MMVR: Millimeter-wave Multi-View Radar Dataset and Benchmark for Indoor Perception
Compared with an extensive list of automotive radar datasets that support autonomous driving, indoor radar datasets are scarce at a smaller scale in the format of low-resolution radar point clouds and usually under an open-space single-room setting. In this paper, we scale up indoor radar data colle...
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| creator | Rahman, M. Mahbubur Yataka, Ryoma Kato, Sorachi Wang, Pu Perry Li, Peizhao Cardace, Adriano Boufounos, Petros |
| description | Compared with an extensive list of automotive radar datasets that support
autonomous driving, indoor radar datasets are scarce at a smaller scale in the
format of low-resolution radar point clouds and usually under an open-space
single-room setting. In this paper, we scale up indoor radar data collection
using multi-view high-resolution radar heatmap in a multi-day, multi-room, and
multi-subject setting, with an emphasis on the diversity of environment and
subjects. Referred to as the millimeter-wave multi-view radar (MMVR) dataset,
it consists of $345$K multi-view radar frames collected from $25$ human
subjects over $6$ different rooms, $446$K annotated bounding boxes/segmentation
instances, and $7.59$ million annotated keypoints to support three major
perception tasks of object detection, pose estimation, and instance
segmentation, respectively. For each task, we report performance benchmarks
under two protocols: a single subject in an open space and multiple subjects in
several cluttered rooms with two data splits: random split and
cross-environment split over $395$ 1-min data segments. We anticipate that MMVR
facilitates indoor radar perception development for indoor vehicle
(robot/humanoid) navigation, building energy management, and elderly care for
better efficiency, user experience, and safety. The MMVR dataset is available
at https://doi.org/10.5281/zenodo.12611978. |
| doi_str_mv | 10.48550/arxiv.2406.10708 |
| format | Article |
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autonomous driving, indoor radar datasets are scarce at a smaller scale in the
format of low-resolution radar point clouds and usually under an open-space
single-room setting. In this paper, we scale up indoor radar data collection
using multi-view high-resolution radar heatmap in a multi-day, multi-room, and
multi-subject setting, with an emphasis on the diversity of environment and
subjects. Referred to as the millimeter-wave multi-view radar (MMVR) dataset,
it consists of $345$K multi-view radar frames collected from $25$ human
subjects over $6$ different rooms, $446$K annotated bounding boxes/segmentation
instances, and $7.59$ million annotated keypoints to support three major
perception tasks of object detection, pose estimation, and instance
segmentation, respectively. For each task, we report performance benchmarks
under two protocols: a single subject in an open space and multiple subjects in
several cluttered rooms with two data splits: random split and
cross-environment split over $395$ 1-min data segments. We anticipate that MMVR
facilitates indoor radar perception development for indoor vehicle
(robot/humanoid) navigation, building energy management, and elderly care for
better efficiency, user experience, and safety. The MMVR dataset is available
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autonomous driving, indoor radar datasets are scarce at a smaller scale in the
format of low-resolution radar point clouds and usually under an open-space
single-room setting. In this paper, we scale up indoor radar data collection
using multi-view high-resolution radar heatmap in a multi-day, multi-room, and
multi-subject setting, with an emphasis on the diversity of environment and
subjects. Referred to as the millimeter-wave multi-view radar (MMVR) dataset,
it consists of $345$K multi-view radar frames collected from $25$ human
subjects over $6$ different rooms, $446$K annotated bounding boxes/segmentation
instances, and $7.59$ million annotated keypoints to support three major
perception tasks of object detection, pose estimation, and instance
segmentation, respectively. For each task, we report performance benchmarks
under two protocols: a single subject in an open space and multiple subjects in
several cluttered rooms with two data splits: random split and
cross-environment split over $395$ 1-min data segments. We anticipate that MMVR
facilitates indoor radar perception development for indoor vehicle
(robot/humanoid) navigation, building energy management, and elderly care for
better efficiency, user experience, and safety. The MMVR dataset is available
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autonomous driving, indoor radar datasets are scarce at a smaller scale in the
format of low-resolution radar point clouds and usually under an open-space
single-room setting. In this paper, we scale up indoor radar data collection
using multi-view high-resolution radar heatmap in a multi-day, multi-room, and
multi-subject setting, with an emphasis on the diversity of environment and
subjects. Referred to as the millimeter-wave multi-view radar (MMVR) dataset,
it consists of $345$K multi-view radar frames collected from $25$ human
subjects over $6$ different rooms, $446$K annotated bounding boxes/segmentation
instances, and $7.59$ million annotated keypoints to support three major
perception tasks of object detection, pose estimation, and instance
segmentation, respectively. For each task, we report performance benchmarks
under two protocols: a single subject in an open space and multiple subjects in
several cluttered rooms with two data splits: random split and
cross-environment split over $395$ 1-min data segments. We anticipate that MMVR
facilitates indoor radar perception development for indoor vehicle
(robot/humanoid) navigation, building energy management, and elderly care for
better efficiency, user experience, and safety. The MMVR dataset is available
at https://doi.org/10.5281/zenodo.12611978.</abstract><doi>10.48550/arxiv.2406.10708</doi><oa>free_for_read</oa></addata></record> |
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| title | MMVR: Millimeter-wave Multi-View Radar Dataset and Benchmark for Indoor Perception |
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