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| Transkripsi Musik Otomatis× | Pengenalan Kord× | Ekstraksi Melodi× | Segmentasi Musik× | |
|---|---|---|---|---|
| Bidang | Temu Kembali Informasi Musik | Temu Kembali Informasi Musik | Temu Kembali Informasi Musik | Temu Kembali Informasi Musik |
| Keluarga | Machine learning | Machine learning | Machine learning | Machine learning |
| Tahun asal≠ | 2008 | 2005 | 2008 | 2001 |
| Pencetus≠ | Anssi Klapuri | Christopher Harte | Anssi Klapuri | Masataka Goto |
| Tipe≠ | Polyphonic audio-to-symbolic conversion | Harmonic audio analysis | Polyphonic audio analysis | Audio structural analysis |
| Sumber perintis≠ | Klapuri, A. (2008). Automatic music transcription as we know it today. Journal of New Music Research, 33(3), 323-337. DOI ↗ | Harte, C., Sandler, M. B., Abdallah, S. A., & Gómez, E. (2005). Symbolic representation of musical chords: Proposed extensions to the HarmO ontology. In Proceedings of the International Society for Music Information Retrieval Conference. link ↗ | Salamon, J., & Gómez, E. (2014). Melody extraction from polyphonic music signals using pitch contour characteristics. IEEE Transactions on Audio, Speech, and Language Processing, 20(6), 1759-1770. link ↗ | Goto, M., & Hasegawa, Y. (2001). Automatic transcription of popular music audio. In Proceedings of the Fourth International Conference on Music Information Retrieval. link ↗ |
| Alias | music-to-notation conversion, score estimation, polyphonic transcription | chord estimation, harmonic analysis, chord detection | pitch contour extraction, melodic line extraction, f0 tracking | structural segmentation, music structure analysis, section boundary detection |
| Terkait | 5 | 5 | 5 | 5 |
| Ringkasan≠ | Automatic music transcription is the task of converting audio recordings into symbolic music notation (e.g., scores with note pitch, onset, and duration). Formalized as a research problem by Klapuri (2008), it represents one of the most challenging tasks in music information retrieval. Transcription enables music education, composition analysis, and digital preservation. Modern systems, particularly those using deep learning for piano music (Hawthorne et al., 2019), have achieved significant progress but remain far from perfect on general polyphonic music. | Chord recognition is the task of automatically identifying the harmonic chords present in a musical recording and estimating when chord changes occur. Introduced formally by Harte et al. (2005), it is a cornerstone of music analysis and widely used in music education, cover song analysis, and musical structure understanding. Modern systems use deep learning to classify and sequence chords in real time. | Melody extraction is the task of automatically isolating the main melodic contour from polyphonic music recordings. It originated from music transcription research in the 2000s and addresses the core challenge of human pitch perception: identifying the perceptually dominant pitch when many instruments play simultaneously. Modern approaches use deep learning and are essential for music analysis, cover song detection, and music-to-lyrics alignment. | Music segmentation is the task of dividing a musical recording into distinct structural sections (e.g., verse, chorus, bridge, pre-chorus, outro). Introduced by Goto (2001), it identifies major structural boundaries and labels sections according to musical form. Segmentation is essential for music understanding, audio editing, and composition analysis. It enables higher-level tasks like cover song identification and song structure-aware music generation. |
| ScholarGateSet data ↗ |
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