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Data columns: |
Column: 1 MILLISEC |
Column: 2 Accelerometer RKN^ accX; value = round(original_value), unit = milli g |
Column: 3 Accelerometer RKN^ accY; value = round(original_value), unit = milli g |
Column: 4 Accelerometer RKN^ accZ; value = round(original_value), unit = milli g |
Column: 5 Accelerometer HIP accX; value = round(original_value), unit = milli g |
Column: 6 Accelerometer HIP accY; value = round(original_value), unit = milli g |
Column: 7 Accelerometer HIP accZ; value = round(original_value), unit = milli g |
Column: 8 Accelerometer LUA^ accX; value = round(original_value), unit = milli g |
Column: 9 Accelerometer LUA^ accY; value = round(original_value), unit = milli g |
Column: 10 Accelerometer LUA^ accZ; value = round(original_value), unit = milli g |
Column: 11 Accelerometer RUA_ accX; value = round(original_value), unit = milli g |
Column: 12 Accelerometer RUA_ accY; value = round(original_value), unit = milli g |
Column: 13 Accelerometer RUA_ accZ; value = round(original_value), unit = milli g |
Column: 14 Accelerometer LH accX; value = round(original_value), unit = milli g |
Column: 15 Accelerometer LH accY; value = round(original_value), unit = milli g |
Column: 16 Accelerometer LH accZ; value = round(original_value), unit = milli g |
Column: 17 Accelerometer BACK accX; value = round(original_value), unit = milli g |
Column: 18 Accelerometer BACK accY; value = round(original_value), unit = milli g |
Column: 19 Accelerometer BACK accZ; value = round(original_value), unit = milli g |
Column: 20 Accelerometer RKN_ accX; value = round(original_value), unit = milli g |
Column: 21 Accelerometer RKN_ accY; value = round(original_value), unit = milli g |
Column: 22 Accelerometer RKN_ accZ; value = round(original_value), unit = milli g |
Column: 23 Accelerometer RWR accX; value = round(original_value), unit = milli g |
Column: 24 Accelerometer RWR accY; value = round(original_value), unit = milli g |
Column: 25 Accelerometer RWR accZ; value = round(original_value), unit = milli g |
Column: 26 Accelerometer RUA^ accX; value = round(original_value), unit = milli g |
Column: 27 Accelerometer RUA^ accY; value = round(original_value), unit = milli g |
Column: 28 Accelerometer RUA^ accZ; value = round(original_value), unit = milli g |
Column: 29 Accelerometer LUA_ accX; value = round(original_value), unit = milli g |
Column: 30 Accelerometer LUA_ accY; value = round(original_value), unit = milli g |
Column: 31 Accelerometer LUA_ accZ; value = round(original_value), unit = milli g |
Column: 32 Accelerometer LWR accX; value = round(original_value), unit = milli g |
Column: 33 Accelerometer LWR accY; value = round(original_value), unit = milli g |
Column: 34 Accelerometer LWR accZ; value = round(original_value), unit = milli g |
Column: 35 Accelerometer RH accX; value = round(original_value), unit = milli g |
Column: 36 Accelerometer RH accY; value = round(original_value), unit = milli g |
Column: 37 Accelerometer RH accZ; value = round(original_value), unit = milli g |
Column: 38 InertialMeasurementUnit BACK accX; value = round(original_value / 9.8 * 1000), unit = milli g |
Column: 39 InertialMeasurementUnit BACK accY; value = round(original_value / 9.8 * 1000), unit = milli g |
Column: 40 InertialMeasurementUnit BACK accZ; value = round(original_value / 9.8 * 1000), unit = milli g |
Column: 41 InertialMeasurementUnit BACK gyroX; value = round(original_value * 1000), unit = unknown |
Column: 42 InertialMeasurementUnit BACK gyroY; value = round(original_value * 1000), unit = unknown |
Column: 43 InertialMeasurementUnit BACK gyroZ; value = round(original_value * 1000), unit = unknown |
