--- license: cc-by-nc-nd-4.0 task_categories: - audio-classification language: - zh - en tags: - music - art pretty_name: Guzheng Technique 99 Dataset size_categories: - n<1K dataset_info: - config_name: default features: - name: audio dtype: audio: sampling_rate: 44100 - name: mel dtype: image - name: label sequence: - name: onset_time dtype: float32 - name: offset_time dtype: float32 - name: IPT dtype: class_label: names: '0': Vibrato '1': Plucks '2': Upward_Portamento '3': Downward_Portamento '4': Glissando '5': Tremolo '6': Point_Note - name: note dtype: int8 splits: - name: train num_bytes: 242218 num_examples: 79 - name: validation num_bytes: 32229 num_examples: 10 - name: test num_bytes: 31038 num_examples: 10 download_size: 683115163 dataset_size: 305485 - config_name: eval features: - name: mel dtype: array3_d: dtype: float32 shape: - 128 - 258 - 1 - name: cqt dtype: array3_d: dtype: float32 shape: - 88 - 258 - 1 - name: chroma dtype: array3_d: dtype: float32 shape: - 12 - 258 - 1 - name: label dtype: array2_d: dtype: float32 shape: - 7 - 258 splits: - name: train num_bytes: 1190227192 num_examples: 2486 - name: validation num_bytes: 133098616 num_examples: 278 - name: test num_bytes: 148898092 num_examples: 311 download_size: 667607870 dataset_size: 1472223900 configs: - config_name: default data_files: - split: train path: default/train/data-*.arrow - split: validation path: default/validation/data-*.arrow - split: test path: default/test/data-*.arrow - config_name: eval data_files: - split: train path: eval/train/data-*.arrow - split: validation path: eval/validation/data-*.arrow - split: test path: eval/test/data-*.arrow --- # Dataset Card for Guzheng Technique 99 Dataset ## Original Content This dataset is created and used by [[1]](https://arxiv.org/pdf/2303.13272) for frame-level Guzheng playing technique detection. The original dataset encompasses 99 solo compositions for Guzheng, recorded by professional musicians within a studio environment. Each composition is annotated for every note, indicating the onset, offset, pitch, and playing techniques. This is different from the GZ IsoTech, which is annotated at the clip-level. Also, its playing technique categories differ slightly, encompassing a total of seven techniques. They are: _Vibrato (chanyin 颤音), Plucks (boxian 拨弦), Upward Portamento (shanghua 上滑), Downward Portamento (xiahua 下滑), Glissando (huazhi\guazou\lianmo\liantuo 花指\刮奏\连抹\连托), Tremolo (yaozhi 摇指), and Point Note (dianyin 点音)_. This meticulous annotation results in a total of 63,352 annotated labels. ## Integration In the original dataset, the labels were stored in a separate CSV file. This posed usability challenges, as researchers had to perform time-consuming operations on CSV parsing and label-audio alignment. After our integration, the data structure has been streamlined and optimized. It now contains three columns: audio sampled at 44,100 Hz, pre-processed mel spectrograms, and a dictionary. This dictionary contains onset, offset, technique numeric labels, and pitch. The number of data entries after integration remains 99, with a cumulative duration amounting to 151.08 minutes. The average audio duration is 91.56 seconds. We performed data processing and constructed the [default subset](#default-subset) of the current integrated version of the dataset, and the details of its data structure can be viewed through the [viewer](https://huggingface.co/datasets/ccmusic-database/Guzheng_Tech99/viewer). In light of the fact that the current dataset has been referenced and evaluated in a published article, we transcribe here the details of the dataset processing during the evaluation in the said article: each audio clip is a 3-second segment sampled at 44,100Hz, which is then converted into a log Constant-Q Transform (CQT) spectrogram. A CQT accompanied by a label constitutes a single data entry, forming the first and second columns, respectively. The CQT is a 3-dimensional array with dimensions of 88x258x1, representing the frequency-time structure of the audio. The label, on the other hand, is a 2-dimensional array with dimensions of 7x258, indicating the presence of seven distinct techniques across each time frame. Ultimately, given that the original dataset has already been divided into train, valid, and test sets, we have integrated the feature extraction method mentioned in this article's evaluation process into the API, thereby constructing the [eval subset](#eval-subset), which is not embodied in our paper. ## Statistics In this part, we present statistics at the label-level. The number of audio clips is equivalent to the count of either onset or offset occurrences. The duration of an audio clip is determined by calculating the offset time minus the onset time. At this level, the number of clips is 15,838, and the total duration is 162.69 minutes. | ![](https://www.modelscope.cn/datasets/ccmusic-database/Guzheng_Tech99/resolve/master/data/tech99_pie.jpg) | ![](https://www.modelscope.cn/datasets/ccmusic-database/Guzheng_Tech99/resolve/master/data/tech99.jpg) | ![](https://www.modelscope.cn/datasets/ccmusic-database/Guzheng_Tech99/resolve/master/data/tech99_bar.jpg) | | :--------------------------------------------------------------------------------------------------------: | :----------------------------------------------------------------------------------------------------: | :--------------------------------------------------------------------------------------------------------: | | **Fig. 1** | **Fig. 2** | **Fig. 3** | In this part, we present statistics at label