therapy vii List of Figures 3.1 Framework 13 4.1 Performance based on overall quality using the binary and ranking labels of ADB-H 29 4.2 Performance based on overall quality using the binary and ranking labels of ADB-S 29 4.3 Performance of SVM-Rank on ADB-H using different audio feature sets 30 4.4 Performance of SVM-Rank on ADB-S using different audio feature sets 30 4.5 Performance study on ES using SVM-Rank with different numbers of segments 32 4.6 The performance of ES on each individual segment Sub-figures (a), (b), and (c) show the results of K = 5, and sub-figures (d), (e), and (f) show the result of K = with the three LTR algorithms 33 5.1 The query interface of i2 MUSE 41 5.2 The framework of i2 MUSE 42 5.3 Mean Reciprocal Ranks of 10 example songs in the search-by-example mode 49 5.4 i2 MUSE suggestion function adoption rates (search-by-scenario mode) 50 5.5 i2 MUSE suggestion function adoption rates (search-by-example mode) 51 viii List of Tables 2.1 A five-point grading scale for subjective sound quality test 4.1 Summary table for all the experiment settings in the evaluation 27 4.2 Performance comparison among ES, Baseline and Random 32 4.3 Performance of CA (K = 5) on the most confident segments ‘Seg idx’ stands for the segment index without order 34 4.4 Performance of LA (K = 4) on segments with different labels 34 4.5 Performance for segment-wise fusion (SWF) versus the optimal non-SWF case (NSW) on ES and CA NDCG scores marked by and correspond to early fusion and individual segment, respectively 4.6 35 Performance study for model-wise fusion NDCG scores marked by † and ‡ are derived using SVM-Rank and MART, respectively 35 4.7 Efficiency improvement over the Baseline (SVM-Rank) 36 4.8 The MRR performance on NDB with respect to ranking the best-quality (Best) and worst-quality (Worst) versions 38 5.1 Six music dimensions for data collection in i2 MUSE 44 5.2 Ten real-life scenarios 48 5.3 Usability ratings on i2 MUSE feedback functions Scale: (very dissatisfied) – (very satisfied) 50 ix Chapter Application to Music Retrieval: i2 MUSE 52 the gait training We use the similar multidimensional search engine for the users on a larger dataset (Million Song Data Set) [BMEWL11] with user rating information The prototype contains three main components: • Patient information collection The user need provide some basic information of their background, such as the age, language, disease, music interests and so on • Music filtering With the information, we design a filter to narrow the scale of the dataset and select random songs for the user as the first trial They can choose the appropriate music and add them into the play-list • Music recommendation We employ the simplest algorithm – Collaborative Filtering – to predict the potential songs for the users, after we get some initial information in the filtering feedback Our system is an on-going project, aiming to change current process of music therapy and benefit both therapists and patients, especially those in developing counties lacking medical resource Chapter Conclusion and Future work 6.1 Conclusion In this thesis, we first proposed a novel framework to assess the audio quality for live music online search Two unique live music datasets, ADB-H (500 human annotated recordings) and ADB-S (2,400 synthetic recordings), were established for this study They can also serve as additional benchmark datasets for developing learning-to-rank algorithms To solve the audio quality problem, we applied signal processing and machine learning techniques and achieved high performance on quality raking Specifically, we have explored the effect of different audio feature sets, different learning-to-rank algorithms, different segmentation and coupling methods and different fusion strategies We built the baseline with song level feature set and single algorithm and then improved it more effectively and efficiently by using musical segmentation and fusion strategy In the objective and subjective evaluation, we employed NDCG and MRR as the performance metric, respectively We have confirmed and validated our approach can solve the problem and is appropriate to be applied in the practice Furthermore, we have also implemented an application (i2 MUSE), which integrated the new dimension (audio quality) and aimed to bridge the user intention gap The search engine provided multi-dimension input, correlated dimension suggestion and retrieved music database A pilot user study has been conducted and validated the effectiveness and usability of i2 MUSE We also have employed recommendation algorithm into the system, to help the users find more suitable music in their requirement scenario, especially for gait training 53 Chapter Conclusion and Future work 6.2 54 Future Work As mobile device and Internet access become ubiquitous, more and more users can upload and share their recordings The increasing number of the live version of music is making audio quality as a long-term problem Our future work can be concentrated on: • Currently our system is relatively limited in track scale So we could expand the database with human annotations or utilize some advanced techniques such as transfer learning [PY10] to synergize the human-annotated and synthetic datasets • We hope to integrate the audio quality aspect into existing textual music retrieval and recommendation systems This way, we will be able to examine the effect of the audio quality-based re-ranking on user overall listening experience [SüH13] • Our i2 MUSE also use the limited dataset and we will replace it with the larger one (Million Song Dataset) Furthermore, we have integrated the recommendation component into the system and we need a comprehensive user study to validate its performance • For a specific application of out system, we are planning to build an automatic online application to help the patients and doctors to obtain suitable 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System Description Framework 42 43 5.2.1 Music Dimensions and Data Collection 43 5.2.2 Content Analysis and Indexing 43 5.2.3 5.3 System Construction Dimensions Correlation Analysis 44 Music Search... works on audio quality assessment, music structure analysis and segmentation, machine learning on ranking and multi-dimension music search engine • Chapter shows our solution for audio quality