Column: 44 InertialMeasurementUnit BACK magneticX; value = round(original_value * 1000), unit = unknown |
Column: 45 InertialMeasurementUnit BACK magneticY; value = round(original_value * 1000), unit = unknown |
Column: 46 InertialMeasurementUnit BACK magneticZ; value = round(original_value * 1000), unit = unknown |
Column: 47 InertialMeasurementUnit BACK Quaternion1; value = round(original_value * 1000), unit = none |
Column: 48 InertialMeasurementUnit BACK Quaternion2; value = round(original_value * 1000), unit = none |
Column: 49 InertialMeasurementUnit BACK Quaternion3; value = round(original_value * 1000), unit = none |
Column: 50 InertialMeasurementUnit BACK Quaternion4; value = round(original_value * 1000), unit = none |
Column: 51 InertialMeasurementUnit RUA accX; value = round(original_value / 9.8 * 1000), unit = milli g |
Column: 52 InertialMeasurementUnit RUA accY; value = round(original_value / 9.8 * 1000), unit = milli g |
Column: 53 InertialMeasurementUnit RUA accZ; value = round(original_value / 9.8 * 1000), unit = milli g |
Column: 54 InertialMeasurementUnit RUA gyroX; value = round(original_value * 1000), unit = unknown |
Column: 55 InertialMeasurementUnit RUA gyroY; value = round(original_value * 1000), unit = unknown |
Column: 56 InertialMeasurementUnit RUA gyroZ; value = round(original_value * 1000), unit = unknown |
Column: 57 InertialMeasurementUnit RUA magneticX; value = round(original_value * 1000), unit = unknown |
Column: 58 InertialMeasurementUnit RUA magneticY; value = round(original_value * 1000), unit = unknown |
Column: 59 InertialMeasurementUnit RUA magneticZ; value = round(original_value * 1000), unit = unknown |
Column: 60 InertialMeasurementUnit RUA Quaternion1; value = round(original_value * 1000), unit = none |
Column: 61 InertialMeasurementUnit RUA Quaternion2; value = round(original_value * 1000), unit = none |
Column: 62 InertialMeasurementUnit RUA Quaternion3; value = round(original_value * 1000), unit = none |
Column: 63 InertialMeasurementUnit RUA Quaternion4; value = round(original_value * 1000), unit = none |
Column: 64 InertialMeasurementUnit RLA accX; value = round(original_value / 9.8 * 1000), unit = milli g |
Column: 65 InertialMeasurementUnit RLA accY; value = round(original_value / 9.8 * 1000), unit = milli g |
Column: 66 InertialMeasurementUnit RLA accZ; value = round(original_value / 9.8 * 1000), unit = milli g |
Column: 67 InertialMeasurementUnit RLA gyroX; value = round(original_value * 1000), unit = unknown |
Column: 68 InertialMeasurementUnit RLA gyroY; value = round(original_value * 1000), unit = unknown |
Column: 69 InertialMeasurementUnit RLA gyroZ; value = round(original_value * 1000), unit = unknown |
Column: 70 InertialMeasurementUnit RLA magneticX; value = round(original_value * 1000), unit = unknown |
Column: 71 InertialMeasurementUnit RLA magneticY; value = round(original_value * 1000), unit = unknown |
Column: 72 InertialMeasurementUnit RLA magneticZ; value = round(original_value * 1000), unit = unknown |
Column: 73 InertialMeasurementUnit RLA Quaternion1; value = round(original_value * 1000), unit = none |
Column: 74 InertialMeasurementUnit RLA Quaternion2; value = round(original_value * 1000), unit = none |
Column: 75 InertialMeasurementUnit RLA Quaternion3; value = round(original_value * 1000), unit = none |
Column: 76 InertialMeasurementUnit RLA Quaternion4; value = round(original_value * 1000), unit = none |
Column: 77 InertialMeasurementUnit LUA accX; value = round(original_value / 9.8 * 1000), unit = milli g |
Column: 78 InertialMeasurementUnit LUA accY; value = round(original_value / 9.8 * 1000), unit = milli g |
Column: 79 InertialMeasurementUnit LUA accZ; value = round(original_value / 9.8 * 1000), unit = milli g |