level. The number of audio clips is equivalent to the count of either onset or offset occurrences. The duration of an audio clip is determined by calculating the offset time minus the onset time. At this level, the average audio duration is 0.62 seconds, with the shortest being 0.03 seconds and the longest 6.82 seconds. Firstly, **Fig. 1** illustrates the number and proportion of audio clips in each category. The *Plucks* category accounts for a significantly larger proportion than all other categories, comprising 74.88% of the dataset. The category with the smallest proportion is *Tremolo*, which accounts for only 0.49%, resulting in a difference of 74.39% between the largest and smallest categories. Next, **Fig. 2** presents the audio duration of each category. The total duration of *Plucks* audio is also significantly longer than all other categories, with a total duration of 117.77 minutes. In contrast, the category with the shortest total duration is *Glissando*, with only 1.13 minutes. This differs from the pie chart, where the smallest category was *Tremolo*. The difference between the longest and shortest durations is 116.64 minutes. From both the pie chart and the duration chart, it is evident that this dataset suffers from a severe data imbalance problem. In the end, **Fig. 3** gives the audio clip number across various duration intervals. Most of the audio clips are concentrated in the 34-1004 millisecond range. Among them, 8,660 audio clips fall within the 34-519 millisecond range, 4,935 clips fall within the 519-1004 millisecond range, and only 2,243 clips exceed 1004 milliseconds in length. | Statistical items | Values | | :------------------------------------------: | :------------------: | | Total audio count | `99` | | Total audio duration(s) | `9064.61260770975` | | Avg audio duration(s) | `91.5617435122197` | | Shortest audio duration(s) | `32.888004535147395` | | Longest audio duration(s) | `327.7973469387755` | | Total data count | `15838` | | Total data duration(s) | `9760.579138441011` | | Mean data duration(ms) | `616.2759905569524` | | Min data duration(ms) | `34.81292724609375` | | Max data duration(ms) | `6823.249816894531` | | Class in the longest audio duartion interval | `boxian` | ## Dataset Structure ### Data Instances .zip(.flac, .csv) ### Data Fields The dataset comprises 99 Guzheng solo compositions, recorded by professionals in a studio, totaling 9064.6 seconds. It includes seven playing techniques labeled for each note (onset, offset, pitch, vibrato, point note, upward portamento, downward portamento, plucks, glissando, and tremolo), resulting in 63,352 annotated labels. The dataset is divided into 79, 10, and 10 songs for the training, validation, and test sets, respectively. ### Data Splits train, validation, test ## Dataset Description ### Dataset Summary The integrated version provides the original content and the spectrogram generated in the experimental part of the paper cited above. For the second part, the pre-process in the paper is replicated. Each audio clip is a 3-second segment sampled at 44,100Hz, which is subsequently converted into a log Constant-Q Transform (CQT) spectrogram. A CQT accompanied by a label constitutes a single data entry, forming the first and second columns, respectively. The CQT is a 3-dimensional array with the dimension of 88 x 258 x 1, representing the frequency-time structure of the audio. The label, on the other hand, is a 2-dimensional array with dimensions of 7 x 258, which indicates the presence of seven distinct techniques across each time frame. indicating the existence of the seven techniques in each time frame. In the end, given that the raw dataset has already been split into train, valid, and test sets, the integrated dataset maintains the same split method. This dataset can be used for frame-level guzheng playing technique detection. ### Supported Tasks and Leaderboards MIR, audio frame-level detection, Guzheng playing technique detection ### Languages Chinese, English ## Usage ### Default Subset ```python from datasets import load_dataset ds = load_dataset("ccmusic-database/Guzheng_Tech99", name="default") for item in ds["train"]: print(item) for item in ds["validation"]: print(item) for item in ds["test"]: print(item) ``` ### Eval Subset ```python from datasets import load_dataset ds = load_dataset("ccmusic-database/Guzheng_Tech99", name="eval") for item in ds["train"]: print(item) for item in ds["validation"]: print(item) for item in ds["test"]: print(item) ``` ## Maintenance ```bash GIT_LFS_SKIP_SMUDGE=1 git clone git@hf.co:datasets/ccmusic-database/Guzheng_Tech99 cd Guzheng_Tech99 ``` ## Mirror ## Additional Information ### Dataset Curators Dichucheng Li ### Evaluation [1] [Dichucheng Li, Mingjin Che, Wenwu Meng, Yulun Wu, Yi Yu, Fan Xia and Wei Li. "Frame-Level Multi-Label Playing Technique Detection Using Multi-Scale Network and Self-Attention Mechanism", in IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP 2023).](https://arxiv.org/pdf/2303.13272.pdf)
[2] ### Citation Information ```bibtex @inproceedings{LiCMWYXL23, author = {Dichucheng Li and Mingjin Che and Wenwu Meng and Yulun Wu and Yi Yu and Fan Xia and Wei Li}, title = {Frame-Level Multi-Label Playing Technique Detection Using Multi-Scale Network and Self-Attention Mechanism}, booktitle = {{IEEE} International Conference on Acoustics, Speech and Signal Processing {ICASSP} 2023, Rhodes Island, Greece, June 4-10, 2023}, pages = {1-5}, publisher = {{IEEE}}, year = {2023} } ``` ### Contributions A dataset for Guzheng playing technique frame-level detection