Column: 80 InertialMeasurementUnit LUA gyroX; value = round(original_value * 1000), unit = unknown |
Column: 81 InertialMeasurementUnit LUA gyroY; value = round(original_value * 1000), unit = unknown |
Column: 82 InertialMeasurementUnit LUA gyroZ; value = round(original_value * 1000), unit = unknown |
Column: 83 InertialMeasurementUnit LUA magneticX; value = round(original_value * 1000), unit = unknown |
Column: 84 InertialMeasurementUnit LUA magneticY; value = round(original_value * 1000), unit = unknown |
Column: 85 InertialMeasurementUnit LUA magneticZ; value = round(original_value * 1000), unit = unknown |
Column: 86 InertialMeasurementUnit LUA Quaternion1; value = round(original_value * 1000), unit = none |
Column: 87 InertialMeasurementUnit LUA Quaternion2; value = round(original_value * 1000), unit = none |
Column: 88 InertialMeasurementUnit LUA Quaternion3; value = round(original_value * 1000), unit = none |
Column: 89 InertialMeasurementUnit LUA Quaternion4; value = round(original_value * 1000), unit = none |
Column: 90 InertialMeasurementUnit LLA accX; value = round(original_value / 9.8 * 1000), unit = milli g |
Column: 91 InertialMeasurementUnit LLA accY; value = round(original_value / 9.8 * 1000), unit = milli g |
Column: 92 InertialMeasurementUnit LLA accZ; value = round(original_value / 9.8 * 1000), unit = milli g |
Column: 93 InertialMeasurementUnit LLA gyroX; value = round(original_value * 1000), unit = unknown |
Column: 94 InertialMeasurementUnit LLA gyroY; value = round(original_value * 1000), unit = unknown |
Column: 95 InertialMeasurementUnit LLA gyroZ; value = round(original_value * 1000), unit = unknown |
Column: 96 InertialMeasurementUnit LLA magneticX; value = round(original_value * 1000), unit = unknown |
Column: 97 InertialMeasurementUnit LLA magneticY; value = round(original_value * 1000), unit = unknown |
Column: 98 InertialMeasurementUnit LLA magneticZ; value = round(original_value * 1000), unit = unknown |
End of preview. Expand
in Data Studio
YAML Metadata Warning: The task_categories "time-series-classification" is not in the official list: text-classification, token-classification, table-question-answering, question-answering, zero-shot-classification, translation, summarization, feature-extraction, text-generation, fill-mask, sentence-similarity, text-to-speech, text-to-audio, automatic-speech-recognition, audio-to-audio, audio-classification, audio-text-to-text, voice-activity-detection, depth-estimation, image-classification, object-detection, image-segmentation, text-to-image, image-to-text, image-to-image, image-to-video, unconditional-image-generation, video-classification, reinforcement-learning, robotics, tabular-classification, tabular-regression, tabular-to-text, table-to-text, multiple-choice, text-ranking, text-retrieval, time-series-forecasting, text-to-video, image-text-to-text, image-text-to-image, image-text-to-video, visual-question-answering, document-question-answering, zero-shot-image-classification, graph-ml, mask-generation, zero-shot-object-detection, text-to-3d, image-to-3d, image-feature-extraction, video-text-to-text, keypoint-detection, visual-document-retrieval, any-to-any, video-to-video, other
gem-analysis-opportunity
OPPORTUNITY activity recognition dataset
数据集信息
- 来源路径:
datasets/opportunity - 数据大小: 844.4 MB
- 用途: 健身动作识别模型训练
使用方法
from huggingface_hub import snapshot_download
# 下载数据集
snapshot_download(
repo_id="yonful/gem-analysis-opportunity",
repo_type="dataset",
local_dir="./datasets/opportunity"
)
或使用项目中的下载脚本:
python scripts/prepare_data.py --dataset opportunity
许可证
请参考原始数据源的许可证要求。
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